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Climatic 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:scopusCompetition influences tree growth, but not mortality, across environmental gradients in Amazonia and tropical Africa
ArticleAbstract: Competition among trees is an important driver of community structure and dynamics in tropical foresPalabras claves:climatic water deficit, competition, forest dynamics, Mortality , neighborhood effects, soil fertility, trait-based models, tree growth, Tropical Forest, Wood densityAutores:Affum-Baffoe K., Alvarez-Dávila E., Andrade A.S., Aragao L.E.O.C., Araujo-Murakami A., Baker T.R., Bánki O.S., Brienen R.J.W., Camargo J.L.C., Comiskey J.A., David A. Neill, Djuikouo Kamdem M.N., Fauset S., Feldpausch T.R., Killeen T.J., Laurance S.G.W., Laurance W.F., Lewis S.L., Lovejoy T.E., Malhi Y., Marimon B.S., Marimon-Junior B.H., Marshall A.R., Phillips O.L., Pitman N.C.A., Poorter L., Reitsma J.M., Rozendaal D.M.A., Silveira M., Sonke B., Sunderland T.C.H., Taedoumg H.E., Ter Steege H., Terborgh J.W., Umetsu R.K., Van Der Heijden G.M.F., Vanderwel M.C., Vargas P.N., Vilanova-Torre E., Vincent A. Vos, White L.J.T., Willcock S., Zemagho L.Fuentes:scopusCompositional response of Amazon forests to climate change
ArticleAbstract: Most of the planet's diversity is concentrated in the tropics, which includes many regions undergoinPalabras claves:Bioclimatic niches, Climate Change, compositional shifts, Functional traits, Temporal trends, Tropical forestsAutores:Almeida de Oliveira E., Almeida E.C., Alvarez-Dávila E., Andrade A.S., Anthony Di Fiore, Aragao L.E.O.C., Araujo-Murakami A., Arets E.J.M.M., Arroyo L.P., Aurelio Melo Cruz O., Aymard C. G.A., Baker T.R., Baraloto C., Barlow J., Barroso J.G., Bonal D., Bongers F., Boot R.G.A., Brienen R.J.W., Camargo J.L.C., Chave J., Comiskey J.A., Cornejo Valverde F., da Silva W.C., David A. Neill, Dávila N., de Camargo P.B., del Aguila-Pasquel J., Dexter K.G., Elias F., Engel J., Erwin T.L., Fauset S., Feldpausch T.R., Fernanda Duque L., Galbraith D.R., Gloor M., Hérault B., Herrera Fernández R., Higuchi N., Honorio E.N., Hubau W., Jimenez-Rojas E., Laurance S.G.W., Laurance W.F., Lewis S.L., Lima A.J.N., Llampazo G.F., Lloyd J.J., Lola da Costa A.C., López-González G., Lovejoy T.E., Malhi Y., María Cristina Peñuela Mora, Marimon B.S., Marimon-Junior B.H., Monteagudo-Mendoza A., Morandi P.S., Moscoso V.C., Muelbert A.E., Pallqui Camacho N.C., Parada-Gutierrez A., Pardo G., Peacock J., Penã-Claros M., Pétronelli P., Pickavance G.C., Pitman N.C.A., Poorter L., Prieto A., Qie L., Quesada C.A., Ramirez-Angulo H., Réjou-Méchain M., Restrepo Correa Z., Roopsind A., Rudas A., Salomao R.P., Silva N., Silva-Espejo J.E., Silveira M., Singh J., Stahl C., Stropp J., Sullivan M.J.P., Ter Steege H., Terborgh J.W., Thomas R.S., Toledo M., Torres-Lezama A., Umetsu R.K., Valenzuela Gamarra L., van de Meer P.J., Van Der Heijden G.M.F., van der Hout P., Vargas P.N., Vieira S.A., Vilanova-Torre E., Vincent A. Vos, Zuidema P.A.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:scopusBranch xylem density variations across the Amazon Basin
ArticleAbstract: Xylem density is a physical property of wood that varies between individuals, species and environmenPalabras claves:Autores:Aguilar A., Alvarez-Dávila E., Arroyo L.P., Baker T.R., Baraloto C., Bonal D., Chave J., Czimczik C.I., da Costa L., E. M. Jiménez, Gallo J., Herrera R., Higuchi N., Horna V., Hoyos E.J., Killeen T.J., Leal E., Lloyd J.J., Luizao F.J., Malhi Y., María Cristina Peñuela Mora, Meir P., Mercado L.M., Monteagudo A., Neil D., Paiva R., Palomino W., Panfil S.N., Patiño S., Peacock J., Pena-Cruz A., Phillips O.L., Pitman N.C.A., Priante Filho N., Prieto A., Quesada C.A., Rudas A., Salomao R.P., Santos A.J.B., Sarmiento C., Schmerler J., Schwarz M., Silva N., Silveira M., Soares DeAlmeida S., Sota A., Torres-Lezama A., Turriago J.D., Vargas P.N., Vasquez-Martínez R., Vieira I.C.G., Villanueva B., Vitzthum P.Fuentes:scopusCarbon uptake by mature Amazon forests has mitigated Amazon nations' carbon emissions
ArticleAbstract: Background: Several independent lines of evidence suggest that Amazon forests have provided a signifPalabras claves:amazonía, carbon balance, Carbon sink, Climate Change, Ecosystem service, land use change, Sequestration, Tropical forestsAutores:Alarcón A., Alexiaides M., Alvarez-Dávila E., Alvarez-Loayza P., Andrade A.S., Anthony Di Fiore, Aragao L.E.O.C., Araujo-Murakami A., Arets E.J.M.M., Arroyo L.P., Aymard G.A.C., Baker T.R., Bánki O.S., Baraloto C., Barroso J.G., Blanc L., Bonal D., Boot R.G.A., Brienen R.J.W., Brown I.F., Burban B., Camargo J.L.C., Castilho C.V., Chao K.J., Chave J., Comiskey J.A., Da Costa L., David A. Neill, Dávila N., de Camargo P.B., de Freitas M.A., de Oliveira E.A., Do Amaral I.L., E. M. Jiménez, Engel J., Erwin T.L., Fauset S., Forsthofer M., Galbraith D.R., Gloor M., Grahame E.S., Groot N., Hérault B., Higuchi N., Honorio E.N., Keeling H.C., Killeen T.J., Laurance S.G.W., Laurance W.F., Lewis S.L., Licona J.C., Lloyd J.J., López-González G., Magnusson W.E., Malhi Y., María Cristina Peñuela Mora, Marimon B.S., Marimon-Junior B.H., Mendoza C., Monteagudo-Mendoza A., Moscoso V.C., Nogueira E.M., Núñez P.V., Pallqui Camacho N.C., Parada A., Pardo-Molina G., Peacock J., Penã-Claros M., Phillips O.L., Pickavance G.C., Pitman N.C.A., Poorter L., Prieto A., Quesada C.A., Ramírez F., Ramirez-Angulo H., Restrepo Z., Roopsind A., Rudas A., Salomao R.P., Schwarz M., Silva N., Silva-Espejo J.E., Silveira M., Stropp J., Talbot J., Ter Steege H., Teran-Aguilar J., Terborgh J.W., Thomas-Caesar R., Toledo M., Torello-Raventos M., Umetsu K., Valverde F.C., Van Der Heijden G.M.F., van der Hout P., Vasquez-Martínez R., Vieira I.C.G., Vieira S.A., Vilanova-Torre E., Vincent A. Vos, Zagt R.J.Fuentes:scopusAbove- and below-ground net primary productivity across ten Amazonian forests on contrasting soils
ArticleAbstract: The net primary productivity (NPP) of tropical forests is one of the most important and least quantiPalabras claves:Autores:Alvarez-Dávila E., Anderson L.O., Arag̃o L.E.O.C., Baker T.R., da Costa L., de Almeida S.S., E. M. Jiménez, Goncalvez P.H., Huamán-Ovalle J., Malhi Y., Mamani-Solórzano M., María Cristina Peñuela Mora, Meir P., Metcalfe D.J., Monteagudo A., Navarrete D., Patĩo S., Phillips O.L., Prieto A., Quesada C.A., Rozas-Dávila A., Rudas A., Salinas Revilla N., Silva J.A., Silva-Espejo J.E., Vasquez R.V.Fuentes:scopusAmazon forest response to repeated droughts
ArticleAbstract: The Amazon Basin has experienced more variable climate over the last decade, with a severe and widesPalabras claves:carbon, Forest productivity, precipitation, Tree mortality, vegetation dynamics, Water deficitAutores:Alarcón A., Alvarez-Dávila E., Alvarez-Loayza P., Andrade A.S., Aragao L.E.O.C., Arroyo L.P., Aymard C. G.A., Baker T.R., Baraloto C., Barroso J.G., Bonal D., Brienen R.J.W., Chave J., da Silva W.C., David A. Neill, Domingues T.F., Fauset S., Feldpausch T.R., Gloor M., Groot N., Honorio E.N., Laurance S.G.W., Laurance W.F., Lewis S.L., Licona J.C., Lloyd J.J., López-González G., Malhi Y., Marimon B.S., Marimon-Junior B.H., Mendoza Bautista C., Monteagudo-Mendoza A., Moscoso V.C., Oliveira dos Santos C., Oliveira E.A., Pallqui Camacho N.C., Pardo-Molina G., Phillips O.L., Prieto A., Quesada C.A., Ramírez F., Ramirez-Angulo H., Réjou-Méchain M., Rudas A., Saiz G., Salomao R.P., Silva-Espejo J.E., Silveira M., Stropp J., Ter Steege H., Terborgh J.W., Thomas-Caesar R., Van Der Heijden G.M.F., Vasquez-Martínez R., Vilanova-Torre E., Vincent A. VosFuentes:scopusGlobal trait–environment relationships of plant communities
ArticleAbstract: Plant functional traits directly affect ecosystem functions. At the species level, trait combinationPalabras claves:Autores:Altman J., Alvarez-Dávila E., Arfin Khan M.A.S., Attorre F., Aubin I., Baraloto C., Barroso J.G., Bauters M., Bergmeier E., Biurrun I., Bjorkman A.D., Blonder B., Botta-Dukát Z., Bruelheide H., Čarni A., Cayuela L., Černý T., Chytrý M., Cornelissen J.H.C., Craven D., Dainese M., David A. Neill, De Sanctis M., Dengler J., Derroire G., Díaz S., Dolezal J., Farfan-Rios W., Feldpausch T.R., Fenton N.J., Field R., Garnier E., Guerin G.R., Gutiérrez A.G., Haider S., Hattab T., Hennekens S.M., Henry G.H.R., Hérault B., Higuchi P., Hölzel N., Homeier J., Jansen F., Jentsch A., Jiménez-Alfaro B., Jürgens N., Kącki Z., Karger D.N., Kattge J., Kessler M., Kleyer M., Knollová I., Korolyuk A.Y., Kühn I., Laughlin D.C., Lenoir J., Lens F., Loos J., Louault F., Lyubenova M.I., Mahecha M.D., Malhi Y., Marcenò C., Mencuccini M., Müller J.V., Munzinger J., Myers-Smith I.H., Orwin K.H., Ozinga W.A., Pärtel M., Peet R.K., Pérez-Haase A., Petřík P., Pẽuelas J., Phillips O.L., Pillar V.D., Purschke O., Reich P.B., Rodrigues A.V., Römermann C., Sabatini F.M., Sandel B., Sardans J., Schmidt M., Schrodt F., Seidler G., Silva-Espejo J.E., Silveira M., Smyth A., Sporbert M., Svenning J.C., Tang Z., Thomas R.S., Tsiripidis I., Ülo N., Van Bodegom P.M., Vassilev K., Violle C., Virtanen R., Weiher E.Fuentes:scopusFast demographic traits promote high diversification rates of Amazonian trees
ArticleAbstract: The Amazon rain forest sustains the world's highest tree diversity, but it remains unclear why somePalabras claves:DIVERSITY, Generation time, Traits, Tropical Forest, TurnoverAutores:Alexiaides M., Alvarez-Dávila E., Anthony Di Fiore, Araujo A., Arets E.J.M.M., Arroyo L.P., Aymard G.A.C., Baker T.R., Bonal D., Brienen R.J.W., Chave J., David A. Neill, de Andrade A.S., De Oliveira A.C.A., Dexter K.G., Do Amaral I.L., Eler E.S., Feldpausch T.R., Ferreira L.V., Gloor M., Higuchi N., Honorio E.N., Huamantupa-Chuquimaco I., Killeen T.J., Laurance S.G.W., Laurance W.F., Leaño C., Lewis S.L., López-González G., Magallon S., Malhi Y., María Cristina Peñuela Mora, Marimon B.S., Marimon-Junior B.H., Monteagudo-Mendoza A., Pennington R.T., Phillips O.L., Pitman N.C.A., Prieto A., Quesada C.A., Ramírez F., Ramirez-Angulo H., Rudas A., Ruschell A.R., Salomao R.P., Silva J.N.N., Silveira M., Simon M.F., Spironello W.R., Steege H.T., Terborgh J.W., Toledo M., Torres-Lezama A., Van Der Heijden G.M.F., Vasquez R.V., Vieira I.C.G., Vilanova-Torre E., Vincent A. VosFuentes:scopus