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Climate sensitive size-dependent survival in tropical trees
ArticleAbstract: Survival rates of large trees determine forest biomass dynamics. Survival rates of small trees havePalabras claves:Autores:Anderson-Teixeira K.J., Bunyavejchewin S., Chambers J.Q., Chang-Yang C.H., Chiang J.M., Chuyong G.B., Condit R.S., Cordell S., Davies S.J., Fletcher C.D., Giambelluca T.W., Giardina C.P., Gunatilleke N., Gunatilleke S., Hsieh C.F., Hubbell S.P., Inman-Narahari F.M., Johnson D.J., Kassim A.R., Katabuchi M., Kenfack D., Litton C.M., Lum S.K.Y., Massoud E.C., McDowell N.G., Mcmahon S.M., Mohamad M.B., Nasardin M., Needham J.F., Ong P.S., Ostertag R., Renato Valencia, Sack L., Sun I.F., Swenson N.G., Tan S., Thomas D.W., Thompson J., Umaña M.N., Uriarte M., Xu C., Yap S.L., Zimmerman J.K.Fuentes:googlescopusClimatic controls of decomposition drive the global biogeography of forest-tree symbioses
ArticleAbstract: The identity of the dominant root-associated microbial symbionts in a forest determines the abilityPalabras claves:Autores:Abegg M., Adou Yao C. ., Alberti G., Almeyda Zambrano A., Alvarez-Dávila E., Alvarez-Loayza P., Alves L.F., Ammer C., Antón-Fernández C., Araujo-Murakami A., Arroyo L.P., Avitabile V., Aymard G.A.C., Baker T.R., Bánki O.S., Barroso J.G., Bastian M.L., Bastin J.F., Bałazy R., Birigazzi L., Birnbaum P., Bitariho R., Boeckx P., Bongers F., Bouriaud O., Brancalion P.H.S., Brandl S., Brearley F.Q., Brienen R.J.W., Broadbent E.N., Bruelheide H., Bussotti F., César R.G., Cesljar G., Chazdon R.L., Chen H.Y.H., Chisholm C., Cho H., Cienciala E., Clark C.J., Clark D.B., Colletta G., Condit R.S., Coomes D.A., Cornejo Valverde F., Corral-Rivas J.J., Crim P., Crowther T.W., Cumming J., David A. Neill, Dayanandan S., De-Miguel S., Decuyper M., Derroire G., DeVries B., Djordjevic I., Dourdain A.K., Enquist B.J., Eyre T., Fandohan A.B., Fayle T.M., Feldpausch T.R., Finér L., Fischer M., Fletcher C.D., Fridman J.K., Frizzera L., Gamarra J.G.P., Gasper A.L.d., Gatti R.C., Gianelle D., Glick H.B., Harris D.J., Hector A., Hemp A., Hengeveld G.M., Hérault B., Herbohn J., Herold M., Hillers A., Honorio E.N., Huber M., Hui C., Ibanez T., Iêda A., Imai N., Jagodzinski A.M., Jung I., Liang J., Nabuurs G.J., Obiang N.L.E., Peay K.G., Picard N., Reich P.B., Routh D., Steidinger B.S., Van Nuland M.E., Werner G.D.A., Zhang C., Zhao X., Zhou M.Fuentes:scopusAuthor Correction: Climatic controls of decomposition drive the global biogeography of forest-tree symbioses (Nature, (2019), 569, 7756, (404-408), 10.1038/s41586-019-1128-0)
OtherAbstract: In this Letter, the middle initial of author G. J. Nabuurs was omitted, and he should have been assoPalabras claves:Autores:Abegg M., Adou Yao C. ., Alberti G., Almeyda Zambrano A., Alvarez-Dávila E., Alvarez-Loayza P., Alves L.F., Ammer C., Antón-Fernández C., Araujo-Murakami A., Arroyo L.P., Avitabile V., Aymard G.A.C., Baker T.R., Bánki O.S., Barroso J.G., Bastian M.L., Bastin J.F., Bałazy R., Birigazzi L., Birnbaum P., Bitariho R., Boeckx P., Bongers F., Bouriaud O., Brancalion P.H.S., Brandl S., Brearley F.Q., Brienen R.J.W., Broadbent E.N., Bruelheide H., Bussotti F., César R.G., Cesljar G., Chazdon R.L., Chen H.Y.H., Chisholm C., Cho H., Cienciala E., Clark C.J., Clark D.B., Colletta G., Condit R.S., Coomes D.A., Cornejo Valverde F., Corral-Rivas J.J., Crim P., Crowther T.W., Cumming J., David A. Neill, Dayanandan S., De-Miguel S., Decuyper M., Derroire G., DeVries B., Djordjevic I., Dourdain A.K., Enquist B.J., Eyre T., Fandohan A.B., Fayle T.M., Feldpausch T.R., Finér L., Fischer M., Fletcher C.D., Fridman J.K., Frizzera L., Gamarra J.G.P., Gasper A.L.d., Gatti R.C., Gianelle D., Glick H.B., Harris D.J., Hector A., Hemp A., Hengeveld G.M., Hérault B., Herbohn J., Herold M., Hillers A., Honorio E.N., Huber M., Hui C., Ibanez T., Iêda A., Imai N., Jagodzinski A.M., Jung I., Liang J., Nabuurs G.J., Obiang N.L.E., Peay K.G., Picard N., Reich P.B., Routh D., Steidinger B.S., Van Nuland M.E., Werner G.D.A., Zhang C., Zhao X., Zhou M.Fuentes:scopusDemographic composition, not demographic diversity, pbkp_redicts biomass and turnover across temperate and tropical forests
ArticleAbstract: The growth and survival of individual trees determine the physical structure of a forest with importPalabras claves:aboveground biomass, carbon residence time, forest dynamics, ForestGEO, size-dependent survival, Species richness, tree demographyAutores:Anderson-Teixeira K.J., Bourg N.A., Bt. Mohamad M., Bunyavejchewin S., Butt N., Cao M., Cárdenas López D., Chang-Yang C.H., Chen Y.Y., Chuyong G.B., Dattaraja H.S., Davies S.J., Duque A., Ewango C.E.N., Fernando E.S., Fisher R.A., Fletcher C.D., Foster R.B., Hao Z., Hart T.B., Hsieh C.F., Hubbell S.P., Itoh A., Johnson D.J., Kenfack D., Koven C.D., Larson A.J., Lutz J.A., Makana J.R., Malhi Y., Marthews T.R., Mcmahon S.M., McShea W.J., Morecroft M.D., Needham J.F., Norden N., Parker G.G., Renato Valencia, Shringi A., Sukumar R., Sun I.F., Suresh H.S., Tan S., Thomas D.W., Thompson J., Uriarte M., Yao T.L., Yap S.L., Yuan Z., Yuehua H., Zimmerman J.K., Zuleta D.Fuentes:googlescopusCTFS-ForestGEO: A worldwide network monitoring forests in an era of global change
ArticleAbstract: Global change is impacting forests worldwide, threatening biodiversity and ecosystem services includPalabras claves:Biodiversity, Center for Tropical Forest Science (CTFS), Climate Change, Demography, Forest dynamics plot, Forest Global Earth Observatory (ForestGEO), Long-term monitoring, Spatial AnalysisAutores:Abu Salim K., Almeyda Zambrano A., Alonso A., Anderson-Teixeira K.J., Baltzer J.L., Basset Y., Bennett A.C., Bourg N.A., Broadbent E.N., Brockelman W.Y., Bunyavejchewin S., Burslem D.F.R.P., Butt N., Cao M., Cárdenas López D., Chuyong G.B., Clay K., Cordell S., Dattaraja H.S., Davies S.J., den Ouden J., Deng X., Detto M., Du X., Duque Montoya A.J., Erikson D.L., Ewango C.E.N., Fischer G.A., Fletcher C.D., Foster R.B., Giardina C.P., Gilbert G.S., Gonzalez-Akre E.B., Gunatilleke N., Gunatilleke S., Hao Z., Hargrove W.W., Hart T.B., Hau B.C.H., He F., Hoffman F.M., Howe R.W., Hubbell S.P., Inman-Narahari F.M., Jansen P.A., Jiang M., Johnson D.J., Kanzaki M., Kassim A.R., Kenfack D., Kibet S., Kinnaird M.F., Korte L., Kral K., Kumar J., Larson A.J., Li X., Li Y.D., Liu S., Lum S.K.Y., Lutz J.A., Ma K., Maddalena D.M., Makana J.R., Malhi Y., Marthews T.R., Mat Serudin R., Mcmahon S.M., McShea W.J., Memiaghe H.R., Mi X., Mizuno T., Morecroft M.D., Muller-Landau H.C., Myers J.A., Novotny V., Oliveira A.A., Ong P.S., Orwig D.A., Ostertag R., Parker G.G., Phillips R.P., Renato Valencia, Sack L., Sainge M.N., Sang W., Sri-ngernyuang K., Sukumar R., Sun I.F., Sungpalee W., Suresh H.S., Tan S., Thomas D.W., Thomas S.C., Thompson J., Turner B.L., Uriarte M., Vallejo M.I., Vicentini A., Wright S.J.Fuentes:googlescopusGlobal importance of large-diameter trees
ArticleAbstract: Aim: To examine the contribution of large-diameter trees to biomass, stand structure, and species riPalabras claves:forest biomass, forest structure, large-diameter trees, latitudinal gradient, resource inequality, Smithsonian ForestGEOAutores:Allen D., Alonso A., Anderson-Teixeira K.J., Andrade A.S., Baltzer J.L., Becker K.M.L., Blomdahl E.M., Bourg N.A., Bunyavejchewin S., Burslem D.F.R.P., Cansler C.A., Cao K., Cao M., Cárdenas López D., Chang L.W., Chao K.J., Chao W.C., Chiang J.M., Chu C., Chuyong G.B., Clay K., Condit R.S., Cordell S., Dattaraja H.S., Davies S.J., Duque A., Ewango C.E.N., Fischer G.A., Fletcher C.D., Freund J.A., Furniss T.J., Germain S.J., Giardina C.P., Gilbert G.S., Hao Z., Hart T.B., Hau B.C.H., He F., Hector A., Howe R.W., Hsieh C.F., Hu Y.H., Hubbell S.P., Inman-Narahari F.M., Itoh A., Janík D., Johnson D.J., Kassim A.R., Kenfack D., Korte L., Kral K., Larson A.J., Li Y.D., Lin Y.C., Liu S., Lum S.K.Y., Lutz J.A., Ma K., Makana J.R., Malhi Y., Mcmahon S.M., McShea W.J., Memiaghe H.R., Mi X., Morecroft M.D., Musili P.M., Myers J.A., Novotny V., Oliveira A.A., Ong P.S., Orwig D.A., Ostertag R., Parker G.G., Patankar R., Phillips R.P., Renato Valencia, Reynolds G., Sack L., Song G.Z.M., Su S.H., Sukumar R., Sun I.F., Suresh H.S., Swanson M.E., Tan S., Thomas D.W., Thompson J., Uriarte M., Vicentini A., Vrška T., Wang X., Weiblen G.D., Wolf A.T., Wu S.H., Xu H., Yamakura T., Yap S.L., Zimmerman J.K.Fuentes:scopusEnvironment- and trait-mediated scaling of tree occupancy in forests worldwide
ArticleAbstract: Aim: The relationship between the proportion of sites occupied by a species and the area of a site [Palabras claves:Abundance, Actual evapotranspiration, biodiversity conservation, Nachman model, occupancy–area relationship, scaling, Spatial aggregation, topography, Tree sizeAutores:Bourg N.A., Chang L.W., Chuyong G.B., Du X., Fletcher C.D., Hao Z., Howe R.W., Jetz W., Keil P., Kenfack D., Lin L., Lutz J.A., Ma K., Mi X., Ren H., Renato Valencia, Su S.H., Sun I.F., Thomas D.W., Wang X., Ye W., Zhu L.Fuentes:scopusPan-tropical pbkp_rediction of forest structure from the largest trees
ArticleAbstract: Aim: Large tropical trees form the interface between ground and airborne observations, offering a unPalabras claves:carbon, Climate Change, forest structure, large trees, pan-tropical, Redd+, tropical forest ecologyAutores:Alvarez-Loyayza P., Andrade A.S., Angbonga-Basia A., Araujo-Murakami A., Arroyo L.P., Ayyappan N., Bánki O.S., Barbier N., Barroso J.G., Bastin J.F., Beeckman H., Bitariho R., Boeckx P., Boehning-Gaese K., Bogaert J., Brandão H., Brearley F.Q., Breuer Ndoundou Hockemba M., Brienen R.J.W., Camargo J.L.C., Campos-Arceiz A., Cassart B., Chave J., Chazdon R.L., Chuyong G.B., Clark C.J., Clark D.B., Condit R.S., David A. Neill, Davidar P., de Azevedo C.P., De Cannière C., de Haulleville T., Descroix L., Do Amaral I.L., Doucet J.L., Dourdain A.K., Droissart V., Duncan T., Farwig N., Fayolle A., Feldpausch T.R., Ferraz A., Fletcher C.D., Gajapersad K., Gillet J.F., Gonmadje C., Grogan J., Harris D.J., Hérault B., Herzog S.K., Homeier J., Honorio E.N., Hubau W., Hubbell S.P., Hufkens K., Hugo Romero-Saltos, Hurtado J., Kamdem N.G., Kearsley E., Kellner J.R., Kenfack D., Kessler M., Labrière N., Laumonier Y., Laurance S.G.W., Laurance W.F., Lewis S.L., Libalah M.B., Ligot G., Lloyd J.J., Lovejoy T.E., Malhi Y., Marimon B.S., Marimon-Junior B.H., Marshall A.R., Martin E.H., Matius P., Mendoza Bautista C., Meyer V., Monteagudo-Mendoza A., Mtui A., Parada Gutierrez G.A., Pardo G., Parren M.P.E., Parthasarathy N., Phillips O.L., Pitman N.C.A., Plissier R., Ploton P., Ponette Q., Poulsen J.R., Ramesh B.R., Razafimahaimodison J.C., Réjou-Méchain M., Renato Valencia, Rolim S.G., Rutishauser E., Saatchi S.S., Santiago Espinosa, Silva-Espejo J.E., Slik J.W.F., Vincent A. VosFuentes:scopusPatterns of nitrogen-fixing tree abundance in forests across Asia and America
ArticleAbstract: Symbiotic nitrogen (N)-fixing trees can provide large quantities of new N to ecosystems, but only ifPalabras claves:Forest, Legume, Nitrogen fixation, nutrient limitation, Smithsonian ForestGEO, symbiosisAutores:Abu Salim K., Allen D., Alvarez M., Bourg N.A., Brockelman W.Y., Bunyavejchewin S., Butt N., Cao M., Chanthorn W., Chao W.C., Chisholm R.A., Clay K., Condit R.S., Cordell S., da Silva J.B., Dattaraja H.S., Davies S.J., de Andrade A.S., den Ouden J., Drescher M., Fletcher C.D., Fung T., Giardina C.P., Gunatilleke I.A.U.N., Hau B.C.H., He F., Howe R.W., Hsieh C.F., Hubbell S.P., Inman-Narahari F.M., Jansen P.A., Johnson D.J., Kassim A.R., Kong L.S., Kral K., Ku C.C., Lai J., Larson A.J., Li X., Li Y.D., Lin L., Lin Y.C., Liu S., Lum S.K.Y., Lutz J.A., Ma K., Malhi Y., Mcmahon S.M., McShea W.J., Menge D.N.L., Mi X., Morecroft M.D., Myers J.A., Nathalang A., Novotny V., Oliveira A.A., Ong P.S., Orwig D.A., Ostertag R., Parker G.G., Phillips R.P., Renato Valencia, Sack L., Sang W., Savitri Gunatilleke C.V., Shen G., Shringi A., Shue J., Su S.H., Sukumar R., Sun I.F., Suresh H.S., Tan S., Thomas S.C., Toko P.S., Vallejo M.I., Vicentini A., Vrška T., Wang B., Wang X., Weiblen G.D., Wolf A.T., Xu H., Yap S.L., Zhu L.Fuentes:googlescopusLimited carbon and biodiversity co-benefits for tropical forest mammals and birds
ArticleAbstract: The conservation of tropical forest carbon stocks offers the opportunity to curb climate change by rPalabras claves:Biodiversity co-benefit, camera trapping, carbon stocks, conservation planning, Redd+, Tropical ecology assessment and monitoring network, wildlife conservationAutores:Ahumada J.A., Alvarez-Loayza P., Andelman S.J., Beaudrot L., Breuer T., Do Amaral I.L., Fletcher C.D., Hugo Romero-Saltos, Jansen P.A., Kenfack D., Kroetz K., Marshall A.R., Martin E.H., Moreira M.G., Ndoundou-Hockemba M., O'Brien T.G., Razafimahaimodison J.C., Renato Valencia, Rovero F., Roy C.H., Sheil D., Silva C.E.F., Spironello W.R., Zvoleff A.Fuentes:googlescopus