Publications with UBD authors
6039319
XPSUL9AV
2021
chicago-fullnote-bibliography
50
creator
asc
2743
https://iber.ubd.edu.bn/wp-content/plugins/zotpress/
%7B%22status%22%3A%22success%22%2C%22updateneeded%22%3Afalse%2C%22instance%22%3A%22zotpress-c5934b2083dbf3890e04d42ecc486e00%22%2C%22meta%22%3A%7B%22request_last%22%3A0%2C%22request_next%22%3A0%2C%22used_cache%22%3Atrue%7D%2C%22data%22%3A%5B%7B%22key%22%3A%22XUKBP74K%22%2C%22library%22%3A%7B%22id%22%3A6039319%7D%2C%22meta%22%3A%7B%22creatorSummary%22%3A%22Abdullah%20et%20al.%22%2C%22parsedDate%22%3A%222021-12%22%2C%22numChildren%22%3A0%7D%2C%22bib%22%3A%22%3Cdiv%20class%3D%5C%22csl-bib-body%5C%22%20style%3D%5C%22line-height%3A%201.35%3B%20padding-left%3A%201em%3B%20text-indent%3A-1em%3B%5C%22%3E%5Cn%20%20%3Cdiv%20class%3D%5C%22csl-entry%5C%22%3EAbdullah%2C%20Hazimin%2C%20Muhammad%20Anshari%2C%20and%20Mahani%20Hamdan.%20%26%23x201C%3BDrones%20Technology%20for%20Sustainable%20Decisions%20%26amp%3B%20Development%20to%20Redress%20Illegal%20Logging.%26%23x201D%3B%20In%20%3Ci%3E2021%20International%20Conference%20on%20Decision%20Aid%20Sciences%20and%20Application%20%28DASA%29%3C%5C%2Fi%3E%2C%20103%26%23x2013%3B7.%20IEEE%2C%202021.%20%3Ca%20href%3D%27https%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1109%5C%2FDASA53625.2021.9682276%27%3Ehttps%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1109%5C%2FDASA53625.2021.9682276%3C%5C%2Fa%3E.%3C%5C%2Fdiv%3E%5Cn%3C%5C%2Fdiv%3E%22%2C%22data%22%3A%7B%22itemType%22%3A%22conferencePaper%22%2C%22title%22%3A%22Drones%20Technology%20for%20Sustainable%20Decisions%20%26%20Development%20to%20Redress%20Illegal%20Logging%22%2C%22creators%22%3A%5B%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Hazimin%22%2C%22lastName%22%3A%22Abdullah%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Muhammad%22%2C%22lastName%22%3A%22Anshari%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Mahani%22%2C%22lastName%22%3A%22Hamdan%22%7D%5D%2C%22abstractNote%22%3A%22Illegal%20logging%20has%20continuously%20haunted%20many%20countries%20including%20Brunei%20Darussalam%20resulting%20in%20significant%20financial%20losses%20over%20the%20years%20to%20the%20Brunei%20government.%20With%20Brunei%20having%20to%20possess%20high%20-grade%20Gaharu%20agarwood%20trees%20in%20its%20untouched%20virgin%20forest%2C%20illegal%20loggers%20and%20forest%20intruders%20posed%20a%20security%20threat%20to%20security%20authorities.%20This%20paper%20assesses%20the%20opportunities%20in%20deploying%20drones%20to%20assist%20in%20sustainable%20development%20by%20preventing%20illegal%20logging%20activities%20within%20Brunei%20forest.%20Doing%20so%2C%20a%20qualitative%20approach%20was%20used%20to%20interview%20and%20collect%20data%20from%20various%20public%20agencies%20involved%20in%20combating%20and%20ways%20to%20improve%20in%20preventing%20illegal%20logging%20activities.%20Deploying%20drones%20technology%20will%20support%20sustainable%20decisions%20to%20enhance%20the%20current%20mode%20of%20operation%20in%20redressing%20illegal%20logging.%20The%20drone%20has%20gone%20a%20long%20way%20since%20it%20was%20introduced%20and%20its%20rapid%20technological%20development%20has%20brought%20success%20to%20many%20operations%20worldwide.%20The%20result%20of%20this%20paper%20has%20shown%20evidence%20that%20drones%20would%20be%20a%20cost-effective%20alternative%20to%20redress%20capability%20gap%20to%20tackle%20illegal%20logging%20in%20Brunei.%22%2C%22date%22%3A%222021-12%22%2C%22proceedingsTitle%22%3A%222021%20International%20Conference%20on%20Decision%20Aid%20Sciences%20and%20Application%20%28DASA%29%22%2C%22conferenceName%22%3A%222021%20International%20Conference%20on%20Decision%20Aid%20Sciences%20and%20Application%20%28DASA%29%22%2C%22language%22%3A%22%22%2C%22DOI%22%3A%2210.1109%5C%2FDASA53625.2021.9682276%22%2C%22ISBN%22%3A%22%22%2C%22url%22%3A%22%22%2C%22collections%22%3A%5B%22XPSUL9AV%22%5D%2C%22dateModified%22%3A%222023-01-19T08%3A31%3A29Z%22%7D%7D%2C%7B%22key%22%3A%22ZQDQEQR5%22%2C%22library%22%3A%7B%22id%22%3A6039319%7D%2C%22meta%22%3A%7B%22creatorSummary%22%3A%22Ahmed%20et%20al.%22%2C%22parsedDate%22%3A%222021-01%22%2C%22numChildren%22%3A0%7D%2C%22bib%22%3A%22%3Cdiv%20class%3D%5C%22csl-bib-body%5C%22%20style%3D%5C%22line-height%3A%201.35%3B%20padding-left%3A%201em%3B%20text-indent%3A-1em%3B%5C%22%3E%5Cn%20%20%3Cdiv%20class%3D%5C%22csl-entry%5C%22%3EAhmed%2C%20Ashfaq%2C%20Muhammad%20S.%20Abu%20Bakar%2C%20Abdul%20Razzaq%2C%20Syarif%20Hidayat%2C%20Farrukh%20Jamil%2C%20Muhammad%20Nadeem%20Amin%2C%20Rahayu%20S.%20Sukri%2C%20Noor%20S.%20Shah%2C%20and%20Young-Kwon%20Park.%20%26%23x201C%3BCharacterization%20and%20Thermal%20Behavior%20Study%20of%20Biomass%20from%20Invasive%20%3Ci%3EAcacia%20Mangium%3C%5C%2Fi%3E%20Species%20in%20Brunei%20Preceding%20Thermochemical%20Conversion.%26%23x201D%3B%20%3Ci%3ESustainability%3C%5C%2Fi%3E%2013%2C%20no.%209%20%28January%202021%29%3A%205249.%20%3Ca%20href%3D%27https%3A%5C%2F%5C%2Fdoi.org%5C%2F10.3390%5C%2Fsu13095249%27%3Ehttps%3A%5C%2F%5C%2Fdoi.org%5C%2F10.3390%5C%2Fsu13095249%3C%5C%2Fa%3E.%3C%5C%2Fdiv%3E%5Cn%3C%5C%2Fdiv%3E%22%2C%22data%22%3A%7B%22itemType%22%3A%22journalArticle%22%2C%22title%22%3A%22Characterization%20and%20Thermal%20Behavior%20Study%20of%20Biomass%20from%20Invasive%20%3Ci%3EAcacia%20mangium%3C%5C%2Fi%3E%20Species%20in%20Brunei%20Preceding%20Thermochemical%20Conversion%22%2C%22creators%22%3A%5B%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Ashfaq%22%2C%22lastName%22%3A%22Ahmed%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Muhammad%20S.%20Abu%22%2C%22lastName%22%3A%22Bakar%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Abdul%22%2C%22lastName%22%3A%22Razzaq%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Syarif%22%2C%22lastName%22%3A%22Hidayat%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Farrukh%22%2C%22lastName%22%3A%22Jamil%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Muhammad%20Nadeem%22%2C%22lastName%22%3A%22Amin%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Rahayu%20S.%22%2C%22lastName%22%3A%22Sukri%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Noor%20S.%22%2C%22lastName%22%3A%22Shah%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Young-Kwon%22%2C%22lastName%22%3A%22Park%22%7D%5D%2C%22abstractNote%22%3A%22Acacia%20mangium%20is%20a%20widely%20grown%20tree%20species%20across%20the%20forests%20in%20Brunei%20Darussalam%2C%20posing%20a%20threat%20to%20the%20existence%20of%20some%20native%20species%20in%20Brunei%20Darussalam.%20These%20species%20produce%20large%20quantities%20of%20lignocellulosic%20biomass%20from%20the%20tree%20parts%20comprising%20the%20phyllodes%2C%20trunk%2C%20bark%2C%20twigs%2C%20pods%2C%20and%20branches.%20This%20study%20examined%20the%20thermochemical%20characteristics%20and%20pyrolytic%20conversion%20behavior%20of%20these%20tree%20parts%20to%20assess%20the%20possibility%20of%20valorization%20to%20yield%20bioenergy.%20Proximate%2C%20ultimate%2C%20heating%20value%2C%20and%20Fourier%20Transform%20Infrared%20Spectroscopy%20%28FTIR%29%20analyses%20were%20performed%20to%20assess%20the%20thermochemical%20characterization%2C%20while%20thermogravimetric%20analysis%20was%20conducted%20to%20examine%20the%20pyrolytic%20degradation%20behavior.%20Proximate%20analysis%20revealed%20a%20moisture%20content%2C%20volatile%2C%20fixed%20carbon%2C%20and%20ash%20contents%20of%207.88%5Cu201311.65%20wt.%25%2C%2069.82%5Cu201374.85%20wt.%25%2C%2014.47%5Cu201318.31%20wt.%25%2C%20and%201.41%5Cu20132.69%20wt.%25%2C%20respectively.%20The%20heating%20values%20of%20the%20samples%20were%20reported%20in%20a%20range%20of%2019.51%5Cu201321.58%20MJ%5C%2Fkg%20on%20a%20dry%20moisture%20basis%2C%20with%20a%20carbon%20content%20in%20the%20range%20of%2045.50%5Cu201350.65%20wt.%25.%20The%20FTIR%20analysis%20confirmed%20the%20heterogeneous%20nature%20of%20the%20biomass%20samples%20with%20the%20presence%20of%20multiple%20functional%20groups.%20The%20pyrolytic%20thermal%20degradation%20of%20the%20samples%20occurred%20in%20three%20major%20stages%20from%20the%20removal%20of%20moisture%20and%20light%20extractives%2C%20hemicellulose%20and%20cellulose%20decomposition%2C%20and%20lignin%20decomposition.%20The%20bio-oil%20yield%20potential%20from%20the%20biomass%20samples%20was%20reported%20in%20the%20range%20of%2040%20to%2058%20wt.%25%2C%20highlighting%20the%20potential%20of%20Acacia%20mangium%20biomass%20for%20the%20pyrolysis%20process.%22%2C%22date%22%3A%222021%5C%2F1%22%2C%22language%22%3A%22en%22%2C%22DOI%22%3A%2210.3390%5C%2Fsu13095249%22%2C%22ISSN%22%3A%22%22%2C%22url%22%3A%22https%3A%5C%2F%5C%2Fwww.mdpi.com%5C%2F2071-1050%5C%2F13%5C%2F9%5C%2F5249%22%2C%22collections%22%3A%5B%22XPSUL9AV%22%2C%22RRNEBR5Y%22%5D%2C%22dateModified%22%3A%222022-04-21T04%3A50%3A05Z%22%7D%7D%2C%7B%22key%22%3A%227LVMYIUA%22%2C%22library%22%3A%7B%22id%22%3A6039319%7D%2C%22meta%22%3A%7B%22creatorSummary%22%3A%22Akhtar%20et%20al.%22%2C%22parsedDate%22%3A%222021-04-19%22%2C%22numChildren%22%3A0%7D%2C%22bib%22%3A%22%3Cdiv%20class%3D%5C%22csl-bib-body%5C%22%20style%3D%5C%22line-height%3A%201.35%3B%20padding-left%3A%201em%3B%20text-indent%3A-1em%3B%5C%22%3E%5Cn%20%20%3Cdiv%20class%3D%5C%22csl-entry%5C%22%3EAkhtar%2C%20Hasan%2C%20Massimo%20Lupascu%2C%20and%20Rahayu%20S.%20Sukri.%20%26%23x201C%3BEffects%20of%20Microtopography%2C%20Root%20Exudates%20Analogues%20and%20Temperature%20Variation%20on%20CO%3Csub%3E2%3C%5C%2Fsub%3E%20and%20CH%3Csub%3E4%3C%5C%2Fsub%3E%20Production%20from%20Fire-Degraded%20Tropical%20Peat%2C%26%23x201D%3B%20EGU21-2665.%20online%2C%202021.%20%3Ca%20href%3D%27https%3A%5C%2F%5C%2Fdoi.org%5C%2F10.5194%5C%2Fegusphere-egu21-2665%27%3Ehttps%3A%5C%2F%5C%2Fdoi.org%5C%2F10.5194%5C%2Fegusphere-egu21-2665%3C%5C%2Fa%3E.%3C%5C%2Fdiv%3E%5Cn%3C%5C%2Fdiv%3E%22%2C%22data%22%3A%7B%22itemType%22%3A%22conferencePaper%22%2C%22title%22%3A%22Effects%20of%20microtopography%2C%20root%20exudates%20analogues%20and%20temperature%20variation%20on%20CO%3Csub%3E2%3C%5C%2Fsub%3E%20and%20CH%3Csub%3E4%3C%5C%2Fsub%3E%20production%20from%20fire-degraded%20tropical%20peat%22%2C%22creators%22%3A%5B%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Hasan%22%2C%22lastName%22%3A%22Akhtar%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Massimo%22%2C%22lastName%22%3A%22Lupascu%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Rahayu%20S.%22%2C%22lastName%22%3A%22Sukri%22%7D%5D%2C%22abstractNote%22%3A%22%22%2C%22date%22%3A%2219%5Cu201330%20Apr%202021%22%2C%22proceedingsTitle%22%3A%22%22%2C%22conferenceName%22%3A%22EGU%20General%20Assembly%202021%22%2C%22language%22%3A%22en%22%2C%22DOI%22%3A%2210.5194%5C%2Fegusphere-egu21-2665%22%2C%22ISBN%22%3A%22%22%2C%22url%22%3A%22https%3A%5C%2F%5C%2Fmeetingorganizer.copernicus.org%5C%2FEGU21%5C%2FEGU21-2665.html%22%2C%22collections%22%3A%5B%22XPSUL9AV%22%2C%22RRNEBR5Y%22%5D%2C%22dateModified%22%3A%222021-04-05T03%3A25%3A36Z%22%7D%7D%2C%7B%22key%22%3A%22QXD46FF7%22%2C%22library%22%3A%7B%22id%22%3A6039319%7D%2C%22meta%22%3A%7B%22creatorSummary%22%3A%22Arai%20and%20Taha%22%2C%22parsedDate%22%3A%222021-05-01%22%2C%22numChildren%22%3A0%7D%2C%22bib%22%3A%22%3Cdiv%20class%3D%5C%22csl-bib-body%5C%22%20style%3D%5C%22line-height%3A%201.35%3B%20padding-left%3A%201em%3B%20text-indent%3A-1em%3B%5C%22%3E%5Cn%20%20%3Cdiv%20class%3D%5C%22csl-entry%5C%22%3EArai%2C%20Takaomi%2C%20and%20Hussein%20Taha.%20%26%23x201C%3BContrasting%20Patterns%20of%20Genetic%20Population%20Structure%20in%20Tropical%20Freshwater%20Eels%20of%20Genus%20%3Ci%3EAnguilla%3C%5C%2Fi%3E%20in%20the%20Indo-Pacific.%26%23x201D%3B%20%3Ci%3EHeliyon%3C%5C%2Fi%3E%207%2C%20no.%205%20%28May%201%2C%202021%29%3A%20e07097.%20%3Ca%20href%3D%27https%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1016%5C%2Fj.heliyon.2021.e07097%27%3Ehttps%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1016%5C%2Fj.heliyon.2021.e07097%3C%5C%2Fa%3E.%3C%5C%2Fdiv%3E%5Cn%3C%5C%2Fdiv%3E%22%2C%22data%22%3A%7B%22itemType%22%3A%22journalArticle%22%2C%22title%22%3A%22Contrasting%20patterns%20of%20genetic%20population%20structure%20in%20tropical%20freshwater%20eels%20of%20genus%20%3Ci%3EAnguilla%3C%5C%2Fi%3E%20in%20the%20Indo-Pacific%22%2C%22creators%22%3A%5B%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Takaomi%22%2C%22lastName%22%3A%22Arai%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Hussein%22%2C%22lastName%22%3A%22Taha%22%7D%5D%2C%22abstractNote%22%3A%22Freshwater%20eels%2C%20genus%20Anguilla%2C%20have%20a%20distinctive%20catadromous%20life%20history%2C%20which%20could%20be%20associated%20with%20certain%20oceanic%20current%20systems%20and%20offshore%20spawning%20sites.%20Thus%2C%20migration%20and%20dispersion%20patterns%20are%20believed%20to%20be%20important%20factors%20influencing%20the%20population%20structure%20of%20each%20species.%20Temperate%20eel%20species%20are%20well%20studied%2C%20while%20little%20research%20has%20been%20conducted%20on%20the%20tropical%20counterparts%20that%20comprise%20two-thirds%20of%20all%20eel%20species.%20The%20population%20structure%20of%20three%20tropical%20species%2C%20A.%5Cu00a0marmorata%2C%20A.%5Cu00a0bicolor%20bicolor%20and%20A.%5Cu00a0bengalensis%20bengalensis%2C%20which%20are%20distributed%20widely%20in%20the%20Indo-Pacific%20region%2C%20were%20explored%20by%20means%20of%20DNA%20sequence%20analysis%20of%20mitochondrial%20cytochrome%20c%20oxidase%20subunit%20I%20%28COI%29.%20This%20study%20suggests%20that%20A.%5Cu00a0bicolor%20bicolor%20might%20have%20two%20genetically%20distinct%20populations%20%28fixation%20index%2C%20FST%20%3D%200.891%3B%20p%20%3C%200.001%29%20that%20co-occur%20geographically%20in%20the%20Indo-Pacific%20region%2C%20while%20A.%5Cu00a0marmorata%20and%20A.%5Cu00a0bengalensis%20bengalensis%20might%20have%20a%20panmictic-population%20structure%20in%20this%20region.%20This%20study%20is%20the%20first%20to%20explore%20the%20population%20genetic%20structure%20of%20A.%5Cu00a0bengalensis%20bengalensis.%20The%20present%20results%20also%20suggest%20plausible%20dispersion%20and%20migration%20of%20these%20tropical%20species%20into%20their%20continental%20habitats.%22%2C%22date%22%3A%22May%201%2C%202021%22%2C%22language%22%3A%22en%22%2C%22DOI%22%3A%2210.1016%5C%2Fj.heliyon.2021.e07097%22%2C%22ISSN%22%3A%222405-8440%22%2C%22url%22%3A%22https%3A%5C%2F%5C%2Fwww.sciencedirect.com%5C%2Fscience%5C%2Farticle%5C%2Fpii%5C%2FS2405844021012007%22%2C%22collections%22%3A%5B%22XPSUL9AV%22%2C%22RRNEBR5Y%22%5D%2C%22dateModified%22%3A%222022-04-21T04%3A50%3A57Z%22%7D%7D%2C%7B%22key%22%3A%22E9IBBDIM%22%2C%22library%22%3A%7B%22id%22%3A6039319%7D%2C%22meta%22%3A%7B%22creatorSummary%22%3A%22Areces-Berazain%20et%20al.%22%2C%22parsedDate%22%3A%222021-03-01%22%2C%22numChildren%22%3A0%7D%2C%22bib%22%3A%22%3Cdiv%20class%3D%5C%22csl-bib-body%5C%22%20style%3D%5C%22line-height%3A%201.35%3B%20padding-left%3A%201em%3B%20text-indent%3A-1em%3B%5C%22%3E%5Cn%20%20%3Cdiv%20class%3D%5C%22csl-entry%5C%22%3EAreces-Berazain%2C%20Fabiola%2C%20Damien%20D.%20Hinsinger%2C%20and%20Joeri%20S.%20Strijk.%20%26%23x201C%3BGenome-Wide%20Supermatrix%20Analyses%20of%20Maples%20%28Acer%2C%20Sapindaceae%29%20Reveal%20Recurring%20Inter-Continental%20Migration%2C%20Mass%20Extinction%2C%20and%20Rapid%20Lineage%20Divergence.%26%23x201D%3B%20%3Ci%3EGenomics%3C%5C%2Fi%3E%20113%2C%20no.%202%20%28March%201%2C%202021%29%3A%20681%26%23x2013%3B92.%20%3Ca%20href%3D%27https%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1016%5C%2Fj.ygeno.2021.01.014%27%3Ehttps%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1016%5C%2Fj.ygeno.2021.01.014%3C%5C%2Fa%3E.%3C%5C%2Fdiv%3E%5Cn%3C%5C%2Fdiv%3E%22%2C%22data%22%3A%7B%22itemType%22%3A%22journalArticle%22%2C%22title%22%3A%22Genome-wide%20supermatrix%20analyses%20of%20maples%20%28Acer%2C%20Sapindaceae%29%20reveal%20recurring%20inter-continental%20migration%2C%20mass%20extinction%2C%20and%20rapid%20lineage%20divergence%22%2C%22creators%22%3A%5B%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Fabiola%22%2C%22lastName%22%3A%22Areces-Berazain%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Damien%20D.%22%2C%22lastName%22%3A%22Hinsinger%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Joeri%20S.%22%2C%22lastName%22%3A%22Strijk%22%7D%5D%2C%22abstractNote%22%3A%22Acer%20%28Sapindaceae%29%20is%20an%20exceptional%20study%20system%20for%20understanding%20the%20evolutionary%20history%2C%20divergence%2C%20and%20assembly%20of%20broad-leaved%20deciduous%20forests%20at%20higher%20latitudes.%20Maples%20stand%20out%20due%20to%20their%20high%20diversity%2C%20disjunct%20distribution%20pattern%20across%20the%20northern%20continents%2C%20and%20rich%20fossil%20record%20dating%20back%20to%20the%20Paleocene.%20Using%20a%20genome-wide%20supermatrix%20combining%20plastomes%20and%20nuclear%20sequences%20%28~585%5Cu00a0kb%29%20for%20110%20Acer%20taxa%2C%20we%20built%20a%20robust%20time-calibrated%20hypothesis%20investigating%20the%20evolution%20of%20maples%2C%20inferring%20ancestral%20ranges%2C%20reconstructing%20diversification%20rates%20over%20time%2C%20and%20exploring%20the%20impact%20of%20mass-extinction%20on%20lineage%20accumulation.%20Contrary%20to%20fossil%20evidence%2C%20our%20results%20indicate%20Acer%20first%20originated%20in%20the%20%28north%29eastern%20Palearctic%20region%2C%20which%20acted%20as%20a%20source%20for%20recurring%20outward%20migration.%20Warm%20conditions%20favored%20rapid%20Eocene-onward%20divergence%2C%20but%20ranges%20and%20diversity%20declined%20extensively%20as%20a%20result%20of%20the%20Plio-Pleistocene%20glacial%20cycles.%20These%20signals%20in%20genome-wide%20sequence%20data%20corroborate%20paleobotanical%20evidence%20for%20other%20major%20woody%20north-temperate%20groups%2C%20highlighting%20the%20significant%20%28disparate%29%20impact%20of%20climatic%20changes%20on%20the%20evolution%2C%20composition%2C%20and%20distribution%20of%20the%20vegetation%20in%20the%20northern%20hemisphere.%22%2C%22date%22%3A%22March%201%2C%202021%22%2C%22language%22%3A%22en%22%2C%22DOI%22%3A%2210.1016%5C%2Fj.ygeno.2021.01.014%22%2C%22ISSN%22%3A%220888-7543%22%2C%22url%22%3A%22https%3A%5C%2F%5C%2Fwww.sciencedirect.com%5C%2Fscience%5C%2Farticle%5C%2Fpii%5C%2FS0888754321000409%22%2C%22collections%22%3A%5B%22XPSUL9AV%22%2C%22RRNEBR5Y%22%5D%2C%22dateModified%22%3A%222023-03-07T02%3A51%3A25Z%22%7D%7D%2C%7B%22key%22%3A%2226IWPLXE%22%2C%22library%22%3A%7B%22id%22%3A6039319%7D%2C%22meta%22%3A%7B%22creatorSummary%22%3A%22Arroyo-Rodr%5Cu00edguez%20et%20al.%22%2C%22parsedDate%22%3A%222021%22%2C%22numChildren%22%3A0%7D%2C%22bib%22%3A%22%3Cdiv%20class%3D%5C%22csl-bib-body%5C%22%20style%3D%5C%22line-height%3A%201.35%3B%20padding-left%3A%201em%3B%20text-indent%3A-1em%3B%5C%22%3E%5Cn%20%20%3Cdiv%20class%3D%5C%22csl-entry%5C%22%3EArroyo-Rodr%26%23xED%3Bguez%2C%20V%26%23xED%3Bctor%2C%20Lenore%20Fahrig%2C%20James%20I.%20Watling%2C%20Justin%20Nowakowski%2C%20Marcelo%20Tabarelli%2C%20Lutz%20Tischendorf%2C%20Felipe%20P.%20L.%20Melo%2C%20et%20al.%20%26%23x201C%3BPreserving%2040%25%20Forest%20Cover%20Is%20a%20Valuable%20and%20Well-Supported%20Conservation%20Guideline%3A%20Reply%20to%20Banks-Leite%20et%20Al.%26%23x201D%3B%20%3Ci%3EEcology%20Letters%3C%5C%2Fi%3E%2024%2C%20no.%205%20%282021%29%3A%201114%26%23x2013%3B16.%20%3Ca%20href%3D%27https%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1111%5C%2Fele.13689%27%3Ehttps%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1111%5C%2Fele.13689%3C%5C%2Fa%3E.%3C%5C%2Fdiv%3E%5Cn%3C%5C%2Fdiv%3E%22%2C%22data%22%3A%7B%22itemType%22%3A%22journalArticle%22%2C%22title%22%3A%22Preserving%2040%25%20forest%20cover%20is%20a%20valuable%20and%20well-supported%20conservation%20guideline%3A%20reply%20to%20Banks-Leite%20et%20al%22%2C%22creators%22%3A%5B%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22V%5Cu00edctor%22%2C%22lastName%22%3A%22Arroyo-Rodr%5Cu00edguez%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Lenore%22%2C%22lastName%22%3A%22Fahrig%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22James%20I.%22%2C%22lastName%22%3A%22Watling%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Justin%22%2C%22lastName%22%3A%22Nowakowski%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Marcelo%22%2C%22lastName%22%3A%22Tabarelli%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Lutz%22%2C%22lastName%22%3A%22Tischendorf%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Felipe%20P.%20L.%22%2C%22lastName%22%3A%22Melo%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Br%5Cu00e1ulio%20A.%22%2C%22lastName%22%3A%22Santos%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Ma%5Cu00edra%22%2C%22lastName%22%3A%22Benchimol%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Jose%20Carlos%22%2C%22lastName%22%3A%22Morante-Filho%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22J.%20W.%20Ferry%22%2C%22lastName%22%3A%22Slik%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Ima%20C.%20G.%22%2C%22lastName%22%3A%22Vieira%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Teja%22%2C%22lastName%22%3A%22Tscharntke%22%7D%5D%2C%22abstractNote%22%3A%22Banks-Leite%20et%20al.%20%282021%29%20claim%20that%20our%20suggestion%20of%20preserving%20%5Cu2265%2040%25%20forest%20cover%20lacks%20evidence%20and%20can%20be%20problematic.%20We%20find%20these%20claims%20unfounded%2C%20and%20discuss%20why%20conservation%20planning%20urgently%20requires%20valuable%2C%20well-supported%20and%20feasible%20general%20guidelines%20like%20the%2040%25%20criterion.%20Using%20region-specific%20thresholds%20worldwide%20is%20unfeasible%20and%20potentially%20harmful.%22%2C%22date%22%3A%222021%22%2C%22language%22%3A%22en%22%2C%22DOI%22%3A%2210.1111%5C%2Fele.13689%22%2C%22ISSN%22%3A%221461-0248%22%2C%22url%22%3A%22https%3A%5C%2F%5C%2Fonlinelibrary.wiley.com%5C%2Fdoi%5C%2Fabs%5C%2F10.1111%5C%2Fele.13689%22%2C%22collections%22%3A%5B%22XPSUL9AV%22%5D%2C%22dateModified%22%3A%222021-11-23T03%3A57%3A11Z%22%7D%7D%2C%7B%22key%22%3A%22HFBAZ59S%22%2C%22library%22%3A%7B%22id%22%3A6039319%7D%2C%22meta%22%3A%7B%22creatorSummary%22%3A%22Bank%20et%20al.%22%2C%22parsedDate%22%3A%222021%22%2C%22numChildren%22%3A2%7D%2C%22bib%22%3A%22%3Cdiv%20class%3D%5C%22csl-bib-body%5C%22%20style%3D%5C%22line-height%3A%201.35%3B%20padding-left%3A%201em%3B%20text-indent%3A-1em%3B%5C%22%3E%5Cn%20%20%3Cdiv%20class%3D%5C%22csl-entry%5C%22%3EBank%2C%20Sarah%2C%20Thomas%20R.%20Buckley%2C%20Thies%20H.%20B%26%23xFC%3Bscher%2C%20Joachim%20Bresseel%2C%20J%26%23xE9%3Br%26%23xF4%3Bme%20Constant%2C%20Mayk%20de%20Haan%2C%20Daniel%20Dittmar%2C%20et%20al.%20%26%23x201C%3BReconstructing%20the%20Nonadaptive%20Radiation%20of%20an%20Ancient%20Lineage%20of%20Ground-Dwelling%20Stick%20Insects%20%28Phasmatodea%3A%20Heteropterygidae%29.%26%23x201D%3B%20%3Ci%3ESystematic%20Entomology%3C%5C%2Fi%3E%2046%2C%20no.%20n%5C%2Fa%20%282021%29%3A%20487%26%23x2013%3B507.%20%3Ca%20href%3D%27https%3A%5C%2F%5C%2Fdoi.org%5C%2Fhttps%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1111%5C%2Fsyen.12472%27%3Ehttps%3A%5C%2F%5C%2Fdoi.org%5C%2Fhttps%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1111%5C%2Fsyen.12472%3C%5C%2Fa%3E.%3C%5C%2Fdiv%3E%5Cn%3C%5C%2Fdiv%3E%22%2C%22data%22%3A%7B%22itemType%22%3A%22journalArticle%22%2C%22title%22%3A%22Reconstructing%20the%20nonadaptive%20radiation%20of%20an%20ancient%20lineage%20of%20ground-dwelling%20stick%20insects%20%28Phasmatodea%3A%20Heteropterygidae%29%22%2C%22creators%22%3A%5B%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Sarah%22%2C%22lastName%22%3A%22Bank%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Thomas%20R.%22%2C%22lastName%22%3A%22Buckley%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Thies%20H.%22%2C%22lastName%22%3A%22B%5Cu00fcscher%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Joachim%22%2C%22lastName%22%3A%22Bresseel%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22J%5Cu00e9r%5Cu00f4me%22%2C%22lastName%22%3A%22Constant%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Mayk%20de%22%2C%22lastName%22%3A%22Haan%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Daniel%22%2C%22lastName%22%3A%22Dittmar%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Holger%22%2C%22lastName%22%3A%22Dr%5Cu00e4ger%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Rafhiah%20S.%22%2C%22lastName%22%3A%22Kahar%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Albert%22%2C%22lastName%22%3A%22Kang%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Bruno%22%2C%22lastName%22%3A%22Kneub%5Cu00fchler%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Shelley%20S.%22%2C%22lastName%22%3A%22Langton%5Cu2010Myers%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Sven%22%2C%22lastName%22%3A%22Bradler%22%7D%5D%2C%22abstractNote%22%3A%22Stick%20and%20leaf%20insects%20%28Phasmatodea%29%20are%20large%20terrestrial%20herbivorous%20arthropods%20known%20for%20masquerading%20as%20plant%20parts%20such%20as%20bark%2C%20twigs%20and%20leaves.%20Their%20evolutionary%20history%20is%20largely%20shaped%20by%20convergent%20evolution%20associated%20with%20adaptive%20radiations%20on%20geographically%20isolated%20landmasses%20that%20have%20repeatedly%20generated%20ground-dwelling%20ecomorphs.%20The%20members%20of%20one%20lineage%2C%20however%2C%20the%20Oriental%20Heteropterygidae%2C%20are%20morphologically%20rather%20uniform%2C%20and%20have%20a%20predominantly%20ground-dwelling%20lifestyle.%20The%20phylogeny%20of%20Heteropterygidae%20that%20comprises%20approximately%20130%20described%20species%20is%20controversial%20and%20remains%20uncertain.%20In%20particular%2C%20the%20systematic%20position%20of%20the%20giant%20Jungle%20Nymph%20Heteropteryx%20dilatata%2C%20whose%20males%20are%20capable%20of%20flight%20and%20exhibit%20the%20most%20plesiomorphic%20wing%20morphology%20among%20extant%20phasmatodeans%2C%20is%20of%20major%20interest%20to%20the%20scientific%20community.%20Here%2C%20we%20analysed%20a%20set%20of%20seven%20nuclear%20and%20mitochondrial%20genes%20to%20infer%20the%20phylogeny%20of%20Heteropterygidae%20covering%20the%20group%27s%20overall%20diversity.%20The%20divergence%20time%20estimation%20and%20reconstruction%20of%20the%20historical%20biogeography%20resulted%20in%20an%20ancestral%20distribution%20across%20Sundaland%20with%20long%20distance%20dispersal%20events%20to%20Wallacea%2C%20the%20Philippines%20and%20the%20South%20Pacific.%20We%20were%20able%20to%20resolve%20the%20relationships%20among%20the%20three%20principal%20subgroups%20of%20Heteropterygidae%20and%20revealed%20the%20Dataminae%2C%20which%20contain%20entirely%20wingless%20small%20forms%2C%20as%20the%20sister%20group%20of%20Heteropteryginae%20%2B%20Obriminae.%20Within%20Heteropteryginae%2C%20Haaniella%20is%20recovered%20as%20paraphyletic%20in%20regard%20to%20Heteropteryx.%20Consequently%2C%20Heteropteryx%20must%20be%20considered%20a%20subordinate%20taxon%20deeply%20embedded%20within%20a%20flightless%20clade%20of%20stick%20insects.%20Within%20Obriminae%2C%20the%20Bornean%20Hoploclonia%20is%20strongly%20supported%20as%20the%20earliest%20diverging%20lineage.%20Based%20on%20this%20finding%2C%20we%20recognize%20only%20two%20tribes%20of%20equal%20rank%20among%20Obriminae%2C%20the%20Hoplocloniini%20trib.%20nov.%20and%20Obrimini%20sensu%20nov.%20Within%20the%20latter%2C%20we%20demonstrate%20that%20previous%20tribal%20assignments%20do%20not%20reflect%20phylogenetic%20relationships%20and%20that%20a%20basal%20splitting%20event%20occurred%20between%20the%20wing-bearing%20clade%20Miroceramia%20%2B%20Pterobrimus%20and%20the%20remaining%20wingless%20Obrimini.%20The%20Philippine%20genus%20Tisamenus%20is%20paraphyletic%20with%20regard%20to%20Ilocano%20hebardi%2C%20thus%2C%20we%20transfer%20the%20latter%20species%20to%20Tisamenus%20as%20Tisamenus%20hebardi%20comb.%20nov.%20and%20synonymize%20Ilocano%20with%20Tisamenus.%20We%20discuss%20character%20transformations%20in%20the%20light%20of%20the%20new%20phylogenetic%20results%20and%20conclude%20that%20the%20current%20taxonomic%20diversity%20appears%20to%20be%20mainly%20driven%20by%20allopatry%20and%20not%20to%20be%20the%20result%20of%20niche%20differentiation.%20This%20radiation%20is%20thus%20best%20described%20as%20a%20nonadaptive%20radiation.%22%2C%22date%22%3A%222021%22%2C%22language%22%3A%22en%22%2C%22DOI%22%3A%22https%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1111%5C%2Fsyen.12472%22%2C%22ISSN%22%3A%221365-3113%22%2C%22url%22%3A%22https%3A%5C%2F%5C%2Fonlinelibrary.wiley.com%5C%2Fdoi%5C%2Fabs%5C%2F10.1111%5C%2Fsyen.12472%22%2C%22collections%22%3A%5B%22XPSUL9AV%22%2C%22RRNEBR5Y%22%5D%2C%22dateModified%22%3A%222024-08-20T05%3A42%3A38Z%22%7D%7D%2C%7B%22key%22%3A%22XI5XJXPA%22%2C%22library%22%3A%7B%22id%22%3A6039319%7D%2C%22meta%22%3A%7B%22creatorSummary%22%3A%22Cannon%20et%20al.%22%2C%22parsedDate%22%3A%222021%22%2C%22numChildren%22%3A0%7D%2C%22bib%22%3A%22%3Cdiv%20class%3D%5C%22csl-bib-body%5C%22%20style%3D%5C%22line-height%3A%201.35%3B%20padding-left%3A%201em%3B%20text-indent%3A-1em%3B%5C%22%3E%5Cn%20%20%3Cdiv%20class%3D%5C%22csl-entry%5C%22%3ECannon%2C%20Charles%20H.%2C%20Colby%20Borchetta%2C%20David%20L.%20Anderson%2C%20Gabriel%20Arellano%2C%20Martin%20Barker%2C%20Guillaume%20Charron%2C%20Jalene%20M.%20LaMontagne%2C%20et%20al.%20%26%23x201C%3BExtending%20Our%20Scientific%20Reach%20in%20Arboreal%20Ecosystems%20for%20Research%20and%20Management.%26%23x201D%3B%20%3Ci%3EFrontiers%20in%20Forests%20and%20Global%20Change%3C%5C%2Fi%3E%204%20%282021%29%3A%20160.%20%3Ca%20href%3D%27https%3A%5C%2F%5C%2Fdoi.org%5C%2F10.3389%5C%2Fffgc.2021.712165%27%3Ehttps%3A%5C%2F%5C%2Fdoi.org%5C%2F10.3389%5C%2Fffgc.2021.712165%3C%5C%2Fa%3E.%3C%5C%2Fdiv%3E%5Cn%3C%5C%2Fdiv%3E%22%2C%22data%22%3A%7B%22itemType%22%3A%22journalArticle%22%2C%22title%22%3A%22Extending%20Our%20Scientific%20Reach%20in%20Arboreal%20Ecosystems%20for%20Research%20and%20Management%22%2C%22creators%22%3A%5B%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Charles%20H.%22%2C%22lastName%22%3A%22Cannon%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Colby%22%2C%22lastName%22%3A%22Borchetta%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22David%20L.%22%2C%22lastName%22%3A%22Anderson%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Gabriel%22%2C%22lastName%22%3A%22Arellano%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Martin%22%2C%22lastName%22%3A%22Barker%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Guillaume%22%2C%22lastName%22%3A%22Charron%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Jalene%20M.%22%2C%22lastName%22%3A%22LaMontagne%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Jeannine%20H.%22%2C%22lastName%22%3A%22Richards%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Ethan%22%2C%22lastName%22%3A%22Abercrombie%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Lindsay%20F.%22%2C%22lastName%22%3A%22Banin%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Ximena%22%2C%22lastName%22%3A%22Tagle%20Casapia%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Xi%22%2C%22lastName%22%3A%22Chen%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Polina%22%2C%22lastName%22%3A%22Degtjarenko%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Jane%20E.%22%2C%22lastName%22%3A%22Dell%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22David%22%2C%22lastName%22%3A%22Durden%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Juan%20Ernesto%22%2C%22lastName%22%3A%22Guevara%20Andino%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Rebeca%22%2C%22lastName%22%3A%22Hern%5Cu00e1ndez-Guti%5Cu00e9rrez%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Andrew%20D.%22%2C%22lastName%22%3A%22Hirons%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Chai-Shian%22%2C%22lastName%22%3A%22Kua%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Hughes%22%2C%22lastName%22%3A%22La%20Vigne%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Maurice%22%2C%22lastName%22%3A%22Leponce%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Jun%20Ying%22%2C%22lastName%22%3A%22Lim%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Margaret%22%2C%22lastName%22%3A%22Lowman%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Andrew%20J.%22%2C%22lastName%22%3A%22Marshall%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Sean%20T.%22%2C%22lastName%22%3A%22Michaletz%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Benjamin%20B.%22%2C%22lastName%22%3A%22Normark%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Darin%20S.%22%2C%22lastName%22%3A%22Penneys%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Gerald%20F.%22%2C%22lastName%22%3A%22Schneider%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Joeri%20S.%22%2C%22lastName%22%3A%22Strijk%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Bashir%20B.%22%2C%22lastName%22%3A%22Tiamiyu%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Tara%20L.%20E.%22%2C%22lastName%22%3A%22Trammell%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Yalma%20L.%22%2C%22lastName%22%3A%22Vargas-Rodriguez%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Samantha%20R.%22%2C%22lastName%22%3A%22Weintraub-Leff%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Alexis%22%2C%22lastName%22%3A%22Lussier%20Desbiens%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Matthew%22%2C%22lastName%22%3A%22Spenko%22%7D%5D%2C%22abstractNote%22%3A%22The%20arboreal%20ecosystem%20is%20vitally%20important%20to%20global%20and%20local%20biogeochemical%20processes%2C%20the%20maintenance%20of%20biodiversity%20in%20natural%20systems%2C%20and%20human%20health%20in%20urban%20environments.%20The%20ability%20to%20collect%20samples%2C%20observations%2C%20and%20data%20to%20conduct%20meaningful%20scientific%20research%20is%20similarly%20vital.%20The%20primary%20methods%20and%20modes%20of%20access%20remain%20limited%20and%20difficult.%20In%20an%20online%20survey%2C%20canopy%20researchers%20%28n%20%3D%20219%29%20reported%20a%20range%20of%20challenges%20in%20obtaining%20adequate%20samples%2C%20including%20%5Cu223c10%25%20who%20found%20it%20impossible%20to%20procure%20what%20they%20needed.%20Currently%2C%20these%20samples%20are%20collected%20using%20a%20combination%20of%20four%20primary%20methods%3A%20%281%29%20sampling%20from%20the%20ground%3B%20%282%29%20tree%20climbing%3B%20%283%29%20constructing%20fixed%20infrastructure%3B%20and%20%284%29%20using%20mobile%20aerial%20platforms%2C%20primarily%20rotorcraft%20drones.%20An%20important%20distinction%20between%20instantaneous%20and%20continuous%20sampling%20was%20identified%2C%20allowing%20more%20targeted%20engineering%20and%20development%20strategies.%20The%20combination%20of%20methods%20for%20sampling%20the%20arboreal%20ecosystem%20provides%20a%20range%20of%20possibilities%20and%20opportunities%2C%20particularly%20in%20the%20context%20of%20the%20rapid%20development%20of%20robotics%20and%20other%20engineering%20advances.%20In%20this%20study%2C%20we%20aim%20to%20identify%20the%20strategies%20that%20would%20provide%20the%20benefits%20to%20a%20broad%20range%20of%20scientists%2C%20arborists%2C%20and%20professional%20climbers%20and%20facilitate%20basic%20discovery%20and%20applied%20management.%20Priorities%20for%20advancing%20these%20efforts%20are%20%281%29%20to%20expand%20participation%2C%20both%20geographically%20and%20professionally%3B%20%282%29%20to%20define%202%5Cu20133%20common%20needs%20across%20the%20community%3B%20%283%29%20to%20form%20and%20motivate%20focal%20teams%20of%20biologists%2C%20tree%20professionals%2C%20and%20engineers%20in%20the%20development%20of%20solutions%20to%20these%20needs%3B%20and%20%284%29%20to%20establish%20multidisciplinary%20communication%20platforms%20to%20share%20information%20about%20innovations%20and%20opportunities%20for%20studying%20arboreal%20ecosystems.%22%2C%22date%22%3A%222021%22%2C%22language%22%3A%22%22%2C%22DOI%22%3A%2210.3389%5C%2Fffgc.2021.712165%22%2C%22ISSN%22%3A%222624-893X%22%2C%22url%22%3A%22https%3A%5C%2F%5C%2Fwww.frontiersin.org%5C%2Farticle%5C%2F10.3389%5C%2Fffgc.2021.712165%22%2C%22collections%22%3A%5B%22XPSUL9AV%22%2C%22RRNEBR5Y%22%5D%2C%22dateModified%22%3A%222023-03-07T02%3A51%3A20Z%22%7D%7D%2C%7B%22key%22%3A%222R5C7XAB%22%2C%22library%22%3A%7B%22id%22%3A6039319%7D%2C%22meta%22%3A%7B%22creatorSummary%22%3A%22Colin%20et%20al.%22%2C%22parsedDate%22%3A%222021-01-27%22%2C%22numChildren%22%3A0%7D%2C%22bib%22%3A%22%3Cdiv%20class%3D%5C%22csl-bib-body%5C%22%20style%3D%5C%22line-height%3A%201.35%3B%20padding-left%3A%201em%3B%20text-indent%3A-1em%3B%5C%22%3E%5Cn%20%20%3Cdiv%20class%3D%5C%22csl-entry%5C%22%3EColin%2C%20Olivier%2C%20Damien%20Daniel%20Hinsinger%2C%20and%20Joeri%20Sergej%20Strijk.%20%26%23x201C%3B%3Ci%3EMahonia%20Lancasteri%3C%5C%2Fi%3E%20%28Berberidaceae%29%2C%20a%20New%20Species%20Originating%20from%20Sichuan%20%28China%29%20Described%20from%20Cultivation.%26%23x201D%3B%20%3Ci%3EPhytotaxa%3C%5C%2Fi%3E%20482%2C%20no.%201%20%28January%2027%2C%202021%29%3A%2045%26%23x2013%3B54.%20%3Ca%20href%3D%27https%3A%5C%2F%5C%2Fdoi.org%5C%2F10.11646%5C%2Fphytotaxa.482.1.5%27%3Ehttps%3A%5C%2F%5C%2Fdoi.org%5C%2F10.11646%5C%2Fphytotaxa.482.1.5%3C%5C%2Fa%3E.%3C%5C%2Fdiv%3E%5Cn%3C%5C%2Fdiv%3E%22%2C%22data%22%3A%7B%22itemType%22%3A%22journalArticle%22%2C%22title%22%3A%22%3Ci%3EMahonia%20lancasteri%3C%5C%2Fi%3E%20%28Berberidaceae%29%2C%20a%20new%20species%20originating%20from%20Sichuan%20%28China%29%20described%20from%20cultivation%22%2C%22creators%22%3A%5B%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Olivier%22%2C%22lastName%22%3A%22Colin%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Damien%20Daniel%22%2C%22lastName%22%3A%22Hinsinger%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Joeri%20Sergej%22%2C%22lastName%22%3A%22Strijk%22%7D%5D%2C%22abstractNote%22%3A%22Mahonia%20lancasteri%20%28Berberidaceae%29%20is%20described%20from%20cultivation%20as%20a%20new%20species%20from%20west-central%20Sichuan%2C%20China.%20A%20detailed%20description%2C%20distributional%20data%20and%20ecological%20information%20along%20with%20color%20photographs%20are%20provided.%20In%20addition%2C%20a%20comparison%20of%20M.%20lancasteri%20with%20morphologically%20similar%20species%2C%20as%20well%20as%20information%20about%20its%20introduction%20and%20history%20in%20cultivation%2C%20is%20presented.%20We%20also%20performed%20a%20phylogenetic%20analysis%20using%20five%20molecular%20loci%20%28nuclear%20ITS%2C%20accD%2C%20ndhF%2C%20rbcL%20and%20psbA-trnH%29%20to%20further%20determine%20the%20close%20affinities%20of%20M.%20lancasteri.%20The%20new%20species%20naturally%20occurs%20in%20sympatry%20with%20several%20other%20Mahonia%20species.%22%2C%22date%22%3A%222021-01-27%22%2C%22language%22%3A%22en%22%2C%22DOI%22%3A%2210.11646%5C%2Fphytotaxa.482.1.5%22%2C%22ISSN%22%3A%221179-3163%22%2C%22url%22%3A%22https%3A%5C%2F%5C%2Fwww.biotaxa.org%5C%2FPhytotaxa%5C%2Farticle%5C%2Fview%5C%2Fphytotaxa.482.1.5%22%2C%22collections%22%3A%5B%22XPSUL9AV%22%2C%22RRNEBR5Y%22%5D%2C%22dateModified%22%3A%222021-11-23T03%3A00%3A22Z%22%7D%7D%2C%7B%22key%22%3A%22M6J4S4C7%22%2C%22library%22%3A%7B%22id%22%3A6039319%7D%2C%22meta%22%3A%7B%22creatorSummary%22%3A%22Cvetkovi%5Cu0107%20et%20al.%22%2C%22parsedDate%22%3A%222021-04-23%22%2C%22numChildren%22%3A0%7D%2C%22bib%22%3A%22%3Cdiv%20class%3D%5C%22csl-bib-body%5C%22%20style%3D%5C%22line-height%3A%201.35%3B%20padding-left%3A%201em%3B%20text-indent%3A-1em%3B%5C%22%3E%5Cn%20%20%3Cdiv%20class%3D%5C%22csl-entry%5C%22%3ECvetkovi%26%23x107%3B%2C%20Tijana%2C%20Fabiola%20Areces-Berazain%2C%20Damien%20D%20Hinsinger%2C%20Daniel%20C%20Thomas%2C%20Jan%20J%20Wieringa%2C%20Santhana%20K%20Ganesan%2C%20and%20Joeri%20S%20Strijk.%20%26%23x201C%3BPhylogenomics%20Resolves%20Deep%20Subfamilial%20Relationships%20in%20Malvaceae%20s.l.%26%23x201D%3B%20%3Ci%3EG3%20Genes%7CGenomes%7CGenetics%3C%5C%2Fi%3E%2C%20no.%20jkab136%20%28April%2023%2C%202021%29.%20%3Ca%20href%3D%27https%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1093%5C%2Fg3journal%5C%2Fjkab136%27%3Ehttps%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1093%5C%2Fg3journal%5C%2Fjkab136%3C%5C%2Fa%3E.%3C%5C%2Fdiv%3E%5Cn%3C%5C%2Fdiv%3E%22%2C%22data%22%3A%7B%22itemType%22%3A%22journalArticle%22%2C%22title%22%3A%22Phylogenomics%20resolves%20deep%20subfamilial%20relationships%20in%20Malvaceae%20s.l.%22%2C%22creators%22%3A%5B%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Tijana%22%2C%22lastName%22%3A%22Cvetkovi%5Cu0107%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Fabiola%22%2C%22lastName%22%3A%22Areces-Berazain%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Damien%20D%22%2C%22lastName%22%3A%22Hinsinger%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Daniel%20C%22%2C%22lastName%22%3A%22Thomas%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Jan%20J%22%2C%22lastName%22%3A%22Wieringa%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Santhana%20K%22%2C%22lastName%22%3A%22Ganesan%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Joeri%20S%22%2C%22lastName%22%3A%22Strijk%22%7D%5D%2C%22abstractNote%22%3A%22Malvaceae%20s.l.%2C%20the%20most%20diverse%20family%20within%20Malvales%2C%20includes%20well-known%20species%20of%20great%20economic%20importance%20like%20cotton%2C%20cacao%2C%20and%20durian.%20Despite%20numerous%20phylogenetic%20analyses%20employing%20multiple%20markers%2C%20relationships%20between%20several%20of%20its%20nine%20subfamilies%2C%20particularly%20within%20the%20largest%20lineage%5C%2FMalvadendrina%2C%20remain%20unclear.%20In%20this%20study%2C%20we%20attempted%20to%20resolve%20the%20relationships%20within%20the%20major%20clades%20of%20Malvaceae%20s.l.%20using%20plastid%20genomes%20of%2048%20accessions%20representing%20all%20subfamilies.%20Maximum%20likelihood%20and%20Bayesian%20analyses%20recovered%20a%20fully%20resolved%20and%20well-supported%20topology%20confirming%20the%20split%20of%20the%20family%20into%5C%2FByttneriina%20%28%5C%2FGrewioideae%20%2B%5C%2FByttnerioideae%29%20and%5C%2FMalvadendrina.%20Within%5C%2FMalvadendrina%2C%5C%2FHelicteroideae%20occupied%20the%20earliest%20branching%20position%2C%20followed%20by%5C%2FSterculioideae.%5C%2FBrownlowioideae%2C%5C%2FTiliodeae%2C%20and%5C%2FDombeyoideae%20formed%20a%20clade%20sister%20to%5C%2FMalvatheca%20%28%5C%2FMalvoideae%20%2B%5C%2FBombacoideae%29%2C%20a%20grouping%20morphologically%20supported%20by%20the%20lack%20of%20androgynophore.%20Results%20from%20dating%20analyses%20suggest%20that%20all%20subfamilies%20originated%20during%20hot%20or%20warm%20phases%20in%20the%20Late%20Cretaceous%20to%20Paleocene.%20This%20study%20presents%20a%20well-supported%20phylogenetic%20framework%20for%20Malvaceae%20s.l.%20that%20will%20aid%20downstream%20revisions%20and%20evolutionary%20studies%20of%20this%20economically%20important%20plant%20family.%22%2C%22date%22%3A%22April%2023%2C%202021%22%2C%22language%22%3A%22%22%2C%22DOI%22%3A%2210.1093%5C%2Fg3journal%5C%2Fjkab136%22%2C%22ISSN%22%3A%222160-1836%22%2C%22url%22%3A%22https%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1093%5C%2Fg3journal%5C%2Fjkab136%22%2C%22collections%22%3A%5B%22XPSUL9AV%22%2C%22RRNEBR5Y%22%5D%2C%22dateModified%22%3A%222023-03-07T02%3A51%3A48Z%22%7D%7D%2C%7B%22key%22%3A%22YEZZHPYQ%22%2C%22library%22%3A%7B%22id%22%3A6039319%7D%2C%22meta%22%3A%7B%22creatorSummary%22%3A%22Das%20et%20al.%22%2C%22parsedDate%22%3A%222021-04-21%22%2C%22numChildren%22%3A0%7D%2C%22bib%22%3A%22%3Cdiv%20class%3D%5C%22csl-bib-body%5C%22%20style%3D%5C%22line-height%3A%201.35%3B%20padding-left%3A%201em%3B%20text-indent%3A-1em%3B%5C%22%3E%5Cn%20%20%3Cdiv%20class%3D%5C%22csl-entry%5C%22%3EDas%2C%20Indraneil%2C%20Hans%20P.%20Hazebroek%2C%20and%20T.%20Ulmar%20Grafe.%20%26%23x201C%3B%3Ci%3ELeptomantis%20Fasciatus%3C%5C%2Fi%3E%20%28Boulenger%2C%201895%29%20as%20a%20Possible%20Nuptial%20Gift%20Offered%20by%20a%20Male%20Raffles%26%23x2019%3Bs%20Malkoha%2C%20%3Ci%3ERhinortha%20Chlorophaea%20%3C%5C%2Fi%3E%28Raffles%2C%201822%29.%26%23x201D%3B%20%3Ci%3EHerpetology%20Notes%3C%5C%2Fi%3E%2014%20%28April%2021%2C%202021%29%3A%20713%26%23x2013%3B16.%20%3Ca%20href%3D%27https%3A%5C%2F%5C%2Fwww.biotaxa.org%5C%2Fhn%5C%2Farticle%5C%2Fview%5C%2F67579%27%3Ehttps%3A%5C%2F%5C%2Fwww.biotaxa.org%5C%2Fhn%5C%2Farticle%5C%2Fview%5C%2F67579%3C%5C%2Fa%3E.%3C%5C%2Fdiv%3E%5Cn%3C%5C%2Fdiv%3E%22%2C%22data%22%3A%7B%22itemType%22%3A%22journalArticle%22%2C%22title%22%3A%22%3Ci%3ELeptomantis%20fasciatus%3C%5C%2Fi%3E%20%28Boulenger%2C%201895%29%20as%20a%20possible%20nuptial%20gift%20offered%20by%20a%20male%20Raffles%5Cu2019s%20Malkoha%2C%20%3Ci%3ERhinortha%20chlorophaea%20%3C%5C%2Fi%3E%28Raffles%2C%201822%29%22%2C%22creators%22%3A%5B%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Indraneil%22%2C%22lastName%22%3A%22Das%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Hans%20P.%22%2C%22lastName%22%3A%22Hazebroek%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22T.%20Ulmar%22%2C%22lastName%22%3A%22Grafe%22%7D%5D%2C%22abstractNote%22%3A%22%22%2C%22date%22%3A%222021-04-21%22%2C%22language%22%3A%22en%22%2C%22DOI%22%3A%22%22%2C%22ISSN%22%3A%222071-5773%22%2C%22url%22%3A%22https%3A%5C%2F%5C%2Fwww.biotaxa.org%5C%2Fhn%5C%2Farticle%5C%2Fview%5C%2F67579%22%2C%22collections%22%3A%5B%22XPSUL9AV%22%5D%2C%22dateModified%22%3A%222021-11-20T05%3A54%3A14Z%22%7D%7D%2C%7B%22key%22%3A%22EB5P78BE%22%2C%22library%22%3A%7B%22id%22%3A6039319%7D%2C%22meta%22%3A%7B%22creatorSummary%22%3A%22Davies%20et%20al.%22%2C%22parsedDate%22%3A%222021%22%2C%22numChildren%22%3A2%7D%2C%22bib%22%3A%22%3Cdiv%20class%3D%5C%22csl-bib-body%5C%22%20style%3D%5C%22line-height%3A%201.35%3B%20padding-left%3A%201em%3B%20text-indent%3A-1em%3B%5C%22%3E%5Cn%20%20%3Cdiv%20class%3D%5C%22csl-entry%5C%22%3EDavies%2C%20Stuart%20J.%2C%20Iveren%20Abiem%2C%20Kamariah%20Abu%20Salim%2C%20Salom%26%23xF3%3Bn%20Aguilar%2C%20David%20Allen%2C%20Alfonso%20Alonso%2C%20Kristina%20Anderson-Teixeira%2C%20et%20al.%20%26%23x201C%3BForestGEO%3A%20Understanding%20Forest%20Diversity%20and%20Dynamics%20through%20a%20Global%20Observatory%20Network.%26%23x201D%3B%20%3Ci%3EBiological%20Conservation%3C%5C%2Fi%3E%20253%20%282021%29%3A%20108907.%20%3Ca%20href%3D%27https%3A%5C%2F%5C%2Fdoi.org%5C%2F10%5C%2Fght33s%27%3Ehttps%3A%5C%2F%5C%2Fdoi.org%5C%2F10%5C%2Fght33s%3C%5C%2Fa%3E.%3C%5C%2Fdiv%3E%5Cn%3C%5C%2Fdiv%3E%22%2C%22data%22%3A%7B%22itemType%22%3A%22journalArticle%22%2C%22title%22%3A%22ForestGEO%3A%20Understanding%20forest%20diversity%20and%20dynamics%20through%20a%20global%20observatory%20network%22%2C%22creators%22%3A%5B%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Stuart%20J.%22%2C%22lastName%22%3A%22Davies%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Iveren%22%2C%22lastName%22%3A%22Abiem%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Kamariah%22%2C%22lastName%22%3A%22Abu%20Salim%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Salom%5Cu00f3n%22%2C%22lastName%22%3A%22Aguilar%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22David%22%2C%22lastName%22%3A%22Allen%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Alfonso%22%2C%22lastName%22%3A%22Alonso%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Kristina%22%2C%22lastName%22%3A%22Anderson-Teixeira%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Ana%22%2C%22lastName%22%3A%22Andrade%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Gabriel%22%2C%22lastName%22%3A%22Arellano%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Peter%20S.%22%2C%22lastName%22%3A%22Ashton%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Patrick%20J.%22%2C%22lastName%22%3A%22Baker%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Matthew%20E.%22%2C%22lastName%22%3A%22Baker%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Jennifer%20L.%22%2C%22lastName%22%3A%22Baltzer%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Yves%22%2C%22lastName%22%3A%22Basset%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Pulch%5Cu00e9rie%22%2C%22lastName%22%3A%22Bissiengou%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Stephanie%22%2C%22lastName%22%3A%22Bohlman%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Norman%20A.%22%2C%22lastName%22%3A%22Bourg%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Warren%20Y.%22%2C%22lastName%22%3A%22Brockelman%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Sarayudh%22%2C%22lastName%22%3A%22Bunyavejchewin%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22David%20F.%20R.%20P.%22%2C%22lastName%22%3A%22Burslem%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Min%22%2C%22lastName%22%3A%22Cao%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Dairon%22%2C%22lastName%22%3A%22C%5Cu00e1rdenas%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Li-Wan%22%2C%22lastName%22%3A%22Chang%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Chia-Hao%22%2C%22lastName%22%3A%22Chang-Yang%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Kuo-Jung%22%2C%22lastName%22%3A%22Chao%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Wei-Chun%22%2C%22lastName%22%3A%22Chao%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Hazel%22%2C%22lastName%22%3A%22Chapman%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Yu-Yun%22%2C%22lastName%22%3A%22Chen%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Ryan%20A.%22%2C%22lastName%22%3A%22Chisholm%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Chengjin%22%2C%22lastName%22%3A%22Chu%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22George%22%2C%22lastName%22%3A%22Chuyong%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Keith%22%2C%22lastName%22%3A%22Clay%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Liza%20S.%22%2C%22lastName%22%3A%22Comita%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Richard%22%2C%22lastName%22%3A%22Condit%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Susan%22%2C%22lastName%22%3A%22Cordell%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Handanakere%20S.%22%2C%22lastName%22%3A%22Dattaraja%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Alexandre%20Adalardo%22%2C%22lastName%22%3A%22de%20Oliveira%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Jan%22%2C%22lastName%22%3A%22den%20Ouden%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Matteo%22%2C%22lastName%22%3A%22Detto%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Christopher%22%2C%22lastName%22%3A%22Dick%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Xiaojun%22%2C%22lastName%22%3A%22Du%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22%5Cu00c1lvaro%22%2C%22lastName%22%3A%22Duque%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Sisira%22%2C%22lastName%22%3A%22Ediriweera%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Erle%20C.%22%2C%22lastName%22%3A%22Ellis%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Nestor%20Laurier%20Engone%22%2C%22lastName%22%3A%22Obiang%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Shameema%22%2C%22lastName%22%3A%22Esufali%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Corneille%20E.%20N.%22%2C%22lastName%22%3A%22Ewango%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Edwino%20S.%22%2C%22lastName%22%3A%22Fernando%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Jonah%22%2C%22lastName%22%3A%22Filip%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Gunter%20A.%22%2C%22lastName%22%3A%22Fischer%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Robin%22%2C%22lastName%22%3A%22Foster%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Thomas%22%2C%22lastName%22%3A%22Giambelluca%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Christian%22%2C%22lastName%22%3A%22Giardina%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Gregory%20S.%22%2C%22lastName%22%3A%22Gilbert%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Erika%22%2C%22lastName%22%3A%22Gonzalez-Akre%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22I.%20A.%20U.%20N.%22%2C%22lastName%22%3A%22Gunatilleke%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22C.%20V.%20S.%22%2C%22lastName%22%3A%22Gunatilleke%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Zhanqing%22%2C%22lastName%22%3A%22Hao%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Billy%20C.%20H.%22%2C%22lastName%22%3A%22Hau%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Fangliang%22%2C%22lastName%22%3A%22He%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Hongwei%22%2C%22lastName%22%3A%22Ni%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Robert%20W.%22%2C%22lastName%22%3A%22Howe%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Stephen%20P.%22%2C%22lastName%22%3A%22Hubbell%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Andreas%22%2C%22lastName%22%3A%22Huth%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Faith%22%2C%22lastName%22%3A%22Inman-Narahari%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Akira%22%2C%22lastName%22%3A%22Itoh%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22David%22%2C%22lastName%22%3A%22Jan%5Cu00edk%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Patrick%20A.%22%2C%22lastName%22%3A%22Jansen%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Mingxi%22%2C%22lastName%22%3A%22Jiang%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Daniel%20J.%22%2C%22lastName%22%3A%22Johnson%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22F.%20Andrew%22%2C%22lastName%22%3A%22Jones%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Mamoru%22%2C%22lastName%22%3A%22Kanzaki%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22David%22%2C%22lastName%22%3A%22Kenfack%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Somboon%22%2C%22lastName%22%3A%22Kiratiprayoon%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Kamil%22%2C%22lastName%22%3A%22Kr%5Cu00e1l%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Lauren%22%2C%22lastName%22%3A%22Krizel%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Suzanne%22%2C%22lastName%22%3A%22Lao%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Andrew%20J.%22%2C%22lastName%22%3A%22Larson%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Yide%22%2C%22lastName%22%3A%22Li%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Xiankun%22%2C%22lastName%22%3A%22Li%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Creighton%20M.%22%2C%22lastName%22%3A%22Litton%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Yu%22%2C%22lastName%22%3A%22Liu%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Shirong%22%2C%22lastName%22%3A%22Liu%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Shawn%20K.%20Y.%22%2C%22lastName%22%3A%22Lum%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Matthew%20S.%22%2C%22lastName%22%3A%22Luskin%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22James%20A.%22%2C%22lastName%22%3A%22Lutz%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Hong%20Truong%22%2C%22lastName%22%3A%22Luu%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Keping%22%2C%22lastName%22%3A%22Ma%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Jean-Remy%22%2C%22lastName%22%3A%22Makana%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Yadvinder%22%2C%22lastName%22%3A%22Malhi%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Adam%22%2C%22lastName%22%3A%22Martin%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Caly%22%2C%22lastName%22%3A%22McCarthy%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Sean%20M.%22%2C%22lastName%22%3A%22McMahon%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22William%20J.%22%2C%22lastName%22%3A%22McShea%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Herv%5Cu00e9%22%2C%22lastName%22%3A%22Memiaghe%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Xiangcheng%22%2C%22lastName%22%3A%22Mi%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22David%22%2C%22lastName%22%3A%22Mitre%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Mohizah%22%2C%22lastName%22%3A%22Mohamad%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Logan%22%2C%22lastName%22%3A%22Monks%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Helene%20C.%22%2C%22lastName%22%3A%22Muller-Landau%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Paul%20M.%22%2C%22lastName%22%3A%22Musili%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Jonathan%20A.%22%2C%22lastName%22%3A%22Myers%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Anuttara%22%2C%22lastName%22%3A%22Nathalang%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Kang%20Min%22%2C%22lastName%22%3A%22Ngo%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Natalia%22%2C%22lastName%22%3A%22Norden%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Vojtech%22%2C%22lastName%22%3A%22Novotny%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Michael%20J.%22%2C%22lastName%22%3A%22O%27Brien%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22David%22%2C%22lastName%22%3A%22Orwig%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Rebecca%22%2C%22lastName%22%3A%22Ostertag%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Konstantinos%22%2C%22lastName%22%3A%22Papathanassiou%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Geoffrey%20G.%22%2C%22lastName%22%3A%22Parker%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Rolando%22%2C%22lastName%22%3A%22P%5Cu00e9rez%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Ivette%22%2C%22lastName%22%3A%22Perfecto%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Richard%20P.%22%2C%22lastName%22%3A%22Phillips%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Nantachai%22%2C%22lastName%22%3A%22Pongpattananurak%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Hans%22%2C%22lastName%22%3A%22Pretzsch%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Haibo%22%2C%22lastName%22%3A%22Ren%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Glen%22%2C%22lastName%22%3A%22Reynolds%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Lillian%20J.%22%2C%22lastName%22%3A%22Rodriguez%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Sabrina%20E.%22%2C%22lastName%22%3A%22Russo%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Lawren%22%2C%22lastName%22%3A%22Sack%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Weiguo%22%2C%22lastName%22%3A%22Sang%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Jessica%22%2C%22lastName%22%3A%22Shue%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Anudeep%22%2C%22lastName%22%3A%22Singh%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Guo-Zhang%20M.%22%2C%22lastName%22%3A%22Song%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Raman%22%2C%22lastName%22%3A%22Sukumar%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22I-Fang%22%2C%22lastName%22%3A%22Sun%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Hebbalalu%20S.%22%2C%22lastName%22%3A%22Suresh%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Nathan%20G.%22%2C%22lastName%22%3A%22Swenson%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Sylvester%22%2C%22lastName%22%3A%22Tan%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Sean%20C.%22%2C%22lastName%22%3A%22Thomas%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Duncan%22%2C%22lastName%22%3A%22Thomas%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Jill%22%2C%22lastName%22%3A%22Thompson%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Benjamin%20L.%22%2C%22lastName%22%3A%22Turner%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Amanda%22%2C%22lastName%22%3A%22Uowolo%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Mar%5Cu00eda%22%2C%22lastName%22%3A%22Uriarte%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Renato%22%2C%22lastName%22%3A%22Valencia%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22John%22%2C%22lastName%22%3A%22Vandermeer%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Alberto%22%2C%22lastName%22%3A%22Vicentini%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Marco%22%2C%22lastName%22%3A%22Visser%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Tomas%22%2C%22lastName%22%3A%22Vrska%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Xugao%22%2C%22lastName%22%3A%22Wang%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Xihua%22%2C%22lastName%22%3A%22Wang%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22George%20D.%22%2C%22lastName%22%3A%22Weiblen%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Timothy%20J.%20S.%22%2C%22lastName%22%3A%22Whitfeld%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Amy%22%2C%22lastName%22%3A%22Wolf%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22S.%20Joseph%22%2C%22lastName%22%3A%22Wright%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Han%22%2C%22lastName%22%3A%22Xu%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Tze%20Leong%22%2C%22lastName%22%3A%22Yao%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Sandra%20L.%22%2C%22lastName%22%3A%22Yap%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Wanhui%22%2C%22lastName%22%3A%22Ye%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Mingjian%22%2C%22lastName%22%3A%22Yu%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Minhua%22%2C%22lastName%22%3A%22Zhang%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Daoguang%22%2C%22lastName%22%3A%22Zhu%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Li%22%2C%22lastName%22%3A%22Zhu%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Jess%20K.%22%2C%22lastName%22%3A%22Zimmerman%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Daniel%22%2C%22lastName%22%3A%22Zuleta%22%7D%5D%2C%22abstractNote%22%3A%22ForestGEO%20is%20a%20network%20of%20scientists%20and%20long-term%20forest%20dynamics%20plots%20%28FDPs%29%20spanning%20the%20Earth%27s%20major%20forest%20types.%20ForestGEO%27s%20mission%20is%20to%20advance%20understanding%20of%20the%20diversity%20and%20dynamics%20of%20forests%20and%20to%20strengthen%20global%20capacity%20for%20forest%20science%20research.%20ForestGEO%20is%20unique%20among%20forest%20plot%20networks%20in%20its%20large-scale%20plot%20dimensions%2C%20censusing%20of%20all%20stems%20%5Cu22651%5Cu00a0cm%20in%20diameter%2C%20inclusion%20of%20tropical%2C%20temperate%20and%20boreal%20forests%2C%20and%20investigation%20of%20additional%20biotic%20%28e.g.%2C%20arthropods%29%20and%20abiotic%20%28e.g.%2C%20soils%29%20drivers%2C%20which%20together%20provide%20a%20holistic%20view%20of%20forest%20functioning.%20The%2071%20FDPs%20in%2027%20countries%20include%20approximately%207.33%20million%20living%20trees%20and%20about%2012%2C000%20species%2C%20representing%2020%25%20of%20the%20world%27s%20known%20tree%20diversity.%20With%20%3E1300%20published%20papers%2C%20ForestGEO%20researchers%20have%20made%20significant%20contributions%20in%20two%20fundamental%20areas%3A%20species%20coexistence%20and%20diversity%2C%20and%20ecosystem%20functioning.%20Specifically%2C%20defining%20the%20major%20biotic%20and%20abiotic%20controls%20on%20the%20distribution%20and%20coexistence%20of%20species%20and%20functional%20types%20and%20on%20variation%20in%20species%27%20demography%20has%20led%20to%20improved%20understanding%20of%20how%20the%20multiple%20dimensions%20of%20forest%20diversity%20are%20structured%20across%20space%20and%20time%20and%20how%20this%20diversity%20relates%20to%20the%20processes%20controlling%20the%20role%20of%20forests%20in%20the%20Earth%20system.%20Nevertheless%2C%20knowledge%20gaps%20remain%20that%20impede%20our%20ability%20to%20predict%20how%20forest%20diversity%20and%20function%20will%20respond%20to%20climate%20change%20and%20other%20stressors.%20Meeting%20these%20global%20research%20challenges%20requires%20major%20advances%20in%20standardizing%20taxonomy%20of%20tropical%20species%2C%20resolving%20the%20main%20drivers%20of%20forest%20dynamics%2C%20and%20integrating%20plot-based%20ground%20and%20remote%20sensing%20observations%20to%20scale%20up%20estimates%20of%20forest%20diversity%20and%20function%2C%20coupled%20with%20improved%20predictive%20models.%20However%2C%20they%20cannot%20be%20met%20without%20greater%20financial%20commitment%20to%20sustain%20the%20long-term%20research%20of%20ForestGEO%20and%20other%20forest%20plot%20networks%2C%20greatly%20expanded%20scientific%20capacity%20across%20the%20world%27s%20forested%20nations%2C%20and%20increased%20collaboration%20and%20integration%20among%20research%20networks%20and%20disciplines%20addressing%20forest%20science.%22%2C%22date%22%3A%222021%22%2C%22language%22%3A%22en%22%2C%22DOI%22%3A%2210%5C%2Fght33s%22%2C%22ISSN%22%3A%220006-3207%22%2C%22url%22%3A%22http%3A%5C%2F%5C%2Fwww.sciencedirect.com%5C%2Fscience%5C%2Farticle%5C%2Fpii%5C%2FS0006320720309654%22%2C%22collections%22%3A%5B%22XPSUL9AV%22%5D%2C%22dateModified%22%3A%222021-01-23T00%3A27%3A34Z%22%7D%7D%2C%7B%22key%22%3A%22QTF22RUY%22%2C%22library%22%3A%7B%22id%22%3A6039319%7D%2C%22meta%22%3A%7B%22creatorSummary%22%3A%22Dk%20Nurun%20Najeebah%20Az-Zahra%20Pg%20Md%20Tashim%20%28last%29%20et%20al.%22%2C%22parsedDate%22%3A%222021-09-30%22%2C%22numChildren%22%3A0%7D%2C%22bib%22%3A%22%3Cdiv%20class%3D%5C%22csl-bib-body%5C%22%20style%3D%5C%22line-height%3A%201.35%3B%20padding-left%3A%201em%3B%20text-indent%3A-1em%3B%5C%22%3E%5Cn%20%20%3Cdiv%20class%3D%5C%22csl-entry%5C%22%3EDk%20Nurun%20Najeebah%20Az-Zahra%20Pg%20Md%20Tashim%20%28last%29%2C%20Rahayu%20Sukmaria%20Sukri%2C%20Salwana%20Jaafar%2C%20and%20Faizah%20Metali.%20%26%23x201C%3BAllelopathic%20Effects%20of%20%3Ci%3EMangifera%20Indica%3C%5C%2Fi%3E%20Leaves%20on%20the%20Growth%20Performance%20of%20%3Ci%3EBrassica%20Rapa%3C%5C%2Fi%3E%20%26%23x2018%3BChinensis%26%23x2019%3B%20%28Pak%20Choi%29.%26%23x201D%3B%20%3Ci%3EResearch%20on%20Crops%3C%5C%2Fi%3E%2022%2C%20no.%203%20%28September%2030%2C%202021%29%3A%20564%26%23x2013%3B75.%20%3Ca%20href%3D%27https%3A%5C%2F%5C%2Fdoi.org%5C%2F10.31830%5C%2F2348-7542.2021.104%27%3Ehttps%3A%5C%2F%5C%2Fdoi.org%5C%2F10.31830%5C%2F2348-7542.2021.104%3C%5C%2Fa%3E.%3C%5C%2Fdiv%3E%5Cn%3C%5C%2Fdiv%3E%22%2C%22data%22%3A%7B%22itemType%22%3A%22journalArticle%22%2C%22title%22%3A%22Allelopathic%20effects%20of%20%3Ci%3EMangifera%20indica%3C%5C%2Fi%3E%20leaves%20on%20the%20growth%20performance%20of%20%3Ci%3EBrassica%20rapa%3C%5C%2Fi%3E%20%5Cu2018Chinensis%5Cu2019%20%28Pak%20choi%29%22%2C%22creators%22%3A%5B%7B%22creatorType%22%3A%22author%22%2C%22name%22%3A%22Dk%20Nurun%20Najeebah%20Az-Zahra%20Pg%20Md%20Tashim%20%28last%29%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Rahayu%20Sukmaria%22%2C%22lastName%22%3A%22Sukri%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Salwana%22%2C%22lastName%22%3A%22Jaafar%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Faizah%22%2C%22lastName%22%3A%22Metali%22%7D%5D%2C%22abstractNote%22%3A%22Mangoes%20are%20a%20popular%20home%20garden%20crop%20in%20Brunei%20Darussalam%2C%20and%20their%20leaf%20litter%20is%20often%20used%20as%20compost%2C%20which%20is%20an%20environmentally%20friendly%20approach%20to%20manage%20organic%20waste.%20This%20study%20was%20conducted%20in%202018%20at%20Universiti%20Brunei%20Darussalam%20to%20investigate%20the%20allelopathic%20effects%20of%20mango%20leaves%20on%20the%20growth%20of%20a%20leafy%20vegetable%2C%20Pak%20choi.%20Powdered%20and%20aqueous%20extract%20of%20mango%20leaves%20at%20various%20mango%20leaf%20concentrations%20%280%5Cu201330%25%29%20were%20prepared%20and%20mixed%20with%20potted%20soils.%20Seedling%20survival%2C%20number%20of%20leaves%20and%20relative%20growth%20rates%20%28based%20on%20stem%20diameter%20and%20shoot%20height%29%20of%20Pak%20choi%20was%20not%20significantly%20affected%20by%20mango%20leaf%20treatment%20types%20and%20concentrations.%20Irrespective%20of%20mango%20leaf%20treatment%20types%20%28powder%20vs.%20aqueous%20extract%29%2C%20biomass%20allocations%20to%20leaves%20%28LMR%29%20and%20roots%20%28RMR%29%2C%20but%20not%20stems%20%28SMR%29%2C%20were%20significantly%20inhibited%20at%2010%25%20and%2020%25%20mango%20leaf%20concentrations%2C%20respectively.%20However%2C%20stimulation%20in%20LMR%20and%20RMR%20of%20Pak%20choi%20was%20significantly%20observed%20in%20the%20opposite%20mango%20leaf%20concentrations.%20The%20aqueous%20mango%20leaf%20extract%20significantly%20stimulated%20specific%20leaf%20area%20%28SLA%29%20of%20Pak%20choi%2C%20suggesting%20that%20it%20probably%20contain%20less%20potent%20allelochemicals%20compared%20to%20the%20leaf%20powder%2C%20which%20inhibited%20SLA%20by%20almost%20100%25.%20Number%20of%20leaves%20and%20relative%20growth%20rates%20of%20Pak%20choi%20were%20not%20significantly%20affected%20by%20mango%20leaves.%20The%20findings%20suggest%20that%20aqueous%20mango%20leaf%20extracts%20at%2020%25%20could%20possibly%20be%20used%20in%20a%20sustainable%20organic%20leafy%20vegetable%20farming%20due%20to%20its%20growth%20stimulation%20in%20LMR%20and%20SLA.%20However%2C%20further%20research%20on%20other%20leafy%20vegetables%20and%20in%20field%20conditions%20are%20necessary%20due%20to%20the%20inhibitory%20allelopathic%20potentials%20of%20mango%20leaves.%22%2C%22date%22%3A%222021-09-30%22%2C%22language%22%3A%22%22%2C%22DOI%22%3A%2210.31830%5C%2F2348-7542.2021.104%22%2C%22ISSN%22%3A%2209723226%2C%2023487542%22%2C%22url%22%3A%22http%3A%5C%2F%5C%2Fwww.indianjournals.com%5C%2Fijor.aspx%3Ftarget%3Dijor%3Arcr%26volume%3D22%26issue%3D3%26article%3D014%22%2C%22collections%22%3A%5B%22XPSUL9AV%22%2C%22RRNEBR5Y%22%5D%2C%22dateModified%22%3A%222021-11-30T03%3A30%3A44Z%22%7D%7D%2C%7B%22key%22%3A%225MAYW3S3%22%2C%22library%22%3A%7B%22id%22%3A6039319%7D%2C%22meta%22%3A%7B%22creatorSummary%22%3A%22Hazirah%20Matusin%20et%20al.%22%2C%22parsedDate%22%3A%222021%22%2C%22numChildren%22%3A1%7D%2C%22bib%22%3A%22%3Cdiv%20class%3D%5C%22csl-bib-body%5C%22%20style%3D%5C%22line-height%3A%201.35%3B%20padding-left%3A%201em%3B%20text-indent%3A-1em%3B%5C%22%3E%5Cn%20%20%3Cdiv%20class%3D%5C%22csl-entry%5C%22%3EHazirah%20Matusin%2C%20Amal%2C%20May%20Poh%20Yik%20Goh%2C%20and%20Norhayati%20Ahmad.%20%26%23x201C%3BThe%20Antidiabetic%20and%20Protective%20Effects%20of%20the%20Methanolic%20Leaf%20Extract%20of%20A.%20Borneensis%20in%20Alloxan-Induced%20Diabetic%20Rats.%26%23x201D%3B%20%3Ci%3EPharmaceutical%20Sciences%20Asia%3C%5C%2Fi%3E%2048%2C%20no.%206%20%282021%29%3A%20506%26%23x2013%3B15.%20%3Ca%20href%3D%27https%3A%5C%2F%5C%2Fdoi.org%5C%2F10.29090%5C%2Fpsa.2021.06.21.047%27%3Ehttps%3A%5C%2F%5C%2Fdoi.org%5C%2F10.29090%5C%2Fpsa.2021.06.21.047%3C%5C%2Fa%3E.%3C%5C%2Fdiv%3E%5Cn%3C%5C%2Fdiv%3E%22%2C%22data%22%3A%7B%22itemType%22%3A%22journalArticle%22%2C%22title%22%3A%22The%20antidiabetic%20and%20protective%20effects%20of%20the%20methanolic%20leaf%20extract%20of%20A.%20borneensis%20in%20alloxan-induced%20diabetic%20rats%22%2C%22creators%22%3A%5B%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Amal%22%2C%22lastName%22%3A%22Hazirah%20Matusin%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22May%22%2C%22lastName%22%3A%22Poh%20Yik%20Goh%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Norhayati%22%2C%22lastName%22%3A%22Ahmad%22%7D%5D%2C%22abstractNote%22%3A%22Aidia%20borneensis%20or%20locally%20known%20as%20%5Cu201csambah%20bagangan%5Cu201d%20is%20consumed%20as%20herbal%20tea%20in%20Brunei%20Darussalam%20and%20has%20been%20claimed%20to%20provide%20several%20health%20benefits.%20Our%20study%20was%20conducted%20to%20determine%20antidiabetic%20and%20protective%20effects%20of%20the%20methanolic%20extracts%20of%20A.%20borneensis%20followed%20by%20a%20histopathological%20evaluation%20of%20the%20pancreatic%20islets%20regeneration%20in%20response%20to%20the%20treatments.%20The%20study%20was%20conducted%20on%20male%20Wistar%20rats%2C%20aged%208-10%20weeks%20where%20diabetes%20was%20induced%20via%20a%20single%20intraperitoneal%20injection%20of%20alloxan%20at%20120%20mg%5C%2Fkg%20body%20weight%20%28b.w.%29.%20The%20rats%20were%20then%20treated%20with%20a%20low%20dose%20%28LD%29%20of%20250%20mg%5C%2Fkg%20b.w.%20or%20a%20high%20dose%20%28HD%29%20of%20500%20mg%5C%2Fkg%20b.w.%20of%20the%20A.%20borneensis%20extract%20pre-%20or%20post-alloxan%20administration%20followed%20by%20evaluation%20of%20blood%20glucose%20levels%20and%20histological%20evaluation%20of%20the%20pancreatic%20islets%20over%20a%2012-week%20experimental%20period.%20The%20intraperitoneal%20glucose%20tolerance%20test%20for%20the%20treated%20animals%20was%20also%20carried%20out.%20Our%20results%20report%20a%20significant%20reduction%20in%20the%20blood%20glucose%20concentration%20and%20increase%20in%20ratio%20of%20islets%20to%20tissue%20size%20observed%20in%20diabetic%20rats%20from%20both%20low%20dose%20and%20high%20dose%20treated%20groups%20compared%20to%20the%20control%20animals%20%28p%3C0.05%29.%20Improvement%20of%20islet%20morphology%20was%20evident%20in%20the%20treated%20animals.%20Similar%20patterns%20of%20increased%20islet%20to%20tissue%20size%20ratios%20were%20also%20observed%20in%20the%20protective%20group%20which%20received%20pre-treatment%20of%20the%20extracts%20prior%20to%20diabetes%20induction.%20Overall%2C%20the%20present%20study%20shows%20that%20methanolic%20extract%20of%20the%20A.%20borneensis%20leaf%20exhibited%20apparent%20antidiabetic%20and%20protective%20effects%20on%20alloxan-induced%20diabetic%20rats.%22%2C%22date%22%3A%222021%22%2C%22language%22%3A%22en%22%2C%22DOI%22%3A%2210.29090%5C%2Fpsa.2021.06.21.047%22%2C%22ISSN%22%3A%2225868195%2C%2025868470%22%2C%22url%22%3A%22https%3A%5C%2F%5C%2Fpharmacy.mahidol.ac.th%5C%2Fjournal%5C%2Fjournalabstract.php%3Fjvol%3D48%26jpart%3D6%26jconnum%3D2%22%2C%22collections%22%3A%5B%22XPSUL9AV%22%2C%22RRNEBR5Y%22%5D%2C%22dateModified%22%3A%222021-11-30T03%3A28%3A32Z%22%7D%7D%2C%7B%22key%22%3A%222CR49H29%22%2C%22library%22%3A%7B%22id%22%3A6039319%7D%2C%22meta%22%3A%7B%22creatorSummary%22%3A%22Ibrahim%20et%20al.%22%2C%22parsedDate%22%3A%222021-08-23%22%2C%22numChildren%22%3A0%7D%2C%22bib%22%3A%22%3Cdiv%20class%3D%5C%22csl-bib-body%5C%22%20style%3D%5C%22line-height%3A%201.35%3B%20padding-left%3A%201em%3B%20text-indent%3A-1em%3B%5C%22%3E%5Cn%20%20%3Cdiv%20class%3D%5C%22csl-entry%5C%22%3EIbrahim%2C%20Mohamad%20Hilmi%2C%20Faizah%20Metali%2C%20Kushan%20U%20Tennakoon%2C%20and%20Rahayu%20Sukmaria%20Sukri.%20%26%23x201C%3BImpacts%20of%20Invasive%20Acacias%20on%20Ion%20Deposition%20in%20a%20Coastal%20Bornean%20Tropical%20Heath%20Forest.%26%23x201D%3B%20%3Ci%3EJournal%20of%20Forest%20Research%3C%5C%2Fi%3E%200%2C%20no.%200%20%28August%2023%2C%202021%29%3A%201%26%23x2013%3B8.%20%3Ca%20href%3D%27https%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1080%5C%2F13416979.2021.1965700%27%3Ehttps%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1080%5C%2F13416979.2021.1965700%3C%5C%2Fa%3E.%3C%5C%2Fdiv%3E%5Cn%3C%5C%2Fdiv%3E%22%2C%22data%22%3A%7B%22itemType%22%3A%22journalArticle%22%2C%22title%22%3A%22Impacts%20of%20invasive%20Acacias%20on%20ion%20deposition%20in%20a%20coastal%20Bornean%20tropical%20heath%20forest%22%2C%22creators%22%3A%5B%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Mohamad%20Hilmi%22%2C%22lastName%22%3A%22Ibrahim%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Faizah%22%2C%22lastName%22%3A%22Metali%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Kushan%22%2C%22lastName%22%3A%22U%20Tennakoon%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Rahayu%20Sukmaria%22%2C%22lastName%22%3A%22Sukri%22%7D%5D%2C%22abstractNote%22%3A%22The%20uncontrolled%20invasive%20spread%20of%20exotic%20Acacias%20is%20a%20growing%20concern%20for%20many%20tropical%20ecosystems%2C%20particularly%20due%20to%20their%20negative%20impact%20upon%20nutrient%20cycling.%20Studies%20investigating%20the%20effects%20of%20Acacia%20invasion%20on%20nutrient%20cycling%20have%20focused%20on%20litterfall%20and%20litter%20decomposition%2C%20although%20its%20impact%20on%20ion%20deposition%20in%20tropical%20ecosystems%20is%20less%20understood.%20We%20quantified%20and%20compared%20the%20rates%20of%20ion%20deposition%20%28Ca2%2B%2C%20Mg2%2B%2C%20NH4%2B%2C%20NO3%5Cu2212%29%20between%20Acacia-invaded%20and%20non-invaded%20tropical%20heath%20%28Kerangas%29%20forest%20sites%20in%20Brunei%20Darussalam%2C%20Southeast%20Asia.%20Ion%20exchange%20resin%20%28IER%29%20sampler%2C%20IER%20ring%20and%20IER%20bags%20were%20used%20to%20determine%20ion%20depositions%20via%20throughfall%2C%20in%20soils%20and%20in%20stream%20water%20respectively.%20Throughfall%20in%20Acacia-invaded%20heath%20forest%20sites%20recorded%20significantly%20higher%20NH4%2B%20and%20Ca2%2B%20depositions%20but%20lower%20Mg2%2B%20than%20non-invaded%2C%20intact%20sites.%20For%20ion%20deposition%20in%20soil%2C%20all%20depths%20recorded%20significantly%20higher%20Ca2%2B%20%28except%20for%200%20cm%20depth%29%2C%20Mg2%2B%20and%20NH4%2B%20depositions%2C%20but%20significantly%20lower%20NO3%5Cu2212%20depositions%2C%20in%20Acacia-invaded%20sites.%20Ion%20deposition%20in%20stream%20water%20showed%20significant%20monthly%20variations%2C%20with%20Acacia-invaded%20sites%20recording%20significantly%20higher%20Mg2%2B%20depositions%20in%20June%2C%20August%20and%20September%202015%20but%20lower%20NH4%2B%20depositions%20in%20June%2C%20July%20and%20September%2C%20lower%20NO3%5Cu2212%20and%20Ca2%2B%20depositions%20in%20June%20and%20September%20than%20non-invaded%20heath%20forest%20sites.%20Overall%2C%20these%20findings%20demonstrate%20that%20ion%20deposition%20via%20throughfall%2C%20in%20soil%20and%20in%20stream%20water%20were%20all%20affected%20by%20Acacia%20invasion%2C%20thus%20confirming%20the%20influence%20of%20alien%20invasive%20Acacias%20on%20nutrient%20cycling%20of%20tropical%20heath%20forests.%22%2C%22date%22%3A%22August%2023%2C%202021%22%2C%22language%22%3A%22%22%2C%22DOI%22%3A%2210.1080%5C%2F13416979.2021.1965700%22%2C%22ISSN%22%3A%221341-6979%22%2C%22url%22%3A%22https%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1080%5C%2F13416979.2021.1965700%22%2C%22collections%22%3A%5B%22XPSUL9AV%22%2C%22RRNEBR5Y%22%5D%2C%22dateModified%22%3A%222021-11-23T03%3A54%3A00Z%22%7D%7D%2C%7B%22key%22%3A%22628VW4L8%22%2C%22library%22%3A%7B%22id%22%3A6039319%7D%2C%22meta%22%3A%7B%22creatorSummary%22%3A%22Khalid%20et%20al.%22%2C%22parsedDate%22%3A%222021%22%2C%22numChildren%22%3A1%7D%2C%22bib%22%3A%22%3Cdiv%20class%3D%5C%22csl-bib-body%5C%22%20style%3D%5C%22line-height%3A%201.35%3B%20padding-left%3A%201em%3B%20text-indent%3A-1em%3B%5C%22%3E%5Cn%20%20%3Cdiv%20class%3D%5C%22csl-entry%5C%22%3EKhalid%2C%20Salwa%2C%20T%20Ulmar%20Grafe%2C%20Joremy%20Tony%2C%20Arlene%20Walshe%2C%20and%20Andrew%20J%20Hearn.%20%26%23x201C%3BRecent%20Photographic%20Records%20of%20Otter%20Civet%20%3Ci%3ECynogale%20Bennettii%3C%5C%2Fi%3E%20from%20Brunei%2C%20Borneo.%26%23x201D%3B%20%3Ci%3ESmall%20Carnivore%20Conservation%3C%5C%2Fi%3E%2059%2C%20no.%20e59003%20%282021%29%3A%206.%20%3Ca%20href%3D%27https%3A%5C%2F%5C%2Fsmallcarnivoreconservation.com%5C%2Findex.php%5C%2Fsccg%5C%2Farticle%5C%2Fview%5C%2F3456%27%3Ehttps%3A%5C%2F%5C%2Fsmallcarnivoreconservation.com%5C%2Findex.php%5C%2Fsccg%5C%2Farticle%5C%2Fview%5C%2F3456%3C%5C%2Fa%3E.%3C%5C%2Fdiv%3E%5Cn%3C%5C%2Fdiv%3E%22%2C%22data%22%3A%7B%22itemType%22%3A%22journalArticle%22%2C%22title%22%3A%22Recent%20photographic%20records%20of%20Otter%20Civet%20%3Ci%3ECynogale%20bennettii%3C%5C%2Fi%3E%20from%20Brunei%2C%20Borneo%22%2C%22creators%22%3A%5B%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Salwa%22%2C%22lastName%22%3A%22Khalid%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22T%20Ulmar%22%2C%22lastName%22%3A%22Grafe%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Joremy%22%2C%22lastName%22%3A%22Tony%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Arlene%22%2C%22lastName%22%3A%22Walshe%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Andrew%20J%22%2C%22lastName%22%3A%22Hearn%22%7D%5D%2C%22abstractNote%22%3A%22Otter%20Civet%20Cynogale%20bennettii%20is%20an%20endangered%20semi-aquatic%20viverrid%20found%20in%20the%20Thai-Malay%20Peninsula%20and%20on%20the%20islands%20of%20Sumatra%20and%20Borneo.%20The%20habitat%20requirements%20and%20distribution%20of%20this%20elusive%2C%20infrequently%20observed%20and%20apparently%20rare%20species%20remain%20largely%20unknown%2C%20hindering%20conservation%20planning.%20Here%20we%20report%20several%20camera-trap%20records%2C%20dating%20from%202018%20and%202020%2C%20of%20the%20enigmatic%20Otter%20Civet%20from%20three%20locations%20in%20Brunei%20Darussalam.%20One%20camera-trap%20recorded%20an%20adult%20and%20an%20offspring%20together.%20These%20photographic%20records%20contribute%20to%20our%20knowledge%20of%20the%20current%20distribution%20of%20Otter%20Civet%20in%20Brunei%20and%20add%20records%20to%20its%20presence%20in%20lowland%20dipterocarp%20forests%20on%20Borneo.%20Protection%20of%20wetland%20habitats%20as%20well%20as%20lowland%20dipterocarp%20forests%20is%20important%20for%20this%20species%22%2C%22date%22%3A%222021%22%2C%22language%22%3A%22en%22%2C%22DOI%22%3A%22%22%2C%22ISSN%22%3A%22%22%2C%22url%22%3A%22https%3A%5C%2F%5C%2Fsmallcarnivoreconservation.com%5C%2Findex.php%5C%2Fsccg%5C%2Farticle%5C%2Fview%5C%2F3456%22%2C%22collections%22%3A%5B%22XPSUL9AV%22%2C%22RRNEBR5Y%22%5D%2C%22dateModified%22%3A%222024-09-25T06%3A19%3A02Z%22%7D%7D%2C%7B%22key%22%3A%22MJACPI92%22%2C%22library%22%3A%7B%22id%22%3A6039319%7D%2C%22meta%22%3A%7B%22creatorSummary%22%3A%22Ko%5Cu010d%5Cu00e1rek%20and%20Wahab%22%2C%22parsedDate%22%3A%222021-12%22%2C%22numChildren%22%3A0%7D%2C%22bib%22%3A%22%3Cdiv%20class%3D%5C%22csl-bib-body%5C%22%20style%3D%5C%22line-height%3A%201.35%3B%20padding-left%3A%201em%3B%20text-indent%3A-1em%3B%5C%22%3E%5Cn%20%20%3Cdiv%20class%3D%5C%22csl-entry%5C%22%3EKo%26%23x10D%3B%26%23xE1%3Brek%2C%20Petr%2C%20and%20Rodzay%20Abdul%20Wahab.%20%26%23x201C%3BTermitophily%20Documented%20in%20Earwigs%20%28Dermaptera%29.%26%23x201D%3B%20%3Ci%3EBiology%3C%5C%2Fi%3E%2010%2C%20no.%2012%20%28December%202021%29%3A%201243.%20%3Ca%20href%3D%27https%3A%5C%2F%5C%2Fdoi.org%5C%2F10.3390%5C%2Fbiology10121243%27%3Ehttps%3A%5C%2F%5C%2Fdoi.org%5C%2F10.3390%5C%2Fbiology10121243%3C%5C%2Fa%3E.%3C%5C%2Fdiv%3E%5Cn%3C%5C%2Fdiv%3E%22%2C%22data%22%3A%7B%22itemType%22%3A%22journalArticle%22%2C%22title%22%3A%22Termitophily%20Documented%20in%20Earwigs%20%28Dermaptera%29%22%2C%22creators%22%3A%5B%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Petr%22%2C%22lastName%22%3A%22Ko%5Cu010d%5Cu00e1rek%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Rodzay%20Abdul%22%2C%22lastName%22%3A%22Wahab%22%7D%5D%2C%22abstractNote%22%3A%22Based%20on%20behavioral%20observations%2C%20we%20report%20termitophily%20by%20the%20earwig%20Spirolabia%20kaja%20Ko%26%23269%3B%26aacute%3Brek%2C%20sp.%20nov.%20%28Spongiphoridae%3A%20Labiinae%29.%20The%20new%20species%20was%20found%20in%20association%20with%20the%20wood-boring%20termite%20Schedorhinotermes%20sarawakensis%20%28Holmgren%2C%201913%29%20in%20a%20dipterocarp%20rain%20forest%20in%20Borneo%3B%20in%20addition%20to%20being%20observed%20in%20the%20galleries%2C%20termite%26ndash%3Bearwig%20interactions%20were%20subsequently%20documented%20in%20the%20laboratory.%20We%20found%20that%20earwigs%20and%20termites%20communicate%20by%20antennation%2C%20and%20we%20observed%20no%20form%20of%20targeted%20mutual%20or%20unilateral%20aggressive%20behavior.%20The%20earwigs%20responded%20to%20the%20proximity%20of%20an%20experimentally%20irritated%20termite%20soldier%20by%20conflict-avoidance%20behavior%20based%20on%20thanatosis%2C%20which%20seems%20to%20be%20a%20defensive%20reaction%20that%20may%20reduce%20the%20chance%20of%20being%20attacked%20by%20an%20irritated%20termite.%20Based%20on%20the%20analysis%20of%20gastrointestinal%20tract%20contents%2C%20we%20conclude%20that%20S.%20kaja%20sp.%20nov.%20is%20an%20omnivorous%20species%20that%20feeds%20mainly%20on%20plant%20tissues%20and%20fungi%20but%20occasionally%20on%20arthropod%20remains.%20The%20occurrence%20of%20S.%20kaja%20sp.%20nov.%20adults%20together%20with%20the%20nymphs%20%282nd%20to%204th%20instars%29%20in%20the%20galleries%20of%20S.%20sarawakensis%20strongly%20suggests%20that%20the%20earwig%20can%20reproduce%20inside%20the%20termite%20colony.%20Spirolabia%20kaja%20Ko%26%23269%3B%26aacute%3Brek%2C%20sp.%20nov.%20is%20the%20first%20earwig%20species%20for%20which%20termitophily%20has%20been%20demonstrated.%22%2C%22date%22%3A%222021%5C%2F12%22%2C%22language%22%3A%22en%22%2C%22DOI%22%3A%2210.3390%5C%2Fbiology10121243%22%2C%22ISSN%22%3A%22%22%2C%22url%22%3A%22https%3A%5C%2F%5C%2Fwww.mdpi.com%5C%2F2079-7737%5C%2F10%5C%2F12%5C%2F1243%22%2C%22collections%22%3A%5B%22XPSUL9AV%22%2C%22RRNEBR5Y%22%5D%2C%22dateModified%22%3A%222021-11-29T01%3A03%3A54Z%22%7D%7D%2C%7B%22key%22%3A%227AAXRLK2%22%2C%22library%22%3A%7B%22id%22%3A6039319%7D%2C%22meta%22%3A%7B%22creatorSummary%22%3A%22Lamit%20and%20Tanaka%22%2C%22parsedDate%22%3A%222021-04-01%22%2C%22numChildren%22%3A0%7D%2C%22bib%22%3A%22%3Cdiv%20class%3D%5C%22csl-bib-body%5C%22%20style%3D%5C%22line-height%3A%201.35%3B%20padding-left%3A%201em%3B%20text-indent%3A-1em%3B%5C%22%3E%5Cn%20%20%3Cdiv%20class%3D%5C%22csl-entry%5C%22%3ELamit%2C%20Nadhirah%2C%20and%20Yasuaki%20Tanaka.%20%26%23x201C%3BEffects%20of%20River%20Water%20Inflow%20on%20the%20Growth%2C%20Photosynthesis%2C%20and%20Respiration%20of%20the%20Tropical%20Seagrass%20Halophila%20Ovalis.%26%23x201D%3B%20%3Ci%3EBotanica%20Marina%3C%5C%2Fi%3E%2064%2C%20no.%202%20%28April%201%2C%202021%29%3A%2093%26%23x2013%3B100.%20%3Ca%20href%3D%27https%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1515%5C%2Fbot-2020-0079%27%3Ehttps%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1515%5C%2Fbot-2020-0079%3C%5C%2Fa%3E.%3C%5C%2Fdiv%3E%5Cn%3C%5C%2Fdiv%3E%22%2C%22data%22%3A%7B%22itemType%22%3A%22journalArticle%22%2C%22title%22%3A%22Effects%20of%20river%20water%20inflow%20on%20the%20growth%2C%20photosynthesis%2C%20and%20respiration%20of%20the%20tropical%20seagrass%20Halophila%20ovalis%22%2C%22creators%22%3A%5B%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Nadhirah%22%2C%22lastName%22%3A%22Lamit%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Yasuaki%22%2C%22lastName%22%3A%22Tanaka%22%7D%5D%2C%22abstractNote%22%3A%22To%20investigate%20the%20effects%20of%20river%20waters%20on%20estuarine%20seagrass%2C%20the%20tropical%20seagrass%20Halophila%20ovalis%20was%20collected%20at%20Brunei%20Bay%2C%20Borneo%2C%20and%20was%20cultured%20under%20laboratory%20conditions%20for%2018%20days.%20Three%20treatments%20were%20set%20up%20in%20the%20experiment%3A%20natural%20seawater%20with%20a%20salinity%2030%20%28S30%29%2C%20estuarine%20river%20water%20with%20a%20salinity%2010%20%28S10%29%2C%20and%20the%20intermediate%20water%20that%20was%20composed%20of%20the%20seawater%20and%20river%20water%20with%20a%20salinity%2020%20%28S20%29.%20New%20leaf%20production%2C%20the%20average%20length%20of%20new%20leaves%2C%20rhizome%20elongation%2C%20and%20photosynthetic%20rate%20of%20H.%20ovalis%20were%20significantly%20higher%20in%20S20%20than%20S10.%20Chlorophyll%20a%20%28chl%20a%20%29%20and%20carotenoid%20content%20in%20H.%20ovalis%20were%20significantly%20lower%20in%20S10%20than%20S20%20and%20S30.%20Though%20the%20tropical%20river%20waters%20could%20potentially%20cause%20both%20positive%20and%20negative%20effects%20on%20seagrass%2C%20the%20present%20results%20suggested%20that%20low%20salinity%20would%20be%20the%20most%20influential%20factor%20to%20hinder%20the%20growth%20and%20metabolism%20of%20H.%20ovalis%2C%20and%20the%20salinity%20threshold%20was%20observed%20between%2010%20and%2020.%20These%20results%20suggested%20that%20H.%20ovalis%20may%20be%20able%20to%20extend%20its%20present%20distribution%20to%20the%20upper%20estuary%20at%20this%20study%20site%20in%20the%20future.%22%2C%22date%22%3A%222021-04-01%22%2C%22language%22%3A%22en%22%2C%22DOI%22%3A%2210.1515%5C%2Fbot-2020-0079%22%2C%22ISSN%22%3A%221437-4323%22%2C%22url%22%3A%22https%3A%5C%2F%5C%2Fwww.degruyter.com%5C%2Fdocument%5C%2Fdoi%5C%2F10.1515%5C%2Fbot-2020-0079%5C%2Fhtml%22%2C%22collections%22%3A%5B%22XPSUL9AV%22%5D%2C%22dateModified%22%3A%222023-10-24T05%3A18%3A01Z%22%7D%7D%2C%7B%22key%22%3A%22KNKW8I9E%22%2C%22library%22%3A%7B%22id%22%3A6039319%7D%2C%22meta%22%3A%7B%22creatorSummary%22%3A%22Latif%20and%20Yong%22%2C%22parsedDate%22%3A%222021-01-01%22%2C%22numChildren%22%3A0%7D%2C%22bib%22%3A%22%3Cdiv%20class%3D%5C%22csl-bib-body%5C%22%20style%3D%5C%22line-height%3A%201.35%3B%20padding-left%3A%201em%3B%20text-indent%3A-1em%3B%5C%22%3E%5Cn%20%20%3Cdiv%20class%3D%5C%22csl-entry%5C%22%3ELatif%2C%20Md%20Mahdi%20Hj%20Abd%2C%20and%20Gabriel%20Y.V.%20Yong.%20%26%23x201C%3BCoastal%20Erosion%20in%20The%20Unprotected%20and%20Protected%20Sections%20At%20Berakas%3A%20A%20Comparative%20Study%20in%20Brunei%20Darussalam.%26%23x201D%3B%20%3Ci%3ESoutheast%20Asia%3A%20A%20Multidisciplinary%20Journal%3C%5C%2Fi%3E%2021%2C%20no.%201%20%28January%201%2C%202021%29%3A%2045%26%23x2013%3B62.%20%3Ca%20href%3D%27https%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1108%5C%2FSEAMJ-01-2021-B1004%27%3Ehttps%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1108%5C%2FSEAMJ-01-2021-B1004%3C%5C%2Fa%3E.%3C%5C%2Fdiv%3E%5Cn%3C%5C%2Fdiv%3E%22%2C%22data%22%3A%7B%22itemType%22%3A%22journalArticle%22%2C%22title%22%3A%22Coastal%20Erosion%20in%20The%20Unprotected%20and%20Protected%20Sections%20At%20Berakas%3A%20A%20comparative%20study%20in%20Brunei%20Darussalam%22%2C%22creators%22%3A%5B%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Md%20Mahdi%20Hj%20Abd%22%2C%22lastName%22%3A%22Latif%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Gabriel%20Y.V.%22%2C%22lastName%22%3A%22Yong%22%7D%5D%2C%22abstractNote%22%3A%22The%20coast%20at%20Berakas%20in%20the%20Brunei-Muara%20district%20of%20Brunei%20Darussalam%20suffers%20from%20erosion%20caused%20by%20a%20combination%20of%20fluvial%20and%20marine%20processes.%20This%20paper%20investigates%20the%20rate%20and%20pattern%20of%20erosion%20along%20a%201.8-km%20stretch%20of%20coast%20to%20compare%20the%20difference%20between%20the%20unprotected%20and%20protected%20sections.%20We%20used%20%28i%29%20image%20and%20spatial%20analysis%20and%20%28ii%29%20field%20geomorphology.%20The%20Digital%20Shoreline%20Analysis%20System%20%28DSAS%29%20in%20ArcGIS%20was%20used%20to%20compare%20the%20study%20area%20using%20two%20Google%20Earth%20images.%20The%20study%20found%20that%20the%20unprotected%20section%20had%20receded%20by%204.6%20m%20between%202009%20and%202019%2C%20while%20the%20protected%20section%20had%20advanced%20by%208.0%20m%20over%20the%20same%20period%3B%20intense%20gullying%20and%20slumping%20of%20cliff%20continued%20at%20both%20sections.%20The%20detached%20headland%20breakwaters%20in%20the%20protected%20section%20were%20effective%20in%20stabilizing%20the%20coast.%20A%20concrete%20drain%20installed%20parallel%20to%20the%20cliff%20edge%20appears%20to%20be%20capable%20of%20intercepting%20storm%20runoff%2C%20but%20its%20effectiveness%20was%20undermined%20by%20lack%20of%20maintenance.%20We%20conclude%20that%20terrestrial-fluvial%20processes%20continue%20to%20erode%20coastal%20land%20and%20cause%20slumping%20of%20the%20cliff%20face%20at%20Berakas.%20However%2C%20coastal%20protection%20structures%20that%20curb%20the%20marine%20process%20could%20stabilize%20the%20coastline%2C%20even%20where%20sediment%20transport%20is%20active.%22%2C%22date%22%3A%222021-01-01%22%2C%22language%22%3A%22%22%2C%22DOI%22%3A%2210.1108%5C%2FSEAMJ-01-2021-B1004%22%2C%22ISSN%22%3A%221819-5091%22%2C%22url%22%3A%22https%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1108%5C%2FSEAMJ-01-2021-B1004%22%2C%22collections%22%3A%5B%22XPSUL9AV%22%5D%2C%22dateModified%22%3A%222024-08-15T01%3A16%3A14Z%22%7D%7D%2C%7B%22key%22%3A%22KRRJKYE5%22%2C%22library%22%3A%7B%22id%22%3A6039319%7D%2C%22meta%22%3A%7B%22creatorSummary%22%3A%22Liao%20et%20al.%22%2C%22parsedDate%22%3A%222021%22%2C%22numChildren%22%3A0%7D%2C%22bib%22%3A%22%3Cdiv%20class%3D%5C%22csl-bib-body%5C%22%20style%3D%5C%22line-height%3A%201.35%3B%20padding-left%3A%201em%3B%20text-indent%3A-1em%3B%5C%22%3E%5Cn%20%20%3Cdiv%20class%3D%5C%22csl-entry%5C%22%3ELiao%2C%20Ming-ling%2C%20Gao-yang%20Li%2C%20Jie%20Wang%2C%20David%20J.%20Marshall%2C%20Tin%20Yan%20Hui%2C%20Shu-yang%20Ma%2C%20Yi-min%20Zhang%2C%20Brian%20Helmuth%2C%20and%20Yun-wei%20Dong.%20%26%23x201C%3BPhysiological%20Determinants%20of%20Biogeography%3A%20The%20Importance%20of%20Metabolic%20Depression%20to%20Heat%20Tolerance.%26%23x201D%3B%20%3Ci%3EGlobal%20Change%20Biology%3C%5C%2Fi%3E%20n%5C%2Fa%2C%20no.%20n%5C%2Fa%20%282021%29.%20%3Ca%20href%3D%27https%3A%5C%2F%5C%2Fdoi.org%5C%2Fhttps%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1111%5C%2Fgcb.15578%27%3Ehttps%3A%5C%2F%5C%2Fdoi.org%5C%2Fhttps%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1111%5C%2Fgcb.15578%3C%5C%2Fa%3E.%3C%5C%2Fdiv%3E%5Cn%3C%5C%2Fdiv%3E%22%2C%22data%22%3A%7B%22itemType%22%3A%22journalArticle%22%2C%22title%22%3A%22Physiological%20determinants%20of%20biogeography%3A%20The%20importance%20of%20metabolic%20depression%20to%20heat%20tolerance%22%2C%22creators%22%3A%5B%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Ming-ling%22%2C%22lastName%22%3A%22Liao%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Gao-yang%22%2C%22lastName%22%3A%22Li%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Jie%22%2C%22lastName%22%3A%22Wang%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22David%20J.%22%2C%22lastName%22%3A%22Marshall%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Tin%20Yan%22%2C%22lastName%22%3A%22Hui%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Shu-yang%22%2C%22lastName%22%3A%22Ma%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Yi-min%22%2C%22lastName%22%3A%22Zhang%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Brian%22%2C%22lastName%22%3A%22Helmuth%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Yun-wei%22%2C%22lastName%22%3A%22Dong%22%7D%5D%2C%22abstractNote%22%3A%22A%20quantitative%20understanding%20of%20physiological%20thermal%20responses%20is%20vital%20for%20forecasting%20species%20distributional%20shifts%20in%20response%20to%20climate%20change.%20Many%20studies%20have%20focused%20on%20metabolic%20rate%20as%20a%20global%20metric%20for%20analyzing%20the%20sublethal%20effects%20of%20changing%20environments%20on%20physiology.%20Thermal%20performance%20curves%20%28TPCs%29%20have%20been%20suggested%20as%20a%20viable%20analytical%20framework%2C%20but%20standard%20TPCs%20may%20not%20fully%20capture%20physiological%20responses%2C%20due%20in%20part%20to%20failure%20to%20consider%20the%20process%20of%20metabolic%20depression.%20We%20derived%20a%20model%20based%20on%20the%20nonlinear%20regression%20of%20biological%20temperature-dependent%20rate%20processes%20and%20built%20a%20heart%20rate%20data%20set%20for%2026%20species%20of%20intertidal%20molluscs%20distributed%20from%2033%5Cu00b0S%20to%2040%5Cu00b0N.%20We%20then%20calculated%20physiological%20thermal%20performance%20limits%20with%20continuous%20heating%20using%20%2C%20the%20temperature%20at%20which%20heart%20rate%20is%20decreased%20to%2050%25%20of%20the%20maximal%20rate%2C%20as%20a%20more%20realistic%20measure%20of%20upper%20thermal%20limits.%20Results%20indicate%20that%20heat-induced%20metabolic%20depression%20of%20cardiac%20performance%20is%20a%20common%20adaptive%20response%20that%20allows%20tolerance%20of%20harsh%20environments.%20Furthermore%2C%20our%20model%20accounted%20for%20the%20high%20inter-individual%20variability%20in%20the%20shape%20of%20cardiac%20TPCs.%20We%20then%20used%20these%20TPCs%20to%20calculate%20physiological%20thermal%20safety%20margins%20%28pTSM%29%2C%20the%20difference%20between%20the%20maximal%20operative%20temperature%20%2895th%20percentile%20of%20field%20temperatures%29%20and%20of%20each%20individual.%20Using%20pTSMs%2C%20we%20developed%20a%20physiological%20species%20distribution%20model%20%28pSDM%29%20to%20forecast%20future%20geographic%20distributions.%20pSDM%20results%20indicate%20that%20climate-induced%20species%20range%20shifts%20are%20potentially%20less%20severe%20than%20predicted%20by%20a%20simple%20correlative%20SDM.%20Species%20with%20metabolic%20depression%20below%20the%20optimum%20temperature%20will%20be%20more%20thermal%20resistant%20at%20their%20warm%20trailing%20edges.%20High%20intraspecific%20variability%20further%20suggests%20that%20models%20based%20on%20species-level%20vulnerability%20to%20environmental%20change%20may%20be%20problematic.%20This%20multi-scale%2C%20mechanistic%20understanding%20that%20incorporates%20metabolic%20depression%20and%20inter-individual%20variability%20in%20thermal%20response%20enables%20better%20predictions%20about%20the%20relationship%20between%20thermal%20stress%20and%20species%20distributions.%22%2C%22date%22%3A%222021%22%2C%22language%22%3A%22en%22%2C%22DOI%22%3A%22https%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1111%5C%2Fgcb.15578%22%2C%22ISSN%22%3A%221365-2486%22%2C%22url%22%3A%22https%3A%5C%2F%5C%2Fonlinelibrary.wiley.com%5C%2Fdoi%5C%2Fabs%5C%2F10.1111%5C%2Fgcb.15578%22%2C%22collections%22%3A%5B%22XPSUL9AV%22%5D%2C%22dateModified%22%3A%222021-03-20T02%3A19%3A30Z%22%7D%7D%2C%7B%22key%22%3A%22S4INKHYA%22%2C%22library%22%3A%7B%22id%22%3A6039319%7D%2C%22meta%22%3A%7B%22creatorSummary%22%3A%22Limin%20et%20al.%22%2C%22parsedDate%22%3A%222021%22%2C%22numChildren%22%3A0%7D%2C%22bib%22%3A%22%3Cdiv%20class%3D%5C%22csl-bib-body%5C%22%20style%3D%5C%22line-height%3A%201.35%3B%20padding-left%3A%201em%3B%20text-indent%3A-1em%3B%5C%22%3E%5Cn%20%20%3Cdiv%20class%3D%5C%22csl-entry%5C%22%3ELimin%2C%20Army%2C%20Ferry%20Slik%2C%20Rahayu%20Sukmaria%20Sukri%2C%20Sheng-Bin%20Chen%2C%20and%20Joffre%20Ali%20Ahmad.%20%26%23x201C%3BLarge%20Tree%20Species%20Composition%2C%20Not%20Growth%20Rates%2C%20Is%20Affected%20by%20Topography%20in%20a%20Bornean%20Tropical%20Forest.%26%23x201D%3B%20%3Ci%3EBiotropica%3C%5C%2Fi%3E%2053%2C%20no.%205%20%282021%29%3A%201290%26%23x2013%3B1300.%20%3Ca%20href%3D%27https%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1111%5C%2Fbtp.12969%27%3Ehttps%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1111%5C%2Fbtp.12969%3C%5C%2Fa%3E.%3C%5C%2Fdiv%3E%5Cn%3C%5C%2Fdiv%3E%22%2C%22data%22%3A%7B%22itemType%22%3A%22journalArticle%22%2C%22title%22%3A%22Large%20tree%20species%20composition%2C%20not%20growth%20rates%2C%20is%20affected%20by%20topography%20in%20a%20Bornean%20tropical%20forest%22%2C%22creators%22%3A%5B%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Army%22%2C%22lastName%22%3A%22Limin%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Ferry%22%2C%22lastName%22%3A%22Slik%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Rahayu%20Sukmaria%22%2C%22lastName%22%3A%22Sukri%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Sheng-Bin%22%2C%22lastName%22%3A%22Chen%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Joffre%20Ali%22%2C%22lastName%22%3A%22Ahmad%22%7D%5D%2C%22abstractNote%22%3A%22Large%20trees%20%28diameter%20at%20breast%20height%20%5Cu226550%20cm%29%20play%20a%20vital%20role%20in%20providing%20ecological%20services%20in%20tropical%20forests%20and%20can%20store%20up%20to%2050%25%20of%20aboveground%20biomass.%20We%20expected%20that%20topography%20%28as%20a%20nutrient%20and%20drought%20proxy%29%20would%20affect%20large%20tree%20dynamics%2C%20biomass%2C%20diversity%2C%20and%20composition%20patterns.%20To%20test%20this%2C%20we%20established%20a%2015-ha%20permanent%20plot%20at%20Andulau%20Forest%20Reserve%20%28Brunei%20Darussalam%2C%20Borneo%29%20with%20an%20elevation%20ranging%20from%2042%20m%20%28swamp%29%20to%2092%20m%20%28ridge%20tops%29.%20All%20559%20large%20trees%20%28131%20species%29%20were%20labeled%2C%20identified%2C%20and%20fitted%20with%20dendrometers.%20Stem%20density%2C%20basal%20area%20%28BA%29%2C%20soil%20and%20litter%20properties%2C%20absolute%20diameter%20growth%20rate%20%28AGR%29%2C%20and%20recruitment%20and%20mortality%20rates%20of%20large%20trees%20were%20determined%20for%20five%20elevational%20zones%20for%20the%20period%202016%5Cu20132019.%20Stem%20density%20and%20BA%20of%20large%20trees%20were%20significantly%20higher%20in%20the%20upslope%20and%20ridge%20areas%20of%20the%20plot%2C%20and%20a%20clear%20shift%20in%20large%20tree%20species%20composition%20was%20found%20across%20the%20elevational%20zones%2C%20with%20the%20swampy%20area%20differing%20most%20from%20all%20others.%20However%2C%20AGR%20did%20not%20differ%20between%20elevational%20zones.%20Large%20tree%20mortality%20was%20balanced%20by%20recruitment%2C%20but%20sample%20size%20was%20too%20low%20to%20detect%20topographical%20patterns.%20Our%20findings%20suggest%20that%20the%20large%20tree%20community%20retained%20similar%20growth%20rates%20across%20soil%20water%20and%20nutrient%20gradient%20via%20a%20shift%20in%20species%20composition.%20If%20so%2C%20predicted%20declines%20in%20large%20tree%20productivity%20with%20climate%20change%20may%2C%20over%20time%2C%20also%20be%20offset%20by%20changes%20in%20species%20composition.%22%2C%22date%22%3A%222021%22%2C%22language%22%3A%22en%22%2C%22DOI%22%3A%2210.1111%5C%2Fbtp.12969%22%2C%22ISSN%22%3A%221744-7429%22%2C%22url%22%3A%22https%3A%5C%2F%5C%2Fonlinelibrary.wiley.com%5C%2Fdoi%5C%2Fabs%5C%2F10.1111%5C%2Fbtp.12969%22%2C%22collections%22%3A%5B%22XPSUL9AV%22%2C%22RRNEBR5Y%22%5D%2C%22dateModified%22%3A%222021-11-23T03%3A38%3A50Z%22%7D%7D%2C%7B%22key%22%3A%222W4BNJ5Z%22%2C%22library%22%3A%7B%22id%22%3A6039319%7D%2C%22meta%22%3A%7B%22creatorSummary%22%3A%22Marshall%22%2C%22parsedDate%22%3A%222021-01-01%22%2C%22numChildren%22%3A0%7D%2C%22bib%22%3A%22%3Cdiv%20class%3D%5C%22csl-bib-body%5C%22%20style%3D%5C%22line-height%3A%201.35%3B%20padding-left%3A%201em%3B%20text-indent%3A-1em%3B%5C%22%3E%5Cn%20%20%3Cdiv%20class%3D%5C%22csl-entry%5C%22%3EMarshall%2C%20David%20J.%20%26%23x201C%3BShell%20Standing%20in%20%3Ci%3EPlanaxis%20Sulcatus%3C%5C%2Fi%3E%3A%20Convergence%20of%20Heat%20Avoidance%20Behavior%20in%20Rocky%20Shore%20Gastropods%3F%26%23x201D%3B%20%3Ci%3EBulletin%20of%20Marine%20Science%3C%5C%2Fi%3E%2097%2C%20no.%201%20%28January%201%2C%202021%29%3A%2037%26%23x2013%3B38.%20%3Ca%20href%3D%27https%3A%5C%2F%5C%2Fdoi.org%5C%2F10.5343%5C%2Fbms.2020.0025%27%3Ehttps%3A%5C%2F%5C%2Fdoi.org%5C%2F10.5343%5C%2Fbms.2020.0025%3C%5C%2Fa%3E.%3C%5C%2Fdiv%3E%5Cn%3C%5C%2Fdiv%3E%22%2C%22data%22%3A%7B%22itemType%22%3A%22journalArticle%22%2C%22title%22%3A%22Shell%20standing%20in%20%3Ci%3EPlanaxis%20sulcatus%3C%5C%2Fi%3E%3A%20convergence%20of%20heat%20avoidance%20behavior%20in%20rocky%20shore%20gastropods%3F%22%2C%22creators%22%3A%5B%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22David%20J%22%2C%22lastName%22%3A%22Marshall%22%7D%5D%2C%22abstractNote%22%3A%22%22%2C%22date%22%3A%222021-01-01%22%2C%22language%22%3A%22%22%2C%22DOI%22%3A%2210.5343%5C%2Fbms.2020.0025%22%2C%22ISSN%22%3A%22%22%2C%22url%22%3A%22%22%2C%22collections%22%3A%5B%22XPSUL9AV%22%5D%2C%22dateModified%22%3A%222023-03-06T02%3A31%3A34Z%22%7D%7D%2C%7B%22key%22%3A%22PL6QSYBK%22%2C%22library%22%3A%7B%22id%22%3A6039319%7D%2C%22meta%22%3A%7B%22creatorSummary%22%3A%22Marshall%20and%20Taha%22%2C%22parsedDate%22%3A%222021%22%2C%22numChildren%22%3A0%7D%2C%22bib%22%3A%22%3Cdiv%20class%3D%5C%22csl-bib-body%5C%22%20style%3D%5C%22line-height%3A%201.35%3B%20padding-left%3A%201em%3B%20text-indent%3A-1em%3B%5C%22%3E%5Cn%20%20%3Cdiv%20class%3D%5C%22csl-entry%5C%22%3EMarshall%2C%20David%20J.%2C%20and%20Hussein%20Taha.%20%26%23x201C%3BAn%20Evolutionary%20Estuarine%20Incursion%3A%20Molecular%20Differentiation%20and%20Niche%20Separation%20in%20Bornean%20Indothais%20Snails%20%28Rapaninae%2C%20Muricidae%29.%26%23x201D%3B%20%3Ci%3EJournal%20of%20the%20Marine%20Biological%20Association%20of%20the%20United%20Kingdom%3C%5C%2Fi%3E%2C%202021%2C%201%26%23x2013%3B11.%20%3Ca%20href%3D%27https%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1017%5C%2FS002531542100014X%27%3Ehttps%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1017%5C%2FS002531542100014X%3C%5C%2Fa%3E.%3C%5C%2Fdiv%3E%5Cn%3C%5C%2Fdiv%3E%22%2C%22data%22%3A%7B%22itemType%22%3A%22journalArticle%22%2C%22title%22%3A%22An%20evolutionary%20estuarine%20incursion%3A%20molecular%20differentiation%20and%20niche%20separation%20in%20Bornean%20Indothais%20snails%20%28Rapaninae%2C%20Muricidae%29%22%2C%22creators%22%3A%5B%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22David%20J.%22%2C%22lastName%22%3A%22Marshall%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Hussein%22%2C%22lastName%22%3A%22Taha%22%7D%5D%2C%22abstractNote%22%3A%22Ecological%20and%20biogeographic%20information%20for%20marine%20gastropods%20has%20lagged%20behind%20taxonomic%2C%20molecular%20and%20phylogenetic%20information%2C%20limiting%20understanding%20of%20evolutionary%20processes.%20We%20investigated%20niche%20separation%20and%20speciation%20in%20rapinine%20whelks%20that%20represent%20a%20rare%20deep%20estuarine%20penetration%20by%20muricid%20gastropods.%20We%20studied%20the%20genetic%20and%20ecological%20differentiation%20of%20four%20Indothais%20morphotypes%2C%20distributed%20along%20a%20salinity%20gradient%20in%20Brunei%20%28Borneo%2C%20South%20East%20Asia%29.%20Our%20molecular%20analyses%2C%20based%20on%20three%20mitochondrial%20genes%20%28COI%2C%2012S%20rRNA%20and%2016S%20rRNA%29%20and%20one%20nuclear%20gene%20%2828S%20rRNA%29%2C%20revealed%20three%20species%20having%20the%20following%20relationship%20%5BIndothais%20rufotincta%20%28Tan%20%26%20Sigurdsson%2C%201996%29%2C%20%5BI.%20javanica%20%28Philippi%2C%201848%29%2C%20%5BI.%20gradata%20%28Jonas%2C%201846%29%5D%5D%5D.%20This%20pattern%20coincided%20with%20their%20salinity-related%20distributions%2C%20such%20that%20I.%20rufotincta%20occurred%20alone%20in%20the%20open%20coastal%20waters%2C%20and%20I.%20javanica%20and%20I.%20gradata%20extended%20into%20the%20upper%20estuary.%20This%20suggests%20speciation%20through%20divergent%20selection%20and%20local%20adaptation%2C%20specifically%20synapomorphic%20low%20salinity%20tolerance%20by%20I.%20javanica%20and%20I.%20gradata.%20The%20observed%20intertidal%20vertical%20separation%20where%20the%20species%20co-occur%20suggests%20competitive%20exclusion%20of%20the%20others%20by%20the%20most-recently%20evolved%20I.%20gradata.%20This%20species%20also%20showed%20greatest%20morphological%20and%20genetic%20variation%2C%20and%20unique%20niche%20expansion%20involving%20feeding%20on%20both%20hard%20surface%20and%20muddy%20sediment%20organisms.%20Our%20study%20presents%20a%20novel%20hypothesis%20for%20the%20speciation%20of%20these%20snails.%22%2C%22date%22%3A%222021%22%2C%22language%22%3A%22en%22%2C%22DOI%22%3A%2210.1017%5C%2FS002531542100014X%22%2C%22ISSN%22%3A%220025-3154%2C%201469-7769%22%2C%22url%22%3A%22https%3A%5C%2F%5C%2Fwww.cambridge.org%5C%2Fcore%5C%2Fjournals%5C%2Fjournal-of-the-marine-biological-association-of-the-united-kingdom%5C%2Farticle%5C%2Fabs%5C%2Fan-evolutionary-estuarine-incursion-molecular-differentiation-and-niche-separation-in-bornean-indothais-snails-rapaninae-muricidae%5C%2FD54E69A7A5CC664FE263E03B275CCC0C%22%2C%22collections%22%3A%5B%22XPSUL9AV%22%2C%22RRNEBR5Y%22%5D%2C%22dateModified%22%3A%222021-03-20T02%3A07%3A57Z%22%7D%7D%2C%7B%22key%22%3A%22EAYHRHGZ%22%2C%22library%22%3A%7B%22id%22%3A6039319%7D%2C%22meta%22%3A%7B%22creatorSummary%22%3A%22Marshall%20et%20al.%22%2C%22parsedDate%22%3A%222021-01-01%22%2C%22numChildren%22%3A1%7D%2C%22bib%22%3A%22%3Cdiv%20class%3D%5C%22csl-bib-body%5C%22%20style%3D%5C%22line-height%3A%201.35%3B%20padding-left%3A%201em%3B%20text-indent%3A-1em%3B%5C%22%3E%5Cn%20%20%3Cdiv%20class%3D%5C%22csl-entry%5C%22%3EMarshall%2C%20David%20J%2C%20Hussein%20Taha%2C%20Amalina%20Brahim%2C%20and%20Ahmed%20Awad%20Abdelhady.%20%26%23x201C%3BSupratidal%20Existence%20Drives%20Phenotypic%20Divergence%2C%20but%20Not%20Speciation%2C%20in%20Tropical%20Rocky-Shore%20Snails.%26%23x201D%3B%20%3Ci%3EBiological%20Journal%20of%20the%20Linnean%20Society%3C%5C%2Fi%3E%20132%2C%20no.%201%20%28January%201%2C%202021%29%3A%201%26%23x2013%3B16.%20%3Ca%20href%3D%27https%3A%5C%2F%5C%2Fdoi.org%5C%2F10%5C%2Fght69v%27%3Ehttps%3A%5C%2F%5C%2Fdoi.org%5C%2F10%5C%2Fght69v%3C%5C%2Fa%3E.%3C%5C%2Fdiv%3E%5Cn%3C%5C%2Fdiv%3E%22%2C%22data%22%3A%7B%22itemType%22%3A%22journalArticle%22%2C%22title%22%3A%22Supratidal%20existence%20drives%20phenotypic%20divergence%2C%20but%20not%20speciation%2C%20in%20tropical%20rocky-shore%20snails%22%2C%22creators%22%3A%5B%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22David%20J%22%2C%22lastName%22%3A%22Marshall%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Hussein%22%2C%22lastName%22%3A%22Taha%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Amalina%22%2C%22lastName%22%3A%22Brahim%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Ahmed%20Awad%22%2C%22lastName%22%3A%22Abdelhady%22%7D%5D%2C%22abstractNote%22%3A%22The%20mechanisms%20underlying%20the%20evolutionary%20adaptation%20of%20animals%20that%20transcend%20the%20ecological%20barrier%20separating%20the%20intertidal%20and%20supratidal%20zones%20of%20rocky%20shores%20are%20poorly%20understood.%20Different%20wetting%20frequencies%20in%20these%20zones%20in%20tropical%20regions%20%28daily%20vs.%20seasonally%2C%20respectively%29%20impose%20different%20physical%20stressors%2C%20which%20should%20drive%20phenotypic%20variation%20and%20ultimately%20speciation%20in%20the%20animals%20that%20inhabit%20them.%20We%20studied%20morphological%2C%20physiological%20and%20genetic%20variation%20in%20a%20tropical%20high-shore%20gastropod%20that%20transcends%20these%20zones%20%5BEchinolittorina%20malaccana%20%28Philippi%2C%201847%29%5D.%20Variation%20in%20melanization%2C%20shell%20features%20and%20evaporative%20water%20loss%20was%20linked%20to%20regular%20seawater%20wetting%2C%20frequent%20activity%20and%20feeding%2C%20and%20solar%20exposure%20in%20intertidal%20snails%2C%20and%20to%20inactivity%20and%20prolonged%20aestivation%20in%20the%20shade%20during%20continuous%20air%20exposure%20in%20supratidal%20snails.%20Despite%20selective%20pressure%20for%20phenotypic%20divergence%2C%20and%20reproductive%20isolation%20of%20the%20populations%20in%20either%20zone%2C%20their%20mitochondrial%20COI%20gene%20sequences%20confirmed%20that%20they%20represent%20a%20single%20species.%20Speciation%20in%20our%20study%20case%20is%20probably%20constrained%20by%20the%20limitation%20on%20activity%2C%20mating%20and%20reproduction%20of%20supratidal%20snails%2C%20such%20that%20their%20populations%20can%20only%20be%20sustained%20through%20intertidal%20pelagic%20larval%20recruitment.%20Comparisons%20with%20other%20studies%20suggest%20that%20supratidal%20speciation%20and%20specialization%20for%20life%20in%20this%20zone%20probably%20require%20moderation%20of%20the%20abiotic%20%28desiccative%29%20conditions%2C%20to%20facilitate%20greater%20activity%20and%20interaction%20of%20animals%20during%20air%20exposure.%22%2C%22date%22%3A%22January%201%2C%202021%22%2C%22language%22%3A%22%22%2C%22DOI%22%3A%2210%5C%2Fght69v%22%2C%22ISSN%22%3A%220024-4066%22%2C%22url%22%3A%22https%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1093%5C%2Fbiolinnean%5C%2Fblaa164%22%2C%22collections%22%3A%5B%22XPSUL9AV%22%2C%22RRNEBR5Y%22%5D%2C%22dateModified%22%3A%222021-01-23T04%3A30%3A07Z%22%7D%7D%2C%7B%22key%22%3A%22KEG2IU4P%22%2C%22library%22%3A%7B%22id%22%3A6039319%7D%2C%22meta%22%3A%7B%22creatorSummary%22%3A%22McGrath-Blaser%20et%20al.%22%2C%22parsedDate%22%3A%222021-12-20%22%2C%22numChildren%22%3A0%7D%2C%22bib%22%3A%22%3Cdiv%20class%3D%5C%22csl-bib-body%5C%22%20style%3D%5C%22line-height%3A%201.35%3B%20padding-left%3A%201em%3B%20text-indent%3A-1em%3B%5C%22%3E%5Cn%20%20%3Cdiv%20class%3D%5C%22csl-entry%5C%22%3EMcGrath-Blaser%2C%20Sarah%2C%20Morgan%20Steffen%2C%20T.%20Ulmar%20Grafe%2C%20Mar%26%23xED%3Ba%20Torres-S%26%23xE1%3Bnchez%2C%20David%20S.%20McLeod%2C%20and%20Carly%20R.%20Muletz-Wolz.%20%26%23x201C%3BEarly%20Life%20Skin%20Microbial%20Trajectory%20as%20a%20Function%20of%20Vertical%20and%20Environmental%20Transmission%20in%20Bornean%20Foam-Nesting%20Frogs.%26%23x201D%3B%20%3Ci%3EAnimal%20Microbiome%3C%5C%2Fi%3E%203%2C%20no.%201%20%28December%2020%2C%202021%29%3A%2083.%20%3Ca%20href%3D%27https%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1186%5C%2Fs42523-021-00147-8%27%3Ehttps%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1186%5C%2Fs42523-021-00147-8%3C%5C%2Fa%3E.%3C%5C%2Fdiv%3E%5Cn%3C%5C%2Fdiv%3E%22%2C%22data%22%3A%7B%22itemType%22%3A%22journalArticle%22%2C%22title%22%3A%22Early%20life%20skin%20microbial%20trajectory%20as%20a%20function%20of%20vertical%20and%20environmental%20transmission%20in%20Bornean%20foam-nesting%20frogs%22%2C%22creators%22%3A%5B%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Sarah%22%2C%22lastName%22%3A%22McGrath-Blaser%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Morgan%22%2C%22lastName%22%3A%22Steffen%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22T.%20Ulmar%22%2C%22lastName%22%3A%22Grafe%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Mar%5Cu00eda%22%2C%22lastName%22%3A%22Torres-S%5Cu00e1nchez%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22David%20S.%22%2C%22lastName%22%3A%22McLeod%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Carly%20R.%22%2C%22lastName%22%3A%22Muletz-Wolz%22%7D%5D%2C%22abstractNote%22%3A%22The%20amphibian%20skin%20microbiome%20is%20an%20important%20mediator%20of%20host%20health%20and%20serves%20as%20a%20potential%20source%20of%20undiscovered%20scientifically%20significant%20compounds.%20However%2C%20the%20underlying%20modalities%20of%20how%20amphibian%20hosts%20obtain%20their%20initial%20skin-associated%20microbiome%20remains%20unclear.%20Here%2C%20we%20explore%20microbial%20transmission%20patterns%20in%20foam-nest%20breeding%20tree%20frogs%20from%20Southeast%20Asia%20%28Genus%3A%20Polypedates%29%20whose%20specialized%20breeding%20strategy%20allows%20for%20better%20delineation%20between%20vertically%20and%20environmentally%20derived%20microbes.%20To%20facilitate%20this%2C%20we%20analyzed%20samples%20associated%20with%20adult%20frog%20pairs%20taken%20after%20mating%5Cu2014including%20adults%20of%20each%20sex%2C%20their%20foam%20nests%2C%20environments%2C%20and%20tadpoles%20before%20and%20after%20environmental%20interaction%5Cu2014for%20the%20bacterial%20communities%20using%20DNA%20metabarcoding%20data%20%2816S%20rRNA%29.%20Samples%20were%20collected%20from%20frogs%20in-situ%20in%20Brunei%2C%20Borneo%2C%20a%20previously%20unsampled%20region%20for%20amphibian-related%20microbial%20diversity.%22%2C%22date%22%3A%222021-12-20%22%2C%22language%22%3A%22en%22%2C%22DOI%22%3A%2210.1186%5C%2Fs42523-021-00147-8%22%2C%22ISSN%22%3A%222524-4671%22%2C%22url%22%3A%22https%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1186%5C%2Fs42523-021-00147-8%22%2C%22collections%22%3A%5B%22XPSUL9AV%22%5D%2C%22dateModified%22%3A%222022-03-22T01%3A17%3A12Z%22%7D%7D%2C%7B%22key%22%3A%22JR74B6UU%22%2C%22library%22%3A%7B%22id%22%3A6039319%7D%2C%22meta%22%3A%7B%22creatorSummary%22%3A%22Mohammad%20et%20al.%22%2C%22parsedDate%22%3A%222021-09-22%22%2C%22numChildren%22%3A0%7D%2C%22bib%22%3A%22%3Cdiv%20class%3D%5C%22csl-bib-body%5C%22%20style%3D%5C%22line-height%3A%201.35%3B%20padding-left%3A%201em%3B%20text-indent%3A-1em%3B%5C%22%3E%5Cn%20%20%3Cdiv%20class%3D%5C%22csl-entry%5C%22%3EMohammad%2C%20Yumni%20Haziqah%2C%20Pooja%20Shivanand%2C%20Faizah%20Metali%2C%20Hussein%20Taha%2C%20Nur%20Bazilah%20Afifah%20Matussin%2C%20Abdul%20Muizz%20Al-Azim%20Abdul-Halim%2C%20and%20Abdul%20Zul%26%23x2019%3Badly%20Mohaimin.%20%26%23x201C%3BAgarwood%20Formation%20in%20%3Ci%3EAquilaria%20Beccariana%3C%5C%2Fi%3E%20and%20%3Ci%3EAquilaria%20Microcarpa%3C%5C%2Fi%3E%20in%20Response%20to%20Inoculation%20of%20Newly%20Isolated%20Fungi%20from%20Brunei%20Darussalam.%26%23x201D%3B%20%3Ci%3EBiodiversitas%20Journal%20of%20Biological%20Diversity%3C%5C%2Fi%3E%2022%2C%20no.%2010%20%28September%2022%2C%202021%29.%20%3Ca%20href%3D%27https%3A%5C%2F%5C%2Fdoi.org%5C%2F10.13057%5C%2Fbiodiv%5C%2Fd221002%27%3Ehttps%3A%5C%2F%5C%2Fdoi.org%5C%2F10.13057%5C%2Fbiodiv%5C%2Fd221002%3C%5C%2Fa%3E.%3C%5C%2Fdiv%3E%5Cn%3C%5C%2Fdiv%3E%22%2C%22data%22%3A%7B%22itemType%22%3A%22journalArticle%22%2C%22title%22%3A%22Agarwood%20formation%20in%20%3Ci%3EAquilaria%20beccariana%3C%5C%2Fi%3E%20and%20%3Ci%3EAquilaria%20microcarpa%3C%5C%2Fi%3E%20in%20response%20to%20inoculation%20of%20newly%20isolated%20fungi%20from%20Brunei%20Darussalam%22%2C%22creators%22%3A%5B%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Yumni%20Haziqah%22%2C%22lastName%22%3A%22Mohammad%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Pooja%22%2C%22lastName%22%3A%22Shivanand%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Faizah%22%2C%22lastName%22%3A%22Metali%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Hussein%22%2C%22lastName%22%3A%22Taha%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Nur%20Bazilah%20Afifah%22%2C%22lastName%22%3A%22Matussin%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Abdul%20Muizz%20Al-Azim%22%2C%22lastName%22%3A%22Abdul-Halim%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Abdul%20Zul%5Cu2019adly%22%2C%22lastName%22%3A%22Mohaimin%22%7D%5D%2C%22abstractNote%22%3A%22Abstract.%20Mohammad%20YH%2C%20Shivanand%20P%2C%20Metali%20F%2C%20Taha%20H%2C%20Matussin%20NBA%2C%20Abdul-Halim%20AMA%2C%20Mohaimin%20AZ.%202021.%20Agarwood%20formation%20in%20Aquilaria%20beccariana%20and%20Aquilaria%20microcarpa%20in%20response%20to%20inoculation%20of%20newly%20isolated%20fungi%20from%20Brunei%20Darussalam.%20Biodiversitas%2022%3A%204131-4138.%20Aquilaria%20is%20an%20important%20agarwood-producing%20tree%2C%20but%20naturally%20occurring%20agarwood%20is%20rare.%20Artificial%20induction%20method%20is%20the%20most%20commonly%20used%20to%20produce%20agarwood%20in%20a%20short%20time.%20Out%20of%20the%2021%20species%20of%20Aquilaria%2C%20Brunei%20Darussalam%20houses%20two%20species%20that%20produce%20high%20quality%20agarwood%2C%20namely%20Aquilaria%20beccariana%20and%20A.%20microcarpa.%20The%20aims%20of%20this%20study%20are%20to%20artificially%20induce%20agarwood%20formation%20using%20eight%20different%20induction%20treatments%3A%20six%20fungal%20inoculant%20treatments%20with%20two%20control%20treatments%2C%20and%20to%20isolate%20and%20identify%20fungal%20strains%20from%20naturally%20infected%20agarwood%20tree%20using%20DNA%20barcoding.%20Agarwood%20formation%20was%20observed%20at%20four%20different%20time%20intervals%20i.e.%201%2C%203%2C%206%20and%209%20months%20of%20post-inoculation.%20Results%20exhibited%20that%20the%20area%20and%20the%20total%20length%20of%20discoloration%20zone%20were%20significantly%20greater%20at%206%20and%209%20months%20of%20incubation%20period.%20Induction%20treatment%20did%20not%20significantly%20affect%20the%20area%20and%20the%20total%20length%20of%20discoloration.%20FTIR%20analysis%20revealed%20that%20two%20aromatic%20compounds%20%28C%20%5Cu2013%20H%20and%20C%20%5Cu2013%20C%20stretching%29%20were%20detected%20at%20the%20wavelength%20ranges%20of%203000%20%5Cu2013%202800%20cm-1%2C%20and%201500%20%5Cu2013%201400%20cm-1%20respectively%2C%20and%20OH%20group%20was%20detected%20at%203600%20%5Cu2013%203400%20cm-1.%5Cu00a0%20Nine%20fungal%20strains%20from%20Aspergillus%2C%20Fusarium%2C%20Mucor%20and%20Trichosporon%20were%20isolated%20and%20identified%20from%20a%20naturally%20infected%20agarwood%2C%20and%20the%20last%20two%20fungi%20%28Mucor%20and%20Trichosporon%29%20were%20never%20been%20previously%20reported.%22%2C%22date%22%3A%222021-09-22%22%2C%22language%22%3A%22en%22%2C%22DOI%22%3A%2210.13057%5C%2Fbiodiv%5C%2Fd221002%22%2C%22ISSN%22%3A%222085-4722%22%2C%22url%22%3A%22https%3A%5C%2F%5C%2Fwww.smujo.id%5C%2Fbiodiv%5C%2Farticle%5C%2Fview%5C%2F8450%22%2C%22collections%22%3A%5B%22XPSUL9AV%22%2C%22RRNEBR5Y%22%5D%2C%22dateModified%22%3A%222023-01-19T07%3A47%3A28Z%22%7D%7D%2C%7B%22key%22%3A%22X9SA9FVL%22%2C%22library%22%3A%7B%22id%22%3A6039319%7D%2C%22meta%22%3A%7B%22creatorSummary%22%3A%22Mohd%20Don%20et%20al.%22%2C%22parsedDate%22%3A%222021-09-30%22%2C%22numChildren%22%3A0%7D%2C%22bib%22%3A%22%3Cdiv%20class%3D%5C%22csl-bib-body%5C%22%20style%3D%5C%22line-height%3A%201.35%3B%20padding-left%3A%201em%3B%20text-indent%3A-1em%3B%5C%22%3E%5Cn%20%20%3Cdiv%20class%3D%5C%22csl-entry%5C%22%3EMohd%20Don%2C%20Siti%20Madihah%2C%20Nur%20Maziyyah%20Abdul%20Hamid%2C%20Hussein%20Taha%2C%20Rahayu%20Sukmaria%20Sukri%2C%20and%20Faizah%20Metali.%20%26%23x201C%3BVegetative%20Propagation%20of%20%3Ci%3EHoya%20Imperialis%3C%5C%2Fi%3E%20and%20%3Ci%3EHoya%20Coronaria%3C%5C%2Fi%3E%20by%20Stem%20Cutting%20and%20Micropropagation.%26%23x201D%3B%20%3Ci%3ETropical%20Life%20Sciences%20Research%3C%5C%2Fi%3E%2032%2C%20no.%203%20%28September%2030%2C%202021%29%3A%201%26%23x2013%3B23.%20%3Ca%20href%3D%27https%3A%5C%2F%5C%2Fdoi.org%5C%2F10.21315%5C%2Ftlsr2021.32.3.1%27%3Ehttps%3A%5C%2F%5C%2Fdoi.org%5C%2F10.21315%5C%2Ftlsr2021.32.3.1%3C%5C%2Fa%3E.%3C%5C%2Fdiv%3E%5Cn%3C%5C%2Fdiv%3E%22%2C%22data%22%3A%7B%22itemType%22%3A%22journalArticle%22%2C%22title%22%3A%22Vegetative%20Propagation%20of%20%3Ci%3EHoya%20imperialis%3C%5C%2Fi%3E%20and%20%3Ci%3EHoya%20coronaria%3C%5C%2Fi%3E%20by%20Stem%20Cutting%20and%20Micropropagation%22%2C%22creators%22%3A%5B%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Siti%20Madihah%22%2C%22lastName%22%3A%22Mohd%20Don%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Nur%20Maziyyah%22%2C%22lastName%22%3A%22Abdul%20Hamid%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Hussein%22%2C%22lastName%22%3A%22Taha%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Rahayu%20Sukmaria%22%2C%22lastName%22%3A%22Sukri%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Faizah%22%2C%22lastName%22%3A%22Metali%22%7D%5D%2C%22abstractNote%22%3A%22Hoya%20imperialis%20%28H.%20imperialis%29%20and%20H.%20coronaria%20%28Apocynaceae%29%20are%20known%20to%20have%20ornamental%20value%20due%20to%20their%20beautiful%20flowers%3B%20however%2C%20the%20feasibility%20of%20propagating%20these%20plants%20have%20not%20been%20reported%20despite%20the%20wild%20populations%20in%20Brunei%20Darussalam%20being%20highly%20threatened%20due%20to%20habitat%20loss%20and%20overcollection.%20Thus%2C%20the%20present%20study%20aimed%20to%20conduct%20a%20preliminary%20study%20of%20the%20feasibility%20of%20two%20alternative%20propagation%20methods%2C%20stem%20cutting%20and%20micropropagation%2C%20as%20a%20potential%20approach%20for%20their%20ex%20situ%20conservation.%20Hoya%20stem%20cuttings%20were%20treated%20with%20either%20indole-3-butyric%20acid%20%28IBA%29%20or%201-naphthaleneacetic%20acid%20%28NAA%29%20%280%5Cu20132000%20mg%5C%2FL%29%2C%20and%20then%20propagated%20onto%20a%20mixture%20of%20peat%20moss%20and%20perlite.%20For%20micropropagation%2C%20Hoya%20leaf%20explants%20were%20cultured%20onto%20Murashige%20and%20Skoog%20%28MS%29%20agar%20media%20that%20were%20supplemented%20with%20IBA%20and%5C%2For%20kinetin%20%28KN%29%20%280%5Cu201310.0%20mg%5C%2FL%29.%20This%20present%20study%20shows%20that%20both%20Hoya%20species%20were%20successfully%20propagated%20by%20stem%20cutting%20even%20without%20hormone%20treatment.%20However%2C%20interestingly%2C%20in%20H.%20imperialis%2C%20when%20compared%20with%20control%2C%20the%20mean%20number%20of%20new%20leaves%20%286.3%20%5Cu00b1%201.0%29%20and%20the%20mean%20relative%20growth%20rate%20%28RGR%29%20based%20on%20stem%20diameter%20%280.004%20%5Cu00b1%200.0007%20cm%20cm%5Cu22121%20day%5Cu22121%29%20significantly%20increased%20when%20treated%20with%20500%20mg%5C%2FL%20NAA%20and%202000%20mg%5C%2FL%20IBA%2C%20respectively.%20Meanwhile%2C%20in%20H.%20coronaria%2C%20significantly%20higher%20mean%20number%20of%20roots%20was%20achieved%20by%20treating%20with%201000%20mg%5C%2FL%20NAA%20%2816.6%20%5Cu00b1%201.4%29%20or%202000%20mg%5C%2FL%20IBA%20%2817.5%20%5Cu00b1%202.7%29%20compared%20with%20control.%20For%20micropropagation%2C%20callus%20induction%20was%20not%20promising%20and%20could%20only%20be%20observed%20at%20specific%20concentrations%20of%20both%20IBA%20and%20KN%2C%20with%20H.%20imperialis%20appearing%20to%20be%20more%20responsive%20towards%20these%20hormones%20in%20comparison%20to%20H.%20coronaria.%20The%20present%20study%20showed%20that%20stem%20cutting%20appeared%20more%20feasible%20in%20propagating%20both%20Hoya%20species.%22%2C%22date%22%3A%222021-9-30%22%2C%22language%22%3A%22en%22%2C%22DOI%22%3A%2210.21315%5C%2Ftlsr2021.32.3.1%22%2C%22ISSN%22%3A%2219853718%2C%2021804249%22%2C%22url%22%3A%22http%3A%5C%2F%5C%2Fwww.tlsr.usm.my%5C%2Ftlsr32032021%5C%2Ftlsr32032021_01.pdf%22%2C%22collections%22%3A%5B%22XPSUL9AV%22%2C%22RRNEBR5Y%22%5D%2C%22dateModified%22%3A%222023-03-06T01%3A40%3A09Z%22%7D%7D%2C%7B%22key%22%3A%227MCI6C6I%22%2C%22library%22%3A%7B%22id%22%3A6039319%7D%2C%22meta%22%3A%7B%22creatorSummary%22%3A%22Mustapha%20and%20Marshall%22%2C%22parsedDate%22%3A%222021-10-02%22%2C%22numChildren%22%3A0%7D%2C%22bib%22%3A%22%3Cdiv%20class%3D%5C%22csl-bib-body%5C%22%20style%3D%5C%22line-height%3A%201.35%3B%20padding-left%3A%201em%3B%20text-indent%3A-1em%3B%5C%22%3E%5Cn%20%20%3Cdiv%20class%3D%5C%22csl-entry%5C%22%3EMustapha%2C%20Nurshahida%2C%20and%20David%20J.%20Marshall.%20%26%23x201C%3BTracking%20Coastal%20Acidification%20from%20Erosion%20of%20Gastropod%20Shells%3A%20Spatial%20Sensitivity%20and%20Organism%20Size%20Effect.%26%23x201D%3B%20%3Ci%3EEnvironmental%20Monitoring%20and%20Assessment%3C%5C%2Fi%3E%20193%2C%20no.%2010%20%28October%202%2C%202021%29%3A%20690.%20%3Ca%20href%3D%27https%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1007%5C%2Fs10661-021-09479-z%27%3Ehttps%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1007%5C%2Fs10661-021-09479-z%3C%5C%2Fa%3E.%3C%5C%2Fdiv%3E%5Cn%3C%5C%2Fdiv%3E%22%2C%22data%22%3A%7B%22itemType%22%3A%22journalArticle%22%2C%22title%22%3A%22Tracking%20coastal%20acidification%20from%20erosion%20of%20gastropod%20shells%3A%20spatial%20sensitivity%20and%20organism%20size%20effect%22%2C%22creators%22%3A%5B%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Nurshahida%22%2C%22lastName%22%3A%22Mustapha%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22David%20J.%22%2C%22lastName%22%3A%22Marshall%22%7D%5D%2C%22abstractNote%22%3A%22The%20rapidly%20changing%20marine%20environmental%20chemistry%20associated%20with%20growing%20industrialisation%2C%20urban%20population%20expansion%2C%20and%20the%20unabated%20rise%20in%20atmospheric%20CO2%20necessitates%20monitoring.%20Traditional%20approaches%20using%20metres%2C%20dataloggers%2C%20and%20buoys%20to%20monitor%20marine%20acidification%20have%20limited%20application%20in%20coastal%20oceans%20and%20intertidal%20zones%20subjected%20to%20direct%20wave%20action.%20The%20present%20study%20trialled%20a%20system%20to%20biomonitor%20coastal%20acidification%20%28carbonate%20ion%20and%20pH%29%20based%20on%20the%20dissolution%20of%20living%20gastropod%20shells.%20We%20extended%20on%20an%20approach%20that%20ranked%20shell%20erosion%20%28SER%29%20in%20Nerita%20chamaeleon%20%28Nc%29%20in%20environments%20where%20such%20erosion%20was%20found%20to%20correlate%20with%20exposure%20to%20acidified%20water.%20We%20assessed%20the%20spatial%20scale%20at%20which%20the%20Nc-SER%20marker%20could%20detect%20change%20in%20acidification%20along%20rocky%20shores%2C%20and%20whether%20snail%20body%20size%20affected%20this%20marker.%20We%20found%20that%20proportional%20and%20unique%20Nc-SERs%20not%20only%20varied%20between%20acidified%20and%20non-acidified%20reference%20shores%20at%20a%20coarse%20spatial%20scale%20%2810%5Cu00a0km%29%2C%20but%20also%20in%20predictable%20ways%20at%20fine%20scales%20%28metres%29%2C%20vertically%20and%20horizontally%20within%20a%20shore.%20Differences%20between%20acidified%20and%20reference%20shores%20in%20the%20relationship%20for%20snail%20size%20and%20Nc-SER%20were%20accentuated%20by%20less%20weathered%20shells%20at%20reference%20localities%2C%20highlighting%20the%20value%20of%20including%20small%2C%20juvenile%20snails%20in%20monitoring%20protocols.%20Gastropod%20shells%20are%20shown%20to%20be%20useful%20for%20assessing%20point%20sources%20of%20acidification%20and%20the%20spatial%20area%20of%20affected%20coastal%20zones.%20This%20cost-effective%20and%20easy-to-use%20approach%20%28potentially%20even%20by%20citizen-scientists%29%20offers%20an%20early%20warning%20system%20of%20acidification%20of%20rocky%20shore%20ecosystems%2C%20where%20the%20deployment%20of%20instruments%20is%20precluded.%22%2C%22date%22%3A%222021-10-02%22%2C%22language%22%3A%22en%22%2C%22DOI%22%3A%2210.1007%5C%2Fs10661-021-09479-z%22%2C%22ISSN%22%3A%221573-2959%22%2C%22url%22%3A%22https%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1007%5C%2Fs10661-021-09479-z%22%2C%22collections%22%3A%5B%22XPSUL9AV%22%5D%2C%22dateModified%22%3A%222021-12-06T02%3A33%3A17Z%22%7D%7D%2C%7B%22key%22%3A%22RG6763DJ%22%2C%22library%22%3A%7B%22id%22%3A6039319%7D%2C%22meta%22%3A%7B%22creatorSummary%22%3A%22Mustapha%20et%20al.%22%2C%22parsedDate%22%3A%222021-05-09%22%2C%22numChildren%22%3A0%7D%2C%22bib%22%3A%22%3Cdiv%20class%3D%5C%22csl-bib-body%5C%22%20style%3D%5C%22line-height%3A%201.35%3B%20padding-left%3A%201em%3B%20text-indent%3A-1em%3B%5C%22%3E%5Cn%20%20%3Cdiv%20class%3D%5C%22csl-entry%5C%22%3EMustapha%2C%20Nurshahida%2C%20Nursalwa%20Baharuddin%2C%20Siong%20Kiat%20Tan%2C%20and%20David%20J.%20Marshall.%20%26%23x201C%3BThe%20Neritid%20Snails%20of%20Brunei%20Darussalam%3A%20Their%20Geographical%2C%20Ecological%20and%20Conservation%20Significance.%26%23x201D%3B%20%3Ci%3EEcologica%20Montenegrina%3C%5C%2Fi%3E%2042%20%28May%209%2C%202021%29%3A%2045%26%23x2013%3B61.%20%3Ca%20href%3D%27https%3A%5C%2F%5C%2Fdoi.org%5C%2F10.37828%5C%2Fem.2021.42.2%27%3Ehttps%3A%5C%2F%5C%2Fdoi.org%5C%2F10.37828%5C%2Fem.2021.42.2%3C%5C%2Fa%3E.%3C%5C%2Fdiv%3E%5Cn%3C%5C%2Fdiv%3E%22%2C%22data%22%3A%7B%22itemType%22%3A%22journalArticle%22%2C%22title%22%3A%22The%20neritid%20snails%20of%20Brunei%20Darussalam%3A%20their%20geographical%2C%20ecological%20and%20conservation%20significance%22%2C%22creators%22%3A%5B%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Nurshahida%22%2C%22lastName%22%3A%22Mustapha%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Nursalwa%22%2C%22lastName%22%3A%22Baharuddin%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Siong%20Kiat%22%2C%22lastName%22%3A%22Tan%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22David%20J.%22%2C%22lastName%22%3A%22Marshall%22%7D%5D%2C%22abstractNote%22%3A%22Neritid%20snails%20are%20diverse%20and%20conspicuous%20in%20tropical%20coastal%20environments.%20They%20can%20serve%20as%20indicators%20of%20environmental%20change%20and%20can%20provide%20conservation%20information.%20In%20the%20present%20review%20of%20the%20neritid%20species%20of%20Brunei%20Darussalam%2C%20we%20report%20sixteen%20species%2C%20including%20seven%20new%20records%20from%20estuarine%2C%20mangrove%20and%20rocky-shore%20habitats.%20These%20records%20update%20distributions%20across%20the%20Central%20Indo-Pacific%20realm%2C%20specifically%20the%20Palawan%5C%2FNorth%20Borneo%20ecoregion.%20Under-sampling%2C%20species%20misidentifications%20and%20locally-rare%20species%20undermine%20the%20accuracy%20of%20records%20in%20previous%20studies%20for%20the%20region.%20Three%20of%20the%20rocky-shore%20and%20two%20of%20the%20mangrove%20species%20collected%20here%20are%20represented%20by%20single%20specimens%3B%20these%20rocky-shore%20species%20are%20possible%20colonizers%20from%20neighbouring%20regions%20and%20the%20scarcity%20of%20the%20mangrove%20species%20likely%20refers%20to%20under-sampling.%20We%20present%20novel%20shell%20characteristics%20that%20readily%20distinguish%20between%20Neripteron%20violaceum%20and%20Nerip.%20cornucopia.%20We%20describe%20the%20ecology%20and%20habitat%20use%20of%20the%20Brunei%20species%20and%20discuss%20conservation%20issues.%22%2C%22date%22%3A%222021%5C%2F05%5C%2F09%22%2C%22language%22%3A%22en%22%2C%22DOI%22%3A%2210.37828%5C%2Fem.2021.42.2%22%2C%22ISSN%22%3A%222336-9744%22%2C%22url%22%3A%22https%3A%5C%2F%5C%2Fwww.biotaxa.org%5C%2Fem%5C%2Farticle%5C%2Fview%5C%2Fem.2021.42.2%22%2C%22collections%22%3A%5B%22XPSUL9AV%22%5D%2C%22dateModified%22%3A%222023-03-07T02%3A51%3A53Z%22%7D%7D%2C%7B%22key%22%3A%22IJQ9INEI%22%2C%22library%22%3A%7B%22id%22%3A6039319%7D%2C%22meta%22%3A%7B%22creatorSummary%22%3A%22Salleh%20et%20al.%22%2C%22parsedDate%22%3A%222021-10-13%22%2C%22numChildren%22%3A0%7D%2C%22bib%22%3A%22%3Cdiv%20class%3D%5C%22csl-bib-body%5C%22%20style%3D%5C%22line-height%3A%201.35%3B%20padding-left%3A%201em%3B%20text-indent%3A-1em%3B%5C%22%3E%5Cn%20%20%3Cdiv%20class%3D%5C%22csl-entry%5C%22%3ESalleh%2C%20Nazurah%20Hamizah%2C%20Ihsan%20Nazurah%20Zulkipli%2C%20Hartini%20Mohd%20Yasin%2C%20Fairuzeta%20Ja%26%23x2019%3Bafar%2C%20Norhayati%20Ahmad%2C%20Wan%20Amir%20Nizam%20Wan%20Ahmad%2C%20and%20Siti%20Rohaiza%20Ahmad.%20%26%23x201C%3BSystematic%20Review%20of%20Medicinal%20Plants%20Used%20for%20Treatment%20of%20Diabetes%20in%20Human%20Clinical%20Trials%3A%20An%20ASEAN%20Perspective.%26%23x201D%3B%20%3Ci%3EEvidence-Based%20Complementary%20and%20Alternative%20Medicine%3C%5C%2Fi%3E%202021%20%28October%2013%2C%202021%29%3A%20e5570939.%20%3Ca%20href%3D%27https%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1155%5C%2F2021%5C%2F5570939%27%3Ehttps%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1155%5C%2F2021%5C%2F5570939%3C%5C%2Fa%3E.%3C%5C%2Fdiv%3E%5Cn%3C%5C%2Fdiv%3E%22%2C%22data%22%3A%7B%22itemType%22%3A%22journalArticle%22%2C%22title%22%3A%22Systematic%20Review%20of%20Medicinal%20Plants%20Used%20for%20Treatment%20of%20Diabetes%20in%20Human%20Clinical%20Trials%3A%20An%20ASEAN%20Perspective%22%2C%22creators%22%3A%5B%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Nazurah%20Hamizah%22%2C%22lastName%22%3A%22Salleh%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Ihsan%20Nazurah%22%2C%22lastName%22%3A%22Zulkipli%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Hartini%22%2C%22lastName%22%3A%22Mohd%20Yasin%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Fairuzeta%22%2C%22lastName%22%3A%22Ja%5Cu2019afar%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Norhayati%22%2C%22lastName%22%3A%22Ahmad%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Wan%20Amir%20Nizam%22%2C%22lastName%22%3A%22Wan%20Ahmad%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Siti%20Rohaiza%22%2C%22lastName%22%3A%22Ahmad%22%7D%5D%2C%22abstractNote%22%3A%22Traditionally%2C%20there%20are%20some%20medicinal%20plants%20believed%20to%20treat%20diabetes%2C%20as%20they%20have%20been%20proven%20in%20research%20studies%20to%20possess%20antidiabetic%20properties%2C%20such%20as%20improved%20insulin%20sensitivity%20and%20hypoglycemic%20activities%2C%20due%20to%20their%20high%20level%20of%20phenolic%20compounds%2C%20flavonoids%2C%20terpenoids%2C%20alkaloids%2C%20and%20glycosides.%20We%20conducted%20a%20systematic%20review%20to%20identify%20potential%20medicinal%20plants%20used%20during%20human%20clinical%20trials%20in%20the%20Association%20of%20Southeast%20Asian%20Nation%20%28ASEAN%29%20countries%20on%20prediabetic%20or%20type%202%20diabetic%20individuals%20and%20to%20potentially%20identify%20any%20bioactive%20compounds%20involved%20in%20effectively%20treating%20symptoms%20of%20diabetes%20such%20as%20lowering%20of%20blood%20glucose.%20A%20total%20of%201209%20reference%20titles%20were%20retrieved%20from%20four%20selected%20databases%20%28Science%20Direct%2C%20Scopus%2C%20Springer%20Link%2C%20and%20PubMed%29%20and%20only%20three%20met%20the%20inclusion%20criteria.%20Upon%20evaluation%20of%20the%20selected%20articles%2C%20four%20medicinal%20plants%20were%20identified%3A%20turmeric%20%28Curcuma%20longa%29%2C%20garlic%20%28Allium%20sativum%20L.%29%2C%20bitter%20melon%20%28Momordica%20charantia%29%2C%20and%20Rosella%20flower%20%28Hibiscus%20sabdariffa%20L.%29.%20Of%20these%2C%20only%20the%20bitter%20melon%20study%20did%20not%20show%20any%20significant%20change%20in%20the%20blood%20glucose%20of%20participants%20after%20intervention.%20This%20review%20demonstrates%20the%20limitations%20in%20published%20articles%20of%20human%20clinical%20trials%20for%20medicinal%20plants%5Cu2019%20intervention%20for%20diabetes.%20Upon%20further%20investigations%20on%20the%20four%20identified%20medicinal%20plants%20included%20in%20the%20animal%20studies%2C%20the%20findings%20showed%20positive%20effects%20in%20the%20management%20of%20diabetes%2C%20such%20as%20hyperglycemia.%20Hence%2C%20further%20testing%20and%20standardization%20of%20the%20methods%20in%20the%20studies%20can%20be%20suggested%20for%20human%20clinical%20trials%20for%20reliable%20data%20collections%20such%20as%20methods%20of%20extract%20preparation%2C%20duration%20of%20intervention%2C%20and%20conditions%20set%20for%20the%20study%20design.%22%2C%22date%22%3A%222021%5C%2F10%5C%2F13%22%2C%22language%22%3A%22en%22%2C%22DOI%22%3A%2210.1155%5C%2F2021%5C%2F5570939%22%2C%22ISSN%22%3A%221741-427X%22%2C%22url%22%3A%22https%3A%5C%2F%5C%2Fwww.hindawi.com%5C%2Fjournals%5C%2Fecam%5C%2F2021%5C%2F5570939%5C%2F%22%2C%22collections%22%3A%5B%22XPSUL9AV%22%2C%22RRNEBR5Y%22%5D%2C%22dateModified%22%3A%222021-11-23T03%3A51%3A24Z%22%7D%7D%2C%7B%22key%22%3A%22DF4GU654%22%2C%22library%22%3A%7B%22id%22%3A6039319%7D%2C%22meta%22%3A%7B%22creatorSummary%22%3A%22Setiawan%20et%20al.%22%2C%22parsedDate%22%3A%222021-09-29%22%2C%22numChildren%22%3A0%7D%2C%22bib%22%3A%22%3Cdiv%20class%3D%5C%22csl-bib-body%5C%22%20style%3D%5C%22line-height%3A%201.35%3B%20padding-left%3A%201em%3B%20text-indent%3A-1em%3B%5C%22%3E%5Cn%20%20%3Cdiv%20class%3D%5C%22csl-entry%5C%22%3ESetiawan%2C%20Edwin%2C%20David%20Relex%2C%20and%20David%20J.%20Marshall.%20%26%23x201C%3BShallow-Water%20Sponges%20from%20a%20High-Sedimentation%20Estuarine%20Bay%20%28Brunei%2C%20Northwest%20Borneo%2C%20Southeast%20Asia%29.%26%23x201D%3B%20%3Ci%3EJournal%20of%20Tropical%20Biodiversity%20and%20Biotechnology%3C%5C%2Fi%3E%206%2C%20no.%203%20%28September%2029%2C%202021%29%3A%2066435.%20%3Ca%20href%3D%27https%3A%5C%2F%5C%2Fdoi.org%5C%2F10.22146%5C%2Fjtbb.66435%27%3Ehttps%3A%5C%2F%5C%2Fdoi.org%5C%2F10.22146%5C%2Fjtbb.66435%3C%5C%2Fa%3E.%3C%5C%2Fdiv%3E%5Cn%3C%5C%2Fdiv%3E%22%2C%22data%22%3A%7B%22itemType%22%3A%22journalArticle%22%2C%22title%22%3A%22Shallow-water%20Sponges%20from%20a%20High-sedimentation%20Estuarine%20Bay%20%28Brunei%2C%20Northwest%20Borneo%2C%20Southeast%20Asia%29%22%2C%22creators%22%3A%5B%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Edwin%22%2C%22lastName%22%3A%22Setiawan%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22David%22%2C%22lastName%22%3A%22Relex%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22David%20J.%22%2C%22lastName%22%3A%22Marshall%22%7D%5D%2C%22abstractNote%22%3A%22Tropical%20estuaries%20are%20important%20habitats%20for%20invertebrates%20including%20sponges%2C%20a%20group%20of%20marine%20organisms%20that%20fulfill%20significant%20ecological%20roles%20and%20provide%20ecosystem%20services.%20Here%2C%20we%20describe%20the%20sponge%20fauna%20from%20Pulau%20Bedukang%2C%20a%20small%20island%20in%20a%20turbid%2C%20variable%20salinity%2C%20acidified%20and%20eutrophic%20estuarine%20bay%20%28Brunei%20Darussalam%2C%20northwest%20Borneo%29.%20We%20present%20records%20for%2014%20morphological%20species%20%28OTUs%29.%20Six%20of%20these%20species%20belong%20to%20the%20Haplosclerida%2C%20an%20order%20of%20shallow-water%20sponges%20that%20usually%20tolerate%20more%20variable%20and%20extreme%20physical%20conditions.%20Our%20baseline%20data%20contribute%20to%20the%20regional%20biogeography%20of%20sponges%20and%20present%20a%20reference%20source%20for%20ecological%20studies%20on%20marine%20animals%20inhabiting%20variable%20estuarine%20environments.%20This%20is%20the%20first%20known%20record%20of%20sponges%20from%20the%20northwest%20Bornean%20region%20of%20the%20South%20China%20Sea%20that%20are%20not%20associated%20with%20a%20coral%20ecosystem%3B%20other%20studies%20have%20concerned%20Singapore%2C%20peninsular%20Malaysia%2C%20Thailand%2C%20Cambodia%2C%20Vietnam%2C%20southern%20China%2C%20and%20Taiwan.%22%2C%22date%22%3A%222021-09-29%22%2C%22language%22%3A%22en%22%2C%22DOI%22%3A%2210.22146%5C%2Fjtbb.66435%22%2C%22ISSN%22%3A%222540-9581%22%2C%22url%22%3A%22https%3A%5C%2F%5C%2Fjournal.ugm.ac.id%5C%2Fjtbb%5C%2Farticle%5C%2Fview%5C%2F66435%22%2C%22collections%22%3A%5B%22XPSUL9AV%22%5D%2C%22dateModified%22%3A%222021-11-23T03%3A33%3A14Z%22%7D%7D%2C%7B%22key%22%3A%22CPRP2UAB%22%2C%22library%22%3A%7B%22id%22%3A6039319%7D%2C%22meta%22%3A%7B%22creatorSummary%22%3A%22Strijk%20et%20al.%22%2C%22parsedDate%22%3A%222021%22%2C%22numChildren%22%3A0%7D%2C%22bib%22%3A%22%3Cdiv%20class%3D%5C%22csl-bib-body%5C%22%20style%3D%5C%22line-height%3A%201.35%3B%20padding-left%3A%201em%3B%20text-indent%3A-1em%3B%5C%22%3E%5Cn%20%20%3Cdiv%20class%3D%5C%22csl-entry%5C%22%3EStrijk%2C%20Joeri%20S.%2C%20Damien%20D.%20Hinsinger%2C%20Mareike%20M.%20Roeder%2C%20Lars%20W.%20Chatrou%2C%20Thomas%20L.%20P.%20Couvreur%2C%20Roy%20H.%20J.%20Erkens%2C%20Herv%26%23xE9%3B%20Sauquet%2C%20Michael%20D.%20Pirie%2C%20Daniel%20C.%20Thomas%2C%20and%20Kunfang%20Cao.%20%26%23x201C%3BChromosome-Level%20Reference%20Genome%20of%20the%20Soursop%20%28%3Ci%3EAnnona%20Muricata%3C%5C%2Fi%3E%29%3A%20A%20New%20Resource%20for%20Magnoliid%20Research%20and%20Tropical%20Pomology.%26%23x201D%3B%20%3Ci%3EMolecular%20Ecology%20Resources%3C%5C%2Fi%3E%20n%5C%2Fa%2C%20no.%20n%5C%2Fa%20%282021%29.%20%3Ca%20href%3D%27https%3A%5C%2F%5C%2Fdoi.org%5C%2Fhttps%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1111%5C%2F1755-0998.13353%27%3Ehttps%3A%5C%2F%5C%2Fdoi.org%5C%2Fhttps%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1111%5C%2F1755-0998.13353%3C%5C%2Fa%3E.%3C%5C%2Fdiv%3E%5Cn%3C%5C%2Fdiv%3E%22%2C%22data%22%3A%7B%22itemType%22%3A%22journalArticle%22%2C%22title%22%3A%22Chromosome-level%20reference%20genome%20of%20the%20soursop%20%28%3Ci%3EAnnona%20muricata%3C%5C%2Fi%3E%29%3A%20A%20new%20resource%20for%20Magnoliid%20research%20and%20tropical%20pomology%22%2C%22creators%22%3A%5B%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Joeri%20S.%22%2C%22lastName%22%3A%22Strijk%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Damien%20D.%22%2C%22lastName%22%3A%22Hinsinger%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Mareike%20M.%22%2C%22lastName%22%3A%22Roeder%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Lars%20W.%22%2C%22lastName%22%3A%22Chatrou%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Thomas%20L.%20P.%22%2C%22lastName%22%3A%22Couvreur%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Roy%20H.%20J.%22%2C%22lastName%22%3A%22Erkens%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Herv%5Cu00e9%22%2C%22lastName%22%3A%22Sauquet%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Michael%20D.%22%2C%22lastName%22%3A%22Pirie%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Daniel%20C.%22%2C%22lastName%22%3A%22Thomas%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Kunfang%22%2C%22lastName%22%3A%22Cao%22%7D%5D%2C%22abstractNote%22%3A%22The%20flowering%20plant%20family%20Annonaceae%20includes%20important%20commercially%20grown%20tropical%20crops%2C%20but%20development%20of%20promising%20species%20is%20hindered%20by%20a%20lack%20of%20genomic%20resources%20to%20build%20breeding%20programs.%20Annonaceae%20are%20part%20of%20the%20magnoliids%2C%20an%20ancient%20lineage%20of%20angiosperms%20for%20which%20evolutionary%20relationships%20with%20other%20major%20clades%20remain%20unclear.%20To%20provide%20resources%20to%20breeders%20and%20evolutionary%20researchers%2C%20we%20report%20a%20chromosome-level%20genome%20assembly%20of%20the%20soursop%20%28Annona%20muricata%29.%20We%20assembled%20the%20genome%20using%20444.32%20Gb%20of%20DNA%20sequences%20%28676%5Cu00d7%20sequencing%20depth%29%20from%20PacBio%20and%20Illumina%20short-reads%2C%20in%20combination%20with%2010%5Cu00d7%20Genomics%20and%20Bionano%20data%20%28v1%29.%20A%20total%20of%20949%20scaffolds%20were%20assembled%20to%20a%20final%20size%20of%20656.77%20Mb%2C%20with%20a%20scaffold%20N50%20of%203.43%20Mb%20%28v1%29%2C%20and%20then%20further%20improved%20to%20seven%20pseudo-chromosomes%20using%20Hi-C%20sequencing%20data%20%28v2%3B%20scaffold%20N50%3A%2093.2%20Mb%2C%20total%20size%20in%20chromosomes%3A%20639.6%20Mb%29.%20Heterozygosity%20was%20very%20low%20%280.06%25%29%2C%20while%20repeat%20sequences%20accounted%20for%2054.87%25%20of%20the%20genome%2C%20and%2023%2C375%20protein-coding%20genes%20with%20an%20average%20of%204.79%20exons%20per%20gene%20were%20annotated%20using%20de%20novo%2C%20RNA-seq%20and%20homology-based%20approaches.%20Reconstruction%20of%20the%20historical%20population%20size%20showed%20a%20slow%20continuous%20contraction%2C%20probably%20related%20to%20Cenozoic%20climate%20changes.%20The%20soursop%20is%20the%20first%20genome%20assembled%20in%20Annonaceae%2C%20supporting%20further%20studies%20of%20floral%20evolution%20in%20magnoliids%2C%20providing%20an%20essential%20resource%20for%20delineating%20relationships%20of%20ancient%20angiosperm%20lineages.%20Both%20genome-assisted%20improvement%20and%20conservation%20efforts%20will%20be%20strengthened%20by%20the%20availability%20of%20the%20soursop%20genome.%20As%20a%20community%20resource%2C%20this%20assembly%20will%20further%20strengthen%20the%20role%20of%20Annonaceae%20as%20model%20species%20for%20research%20on%20the%20ecology%2C%20evolution%20and%20domestication%20potential%20of%20tropical%20species%20in%20pomology%20and%20agroforestry.%22%2C%22date%22%3A%222021%22%2C%22language%22%3A%22en%22%2C%22DOI%22%3A%22https%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1111%5C%2F1755-0998.13353%22%2C%22ISSN%22%3A%221755-0998%22%2C%22url%22%3A%22https%3A%5C%2F%5C%2Fonlinelibrary.wiley.com%5C%2Fdoi%5C%2Fabs%5C%2F10.1111%5C%2F1755-0998.13353%22%2C%22collections%22%3A%5B%22XPSUL9AV%22%2C%22RRNEBR5Y%22%5D%2C%22dateModified%22%3A%222021-04-12T07%3A42%3A27Z%22%7D%7D%2C%7B%22key%22%3A%227IYCTCKD%22%2C%22library%22%3A%7B%22id%22%3A6039319%7D%2C%22meta%22%3A%7B%22creatorSummary%22%3A%22Sulaiman%20et%20al.%22%2C%22parsedDate%22%3A%222021-04-03%22%2C%22numChildren%22%3A0%7D%2C%22bib%22%3A%22%3Cdiv%20class%3D%5C%22csl-bib-body%5C%22%20style%3D%5C%22line-height%3A%201.35%3B%20padding-left%3A%201em%3B%20text-indent%3A-1em%3B%5C%22%3E%5Cn%20%20%3Cdiv%20class%3D%5C%22csl-entry%5C%22%3ESulaiman%2C%20Zohrah%2C%20Mei%20Ann%20Lim%2C%20and%20Hussein%20Taha.%20%26%23x201C%3BGenetic%20Structure%20of%20Selected%20Finfish%20Populations%20in%20the%20Galapagos%20Islands%2C%20Ecuador.%26%23x201D%3B%20%3Ci%3EMarine%20Biodiversity%3C%5C%2Fi%3E%2051%2C%20no.%203%20%28April%203%2C%202021%29%3A%2041.%20%3Ca%20href%3D%27https%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1007%5C%2Fs12526-021-01179-8%27%3Ehttps%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1007%5C%2Fs12526-021-01179-8%3C%5C%2Fa%3E.%3C%5C%2Fdiv%3E%5Cn%3C%5C%2Fdiv%3E%22%2C%22data%22%3A%7B%22itemType%22%3A%22journalArticle%22%2C%22title%22%3A%22Genetic%20structure%20of%20selected%20finfish%20populations%20in%20the%20Galapagos%20Islands%2C%20Ecuador%22%2C%22creators%22%3A%5B%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Zohrah%22%2C%22lastName%22%3A%22Sulaiman%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Mei%20Ann%22%2C%22lastName%22%3A%22Lim%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Hussein%22%2C%22lastName%22%3A%22Taha%22%7D%5D%2C%22abstractNote%22%3A%22The%20genetic%20structure%20of%20selected%20five%20finfish%20populations%2C%20namely%2C%20almaco%20jack%20%28Seriola%20rivoliana%29%2C%20sailfin%20grouper%20%28Mycteroperca%20olfax%29%2C%20stalkeye%20scorpionfish%20%28Pontinus%20strigatus%29%2C%20wahoo%20%28Acanthocybium%20solandri%29%20and%20yellowfin%20tuna%20%28Thunnus%20albacares%29%20in%20the%20Galapagos%20Islands%2C%20was%20studied%20using%20mitochondrial%20DNA%20cytochrome%20b%20%28797%20bp%29%20and%20D-loop%20%28426%20bp%29.%20The%20results%20of%20the%20present%20study%20showed%20that%20%281%29%20almaco%20jack%2C%20yellowfin%20tuna%20and%20wahoo%20had%20high%20haplotype%20diversities%20and%20numerous%20singleton%20haplotypes%20and%20spread%20over%20extensive%20ranges%2C%20as%20expected%20in%20pelagic%20fishes%2C%20while%20only%20Galapagos%20yellowfin%20tuna%20from%20D-loop%20dataset%20showed%20population%20expansion%20%28P%20%3C%200.05%29%3B%20%282%29%20sailfin%20grouper%20cyt%20b%20had%20low%20haplotype%20and%20nucleotide%20diversities%2C%20confirming%20the%20concern%20from%20previous%20study%20that%20the%20fish%20was%20overfished%20in%20waters%20off%20the%20Galapagos%20Islands.%20It%20further%20supports%20the%20need%20to%20effectively%20manage%20sailfin%20grouper%3B%20%283%29%20Stalkeye%20scorpionfish%20cyt%20b%20had%20also%20low%20haplotype%20and%20nucleotide%20diversities%2C%20but%20with%20significant%20negative%20Fu%5Cu2019s%20Fs%2C%20%28P%20%3C%200.01%29%2C%20indicating%20genetic%20hitchhiking%20and%20overall%20reduction%20of%20genetic%20variation%2C%20supporting%20the%20need%20to%20monitor%20stalkeye%20scorpionfish%3B%20and%20%284%29%20no%20genetic%20differentiation%20was%20found%20between%20Galapagos%20and%20Western%20Pacific%20yellowfin%20tuna%20%28P%20%3D%200.9%29.%20The%20singleton%20haplotypes%20specific%20to%20the%20Galapagos%20yellowfin%20tuna%20population%20might%20indicate%20reproductive%20isolated%20units%20or%20founders.%20The%20results%20provide%20an%20insight%20into%20the%20genetic%20structure%20of%20finfish%20populations%2C%20which%20can%20be%20used%20to%20draw%20an%20effective%20management%20plan%20for%20ensuring%20their%20long-term%20sustainability%20in%20the%20Galapagos%20Islands.%22%2C%22date%22%3A%222021-04-03%22%2C%22language%22%3A%22en%22%2C%22DOI%22%3A%2210.1007%5C%2Fs12526-021-01179-8%22%2C%22ISSN%22%3A%221867-1624%22%2C%22url%22%3A%22https%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1007%5C%2Fs12526-021-01179-8%22%2C%22collections%22%3A%5B%22XPSUL9AV%22%2C%22RRNEBR5Y%22%5D%2C%22dateModified%22%3A%222021-12-06T02%3A39%3A30Z%22%7D%7D%2C%7B%22key%22%3A%22YQAYZ684%22%2C%22library%22%3A%7B%22id%22%3A6039319%7D%2C%22meta%22%3A%7B%22creatorSummary%22%3A%22Taha%20et%20al.%22%2C%22parsedDate%22%3A%222021-01-13%22%2C%22numChildren%22%3A2%7D%2C%22bib%22%3A%22%3Cdiv%20class%3D%5C%22csl-bib-body%5C%22%20style%3D%5C%22line-height%3A%201.35%3B%20padding-left%3A%201em%3B%20text-indent%3A-1em%3B%5C%22%3E%5Cn%20%20%3Cdiv%20class%3D%5C%22csl-entry%5C%22%3ETaha%2C%20Hussein%2C%20Zulhamizan%20Awang-Jamil%2C%20Muhammad%20Fairuz%20Aminuddin%2C%20Aida%20Maryam%20Basri%2C%20Barirah%20Quratulain%20Zaidi%2C%20and%20Norhayati%20Ahmad.%20%26%23x201C%3BPhytochemicals%20and%20Antimicrobial%20Analysis%20of%20Selected%20Medicinal%20Plants%20from%20Brunei%20Darussalam.%26%23x201D%3B%20%3Ci%3EBiodiversitas%20Journal%20of%20Biological%20Diversity%3C%5C%2Fi%3E%2022%2C%20no.%202%20%28January%2013%2C%202021%29%3A%20601%26%23x2013%3B6.%20%3Ca%20href%3D%27https%3A%5C%2F%5C%2Fdoi.org%5C%2F10.13057%5C%2Fbiodiv%5C%2Fd220211%27%3Ehttps%3A%5C%2F%5C%2Fdoi.org%5C%2F10.13057%5C%2Fbiodiv%5C%2Fd220211%3C%5C%2Fa%3E.%3C%5C%2Fdiv%3E%5Cn%3C%5C%2Fdiv%3E%22%2C%22data%22%3A%7B%22itemType%22%3A%22journalArticle%22%2C%22title%22%3A%22Phytochemicals%20and%20antimicrobial%20analysis%20of%20selected%20medicinal%20plants%20from%20Brunei%20Darussalam%22%2C%22creators%22%3A%5B%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Hussein%22%2C%22lastName%22%3A%22Taha%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Zulhamizan%22%2C%22lastName%22%3A%22Awang-Jamil%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Muhammad%20Fairuz%22%2C%22lastName%22%3A%22Aminuddin%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Aida%20Maryam%22%2C%22lastName%22%3A%22Basri%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Barirah%20Quratulain%22%2C%22lastName%22%3A%22Zaidi%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Norhayati%22%2C%22lastName%22%3A%22Ahmad%22%7D%5D%2C%22abstractNote%22%3A%22Medicinal%20plants%20have%20been%20widely%20used%20but%20their%20pharmacological%20properties%20are%20yet%20to%20be%20fully%20explored.%20This%20study%20was%20aimed%20to%20determine%20the%20phytochemicals%20and%20their%20antimicrobial%20activity%20of%20four%20selected%20medicinal%20plants%3A%20Melastoma%20malabathricum%2C%20Merremia%20borneensis%2C%20Pandanus%20amaryllifolius%2C%20and%20Senna%20alata%20from%20Brunei%20Darussalam.%20Phytochemical%20constituents%20were%20evaluated%20by%20using%20gas%20chromatography-mass%20spectrometry%20%28GC-MS%29%20and%20antimicrobial%20screening%20was%20carried%20out%20using%20agar%20well%20diffusion%20method.%20A%20number%20of%20phytochemicals%20were%20identified%20in%20the%20plant%20extracts%2C%20of%20which%20the%20following%20compounds%20were%20present%20in%20higher%20amounts%20%28%3E10%20%25%29%3A%20coumaran%2C%20hentriacontane%2C%20hexatriacontane%2C%203-hydroxy%20benzyl%20alcohol%2C%20%5Cu03b1-linolenic%20acid%2C%20palmitic%20acid%2C%20catechol%2C%20squalene%2C%20and%20%5Cu03b1-tocopherol-%5Cu03b2-D-mannoside.%20A%20concentration-dependent%20antimicrobial%20activity%20was%20observed%20in%20some%20extracts%20against%20Bacillus%20subtilis%2C%20Escherichia%20coli%2C%20Pseudomonas%20aeruginosa%2C%20Staphylococcus%20aureus%2C%20and%20Saccharomyces%20cerevisiae.%20Results%20of%20this%20study%20showed%20medicinal%20potential%20of%20the%20four%20selected%20plants.%22%2C%22date%22%3A%222021%5C%2F01%5C%2F13%22%2C%22language%22%3A%22en%22%2C%22DOI%22%3A%2210.13057%5C%2Fbiodiv%5C%2Fd220211%22%2C%22ISSN%22%3A%222085-4722%22%2C%22url%22%3A%22https%3A%5C%2F%5C%2Fsmujo.id%5C%2Fbiodiv%5C%2Farticle%5C%2Fview%5C%2F7450%22%2C%22collections%22%3A%5B%22XPSUL9AV%22%2C%22RRNEBR5Y%22%5D%2C%22dateModified%22%3A%222021-01-23T04%3A37%3A30Z%22%7D%7D%2C%7B%22key%22%3A%227CXQQ2DJ%22%2C%22library%22%3A%7B%22id%22%3A6039319%7D%2C%22meta%22%3A%7B%22creatorSummary%22%3A%22Taha%20et%20al.%22%2C%22parsedDate%22%3A%222021-02-20%22%2C%22numChildren%22%3A0%7D%2C%22bib%22%3A%22%3Cdiv%20class%3D%5C%22csl-bib-body%5C%22%20style%3D%5C%22line-height%3A%201.35%3B%20padding-left%3A%201em%3B%20text-indent%3A-1em%3B%5C%22%3E%5Cn%20%20%3Cdiv%20class%3D%5C%22csl-entry%5C%22%3ETaha%2C%20Hussein%2C%20Pooja%20Shivanand%2C%20Mohamad%20Abdul%20Azim%20Zainudin%2C%20and%20Nurul%20Azirah%20Hadanan.%20%26%23x201C%3BIdentification%20of%20Culturable%20Marine%20Fungi%20and%20Bacteria%20from%20Coastal%20Region%20in%20Brunei%20Darussalam%3A%20Identification%20of%20Culturable%20Marine%20Microbes.%26%23x201D%3B%20%3Ci%3EBiodiversitas%20Journal%20of%20Biological%20Diversity%3C%5C%2Fi%3E%2022%2C%20no.%203%20%28February%2020%2C%202021%29.%20%3Ca%20href%3D%27https%3A%5C%2F%5C%2Fdoi.org%5C%2F10.13057%5C%2Fbiodiv%5C%2Fd220332%27%3Ehttps%3A%5C%2F%5C%2Fdoi.org%5C%2F10.13057%5C%2Fbiodiv%5C%2Fd220332%3C%5C%2Fa%3E.%3C%5C%2Fdiv%3E%5Cn%3C%5C%2Fdiv%3E%22%2C%22data%22%3A%7B%22itemType%22%3A%22journalArticle%22%2C%22title%22%3A%22Identification%20of%20culturable%20marine%20fungi%20and%20bacteria%20from%20coastal%20region%20in%20Brunei%20Darussalam%3A%20Identification%20of%20culturable%20marine%20microbes.%22%2C%22creators%22%3A%5B%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Hussein%22%2C%22lastName%22%3A%22Taha%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Pooja%22%2C%22lastName%22%3A%22Shivanand%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Mohamad%20Abdul%20Azim%22%2C%22lastName%22%3A%22Zainudin%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Nurul%20Azirah%22%2C%22lastName%22%3A%22Hadanan%22%7D%5D%2C%22abstractNote%22%3A%22Abstract.%20Taha%20H%2C%20Shivanand%20P%2C%20Zainudin%20MAA%2C%20Hadanan%20NA.%202021.%20Short%20Communication%3A%20Identification%20of%20culturable%20marine%20fungi%20and%20bacteria%20from%20coastal%20region%20in%20Brunei%20Darussalam.%20Biodiversitas%2022%3A%201326-1331.%20Microbial%20diversity%20in%20Brunei%20Darussalam%20located%20on%20northwest%20coast%20of%20Borneo%20is%20not%20well%20explored.%20This%20study%20aimed%20to%20isolate%20and%20identify%20culturable%20marine%20fungi%20and%20bacteria%20from%20coastal%20regions.%20Microbial%20identification%20was%20carried%20out%20via%20DNA%20barcoding%20using%20rRNA-ITS%20marker%20for%20fungi%20and%2016S%20rRNA%20marker%20for%20bacteria.%20Nine%20marine%20fungal%20isolates%20were%20identified%20to%20five%20genera%20as%20Aspergillus%2C%20Penicillium%2C%20Phialemoniopsis%2C%20Purpureocillium%20and%20Trametes.%20However%2C%20only%20one%20genus%2C%20Pseudoalteromonas%20was%20identified%20from%20ten%20marine%20bacterial%20isolates%20with%20at%20least%20three%20different%20Pseudoalteromonas%20species%20expected%20from%20the%20isolation.%20This%20study%20provided%20an%20insight%20into%20the%20diversity%20of%20culturable%20marine%20microbes%20from%20a%20coastal%20ecosystem.%20As%20the%20microbes%20were%20found%20culturable%20and%20can%20easily%20grow%20under%20saline%20conditions%2C%20they%20are%20potential%20of%20considerable%20biotechnological%20interest.%20%26nbsp%3B%22%2C%22date%22%3A%222021-02-20%22%2C%22language%22%3A%22en%22%2C%22DOI%22%3A%2210.13057%5C%2Fbiodiv%5C%2Fd220332%22%2C%22ISSN%22%3A%222085-4722%22%2C%22url%22%3A%22https%3A%5C%2F%5C%2Fsmujo.id%5C%2Fbiodiv%5C%2Farticle%5C%2Fview%5C%2F7611%22%2C%22collections%22%3A%5B%22XPSUL9AV%22%5D%2C%22dateModified%22%3A%222024-08-15T01%3A22%3A00Z%22%7D%7D%2C%7B%22key%22%3A%22M6WXLVXP%22%2C%22library%22%3A%7B%22id%22%3A6039319%7D%2C%22meta%22%3A%7B%22creatorSummary%22%3A%22Tan%20et%20al.%22%2C%22parsedDate%22%3A%222021-07-28%22%2C%22numChildren%22%3A0%7D%2C%22bib%22%3A%22%3Cdiv%20class%3D%5C%22csl-bib-body%5C%22%20style%3D%5C%22line-height%3A%201.35%3B%20padding-left%3A%201em%3B%20text-indent%3A-1em%3B%5C%22%3E%5Cn%20%20%3Cdiv%20class%3D%5C%22csl-entry%5C%22%3ETan%2C%20Ming%20Kai%2C%20Rodzay%20bin%20Haji%20Abdul%20Wahab%2C%20Razy%20Japir%2C%20Authur%20Y.%20C.%20Chung%2C%20and%20Tony%20Robillard.%20%26%23x201C%3BRevision%20of%20the%20Cricket%20Genus%20%3Ci%3ENisitrus%3C%5C%2Fi%3E%20Saussure%20%28Orthoptera%3A%20Gryllidae%3A%20Eneopterinae%29%20and%20Descriptions%20of%20Five%20New%20Species.%26%23x201D%3B%20%3Ci%3EEuropean%20Journal%20of%20Taxonomy%3C%5C%2Fi%3E%20761%20%28July%2028%2C%202021%29%3A%201%26%23x2013%3B75.%20%3Ca%20href%3D%27https%3A%5C%2F%5C%2Fdoi.org%5C%2F10.5852%5C%2Fejt.2021.761.1449%27%3Ehttps%3A%5C%2F%5C%2Fdoi.org%5C%2F10.5852%5C%2Fejt.2021.761.1449%3C%5C%2Fa%3E.%3C%5C%2Fdiv%3E%5Cn%3C%5C%2Fdiv%3E%22%2C%22data%22%3A%7B%22itemType%22%3A%22journalArticle%22%2C%22title%22%3A%22Revision%20of%20the%20cricket%20genus%20%3Ci%3ENisitrus%3C%5C%2Fi%3E%20Saussure%20%28Orthoptera%3A%20Gryllidae%3A%20Eneopterinae%29%20and%20descriptions%20of%20five%20new%20species%22%2C%22creators%22%3A%5B%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Ming%20Kai%22%2C%22lastName%22%3A%22Tan%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Rodzay%20bin%20Haji%20Abdul%22%2C%22lastName%22%3A%22Wahab%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Razy%22%2C%22lastName%22%3A%22Japir%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Authur%20Y.%20C.%22%2C%22lastName%22%3A%22Chung%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Tony%22%2C%22lastName%22%3A%22Robillard%22%7D%5D%2C%22abstractNote%22%3A%22Nisitrus%20Saussure%2C%201878%20is%20a%20diurnal%20and%20monophyletic%20group%20of%20eneopterine%20crickets%20found%20in%20parts%20of%20Southeast%20Asia.%20Species%20often%20have%20vivid%20colourations%20which%20make%20them%20charismatic%20photograph%20subjects%20among%20macro%20photographers.%20However%2C%20their%20taxonomy%20has%20not%20been%20revised%20since%20their%20original%20descriptions%2C%20whereas%20there%20are%20also%20species%20awaiting%20to%20be%20discovered%20and%20described.%20A%20synoptic%20revision%20is%20therefore%20needed%20prior%20to%20studying%20the%20phylogenetic%20relationships%20of%20the%20genus%2C%20and%20before%20undertaking%20more%20precise%20studies%20on%20biogeography%20and%20evolution%20of%20traits.%20By%20holistically%20incorporating%20information%20about%20general%20morphology%2C%20male%20and%20female%20genitalia%2C%20and%20bioacoustics%2C%20we%20revise%20the%20taxonomy%20of%20these%20crickets%20and%20recognise%2010%20valid%20species%20of%20Nisitrus.%20Five%20new%20species%20are%20described%3A%20N.%5Cu00a0crucius%20Robillard%20%26%20Tan%20sp.%20nov.%20from%20Borneo%3B%20N.%5Cu00a0danum%20Robillard%20%26%20Tan%20sp.%20nov.%20from%20Borneo%3B%20N.%5Cu00a0hughtani%20Robillard%20%26%20Tan%20sp.%20nov.%20from%20Sumatra%3B%20N.%5Cu00a0malaya%20Robillard%20%26%20Tan%20sp.%20nov.%20from%20Malay%20Peninsula%3B%20and%20N.%5Cu00a0rindu%20Robillard%20%26%20Tan%20sp.%20nov.%20from%20Borneo.%20We%20redescribe%20N.%5Cu00a0brunnerianus%20and%20N.%5Cu00a0insignis%3B%20describe%20the%20calls%20of%20N.%5Cu00a0malaya%20sp.%5Cu00a0nov.%2C%20N.%5Cu00a0musicus%20and%20N.%5Cu00a0vittatus.%20We%20consider%20N.%5Cu00a0sumatrensis%20as%20a%20junior%20synonym%20of%20N.%5Cu00a0insignis%3B%20and%20N.%5Cu00a0marginata%20as%20a%20junior%20synonym%20of%20N.%5Cu00a0vittatus.%20Nisitrus%20hyalinus%20requires%20further%20revision.%20We%20also%20consider%20N.%5Cu00a0maculosus%20as%20a%20dubious%20name.%22%2C%22date%22%3A%222021-07-28%22%2C%22language%22%3A%22en%22%2C%22DOI%22%3A%2210.5852%5C%2Fejt.2021.761.1449%22%2C%22ISSN%22%3A%222118-9773%22%2C%22url%22%3A%22https%3A%5C%2F%5C%2Feuropeanjournaloftaxonomy.eu%5C%2Findex.php%5C%2Fejt%5C%2Farticle%5C%2Fview%5C%2F1449%22%2C%22collections%22%3A%5B%22XPSUL9AV%22%2C%22RRNEBR5Y%22%5D%2C%22dateModified%22%3A%222021-09-10T09%3A49%3A31Z%22%7D%7D%2C%7B%22key%22%3A%2263RXR3A7%22%2C%22library%22%3A%7B%22id%22%3A6039319%7D%2C%22meta%22%3A%7B%22creatorSummary%22%3A%22Tan%20et%20al.%22%2C%22parsedDate%22%3A%222021%22%2C%22numChildren%22%3A0%7D%2C%22bib%22%3A%22%3Cdiv%20class%3D%5C%22csl-bib-body%5C%22%20style%3D%5C%22line-height%3A%201.35%3B%20padding-left%3A%201em%3B%20text-indent%3A-1em%3B%5C%22%3E%5Cn%20%20%3Cdiv%20class%3D%5C%22csl-entry%5C%22%3ETan%2C%20Ming%20Kai%2C%20Julien%20Malem%2C%20Fr%26%23xE9%3Bd%26%23xE9%3Bric%20Legendre%2C%20Jiajia%20Dong%2C%20Jessica%20B.%20Baroga-Barbecho%2C%20Sheryl%20A.%20Yap%2C%20Rodzay%20bin%20Haji%20Abdul%20Wahab%2C%20Razy%20Japir%2C%20Arthur%20Y.%20C.%20Chung%2C%20and%20Tony%20Robillard.%20%26%23x201C%3BPhylogeny%2C%20Systematics%20and%20Evolution%20of%20Calling%20Songs%20of%20the%20Lebinthini%20Crickets%20%28Orthoptera%2C%20Grylloidea%2C%20Eneopterinae%29%2C%20with%20Description%20of%20Two%20New%20Genera.%26%23x201D%3B%20%3Ci%3ESystematic%20Entomology%3C%5C%2Fi%3E%20n%5C%2Fa%2C%20no.%20n%5C%2Fa%20%282021%29.%20%3Ca%20href%3D%27https%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1111%5C%2Fsyen.12510%27%3Ehttps%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1111%5C%2Fsyen.12510%3C%5C%2Fa%3E.%3C%5C%2Fdiv%3E%5Cn%3C%5C%2Fdiv%3E%22%2C%22data%22%3A%7B%22itemType%22%3A%22journalArticle%22%2C%22title%22%3A%22Phylogeny%2C%20systematics%20and%20evolution%20of%20calling%20songs%20of%20the%20Lebinthini%20crickets%20%28Orthoptera%2C%20Grylloidea%2C%20Eneopterinae%29%2C%20with%20description%20of%20two%20new%20genera%22%2C%22creators%22%3A%5B%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Ming%20Kai%22%2C%22lastName%22%3A%22Tan%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Julien%22%2C%22lastName%22%3A%22Malem%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Fr%5Cu00e9d%5Cu00e9ric%22%2C%22lastName%22%3A%22Legendre%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Jiajia%22%2C%22lastName%22%3A%22Dong%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Jessica%20B.%22%2C%22lastName%22%3A%22Baroga-Barbecho%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Sheryl%20A.%22%2C%22lastName%22%3A%22Yap%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Rodzay%20bin%20Haji%20Abdul%22%2C%22lastName%22%3A%22Wahab%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Razy%22%2C%22lastName%22%3A%22Japir%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Arthur%20Y.%20C.%22%2C%22lastName%22%3A%22Chung%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Tony%22%2C%22lastName%22%3A%22Robillard%22%7D%5D%2C%22abstractNote%22%3A%22The%20Lebinthini%20crickets%20are%20distributed%20in%20Southeast%20Asia%2C%20Western%20Pacific%20and%20tropical%20South%20America.%20They%20represent%20more%20than%20half%20of%20the%20described%20species%20in%20the%20subfamily%20Eneopterinae.%20These%20crickets%20are%20morphologically%20and%20behaviorally%20diverse%2C%20varying%20in%20body%20size%2C%20wing%20morphology%20%28ranging%20from%20brachypterous%20to%20fully%20winged%29%20and%20acoustic%20signals.%20They%20also%20have%20a%20distinctive%20communication%20system%3A%20high-frequency%20calling%2C%20vibratory%20signalling%2C%20duetting%2C%20and%20lack%20of%20phonotaxis%20in%20females.%20To%20investigate%20how%20these%20traits%20evolved%20and%20diversified%2C%20a%20clear%20phylogenetic%20context%20is%20needed%20with%20taxonomic%20and%20biological%20data%20for%20as%20many%20species%20as%20possible.%20Since%202010%2C%20the%20numbers%20of%20known%20species%20and%20genera%20in%20the%20tribe%20have%20grown%20considerably%2C%20but%20the%20type%20genus%20Lebinthus%20and%20the%20tribe%20classification%20lacked%20a%20general%20revision%20based%20on%20phylogenetic%20inferences.%20In%20this%20paper%2C%20we%20study%20the%20systematics%20of%20the%20Lebinthini%20and%20present%20new%20phylogenetic%20results%20confirming%20the%20monophyly%20of%20Lebinthini%20and%20the%20relationships%20established%20by%20previous%20studies.%20The%20phylogeny%20allows%20us%20to%20define%20three%20monophyletic%20subtribes%20within%20the%20Lebinthini%20with%20clear%20morphological%20features%20and%20distribution%20areas%3A%20Cardiodactylina%20subtribe%20n.%2C%20Lebinthina%20subtribe%20n.%2C%20and%20Ligypterina%20subtribe%20n.%20We%20also%20redefine%20Lebinthus%20and%20described%20two%20new%20genera%20related%20to%20Lebinthus%2C%20Falcerminthus%20gen.nov.%2C%20and%20Fadinthus%20gen.nov.%2C%20each%20characterized%20by%20clear-cut%20morphological%2C%20anatomical%2C%20and%20acoustic%20features.%20Using%20ancestral%20state%20reconstructions%2C%20we%20investigate%20the%20evolution%20of%20the%20diverse%20calling%20songs%20in%20Lebinthini.%20We%20demonstrate%20that%20both%20trills%20and%20monosyllabic%20calls%20were%20acquired%20multiple%20times%20instead%20of%20evolving%20from%20simple%20to%20complex%20temporal%20patterns%20as%20suggested%20from%20previous%20studies.%20We%20also%20find%20that%20temporal%20traits%20and%20the%20dominant%20frequency%20evolve%20in%20a%20very%20dynamic%20way%2C%20and%20that%20the%20harmonic%20of%20the%20call%2C%20i.e.%2C%20the%20dominant%20frequency%2C%20seems%20to%20undergo%20diversification%20in%20the%20subtribe%20Lebinthina.%22%2C%22date%22%3A%222021%22%2C%22language%22%3A%22en%22%2C%22DOI%22%3A%2210.1111%5C%2Fsyen.12510%22%2C%22ISSN%22%3A%221365-3113%22%2C%22url%22%3A%22https%3A%5C%2F%5C%2Fonlinelibrary.wiley.com%5C%2Fdoi%5C%2Fabs%5C%2F10.1111%5C%2Fsyen.12510%22%2C%22collections%22%3A%5B%22XPSUL9AV%22%2C%22RRNEBR5Y%22%5D%2C%22dateModified%22%3A%222021-09-10T09%3A57%3A23Z%22%7D%7D%2C%7B%22key%22%3A%225P73B4K7%22%2C%22library%22%3A%7B%22id%22%3A6039319%7D%2C%22meta%22%3A%7B%22creatorSummary%22%3A%22Tan%20et%20al.%22%2C%22parsedDate%22%3A%222021-10-07%22%2C%22numChildren%22%3A0%7D%2C%22bib%22%3A%22%3Cdiv%20class%3D%5C%22csl-bib-body%5C%22%20style%3D%5C%22line-height%3A%201.35%3B%20padding-left%3A%201em%3B%20text-indent%3A-1em%3B%5C%22%3E%5Cn%20%20%3Cdiv%20class%3D%5C%22csl-entry%5C%22%3ETan%2C%20Ming%20Kai%2C%20Razy%20Japir%2C%20Arthur%20Y.%20C.%20Chung%2C%20and%20Rodzay%20Bin%20Haji%20Abdul%20Wahab.%20%26%23x201C%3BNew%20Species%20and%20Taxonomic%20Notes%20of%20Scaly%20Crickets%20%28Orthoptera%3A%20Mogoplistidae%3A%20Mogoplistinae%29%20from%20Borneo.%26%23x201D%3B%20%3Ci%3EZootaxa%3C%5C%2Fi%3E%205048%2C%20no.%203%20%28October%207%2C%202021%29%3A%20407%26%23x2013%3B21.%20%3Ca%20href%3D%27https%3A%5C%2F%5C%2Fdoi.org%5C%2F10.11646%5C%2Fzootaxa.5048.3.6%27%3Ehttps%3A%5C%2F%5C%2Fdoi.org%5C%2F10.11646%5C%2Fzootaxa.5048.3.6%3C%5C%2Fa%3E.%3C%5C%2Fdiv%3E%5Cn%3C%5C%2Fdiv%3E%22%2C%22data%22%3A%7B%22itemType%22%3A%22journalArticle%22%2C%22title%22%3A%22New%20species%20and%20taxonomic%20notes%20of%20scaly%20crickets%20%28Orthoptera%3A%20Mogoplistidae%3A%20Mogoplistinae%29%20from%20Borneo%22%2C%22creators%22%3A%5B%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Ming%20Kai%22%2C%22lastName%22%3A%22Tan%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Razy%22%2C%22lastName%22%3A%22Japir%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Arthur%20Y.%20C.%22%2C%22lastName%22%3A%22Chung%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Rodzay%20Bin%20Haji%20Abdul%22%2C%22lastName%22%3A%22Wahab%22%7D%5D%2C%22abstractNote%22%3A%22Recent%20orthopteran%20surveys%20in%20the%20hyper-diverse%20Borneo%2C%20i.e.%2C%20Brunei%20Darussalam%20and%20Sandakan%20in%20Sabah%2C%20allow%20us%20to%20review%20the%20scaly%20crickets%20from%20the%20subfamily%20Mogoplistinae%20there.%20We%20discover%20and%20describe%20the%20male%2C%20as%20well%20as%20formally%20naming%20Cycloptiloides%20bimaculata%20Tan%2C%20Japir%20%26amp%3B%20Chung%2C%20sp.%20nov.%20from%20Sandakan.%20This%20species%20was%20previously%20described%20as%20sp.%201%20in%20a%20comprehensive%20revision%20by%20Ingrisch%20%282006%29%20but%20only%20the%20females%20were%20known.%20We%20also%20describe%20Ectatoderus%20nigrofasciatus%20Tan%20%26amp%3B%20Wahab%2C%20sp.%20nov.%20from%20Brunei%20Darussalam.%20New%20locality%20records%20are%20reported%20for%20Apterornebius%20kinabalu%20Ingrisch%2C%202006%20in%20Sandakan%20%28Sabah%29%20and%20Ornebius%20pullus%20Ingrisch%2C%202006%20in%20Belait%20District%20%28Brunei%29.%5Cn%26nbsp%3B%22%2C%22date%22%3A%222021-10-07%22%2C%22language%22%3A%22en%22%2C%22DOI%22%3A%2210.11646%5C%2Fzootaxa.5048.3.6%22%2C%22ISSN%22%3A%221175-5334%22%2C%22url%22%3A%22https%3A%5C%2F%5C%2Fmapress.com%5C%2Fzt%5C%2Farticle%5C%2Fview%5C%2Fzootaxa.5048.3.6%22%2C%22collections%22%3A%5B%22XPSUL9AV%22%2C%22RRNEBR5Y%22%5D%2C%22dateModified%22%3A%222021-10-13T01%3A18%3A00Z%22%7D%7D%2C%7B%22key%22%3A%22K3Y7R46L%22%2C%22library%22%3A%7B%22id%22%3A6039319%7D%2C%22meta%22%3A%7B%22creatorSummary%22%3A%22Yi%20et%20al.%22%2C%22parsedDate%22%3A%222021-07%22%2C%22numChildren%22%3A0%7D%2C%22bib%22%3A%22%3Cdiv%20class%3D%5C%22csl-bib-body%5C%22%20style%3D%5C%22line-height%3A%201.35%3B%20padding-left%3A%201em%3B%20text-indent%3A-1em%3B%5C%22%3E%5Cn%20%20%3Cdiv%20class%3D%5C%22csl-entry%5C%22%3EYi%2C%20Justin%20D.%2C%20Ariadna%20Cobo-Cuan%2C%20Rafael%20M%26%23xE1%3Brquez%2C%20Jennifer%20A.%20Sheridan%2C%20T.%20Ulmar%20Grafe%2C%20Almo%20Farina%2C%20and%20Peter%20M.%20Narins.%20%26%23x201C%3BNovel%20Acoustic%20Snapshot%20of%20a%20Sarawak%20Forest.%26%23x201D%3B%20%3Ci%3EJEA%3C%5C%2Fi%3E%205%2C%20no.%201%20%28July%202021%29%3A%200%26%23x2013%3B0.%20%3Ca%20href%3D%27https%3A%5C%2F%5C%2Fdoi.org%5C%2F10.35995%5C%2Fjea5010001%27%3Ehttps%3A%5C%2F%5C%2Fdoi.org%5C%2F10.35995%5C%2Fjea5010001%3C%5C%2Fa%3E.%3C%5C%2Fdiv%3E%5Cn%3C%5C%2Fdiv%3E%22%2C%22data%22%3A%7B%22itemType%22%3A%22journalArticle%22%2C%22title%22%3A%22Novel%20Acoustic%20Snapshot%20of%20a%20Sarawak%20Forest%22%2C%22creators%22%3A%5B%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Justin%20D.%22%2C%22lastName%22%3A%22Yi%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Ariadna%22%2C%22lastName%22%3A%22Cobo-Cuan%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Rafael%22%2C%22lastName%22%3A%22M%5Cu00e1rquez%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Jennifer%20A.%22%2C%22lastName%22%3A%22Sheridan%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22T.%20Ulmar%22%2C%22lastName%22%3A%22Grafe%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Almo%22%2C%22lastName%22%3A%22Farina%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Peter%20M.%22%2C%22lastName%22%3A%22Narins%22%7D%5D%2C%22abstractNote%22%3A%22Auditory%20signals%20are%20often%20used%20by%20forest%20species%20to%20attract%20mates%2C%20define%20and%20defend%20territories%2C%20and%20locate%20prey%2C%20and%20thus%20these%20signals%20may%20be%20monitored%20and%20used%20to%20estimate%20species%20presence%2C%20richness%20and%20acoustic%20complexity%20of%20a%20patch%20of%20habitat.%20We%20analyzed%20recordings%20from%20a%20biodiversity%20hotspot%20in%20the%20rainforests%20of%20Batang%20Ai%20National%20Park%20in%20Sarawak%2C%20Malaysian%20Borneo.%20Three%20recording%20sites%20were%20established%20in%20the%20forest%20understory%20and%20continuous%20recordings%20were%20made%20for%20an%20acoustic%20snapshot%20of%20approximately%2040%20h.%20From%20these%20recordings%2C%20the%20bioacoustic%20index%20%28BI%29%20and%20acoustic%20complexity%20index%20%28ACI%29%20were%20computed.%20These%20acoustic%20indices%20exhibited%20clear%20periodicity%20with%20periods%20on%20the%20order%20of%20%26gt%3B6%20h.%20The%20ACI%20and%20BI%20time%20series%20also%20showed%20oscillations%2C%20with%20peaks%20separated%20by%2012%20h%20corresponding%20to%20the%20alternation%20between%20bird%20and%20frog%20activity%20during%20the%20day%20and%20night%2C%20respectively.%20We%20quantified%20the%20relationships%20between%20the%20acoustic%20index%20values%20and%20anuran%20and%20avian%20richness%2C%20and%20environmental%20variables%20%28rainfall%20intensity%20and%20time%20of%20day%29%20using%20correlative%20and%20information%20theoretic%20techniques.%20ACI%20and%20BI%20were%20moderately%20positively%20and%20negatively%20correlated%20with%20rainfall%20intensity%2C%20respectively.%20ACI%20and%20BI%20were%20also%20weakly-to-moderately%20correlated%20to%20species%20richness%2C%20but%20with%20mixed%20directions%20between%20recording%20sites.%20However%2C%20the%20correlations%20and%20mutual%20information%20values%2C%20a%20model-free%20estimator%20of%20the%20relationship%20strength%20of%20random%20variables%2C%20were%20highest%20for%20the%20relationships%20between%20ACI%20and%20BI%20with%20respect%20to%20the%20rate%20of%20individual%20frog%20calls%2C%20rather%20than%20species%20richness%20alone.%20We%20conclude%20that%20acoustic%20indices%20are%20most%20useful%20for%20monitoring%20ecological%20dynamics%20on%20timescales%20longer%20than%206%20h.%20We%20suggest%20that%20acoustic%20indices%20are%20best%20applied%20to%20studying%20changes%20in%20acoustic%20activity%20at%20the%20level%20of%20ecological%20populations%20rather%20than%20for%20estimating%20species%20richness%2C%20as%20they%20have%20been%20commonly%20applied%20in%20the%20past.%22%2C%22date%22%3A%222021%5C%2F07%22%2C%22language%22%3A%22en%22%2C%22DOI%22%3A%2210.35995%5C%2Fjea5010001%22%2C%22ISSN%22%3A%22%22%2C%22url%22%3A%22https%3A%5C%2F%5C%2Fjea.jams.pub%5C%2Farticle%5C%2F5%5C%2F1%5C%2F147%22%2C%22collections%22%3A%5B%22XPSUL9AV%22%5D%2C%22dateModified%22%3A%222021-12-06T02%3A38%3A38Z%22%7D%7D%2C%7B%22key%22%3A%229ZP5Q7NI%22%2C%22library%22%3A%7B%22id%22%3A6039319%7D%2C%22meta%22%3A%7B%22creatorSummary%22%3A%22Zieritz%20et%20al.%22%2C%22parsedDate%22%3A%222021%22%2C%22numChildren%22%3A0%7D%2C%22bib%22%3A%22%3Cdiv%20class%3D%5C%22csl-bib-body%5C%22%20style%3D%5C%22line-height%3A%201.35%3B%20padding-left%3A%201em%3B%20text-indent%3A-1em%3B%5C%22%3E%5Cn%20%20%3Cdiv%20class%3D%5C%22csl-entry%5C%22%3EZieritz%2C%20Alexandra%2C%20Leonardo%20Jainih%2C%20John%20Pfeiffer%2C%20Khairul%20Adha%20A.%20Rahim%2C%20Hari%20Prayogo%2C%20Muhammad%20Sofwan%20Anwari%2C%20Arman%20Hadi%20Fikri%2C%20et%20al.%20%26%23x201C%3BA%20New%20Genus%20and%20Two%20New%2C%20Rare%20Freshwater%20Mussel%20%28Bivalvia%3A%20Unionidae%29%20Species%20Endemic%20to%20Borneo%20Are%20Threatened%20by%20Ongoing%20Habitat%20Destruction.%26%23x201D%3B%20%3Ci%3EAquatic%20Conservation%3A%20Marine%20and%20Freshwater%20Ecosystems%3C%5C%2Fi%3E%2031%2C%20no.%2011%20%282021%29%3A%203169%26%23x2013%3B83.%20%3Ca%20href%3D%27https%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1002%5C%2Faqc.3695%27%3Ehttps%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1002%5C%2Faqc.3695%3C%5C%2Fa%3E.%3C%5C%2Fdiv%3E%5Cn%3C%5C%2Fdiv%3E%22%2C%22data%22%3A%7B%22itemType%22%3A%22journalArticle%22%2C%22title%22%3A%22A%20new%20genus%20and%20two%20new%2C%20rare%20freshwater%20mussel%20%28Bivalvia%3A%20Unionidae%29%20species%20endemic%20to%20Borneo%20are%20threatened%20by%20ongoing%20habitat%20destruction%22%2C%22creators%22%3A%5B%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Alexandra%22%2C%22lastName%22%3A%22Zieritz%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Leonardo%22%2C%22lastName%22%3A%22Jainih%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22John%22%2C%22lastName%22%3A%22Pfeiffer%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Khairul%20Adha%20A.%22%2C%22lastName%22%3A%22Rahim%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Hari%22%2C%22lastName%22%3A%22Prayogo%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Muhammad%20Sofwan%22%2C%22lastName%22%3A%22Anwari%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Arman%20Hadi%22%2C%22lastName%22%3A%22Fikri%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Farah%22%2C%22lastName%22%3A%22Diba%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Hussein%22%2C%22lastName%22%3A%22Taha%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Zohrah%22%2C%22lastName%22%3A%22Sulaiman%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Elsa%22%2C%22lastName%22%3A%22Froufe%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Manuel%22%2C%22lastName%22%3A%22Lopes-Lima%22%7D%5D%2C%22abstractNote%22%3A%22Most%20of%20the%20Bornean%20endemic%20freshwater%20mussel%20%28Unionida%29%20species%20known%20to%20date%20have%20not%20been%20recorded%20by%20science%20for%20the%20past%2050%20years%20or%20more%2C%20owing%20to%20a%20lack%20of%20research%20effort%20and%20presumed%20population%20losses.%20This%20study%20assessed%20current%20patterns%20and%20recent%20changes%20in%20the%20diversity%20and%20distribution%20of%20freshwater%20mussels%20in%20north-eastern%20Borneo.%20Physical%20surveys%20and%20interviews%20were%20conducted%20at%2024%20sites%2C%20and%20anecdotal%20evidence%20for%20current%20or%20historical%20presence%20of%20mussels%20was%20collected%20for%20a%20further%2013%20sites.%20Native%20species%2C%20i.e.%20Schepmania%20sp.%20and%20Khairuloconcha%20sahanae%20gen.%20%26%20sp.%20nov.%2C%20were%20only%20found%20in%20one%20small%20stream%20of%20the%20Kinabatangan%20River%20basin%20within%20the%20Gomantong%20Forest%20Reserve%2C%20whereas%20the%20non-native%20Sinanodonta%20cf.%20woodiana%20was%20common%20across%20the%20study%20area.%20Molecular%20phylogenetics%20%28five%20genes%29%20of%20the%20native%20taxa%2C%20including%20comparative%20material%20from%20West%20Kalimantan%20and%20Sarawak%2C%20revealed%3A%20%28i%29%20the%20presence%20of%20a%20new%20genus%20with%20two%20new%2C%20rare%20species%3A%20Khairuloconcha%20lunbawangorum%20sp.%20nov.%20in%20the%20Limbang%20River%20basin%20and%20K.%20sahanae%20in%20the%20Kinabatangan%20River%20basin%3B%20%28ii%29%20that%20Khairuloconcha%20and%20Ctenodesma%20form%20the%20Bornean%20endemic%20tribe%20Ctenodesmini%20trib.%20nov.%3B%20and%20%28iii%29%20that%20Schepmania%20represents%20another%20Bornean%20endemic%20tribe%20Schepmaniini%20trib.%20nov.%20Both%20Khairuloconcha%20gen.%20nov.%20species%20are%20known%20from%20a%20single%20stream%20each%20and%20are%20apparently%20restricted%20to%20forest%20stream%20habitats%20where%20they%20occur%20at%20very%20low%20densities.%20Schepmania%20appears%20to%20have%20a%20severely%20contracted%20range%20in%20the%20Kinabatangan%20and%20adjacent%20basins.%20We%20urgently%20call%20for%20full%20protection%20of%20the%20currently%20known%20sites%20of%20K.%20lunbawangorum%20and%20K.%20sahanae%2C%20and%20development%20of%20an%20action%20plan%20to%20save%20the%20Bornean%20freshwater%20mussel%20fauna.%22%2C%22date%22%3A%222021%22%2C%22language%22%3A%22en%22%2C%22DOI%22%3A%2210.1002%5C%2Faqc.3695%22%2C%22ISSN%22%3A%221099-0755%22%2C%22url%22%3A%22https%3A%5C%2F%5C%2Fonlinelibrary.wiley.com%5C%2Fdoi%5C%2Fabs%5C%2F10.1002%5C%2Faqc.3695%22%2C%22collections%22%3A%5B%22XPSUL9AV%22%2C%22RRNEBR5Y%22%5D%2C%22dateModified%22%3A%222021-11-29T04%3A46%3A11Z%22%7D%7D%2C%7B%22key%22%3A%227BHWA8JB%22%2C%22library%22%3A%7B%22id%22%3A6039319%7D%2C%22meta%22%3A%7B%22creatorSummary%22%3A%22Zunaidi%20et%20al.%22%2C%22parsedDate%22%3A%222021-06-01%22%2C%22numChildren%22%3A0%7D%2C%22bib%22%3A%22%3Cdiv%20class%3D%5C%22csl-bib-body%5C%22%20style%3D%5C%22line-height%3A%201.35%3B%20padding-left%3A%201em%3B%20text-indent%3A-1em%3B%5C%22%3E%5Cn%20%20%3Cdiv%20class%3D%5C%22csl-entry%5C%22%3EZunaidi%2C%20A.%20A.%2C%20L.%20H.%20Lim%2C%20and%20F.%20Metali.%20%26%23x201C%3BAssessments%20of%20Heavy%20Metals%20in%20Commercially%20Available%20Fertilizers%20in%20Brunei%20Darussalam.%26%23x201D%3B%20%3Ci%3EAgricultural%20Research%3C%5C%2Fi%3E%2010%2C%20no.%202%20%28June%201%2C%202021%29%3A%20234%26%23x2013%3B42.%20%3Ca%20href%3D%27https%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1007%5C%2Fs40003-020-00500-4%27%3Ehttps%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1007%5C%2Fs40003-020-00500-4%3C%5C%2Fa%3E.%3C%5C%2Fdiv%3E%5Cn%3C%5C%2Fdiv%3E%22%2C%22data%22%3A%7B%22itemType%22%3A%22journalArticle%22%2C%22title%22%3A%22Assessments%20of%20Heavy%20Metals%20in%20Commercially%20Available%20Fertilizers%20in%20Brunei%20Darussalam%22%2C%22creators%22%3A%5B%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22A.%20A.%22%2C%22lastName%22%3A%22Zunaidi%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22L.%20H.%22%2C%22lastName%22%3A%22Lim%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22F.%22%2C%22lastName%22%3A%22Metali%22%7D%5D%2C%22abstractNote%22%3A%22The%20use%20of%20fertilizers%20in%20agriculture%20is%20vital%20for%20crop%20growth%20and%20yield%20particularly%20in%20nutrient-limited%20soils.%20However%2C%20fertilizer%20application%20has%20been%20found%20to%20increase%20heavy%20metal%20%28HM%29%20contents%20which%20could%20affect%20the%20crop%20and%20soil%20quality.%20This%20study%20aimed%20to%20determine%20selected%20HMs%20concentrations%20in%2011%20commercially%20available%20fertilizers%20in%20Brunei%20Darussalam%2C%20comprising%20of%20organic%20%28poultry%20manure%2C%20sheep%20manure%20and%20compost%29%20and%20inorganic%20%28seven%20NPK%20fertilizers%20and%20urea%29%20fertilizers%20using%20an%20inductively%20coupled%20plasma-optical%20emission%20spectroscopy.%20All%20fertilizers%20had%20metal%20concentrations%20that%20were%20mostly%20below%20the%20standard%20safety%20limits.%20The%20highest%20average%20metal%20concentration%20in%20all%20fertilizers%20was%20Al%2C%20particularly%20in%20sheep%20manure%20but%20there%20are%20no%20standard%20safety%20limits%20set%20for%20Al.%20The%20Cd%20contents%20in%20inorganic%20fertilizers%20%28NPK%5Cu00a0%2B%5Cu00a0Mg%5Cu00a0%2B%5Cu00a0TE%2012%3A12%3A17%3A02%2C%20NPK%5Cu00a0%2B%5Cu00a0TE%2015%3A15%3A15%20and%20NPK%2013%3A13%3A21%29%20were%20above%20the%20permissible%20safety%20limits%20of%20China%20and%20Japan%20%288%5Cu00a0mg%5Cu00a0kg%5Cu22121%29%20but%20below%20the%20safety%20guidelines%20set%20by%20Australia%2C%20Canada%20and%20European%20Commission.%20The%20Cd%2C%20Co%2C%20Cr%2C%20Mn%2C%20Ni%20and%20Pb%20levels%20were%20found%20to%20be%20the%20highest%20in%20NPK%5Cu00a0%2B%5Cu00a0Mg%5Cu00a0%2B%5Cu00a0TE%2012%3A12%3A17%3A02%20than%20all%20the%20other%20fertilizers%20while%20the%20highest%20levels%20of%20Fe%20and%20Al%2C%20and%20Cu%20and%20Zn%20were%20observed%20in%20the%20sheep%20manure%20and%20poultry%20manure%2C%20respectively%2C%20relative%20to%20other%20fertilizers.%20Almost%20all%20HMs%20analyzed%20was%20highly%20correlated%20with%20each%20other%2C%20suggesting%20that%20the%20HMs%20could%20be%20present%20as%20a%20complex%20from%20similar%20sources.%20Hence%2C%20continuous%20and%20repeated%20monitoring%20of%20HM%20concentrations%20in%20fertilizers%20is%20recommended%20to%20assess%20potential%20health%20risks%20in%20plants%20and%20humans%20towards%20achieving%20food%20security.%22%2C%22date%22%3A%222021-06-01%22%2C%22language%22%3A%22en%22%2C%22DOI%22%3A%2210.1007%5C%2Fs40003-020-00500-4%22%2C%22ISSN%22%3A%222249-7218%22%2C%22url%22%3A%22https%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1007%5C%2Fs40003-020-00500-4%22%2C%22collections%22%3A%5B%22XPSUL9AV%22%5D%2C%22dateModified%22%3A%222021-12-06T02%3A40%3A43Z%22%7D%7D%2C%7B%22key%22%3A%22XRVLSDZQ%22%2C%22library%22%3A%7B%22id%22%3A6039319%7D%2C%22meta%22%3A%7B%22creatorSummary%22%3A%22Zunaidi%20et%20al.%22%2C%22parsedDate%22%3A%222021-09-01%22%2C%22numChildren%22%3A0%7D%2C%22bib%22%3A%22%3Cdiv%20class%3D%5C%22csl-bib-body%5C%22%20style%3D%5C%22line-height%3A%201.35%3B%20padding-left%3A%201em%3B%20text-indent%3A-1em%3B%5C%22%3E%5Cn%20%20%3Cdiv%20class%3D%5C%22csl-entry%5C%22%3EZunaidi%2C%20Adzrin%20Asikin%2C%20Lee%20Hoon%20Lim%2C%20and%20Faizah%20Metali.%20%26%23x201C%3BTransfer%20of%20Heavy%20Metals%20from%20Soils%20to%20Curly%20Mustard%20%28%3Ci%3EBrassica%20Juncea%3C%5C%2Fi%3E%20%28L.%29%20Czern.%29%20Grown%20in%20an%20Agricultural%20Farm%20in%20Brunei%20Darussalam.%26%23x201D%3B%20%3Ci%3EHeliyon%3C%5C%2Fi%3E%207%2C%20no.%209%20%28September%201%2C%202021%29%3A%20e07945.%20%3Ca%20href%3D%27https%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1016%5C%2Fj.heliyon.2021.e07945%27%3Ehttps%3A%5C%2F%5C%2Fdoi.org%5C%2F10.1016%5C%2Fj.heliyon.2021.e07945%3C%5C%2Fa%3E.%3C%5C%2Fdiv%3E%5Cn%3C%5C%2Fdiv%3E%22%2C%22data%22%3A%7B%22itemType%22%3A%22journalArticle%22%2C%22title%22%3A%22Transfer%20of%20heavy%20metals%20from%20soils%20to%20curly%20mustard%20%28%3Ci%3EBrassica%20juncea%3C%5C%2Fi%3E%20%28L.%29%20Czern.%29%20grown%20in%20an%20agricultural%20farm%20in%20Brunei%20Darussalam%22%2C%22creators%22%3A%5B%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Adzrin%20Asikin%22%2C%22lastName%22%3A%22Zunaidi%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Lee%20Hoon%22%2C%22lastName%22%3A%22Lim%22%7D%2C%7B%22creatorType%22%3A%22author%22%2C%22firstName%22%3A%22Faizah%22%2C%22lastName%22%3A%22Metali%22%7D%5D%2C%22abstractNote%22%3A%22Determination%20of%20heavy%20metal%20concentrations%20in%20vegetables%20and%20agricultural%20soils%20is%20crucial%20because%20high%20levels%20of%20heavy%20metals%20could%20affect%20soil%20quality%2C%20crop%20production%20and%20safe%20consumption%20of%20crops.%20A%20field%20study%20was%20conducted%20to%20determine%20the%20heavy%20metal%20concentrations%20and%20their%20transfer%20from%20agricultural%20soils%20to%20different%20parts%20%28leaf%2C%20stem%2C%20and%20root%29%20of%20Brassica%20juncea%20%28L.%29%20Czern.%20In%20addition%2C%20potential%20health%20risks%20of%20contamination%20in%20the%20vegetables%20grown%20in%20the%20field%20were%20evaluated.%20Acid%20digestion%20method%20USEPA%203050B%20in%20combination%20with%20ICP-OES%20were%20used%20to%20analyze%20heavy%20metal%20%28Al%2C%20Cd%2C%20Co%2C%20Cr%2C%20Cu%2C%20Fe%2C%20Mn%2C%20Ni%2C%20Pb%20and%20Zn%29%20contents%20in%20both%20pre-%20and%20post-harvest%20soils%20and%20vegetable%20samples.%20Results%20showed%20that%20none%20of%20the%20heavy%20metals%20in%20soils%20had%20concentrations%20above%20the%20maximum%20safety%20limits%20based%20on%20the%20WHO%2C%20USEPA%20and%20CCME%20guidelines.%20Calculated%20metal%20transfer%20factor%20%28MTF%20%3E1%29%20showed%20B.%5Cu00a0juncea%20accumulated%20Cd%2C%20Co%2C%20Ni%2C%20Pb%20and%20Zn%20in%20leaves%2C%20stems%20and%20roots%2C%20but%20Cu%20and%20Mn%2C%20as%20well%20as%20Cr%20were%20only%20accumulated%20in%20stems%20and%20roots%2C%20respectively.%20There%20were%20variations%20in%20heavy%20metal%20contents%20between%20the%20different%20parts%20of%20B.%5Cu00a0juncea%2C%20but%20only%20Cd%20and%20Pb%20contents%20were%20above%20the%20maximum%20allowable%20limit%20recommended%20by%20FAO%5C%2FWHO.%20PCA%20analysis%20was%20able%20to%20identify%204%20major%20components%20corresponding%20to%2038.38%25%2C%2028.98%25%2C%2014.39%25%20and%2010.67%25%20of%20the%20total%20variance%20and%20PC1%20was%20clearly%20associated%20to%20leaves%20of%20B.%5Cu00a0juncea.%20Based%20on%20the%20MTF%20values%2C%20only%20Cd%20was%20found%20to%20have%20a%20value%20of%20HRI%20%3E1%20compared%20to%20the%20other%20heavy%20metals%2C%20implying%20potential%20health%20risk%20associated%20with%20long-term%20ingestion%20of%20the%20vegetable.%22%2C%22date%22%3A%22September%201%2C%202021%22%2C%22language%22%3A%22en%22%2C%22DOI%22%3A%2210.1016%5C%2Fj.heliyon.2021.e07945%22%2C%22ISSN%22%3A%222405-8440%22%2C%22url%22%3A%22https%3A%5C%2F%5C%2Fwww.sciencedirect.com%5C%2Fscience%5C%2Farticle%5C%2Fpii%5C%2FS240584402102048X%22%2C%22collections%22%3A%5B%22XPSUL9AV%22%5D%2C%22dateModified%22%3A%222022-04-30T03%3A01%3A03Z%22%7D%7D%5D%7D
Abdullah, Hazimin, Muhammad Anshari, and Mahani Hamdan. “Drones Technology for Sustainable Decisions & Development to Redress Illegal Logging.” In 2021 International Conference on Decision Aid Sciences and Application (DASA), 103–7. IEEE, 2021. https://doi.org/10.1109/DASA53625.2021.9682276.
Ahmed, Ashfaq, Muhammad S. Abu Bakar, Abdul Razzaq, Syarif Hidayat, Farrukh Jamil, Muhammad Nadeem Amin, Rahayu S. Sukri, Noor S. Shah, and Young-Kwon Park. “Characterization and Thermal Behavior Study of Biomass from Invasive Acacia Mangium Species in Brunei Preceding Thermochemical Conversion.” Sustainability 13, no. 9 (January 2021): 5249. https://doi.org/10.3390/su13095249.
Akhtar, Hasan, Massimo Lupascu, and Rahayu S. Sukri. “Effects of Microtopography, Root Exudates Analogues and Temperature Variation on CO2 and CH4 Production from Fire-Degraded Tropical Peat,” EGU21-2665. online, 2021. https://doi.org/10.5194/egusphere-egu21-2665.
Arai, Takaomi, and Hussein Taha. “Contrasting Patterns of Genetic Population Structure in Tropical Freshwater Eels of Genus Anguilla in the Indo-Pacific.” Heliyon 7, no. 5 (May 1, 2021): e07097. https://doi.org/10.1016/j.heliyon.2021.e07097.
Areces-Berazain, Fabiola, Damien D. Hinsinger, and Joeri S. Strijk. “Genome-Wide Supermatrix Analyses of Maples (Acer, Sapindaceae) Reveal Recurring Inter-Continental Migration, Mass Extinction, and Rapid Lineage Divergence.” Genomics 113, no. 2 (March 1, 2021): 681–92. https://doi.org/10.1016/j.ygeno.2021.01.014.
Arroyo-Rodríguez, Víctor, Lenore Fahrig, James I. Watling, Justin Nowakowski, Marcelo Tabarelli, Lutz Tischendorf, Felipe P. L. Melo, et al. “Preserving 40% Forest Cover Is a Valuable and Well-Supported Conservation Guideline: Reply to Banks-Leite et Al.” Ecology Letters 24, no. 5 (2021): 1114–16. https://doi.org/10.1111/ele.13689.
Bank, Sarah, Thomas R. Buckley, Thies H. Büscher, Joachim Bresseel, Jérôme Constant, Mayk de Haan, Daniel Dittmar, et al. “Reconstructing the Nonadaptive Radiation of an Ancient Lineage of Ground-Dwelling Stick Insects (Phasmatodea: Heteropterygidae).” Systematic Entomology 46, no. n/a (2021): 487–507. https://doi.org/https://doi.org/10.1111/syen.12472.
Cannon, Charles H., Colby Borchetta, David L. Anderson, Gabriel Arellano, Martin Barker, Guillaume Charron, Jalene M. LaMontagne, et al. “Extending Our Scientific Reach in Arboreal Ecosystems for Research and Management.” Frontiers in Forests and Global Change 4 (2021): 160. https://doi.org/10.3389/ffgc.2021.712165.
Colin, Olivier, Damien Daniel Hinsinger, and Joeri Sergej Strijk. “Mahonia Lancasteri (Berberidaceae), a New Species Originating from Sichuan (China) Described from Cultivation.” Phytotaxa 482, no. 1 (January 27, 2021): 45–54. https://doi.org/10.11646/phytotaxa.482.1.5.
Cvetković, Tijana, Fabiola Areces-Berazain, Damien D Hinsinger, Daniel C Thomas, Jan J Wieringa, Santhana K Ganesan, and Joeri S Strijk. “Phylogenomics Resolves Deep Subfamilial Relationships in Malvaceae s.l.” G3 Genes|Genomes|Genetics, no. jkab136 (April 23, 2021). https://doi.org/10.1093/g3journal/jkab136.
Das, Indraneil, Hans P. Hazebroek, and T. Ulmar Grafe. “Leptomantis Fasciatus (Boulenger, 1895) as a Possible Nuptial Gift Offered by a Male Raffles’s Malkoha, Rhinortha Chlorophaea (Raffles, 1822).” Herpetology Notes 14 (April 21, 2021): 713–16. https://www.biotaxa.org/hn/article/view/67579.
Davies, Stuart J., Iveren Abiem, Kamariah Abu Salim, Salomón Aguilar, David Allen, Alfonso Alonso, Kristina Anderson-Teixeira, et al. “ForestGEO: Understanding Forest Diversity and Dynamics through a Global Observatory Network.” Biological Conservation 253 (2021): 108907. https://doi.org/10/ght33s.
Dk Nurun Najeebah Az-Zahra Pg Md Tashim (last), Rahayu Sukmaria Sukri, Salwana Jaafar, and Faizah Metali. “Allelopathic Effects of Mangifera Indica Leaves on the Growth Performance of Brassica Rapa ‘Chinensis’ (Pak Choi).” Research on Crops 22, no. 3 (September 30, 2021): 564–75. https://doi.org/10.31830/2348-7542.2021.104.
Hazirah Matusin, Amal, May Poh Yik Goh, and Norhayati Ahmad. “The Antidiabetic and Protective Effects of the Methanolic Leaf Extract of A. Borneensis in Alloxan-Induced Diabetic Rats.” Pharmaceutical Sciences Asia 48, no. 6 (2021): 506–15. https://doi.org/10.29090/psa.2021.06.21.047.
Ibrahim, Mohamad Hilmi, Faizah Metali, Kushan U Tennakoon, and Rahayu Sukmaria Sukri. “Impacts of Invasive Acacias on Ion Deposition in a Coastal Bornean Tropical Heath Forest.” Journal of Forest Research 0, no. 0 (August 23, 2021): 1–8. https://doi.org/10.1080/13416979.2021.1965700.
Khalid, Salwa, T Ulmar Grafe, Joremy Tony, Arlene Walshe, and Andrew J Hearn. “Recent Photographic Records of Otter Civet Cynogale Bennettii from Brunei, Borneo.” Small Carnivore Conservation 59, no. e59003 (2021): 6. https://smallcarnivoreconservation.com/index.php/sccg/article/view/3456.
Kočárek, Petr, and Rodzay Abdul Wahab. “Termitophily Documented in Earwigs (Dermaptera).” Biology 10, no. 12 (December 2021): 1243. https://doi.org/10.3390/biology10121243.
Lamit, Nadhirah, and Yasuaki Tanaka. “Effects of River Water Inflow on the Growth, Photosynthesis, and Respiration of the Tropical Seagrass Halophila Ovalis.” Botanica Marina 64, no. 2 (April 1, 2021): 93–100. https://doi.org/10.1515/bot-2020-0079.
Latif, Md Mahdi Hj Abd, and Gabriel Y.V. Yong. “Coastal Erosion in The Unprotected and Protected Sections At Berakas: A Comparative Study in Brunei Darussalam.” Southeast Asia: A Multidisciplinary Journal 21, no. 1 (January 1, 2021): 45–62. https://doi.org/10.1108/SEAMJ-01-2021-B1004.
Liao, Ming-ling, Gao-yang Li, Jie Wang, David J. Marshall, Tin Yan Hui, Shu-yang Ma, Yi-min Zhang, Brian Helmuth, and Yun-wei Dong. “Physiological Determinants of Biogeography: The Importance of Metabolic Depression to Heat Tolerance.” Global Change Biology n/a, no. n/a (2021). https://doi.org/https://doi.org/10.1111/gcb.15578.
Limin, Army, Ferry Slik, Rahayu Sukmaria Sukri, Sheng-Bin Chen, and Joffre Ali Ahmad. “Large Tree Species Composition, Not Growth Rates, Is Affected by Topography in a Bornean Tropical Forest.” Biotropica 53, no. 5 (2021): 1290–1300. https://doi.org/10.1111/btp.12969.
Marshall, David J. “Shell Standing in Planaxis Sulcatus: Convergence of Heat Avoidance Behavior in Rocky Shore Gastropods?” Bulletin of Marine Science 97, no. 1 (January 1, 2021): 37–38. https://doi.org/10.5343/bms.2020.0025.
Marshall, David J., and Hussein Taha. “An Evolutionary Estuarine Incursion: Molecular Differentiation and Niche Separation in Bornean Indothais Snails (Rapaninae, Muricidae).” Journal of the Marine Biological Association of the United Kingdom, 2021, 1–11. https://doi.org/10.1017/S002531542100014X.
Marshall, David J, Hussein Taha, Amalina Brahim, and Ahmed Awad Abdelhady. “Supratidal Existence Drives Phenotypic Divergence, but Not Speciation, in Tropical Rocky-Shore Snails.” Biological Journal of the Linnean Society 132, no. 1 (January 1, 2021): 1–16. https://doi.org/10/ght69v.
McGrath-Blaser, Sarah, Morgan Steffen, T. Ulmar Grafe, María Torres-Sánchez, David S. McLeod, and Carly R. Muletz-Wolz. “Early Life Skin Microbial Trajectory as a Function of Vertical and Environmental Transmission in Bornean Foam-Nesting Frogs.” Animal Microbiome 3, no. 1 (December 20, 2021): 83. https://doi.org/10.1186/s42523-021-00147-8.
Mohammad, Yumni Haziqah, Pooja Shivanand, Faizah Metali, Hussein Taha, Nur Bazilah Afifah Matussin, Abdul Muizz Al-Azim Abdul-Halim, and Abdul Zul’adly Mohaimin. “Agarwood Formation in Aquilaria Beccariana and Aquilaria Microcarpa in Response to Inoculation of Newly Isolated Fungi from Brunei Darussalam.” Biodiversitas Journal of Biological Diversity 22, no. 10 (September 22, 2021). https://doi.org/10.13057/biodiv/d221002.
Mohd Don, Siti Madihah, Nur Maziyyah Abdul Hamid, Hussein Taha, Rahayu Sukmaria Sukri, and Faizah Metali. “Vegetative Propagation of Hoya Imperialis and Hoya Coronaria by Stem Cutting and Micropropagation.” Tropical Life Sciences Research 32, no. 3 (September 30, 2021): 1–23. https://doi.org/10.21315/tlsr2021.32.3.1.
Mustapha, Nurshahida, and David J. Marshall. “Tracking Coastal Acidification from Erosion of Gastropod Shells: Spatial Sensitivity and Organism Size Effect.” Environmental Monitoring and Assessment 193, no. 10 (October 2, 2021): 690. https://doi.org/10.1007/s10661-021-09479-z.
Mustapha, Nurshahida, Nursalwa Baharuddin, Siong Kiat Tan, and David J. Marshall. “The Neritid Snails of Brunei Darussalam: Their Geographical, Ecological and Conservation Significance.” Ecologica Montenegrina 42 (May 9, 2021): 45–61. https://doi.org/10.37828/em.2021.42.2.
Salleh, Nazurah Hamizah, Ihsan Nazurah Zulkipli, Hartini Mohd Yasin, Fairuzeta Ja’afar, Norhayati Ahmad, Wan Amir Nizam Wan Ahmad, and Siti Rohaiza Ahmad. “Systematic Review of Medicinal Plants Used for Treatment of Diabetes in Human Clinical Trials: An ASEAN Perspective.” Evidence-Based Complementary and Alternative Medicine 2021 (October 13, 2021): e5570939. https://doi.org/10.1155/2021/5570939.
Setiawan, Edwin, David Relex, and David J. Marshall. “Shallow-Water Sponges from a High-Sedimentation Estuarine Bay (Brunei, Northwest Borneo, Southeast Asia).” Journal of Tropical Biodiversity and Biotechnology 6, no. 3 (September 29, 2021): 66435. https://doi.org/10.22146/jtbb.66435.
Strijk, Joeri S., Damien D. Hinsinger, Mareike M. Roeder, Lars W. Chatrou, Thomas L. P. Couvreur, Roy H. J. Erkens, Hervé Sauquet, Michael D. Pirie, Daniel C. Thomas, and Kunfang Cao. “Chromosome-Level Reference Genome of the Soursop (Annona Muricata): A New Resource for Magnoliid Research and Tropical Pomology.” Molecular Ecology Resources n/a, no. n/a (2021). https://doi.org/https://doi.org/10.1111/1755-0998.13353.
Sulaiman, Zohrah, Mei Ann Lim, and Hussein Taha. “Genetic Structure of Selected Finfish Populations in the Galapagos Islands, Ecuador.” Marine Biodiversity 51, no. 3 (April 3, 2021): 41. https://doi.org/10.1007/s12526-021-01179-8.
Taha, Hussein, Zulhamizan Awang-Jamil, Muhammad Fairuz Aminuddin, Aida Maryam Basri, Barirah Quratulain Zaidi, and Norhayati Ahmad. “Phytochemicals and Antimicrobial Analysis of Selected Medicinal Plants from Brunei Darussalam.” Biodiversitas Journal of Biological Diversity 22, no. 2 (January 13, 2021): 601–6. https://doi.org/10.13057/biodiv/d220211.
Taha, Hussein, Pooja Shivanand, Mohamad Abdul Azim Zainudin, and Nurul Azirah Hadanan. “Identification of Culturable Marine Fungi and Bacteria from Coastal Region in Brunei Darussalam: Identification of Culturable Marine Microbes.” Biodiversitas Journal of Biological Diversity 22, no. 3 (February 20, 2021). https://doi.org/10.13057/biodiv/d220332.
Tan, Ming Kai, Rodzay bin Haji Abdul Wahab, Razy Japir, Authur Y. C. Chung, and Tony Robillard. “Revision of the Cricket Genus Nisitrus Saussure (Orthoptera: Gryllidae: Eneopterinae) and Descriptions of Five New Species.” European Journal of Taxonomy 761 (July 28, 2021): 1–75. https://doi.org/10.5852/ejt.2021.761.1449.
Tan, Ming Kai, Julien Malem, Frédéric Legendre, Jiajia Dong, Jessica B. Baroga-Barbecho, Sheryl A. Yap, Rodzay bin Haji Abdul Wahab, Razy Japir, Arthur Y. C. Chung, and Tony Robillard. “Phylogeny, Systematics and Evolution of Calling Songs of the Lebinthini Crickets (Orthoptera, Grylloidea, Eneopterinae), with Description of Two New Genera.” Systematic Entomology n/a, no. n/a (2021). https://doi.org/10.1111/syen.12510.
Tan, Ming Kai, Razy Japir, Arthur Y. C. Chung, and Rodzay Bin Haji Abdul Wahab. “New Species and Taxonomic Notes of Scaly Crickets (Orthoptera: Mogoplistidae: Mogoplistinae) from Borneo.” Zootaxa 5048, no. 3 (October 7, 2021): 407–21. https://doi.org/10.11646/zootaxa.5048.3.6.
Yi, Justin D., Ariadna Cobo-Cuan, Rafael Márquez, Jennifer A. Sheridan, T. Ulmar Grafe, Almo Farina, and Peter M. Narins. “Novel Acoustic Snapshot of a Sarawak Forest.” JEA 5, no. 1 (July 2021): 0–0. https://doi.org/10.35995/jea5010001.
Zieritz, Alexandra, Leonardo Jainih, John Pfeiffer, Khairul Adha A. Rahim, Hari Prayogo, Muhammad Sofwan Anwari, Arman Hadi Fikri, et al. “A New Genus and Two New, Rare Freshwater Mussel (Bivalvia: Unionidae) Species Endemic to Borneo Are Threatened by Ongoing Habitat Destruction.” Aquatic Conservation: Marine and Freshwater Ecosystems 31, no. 11 (2021): 3169–83. https://doi.org/10.1002/aqc.3695.
Zunaidi, A. A., L. H. Lim, and F. Metali. “Assessments of Heavy Metals in Commercially Available Fertilizers in Brunei Darussalam.” Agricultural Research 10, no. 2 (June 1, 2021): 234–42. https://doi.org/10.1007/s40003-020-00500-4.
Zunaidi, Adzrin Asikin, Lee Hoon Lim, and Faizah Metali. “Transfer of Heavy Metals from Soils to Curly Mustard (Brassica Juncea (L.) Czern.) Grown in an Agricultural Farm in Brunei Darussalam.” Heliyon 7, no. 9 (September 1, 2021): e07945. https://doi.org/10.1016/j.heliyon.2021.e07945.