Now showing items 1-12 of 12

  • Above-ground biomass and structure of 260 African tropical forests. 

    Lewis, SL; Sonké, B; Sunderland, T; Begne, SK; Lopez-Gonzalez, G; van der Heijden, GMF; Phillips, OL; Affum-Baffoe, K; Baker, TR; Banin, L; Bastin, J-F; Beeckman, H; Boeckx, P; Bogaert, J; De Cannière, C; Chezeaux, E; Clark, CJ; Collins, M; Djagbletey, G; Djuikouo, MNK; Droissart, V; Doucet, J-L; Ewango, CEN; Fauset, S; Feldpausch, TR; Foli, EG; Gillet, J-F; Hamilton, AC; Harris, DJ; Hart, TB; de Haulleville, T; Hladik, A; Hufkens, K; Huygens, D; Jeanmart, P; Jeffery, KJ; Kearsley, E; Leal, ME; Lloyd, J; Lovett, JC; Makana, J-R; Malhi, Y; Marshall, AR; Ojo, L; Peh, KS-H; Pickavance, G; Poulsen, JR; Reitsma, JM; Sheil, D; Simo, M; Steppe, K; Taedoumg, HE; Talbot, J; Taplin, JRD; Taylor, D; Thomas, SC; Toirambe, B; Verbeeck, H; Vleminckx, J; White, LJT; Willcock, S; Woell, H; Zemagho, L (England, 2013)
    We report above-ground biomass (AGB), basal area, stem density and wood mass density estimates from 260 sample plots (mean size: 1.2 ha) in intact closed-canopy tropical forests across 12 African countries. Mean AGB is ...
  • Amazon forest response to repeated droughts 

    Feldpausch, TR; Phillips, OL; Brienen, RJW; Gloor, E; Lloyd, J; Lopez-Gonzalez, G; Monteagudo-Mendoza, A; Malhi, Y; Alarcón, A; Álvarez Dávila, E; Alvarez-Loayza, P; Andrade, A; Aragao, LEOC; Arroyo, L; Aymard C., GA; Baker, TR; Baraloto, C; Barroso, J; Bonal, D; Castro, W; Chama, V; Chave, J; Domingues, TF; Fauset, S; Groot, N; Honorio Coronado, E; Laurance, S; Laurance, WF; Lewis, SL; Licona, JC; Marimon, BS; Marimon-Junior, BH; Mendoza Bautista, C; Neill, DA; Oliveira, EA; Oliveira dos Santos, C; Pallqui Camacho, NC; Pardo-Molina, G; Prieto, A; Quesada, CA; Ramírez, F; Ramírez-Angulo, H; Réjou-Méchain, M; Rudas, A; Saiz, G; Salomão, RP; Silva-Espejo, JE; Silveira, M; ter Steege, H; Stropp, J; Terborgh, J; Thomas-Caesar, R; van der Heijden, GMF; Vásquez Martinez, R; Vilanova, E; Vos, VA (American Geophysical Union, 2016-07)
  • Compositional response of Amazon forests to climate change. 

    Esquivel-Muelbert, A; Baker, TR; Dexter, KG; Lewis, SL; Brienen, RJW; Feldpausch, TR; Lloyd, J; Monteagudo-Mendoza, A; Arroyo, L; Álvarez-Dávila, E; Higuchi, N; Marimon, BS; Marimon-Junior, BH; Silveira, M; Vilanova, E; Gloor, E; Malhi, Y; Chave, J; Barlow, J; Bonal, D; Davila Cardozo, N; Erwin, T; Fauset, S; Hérault, B; Laurance, S; Poorter, L; Qie, L; Stahl, C; Sullivan, MJP; Ter Steege, H; Vos, VA; Zuidema, PA; Almeida, E; Almeida de Oliveira, E; Andrade, A; Vieira, SA; Aragão, L; Araujo-Murakami, A; Arets, E; Aymard C, GA; Camargo, PB; Barroso, JG; Bongers, F; Boot, R; Camargo, JL; Castro, W; Chama Moscoso, V; Comiskey, J; Cornejo Valverde, F; Lola da Costa, AC; Del Aguila Pasquel, J; Di Fiore, T; Fernanda Duque, L; Elias, F; Engel, J; Flores Llampazo, G; Galbraith, D; Herrera Fernández, R; Honorio Coronado, E; Hubau, W; Jimenez-Rojas, E; Lima, AJN; Umetsu, RK; Laurance, W; Lopez-Gonzalez, G; Lovejoy, T; Aurelio Melo Cruz, O; Morandi, PS; Neill, D; Núñez Vargas, P; Pallqui, NC; Parada Gutierrez, A; Pardo, G; Peacock, J; Peña-Claros, M; Peñuela-Mora, MC; Petronelli, P; Pickavance, GC; Pitman, N; Prieto, A; Quesada, C; Ramírez-Angulo, H; Réjou-Méchain, M; Restrepo Correa, Z; Roopsind, A; Rudas, A; Salomão, R; Silva, N; Silva Espejo, J; Singh, J; Stropp, J; Terborgh, J; Thomas, R; Toledo, M; Torres-Lezama, A; Valenzuela Gamarra, L; van de Meer, PJ; van der Heijden, G; van der Hout, P; Vasquez Martinez, R; Vela, C; Vieira, ICG; Phillips, OL
    Most of the planet's diversity is concentrated in the tropics, which includes many regions undergoing rapid climate change. Yet, while climate-induced biodiversity changes are widely documented elsewhere, few studies have ...
  • Differences in leaf thermoregulation and water use strategies between three co-occurring Atlantic forest tree species 

    Fauset, S; Freitas, HC; Galbraith, DR; Sullivan, MJP; Aidar, MPM; Joly, CA; Phillips, OL; Vieira, SA; Gloor, MU (Wiley, 2018-07)
  • Diversity and carbon storage across the tropical forest biome 

    Sullivan, MJP; Talbot, J; Lewis, SL; Phillips, OL; Qie, L; Begne, SK; Chave, J; Cuni-Sanchez, A; Hubau, W; Lopez-Gonzalez, G; Miles, L; Monteagudo-Mendoza, A; Sonké, B; Sunderland, T; ter Steege, H; White, LJT; Affum-Baffoe, K; Aiba, S-I; de Almeida, EC; de Oliveira, EA; Alvarez-Loayza, P; Dávila, EÁ; Andrade, A; Aragão, LEOC; Ashton, P; Aymard C., GA; Baker, TR; Balinga, M; Banin, LF; Baraloto, C; Bastin, J-F; Berry, N; Bogaert, J; Bonal, D; Bongers, F; Brienen, R; Camargo, JLC; Cerón, C; Moscoso, VC; Chezeaux, E; Clark, CJ; Pacheco, ÁC; Comiskey, JA; Valverde, FC; Coronado, ENH; Dargie, G; Davies, SJ; De Canniere, C; Djuikouo K., MN; Doucet, J-L; Erwin, TL; Espejo, JS; Ewango, CEN; Fauset, S; Feldpausch, TR; Herrera, R; Gilpin, M; Gloor, E; Hall, JS; Harris, DJ; Hart, TB; Kartawinata, K; Kho, LK; Kitayama, K; Laurance, SGW; Laurance, WF; Leal, ME; Lovejoy, T; Lovett, JC; Lukasu, FM; Makana, J-R; Malhi, Y; Maracahipes, L; Marimon, BS; Junior, BHM; Marshall, AR; Morandi, PS; Mukendi, JT; Mukinzi, J; Nilus, R; Vargas, PN; Camacho, NCP; Pardo, G; Peña-Claros, M; Pétronelli, P; Pickavance, GC; Poulsen, AD; Poulsen, JR; Primack, RB; Priyadi, H; Quesada, CA; Reitsma, J; Réjou-Méchain, M; Restrepo, Z; Rutishauser, E; Salim, KA; Salomão, RP; Samsoedin, I; Sheil, D; Sierra, R; Silveira, M; Slik, JWF; Steel, L; Taedoumg, H; Tan, S; Terborgh, JW; Thomas, SC; Toledo, M; Umunay, PM; Gamarra, LV; Vieira, ICG; Vos, VA; Wang, O; Willcock, S; Zemagho, L (Nature Research (part of Springer Nature), 2017-12)
  • Drier tropical forests are susceptible to functional changes in response to a long-term drought 

    Aguirre-Gutierrez, J; Oliveras, I; Rifai, S; Fauset, S; Adu-Bredu, S; Affum-Baffoe, K; Baker, T; Feldpausch, T; Gvozdevaite, A; Hubau, W; Kraft, N; Lewis, S; Moore, S; Niinemets, U; Peprah, T; Phillips, O; Zieminska, K; Enquist, B; Malhi, Y (Wiley, 2019-05)
  • Hyperdominance in Amazonian forest carbon cycling. 

    Fauset, S; Johnson, MO; Gloor, M; Baker, TR; Monteagudo M, A; Brienen, RJW; Feldpausch, TR; Lopez-Gonzalez, G; Malhi, Y; ter Steege, H; Pitman, NCA; Baraloto, C; Engel, J; Pétronelli, P; Andrade, A; Camargo, JLC; Laurance, SGW; Laurance, WF; Chave, J; Allie, E; Vargas, PN; Terborgh, JW; Ruokolainen, K; Silveira, M; Aymard C, GA; Arroyo, L; Bonal, D; Ramirez-Angulo, H; Araujo-Murakami, A; Neill, D; Hérault, B; Dourdain, A; Torres-Lezama, A; Marimon, BS; Salomão, RP; Comiskey, JA; Réjou-Méchain, M; Toledo, M; Licona, JC; Alarcón, A; Prieto, A; Rudas, A; van der Meer, PJ; Killeen, TJ; Marimon Junior, B-H; Poorter, L; Boot, RGA; Stergios, B; Torre, EV; Costa, FRC; Levis, C; Schietti, J; Souza, P; Groot, N; Arets, E; Moscoso, VC; Castro, W; Coronado, ENH; Peña-Claros, M; Stahl, C; Barroso, J; Talbot, J; Vieira, ICG; van der Heijden, G; Thomas, R; Vos, VA; Almeida, EC; Davila, EÁ; Aragão, LEOC; Erwin, TL; Morandi, PS; de Oliveira, EA; Valadão, MBX; Zagt, RJ; van der Hout, P; Loayza, PA; Pipoly, JJ; Wang, O; Alexiades, M; Cerón, CE; Huamantupa-Chuquimaco, I; Di Fiore, A; Peacock, J; Camacho, NCP; Umetsu, RK; de Camargo, PB; Burnham, RJ; Herrera, R; Quesada, CA; Stropp, J; Vieira, SA; Steininger, M; Rodríguez, CR; Restrepo, Z; Muelbert, AE; Lewis, SL; Pickavance, GC; Phillips, OL (England, 2015-04-28)
    While Amazonian forests are extraordinarily diverse, the abundance of trees is skewed strongly towards relatively few 'hyperdominant' species. In addition to their diversity, Amazonian trees are a key component of the ...
  • Individual-Based Modeling of Amazon Forests Suggests That Climate Controls Productivity While Traits Control Demography 

    Fauset, S; Gloor, M; Fyllas, NM; Phillips, OL; Asner, GP; Baker, TR; Patrick Bentley, L; Brienen, RJW; Christoffersen, BO; del Aguila-Pasquel, J; Doughty, CE; Feldpausch, TR; Galbraith, DR; Goodman, RC; Girardin, CAJ; Honorio Coronado, EN; Monteagudo, A; Salinas, N; Shenkin, A; Silva-Espejo, JE; van der Heijden, G; Vasquez, R; Alvarez-Davila, E; Arroyo, L; Barroso, JG; Brown, F; Castro, W; Cornejo Valverde, F; Davila Cardozo, N; Di Fiore, A; Erwin, T; Huamantupa-Chuquimaco, I; Núñez Vargas, P; Neill, D; Pallqui Camacho, N; Gutierrez, AP; Peacock, J; Pitman, N; Prieto, A; Restrepo, Z; Rudas, A; Quesada, CA; Silveira, M; Stropp, J; Terborgh, J; Vieira, SA; Malhi, Y (Frontiers Media, 2019-04-30)
  • Linking hydraulic traits to tropical forest function in a size-structured and trait-driven model (TFS v.1-Hydro) 

    Christoffersen, BO; Gloor, M; Fauset, S; Fyllas, NM; Galbraith, DR; Baker, TR; Kruijt, B; Rowland, L; Fisher, RA; Binks, OJ; Sevanto, S; Xu, C; Jansen, S; Choat, B; Mencuccini, M; McDowell, NG; Meir, P (2016-11-24)
    © Author(s) 2016. Forest ecosystem models based on heuristic water stress functions poorly predict tropical forest response to drought partly because they do not capture the diversity of hydraulic traits (including variation ...
  • Tropical forest light regimes in a human-modified landscape 

    Fauset, S; Gloor, MU; Aidar, MPM; Freitas, HC; Fyllas, NM; Marabesi, MA; Rochelle, ALC; Shenkin, A; Vieira, SA; Joly, CA (Ecological Society of America, 2017-11)
  • Variation in stem mortality rates determines patterns of above-ground biomass in Amazonian forests: implications for dynamic global vegetation models. 

    Johnson, MO; Galbraith, D; Gloor, M; De Deurwaerder, H; Guimberteau, M; Rammig, A; Thonicke, K; Verbeeck, H; von Randow, C; Monteagudo, A; Phillips, OL; Brienen, RJW; Feldpausch, TR; Lopez Gonzalez, G; Fauset, S; Quesada, CA; Christoffersen, B; Ciais, P; Sampaio, G; Kruijt, B; Meir, P; Moorcroft, P; Zhang, K; Alvarez-Davila, E; Alves de Oliveira, A; Amaral, I; Andrade, A; Aragao, LEOC; Araujo-Murakami, A; Arets, EJMM; Arroyo, L; Aymard, GA; Baraloto, C; Barroso, J; Bonal, D; Boot, R; Camargo, J; Chave, J; Cogollo, A; Cornejo Valverde, F; Lola da Costa, AC; Di Fiore, A; Ferreira, L; Higuchi, N; Honorio, EN; Killeen, TJ; Laurance, SG; Laurance, WF; Licona, J; Lovejoy, T; Malhi, Y; Marimon, B; Marimon, BH; Matos, DCL; Mendoza, C; Neill, DA; Pardo, G; Peña-Claros, M; Pitman, NCA; Poorter, L; Prieto, A; Ramirez-Angulo, H; Roopsind, A; Rudas, A; Salomao, RP; Silveira, M; Stropp, J; Ter Steege, H; Terborgh, J; Thomas, R; Toledo, M; Torres-Lezama, A; van der Heijden, GMF; Vasquez, R; Guimarães Vieira, IC; Vilanova, E; Vos, VA; Baker, TR (England, 2016-12)
    Understanding the processes that determine above-ground biomass (AGB) in Amazonian forests is important for predicting the sensitivity of these ecosystems to environmental change and for designing and evaluating dynamic ...

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