Water table depth modulates productivity and biomass across Amazonian forests

Thaiane R. Sousa; Juliana Schietti; Igor O. Ribeiro; Thaise Emílio; Rafael Herrera Fernández; Hans ter Steege; Carolina V. Castilho; Adriane Esquivel-Muelbert; Timothy Baker; Aline Pontes-Lopes; Camila V.J. Silva; Juliana M. Silveira; Géraldine Derroire; Wendeson Castro; Abel Monteagudo Mendoza; Ademir Ruschel; Adriana Prieto; Adriano José Nogueira Lima; Agustín Rudas; Alejandro Araujo-Murakami; Alexander Parada Gutierrez; Ana Andrade; Anand Roopsind; Angelo Gilberto Manzatto; Anthony Di Fiore; Armando Torres-Lezama; Aurélie Dourdain; Beatriz Marimon; Ben Hur Marimon; Benoit Burban; Bert van Ulft; Bruno Herault; Carlos Quesada; Casimiro Mendoza; Clement Stahl; Damien Bonal; David Galbraith; David Neill; Edmar A. de Oliveira; Eduardo Hase; Eliana Jimenez-Rojas; Emilio Vilanova; Eric Arets; Erika Berenguer; Esteban Alvarez-Davila; Eurídice N. Honorio Coronado; Everton Almeida; Fernanda Coelho; Fernando Cornejo Valverde; Fernando Elias; Foster Brown; Frans Bongers; Freddy Ramirez Arevalo; Gabriela Lopez-Gonzalez; Geertje van der Heijden; Gerardo A. Aymard C.; Gerardo Flores Llampazo; Guido Pardo; Hirma Ramírez-Angulo; Iêda Leão do Amaral; Ima Célia Guimarães Vieira; Isau Huamantupa-Chuquimaco; James A. Comiskey; James Singh; Javier Silva Espejo; Jhon del Aguila-Pasquel; Joeri Alexander Zwerts; Joey Talbot; John Terborgh; Joice Ferreira; Jorcely G. Barroso; Jos Barlow; José Luís Camargo; Juliana Stropp; Julie Peacock; Julio Serrano; Karina Melgaço; Leandro V. Ferreira; Lilian Blanc; Lourens Poorter; Luis Valenzuela Gamarra; Luiz Aragão; Luzmila Arroyo; Marcos Silveira; Maria Cristina Peñuela-Mora; Mario Percy Núñez Vargas; Marisol Toledo; Mat Disney; Maxime Réjou-Méchain; Michel Baisie; Michelle Kalamandeen; Nadir Pallqui Camacho; Nállarett Dávila Cardozo; Natalino Silva; Nigel Pitman; Niro Higuchi; Olaf Banki; Patricia Alvarez Loayza; Paulo M.L.A. Graça; Paulo S. Morandi; Peter J. van der Meer; Peter van der Hout; Pétrus Naisso; Plínio Barbosa Camargo; Rafael Salomão; Raquel Thomas; Rene Boot; Ricardo Keichi Umetsu; Richarlly da Costa Silva; Robyn Burnham; Roderick Zagt; Rodolfo Vasquez Martinez; Roel Brienen; Sabina Cerruto Ribeiro; Simon L. Lewis; Simone Aparecida Vieira; Simone Matias de Almeida Reis; Sophie Fauset; Susan Laurance; Ted Feldpausch; Terry Erwin; Timothy Killeen; Verginia Wortel; Victor Chama Moscoso; Vincent Vos; Walter Huaraca Huasco; William Laurance; Yadvinder Malhi; William E. Magnusson; Oliver L. Phillips; Flávia R.C. Costa

doi:10.1111/geb.13531

Water table depth modulates productivity and biomass across Amazonian forests

Thaiane R. Sousa^*, Juliana Schietti, Igor O. Ribeiro, Thaise Emílio, Rafael Herrera Fernández, Hans ter Steege, Carolina V. Castilho, Adriane Esquivel-Muelbert, Timothy Baker, Aline Pontes-Lopes, Camila V.J. Silva, Juliana M. Silveira, Géraldine Derroire, Wendeson Castro, Abel Monteagudo Mendoza, Ademir Ruschel, Adriana Prieto, Adriano José Nogueira Lima, Agustín Rudas, Alejandro Araujo-MurakamiAlexander Parada Gutierrez, Ana Andrade, Anand Roopsind, Angelo Gilberto Manzatto, Anthony Di Fiore, Armando Torres-Lezama, Aurélie Dourdain, Beatriz Marimon, Ben Hur Marimon, Benoit Burban, Bert van Ulft, Bruno Herault, Carlos Quesada, Casimiro Mendoza, Clement Stahl, Damien Bonal, David Galbraith, David Neill, Edmar A. de Oliveira, Eduardo Hase, Eliana Jimenez-Rojas, Emilio Vilanova, Eric Arets, Erika Berenguer, Esteban Alvarez-Davila, Eurídice N. Honorio Coronado, Everton Almeida, Fernanda Coelho, Fernando Cornejo Valverde, Fernando Elias, Foster Brown, Frans Bongers, Freddy Ramirez Arevalo, Gabriela Lopez-Gonzalez, Geertje van der Heijden, Gerardo A. Aymard C., Gerardo Flores Llampazo, Guido Pardo, Hirma Ramírez-Angulo, Iêda Leão do Amaral, Ima Célia Guimarães Vieira, Isau Huamantupa-Chuquimaco, James A. Comiskey, James Singh, Javier Silva Espejo, Jhon del Aguila-Pasquel, Joeri Alexander Zwerts, Joey Talbot, John Terborgh, Joice Ferreira, Jorcely G. Barroso, Jos Barlow, José Luís Camargo, Juliana Stropp, Julie Peacock, Julio Serrano, Karina Melgaço, Leandro V. Ferreira, Lilian Blanc, Lourens Poorter, Luis Valenzuela Gamarra, Luiz Aragão, Luzmila Arroyo, Marcos Silveira, Maria Cristina Peñuela-Mora, Mario Percy Núñez Vargas, Marisol Toledo, Mat Disney, Maxime Réjou-Méchain, Michel Baisie, Michelle Kalamandeen, Nadir Pallqui Camacho, Nállarett Dávila Cardozo, Natalino Silva, Nigel Pitman, Niro Higuchi, Olaf Banki, Patricia Alvarez Loayza, Paulo M.L.A. Graça, Paulo S. Morandi, Peter J. van der Meer, Peter van der Hout, Pétrus Naisso, Plínio Barbosa Camargo, Rafael Salomão, Raquel Thomas, Rene Boot, Ricardo Keichi Umetsu, Richarlly da Costa Silva, Robyn Burnham, Roderick Zagt, Rodolfo Vasquez Martinez, Roel Brienen, Sabina Cerruto Ribeiro, Simon L. Lewis, Simone Aparecida Vieira, Simone Matias de Almeida Reis, Sophie Fauset, Susan Laurance, Ted Feldpausch, Terry Erwin, Timothy Killeen, Verginia Wortel, Victor Chama Moscoso, Vincent Vos, Walter Huaraca Huasco, William Laurance, Yadvinder Malhi, William E. Magnusson, Oliver L. Phillips, Flávia R.C. Costa

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Aim: Water availability is the major driver of tropical forest structure and dynamics. Most research has focused on the impacts of climatic water availability, whereas remarkably little is known about the influence of water table depth and excess soil water on forest processes. Nevertheless, given that plants take up water from the soil, the impacts of climatic water supply on plants are likely to be modulated by soil water conditions. Location: Lowland Amazonian forests. Time period: 1971–2019. Methods: We used 344 long-term inventory plots distributed across Amazonia to analyse the effects of long-term climatic and edaphic water supply on forest functioning. We modelled forest structure and dynamics as a function of climatic, soil-water and edaphic properties. Results: Water supplied by both precipitation and groundwater affects forest structure and dynamics, but in different ways. Forests with a shallow water table (depth <5 m) had 18% less above-ground woody productivity and 23% less biomass stock than forests with a deep water table. Forests in drier climates (maximum cumulative water deficit < −160 mm) had 21% less productivity and 24% less biomass than those in wetter climates. Productivity was affected by the interaction between climatic water deficit and water table depth. On average, in drier climates the forests with a shallow water table had lower productivity than those with a deep water table, with this difference decreasing within wet climates, where lower productivity was confined to a very shallow water table. Main conclusions: We show that the two extremes of water availability (excess and deficit) both reduce productivity in Amazon upland (terra-firme) forests. Biomass and productivity across Amazonia respond not simply to regional climate, but rather to its interaction with water table conditions, exhibiting high local differentiation. Our study disentangles the relative contribution of those factors, helping to improve understanding of the functioning of tropical ecosystems and how they are likely to respond to climate change.

Original language	English
Pages (from-to)	1571-1588
Number of pages	18
Journal	Global Ecology and Biogeography
Volume	31
Issue number	8
DOIs	https://doi.org/10.1111/geb.13531
Publication status	Published - Aug 2022

Bibliographical note

Funding Information:
This manuscript is a product of the RAINFOR and PPBio networks and integrates the effort of hundreds of researchers and field assistants across Amazonia. We thank all the field assistants, rural communities and environmental agencies who helped us with the logistics and data collection, without whom this research would not be possible. This work was part of the PhD thesis of the first author, developed at the Graduate Program in Ecology of the National Institute of Amazonian Research (INPA), with a fellowship funded by Coordenação de Aperfeiçoamento de Pessoal de Nível Superior – Brasil (CAPES), Finance Code 001, (88887.141433/2017‐00). The authors are also grateful for the financial and research support of the Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq), Amazonas State Research Foundation (FAPEAM), the Newton Fund via the Natural Environment Research Council (NE/M022021/1 to O.L.P. and F.R.C.C.), PPBio Manaus, Centro de Estudos Integrados da Biodiversidade Amazônica and RAINFOR. We also thank Karina Melgaço, Aurora Levesley and Gabriela Lopez‐Gonzalez for curating and managing ForestPlots.net . This was ForestPlots.net Project 26 led by Thaiane Sousa. This is publication number 832 of the Technical Series of the Biological Dynamics of Forest Fragments Project (BDFFP, INPA/STRI). We thank the anonymous reviewers for their helpful comments and suggestions.

Funding Information:
This manuscript is a product of the RAINFOR and PPBio networks and integrates the effort of hundreds of researchers and field assistants across Amazonia. We thank all the field assistants, rural communities and environmental agencies who helped us with the logistics and data collection, without whom this research would not be possible. This work was part of the PhD thesis of the first author, developed at the Graduate Program in Ecology of the National Institute of Amazonian Research (INPA), with a fellowship funded by Coordenação de Aperfeiçoamento de Pessoal de Nível Superior – Brasil (CAPES), Finance Code 001, (88887.141433/2017-00). The authors are also grateful for the financial and research support of the Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq), Amazonas State Research Foundation (FAPEAM), the Newton Fund via the Natural Environment Research Council (NE/M022021/1 to O.L.P. and F.R.C.C.), PPBio Manaus, Centro de Estudos Integrados da Biodiversidade Amazônica and RAINFOR. We also thank Karina Melgaço, Aurora Levesley and Gabriela Lopez-Gonzalez for curating and managing ForestPlots.net. This was ForestPlots.net Project 26 led by Thaiane Sousa. This is publication number 832 of the Technical Series of the Biological Dynamics of Forest Fragments Project (BDFFP, INPA/STRI). We thank the anonymous reviewers for their helpful comments and suggestions.

Publisher Copyright:
© 2022 John Wiley & Sons Ltd.

Funding

This manuscript is a product of the RAINFOR and PPBio networks and integrates the effort of hundreds of researchers and field assistants across Amazonia. We thank all the field assistants, rural communities and environmental agencies who helped us with the logistics and data collection, without whom this research would not be possible. This work was part of the PhD thesis of the first author, developed at the Graduate Program in Ecology of the National Institute of Amazonian Research (INPA), with a fellowship funded by Coordenação de Aperfeiçoamento de Pessoal de Nível Superior – Brasil (CAPES), Finance Code 001, (88887.141433/2017‐00). The authors are also grateful for the financial and research support of the Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq), Amazonas State Research Foundation (FAPEAM), the Newton Fund via the Natural Environment Research Council (NE/M022021/1 to O.L.P. and F.R.C.C.), PPBio Manaus, Centro de Estudos Integrados da Biodiversidade Amazônica and RAINFOR. We also thank Karina Melgaço, Aurora Levesley and Gabriela Lopez‐Gonzalez for curating and managing ForestPlots.net . This was ForestPlots.net Project 26 led by Thaiane Sousa. This is publication number 832 of the Technical Series of the Biological Dynamics of Forest Fragments Project (BDFFP, INPA/STRI). We thank the anonymous reviewers for their helpful comments and suggestions. This manuscript is a product of the RAINFOR and PPBio networks and integrates the effort of hundreds of researchers and field assistants across Amazonia. We thank all the field assistants, rural communities and environmental agencies who helped us with the logistics and data collection, without whom this research would not be possible. This work was part of the PhD thesis of the first author, developed at the Graduate Program in Ecology of the National Institute of Amazonian Research (INPA), with a fellowship funded by Coordenação de Aperfeiçoamento de Pessoal de Nível Superior – Brasil (CAPES), Finance Code 001, (88887.141433/2017-00). The authors are also grateful for the financial and research support of the Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq), Amazonas State Research Foundation (FAPEAM), the Newton Fund via the Natural Environment Research Council (NE/M022021/1 to O.L.P. and F.R.C.C.), PPBio Manaus, Centro de Estudos Integrados da Biodiversidade Amazônica and RAINFOR. We also thank Karina Melgaço, Aurora Levesley and Gabriela Lopez-Gonzalez for curating and managing ForestPlots.net. This was ForestPlots.net Project 26 led by Thaiane Sousa. This is publication number 832 of the Technical Series of the Biological Dynamics of Forest Fragments Project (BDFFP, INPA/STRI). We thank the anonymous reviewers for their helpful comments and suggestions.

Keywords

above-ground biomass
carbon
forest dynamics
groundwater
seasonality
tropical ecology

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1111/geb.13531

Cite this

Sousa, T. R., Schietti, J., Ribeiro, I. O., Emílio, T., Fernández, R. H., ter Steege, H., Castilho, C. V., Esquivel-Muelbert, A., Baker, T., Pontes-Lopes, A., Silva, C. V. J., Silveira, J. M., Derroire, G., Castro, W., Mendoza, A. M., Ruschel, A., Prieto, A., Lima, A. J. N., Rudas, A., ... Costa, F. R. C. (2022). Water table depth modulates productivity and biomass across Amazonian forests. Global Ecology and Biogeography, 31(8), 1571-1588. https://doi.org/10.1111/geb.13531

@article{20402b30bb6041bdab7550ea12aca388,

title = "Water table depth modulates productivity and biomass across Amazonian forests",

abstract = "Aim: Water availability is the major driver of tropical forest structure and dynamics. Most research has focused on the impacts of climatic water availability, whereas remarkably little is known about the influence of water table depth and excess soil water on forest processes. Nevertheless, given that plants take up water from the soil, the impacts of climatic water supply on plants are likely to be modulated by soil water conditions. Location: Lowland Amazonian forests. Time period: 1971–2019. Methods: We used 344 long-term inventory plots distributed across Amazonia to analyse the effects of long-term climatic and edaphic water supply on forest functioning. We modelled forest structure and dynamics as a function of climatic, soil-water and edaphic properties. Results: Water supplied by both precipitation and groundwater affects forest structure and dynamics, but in different ways. Forests with a shallow water table (depth <5 m) had 18% less above-ground woody productivity and 23% less biomass stock than forests with a deep water table. Forests in drier climates (maximum cumulative water deficit < −160 mm) had 21% less productivity and 24% less biomass than those in wetter climates. Productivity was affected by the interaction between climatic water deficit and water table depth. On average, in drier climates the forests with a shallow water table had lower productivity than those with a deep water table, with this difference decreasing within wet climates, where lower productivity was confined to a very shallow water table. Main conclusions: We show that the two extremes of water availability (excess and deficit) both reduce productivity in Amazon upland (terra-firme) forests. Biomass and productivity across Amazonia respond not simply to regional climate, but rather to its interaction with water table conditions, exhibiting high local differentiation. Our study disentangles the relative contribution of those factors, helping to improve understanding of the functioning of tropical ecosystems and how they are likely to respond to climate change.",

keywords = "above-ground biomass, carbon, forest dynamics, groundwater, seasonality, tropical ecology",

author = "Sousa, {Thaiane R.} and Juliana Schietti and Ribeiro, {Igor O.} and Thaise Em{\'i}lio and Fern{\'a}ndez, {Rafael Herrera} and {ter Steege}, Hans and Castilho, {Carolina V.} and Adriane Esquivel-Muelbert and Timothy Baker and Aline Pontes-Lopes and Silva, {Camila V.J.} and Silveira, {Juliana M.} and G{\'e}raldine Derroire and Wendeson Castro and Mendoza, {Abel Monteagudo} and Ademir Ruschel and Adriana Prieto and Lima, {Adriano Jos{\'e} Nogueira} and Agust{\'i}n Rudas and Alejandro Araujo-Murakami and Gutierrez, {Alexander Parada} and Ana Andrade and Anand Roopsind and Manzatto, {Angelo Gilberto} and {Di Fiore}, Anthony and Armando Torres-Lezama and Aur{\'e}lie Dourdain and Beatriz Marimon and Marimon, {Ben Hur} and Benoit Burban and {van Ulft}, Bert and Bruno Herault and Carlos Quesada and Casimiro Mendoza and Clement Stahl and Damien Bonal and David Galbraith and David Neill and {de Oliveira}, {Edmar A.} and Eduardo Hase and Eliana Jimenez-Rojas and Emilio Vilanova and Eric Arets and Erika Berenguer and Esteban Alvarez-Davila and {Honorio Coronado}, {Eur{\'i}dice N.} and Everton Almeida and Fernanda Coelho and Valverde, {Fernando Cornejo} and Fernando Elias and Foster Brown and Frans Bongers and Arevalo, {Freddy Ramirez} and Gabriela Lopez-Gonzalez and {van der Heijden}, Geertje and {Aymard C.}, {Gerardo A.} and Llampazo, {Gerardo Flores} and Guido Pardo and Hirma Ram{\'i}rez-Angulo and {do Amaral}, {I{\^e}da Le{\~a}o} and Vieira, {Ima C{\'e}lia Guimar{\~a}es} and Isau Huamantupa-Chuquimaco and Comiskey, {James A.} and James Singh and Espejo, {Javier Silva} and {del Aguila-Pasquel}, Jhon and Zwerts, {Joeri Alexander} and Joey Talbot and John Terborgh and Joice Ferreira and Barroso, {Jorcely G.} and Jos Barlow and Camargo, {Jos{\'e} Lu{\'i}s} and Juliana Stropp and Julie Peacock and Julio Serrano and Karina Melga{\c c}o and Ferreira, {Leandro V.} and Lilian Blanc and Lourens Poorter and Gamarra, {Luis Valenzuela} and Luiz Arag{\~a}o and Luzmila Arroyo and Marcos Silveira and Pe{\~n}uela-Mora, {Maria Cristina} and Vargas, {Mario Percy N{\'u}{\~n}ez} and Marisol Toledo and Mat Disney and Maxime R{\'e}jou-M{\'e}chain and Michel Baisie and Michelle Kalamandeen and Camacho, {Nadir Pallqui} and Cardozo, {N{\'a}llarett D{\'a}vila} and Natalino Silva and Nigel Pitman and Niro Higuchi and Olaf Banki and Loayza, {Patricia Alvarez} and Gra{\c c}a, {Paulo M.L.A.} and Morandi, {Paulo S.} and {van der Meer}, {Peter J.} and {van der Hout}, Peter and P{\'e}trus Naisso and Camargo, {Pl{\'i}nio Barbosa} and Rafael Salom{\~a}o and Raquel Thomas and Rene Boot and Umetsu, {Ricardo Keichi} and {da Costa Silva}, Richarlly and Robyn Burnham and Roderick Zagt and Martinez, {Rodolfo Vasquez} and Roel Brienen and Ribeiro, {Sabina Cerruto} and Lewis, {Simon L.} and Vieira, {Simone Aparecida} and {de Almeida Reis}, {Simone Matias} and Sophie Fauset and Susan Laurance and Ted Feldpausch and Terry Erwin and Timothy Killeen and Verginia Wortel and Moscoso, {Victor Chama} and Vincent Vos and Huasco, {Walter Huaraca} and William Laurance and Yadvinder Malhi and Magnusson, {William E.} and Phillips, {Oliver L.} and Costa, {Fl{\'a}via R.C.}",

note = "Funding Information: This manuscript is a product of the RAINFOR and PPBio networks and integrates the effort of hundreds of researchers and field assistants across Amazonia. We thank all the field assistants, rural communities and environmental agencies who helped us with the logistics and data collection, without whom this research would not be possible. This work was part of the PhD thesis of the first author, developed at the Graduate Program in Ecology of the National Institute of Amazonian Research (INPA), with a fellowship funded by Coordena{\c c}{\~a}o de Aperfei{\c c}oamento de Pessoal de N{\'i}vel Superior – Brasil (CAPES), Finance Code 001, (88887.141433/2017‐00). The authors are also grateful for the financial and research support of the Conselho Nacional de Desenvolvimento Cient{\'i}fico e Tecnol{\'o}gico (CNPq), Amazonas State Research Foundation (FAPEAM), the Newton Fund via the Natural Environment Research Council (NE/M022021/1 to O.L.P. and F.R.C.C.), PPBio Manaus, Centro de Estudos Integrados da Biodiversidade Amaz{\^o}nica and RAINFOR. We also thank Karina Melga{\c c}o, Aurora Levesley and Gabriela Lopez‐Gonzalez for curating and managing ForestPlots.net . This was ForestPlots.net Project 26 led by Thaiane Sousa. This is publication number 832 of the Technical Series of the Biological Dynamics of Forest Fragments Project (BDFFP, INPA/STRI). We thank the anonymous reviewers for their helpful comments and suggestions. Funding Information: This manuscript is a product of the RAINFOR and PPBio networks and integrates the effort of hundreds of researchers and field assistants across Amazonia. We thank all the field assistants, rural communities and environmental agencies who helped us with the logistics and data collection, without whom this research would not be possible. This work was part of the PhD thesis of the first author, developed at the Graduate Program in Ecology of the National Institute of Amazonian Research (INPA), with a fellowship funded by Coordena{\c c}{\~a}o de Aperfei{\c c}oamento de Pessoal de N{\'i}vel Superior – Brasil (CAPES), Finance Code 001, (88887.141433/2017-00). The authors are also grateful for the financial and research support of the Conselho Nacional de Desenvolvimento Cient{\'i}fico e Tecnol{\'o}gico (CNPq), Amazonas State Research Foundation (FAPEAM), the Newton Fund via the Natural Environment Research Council (NE/M022021/1 to O.L.P. and F.R.C.C.), PPBio Manaus, Centro de Estudos Integrados da Biodiversidade Amaz{\^o}nica and RAINFOR. We also thank Karina Melga{\c c}o, Aurora Levesley and Gabriela Lopez-Gonzalez for curating and managing ForestPlots.net. This was ForestPlots.net Project 26 led by Thaiane Sousa. This is publication number 832 of the Technical Series of the Biological Dynamics of Forest Fragments Project (BDFFP, INPA/STRI). We thank the anonymous reviewers for their helpful comments and suggestions. Publisher Copyright: {\textcopyright} 2022 John Wiley & Sons Ltd.",

year = "2022",

month = aug,

doi = "10.1111/geb.13531",

language = "English",

volume = "31",

pages = "1571--1588",

journal = "Global Ecology and Biogeography",

issn = "1466-822X",

publisher = "Wiley-Blackwell Publishing Ltd",

number = "8",

}

Sousa, TR, Schietti, J, Ribeiro, IO, Emílio, T, Fernández, RH, ter Steege, H, Castilho, CV, Esquivel-Muelbert, A, Baker, T, Pontes-Lopes, A, Silva, CVJ, Silveira, JM, Derroire, G, Castro, W, Mendoza, AM, Ruschel, A, Prieto, A, Lima, AJN, Rudas, A, Araujo-Murakami, A, Gutierrez, AP, Andrade, A, Roopsind, A, Manzatto, AG, Di Fiore, A, Torres-Lezama, A, Dourdain, A, Marimon, B, Marimon, BH, Burban, B, van Ulft, B, Herault, B, Quesada, C, Mendoza, C, Stahl, C, Bonal, D, Galbraith, D, Neill, D, de Oliveira, EA, Hase, E, Jimenez-Rojas, E, Vilanova, E, Arets, E, Berenguer, E, Alvarez-Davila, E, Honorio Coronado, EN, Almeida, E, Coelho, F, Valverde, FC, Elias, F, Brown, F, Bongers, F, Arevalo, FR, Lopez-Gonzalez, G, van der Heijden, G, Aymard C., GA, Llampazo, GF, Pardo, G, Ramírez-Angulo, H, do Amaral, IL, Vieira, ICG, Huamantupa-Chuquimaco, I, Comiskey, JA, Singh, J, Espejo, JS, del Aguila-Pasquel, J, Zwerts, JA, Talbot, J, Terborgh, J, Ferreira, J, Barroso, JG, Barlow, J, Camargo, JL, Stropp, J, Peacock, J, Serrano, J, Melgaço, K, Ferreira, LV, Blanc, L, Poorter, L, Gamarra, LV, Aragão, L, Arroyo, L, Silveira, M, Peñuela-Mora, MC, Vargas, MPN, Toledo, M, Disney, M, Réjou-Méchain, M, Baisie, M, Kalamandeen, M, Camacho, NP, Cardozo, ND, Silva, N, Pitman, N, Higuchi, N, Banki, O, Loayza, PA, Graça, PMLA, Morandi, PS, van der Meer, PJ, van der Hout, P, Naisso, P, Camargo, PB, Salomão, R, Thomas, R, Boot, R, Umetsu, RK, da Costa Silva, R, Burnham, R, Zagt, R, Martinez, RV, Brienen, R, Ribeiro, SC, Lewis, SL, Vieira, SA, de Almeida Reis, SM, Fauset, S, Laurance, S, Feldpausch, T, Erwin, T, Killeen, T, Wortel, V, Moscoso, VC, Vos, V, Huasco, WH, Laurance, W, Malhi, Y, Magnusson, WE, Phillips, OL & Costa, FRC 2022, 'Water table depth modulates productivity and biomass across Amazonian forests', Global Ecology and Biogeography, vol. 31, no. 8, pp. 1571-1588. https://doi.org/10.1111/geb.13531

TY - JOUR

T1 - Water table depth modulates productivity and biomass across Amazonian forests

AU - Sousa, Thaiane R.

AU - Schietti, Juliana

AU - Ribeiro, Igor O.

AU - Emílio, Thaise

AU - Fernández, Rafael Herrera

AU - ter Steege, Hans

AU - Castilho, Carolina V.

AU - Esquivel-Muelbert, Adriane

AU - Baker, Timothy

AU - Pontes-Lopes, Aline

AU - Silva, Camila V.J.

AU - Silveira, Juliana M.

AU - Derroire, Géraldine

AU - Castro, Wendeson

AU - Mendoza, Abel Monteagudo

AU - Ruschel, Ademir

AU - Prieto, Adriana

AU - Lima, Adriano José Nogueira

AU - Rudas, Agustín

AU - Araujo-Murakami, Alejandro

AU - Gutierrez, Alexander Parada

AU - Andrade, Ana

AU - Roopsind, Anand

AU - Manzatto, Angelo Gilberto

AU - Di Fiore, Anthony

AU - Torres-Lezama, Armando

AU - Dourdain, Aurélie

AU - Marimon, Beatriz

AU - Marimon, Ben Hur

AU - Burban, Benoit

AU - van Ulft, Bert

AU - Herault, Bruno

AU - Quesada, Carlos

AU - Mendoza, Casimiro

AU - Stahl, Clement

AU - Bonal, Damien

AU - Galbraith, David

AU - Neill, David

AU - de Oliveira, Edmar A.

AU - Hase, Eduardo

AU - Jimenez-Rojas, Eliana

AU - Vilanova, Emilio

AU - Arets, Eric

AU - Berenguer, Erika

AU - Alvarez-Davila, Esteban

AU - Honorio Coronado, Eurídice N.

AU - Almeida, Everton

AU - Coelho, Fernanda

AU - Valverde, Fernando Cornejo

AU - Elias, Fernando

AU - Brown, Foster

AU - Bongers, Frans

AU - Arevalo, Freddy Ramirez

AU - Lopez-Gonzalez, Gabriela

AU - van der Heijden, Geertje

AU - Aymard C., Gerardo A.

AU - Llampazo, Gerardo Flores

AU - Pardo, Guido

AU - Ramírez-Angulo, Hirma

AU - do Amaral, Iêda Leão

AU - Vieira, Ima Célia Guimarães

AU - Huamantupa-Chuquimaco, Isau

AU - Comiskey, James A.

AU - Singh, James

AU - Espejo, Javier Silva

AU - del Aguila-Pasquel, Jhon

AU - Zwerts, Joeri Alexander

AU - Talbot, Joey

AU - Terborgh, John

AU - Ferreira, Joice

AU - Barroso, Jorcely G.

AU - Barlow, Jos

AU - Camargo, José Luís

AU - Stropp, Juliana

AU - Peacock, Julie

AU - Serrano, Julio

AU - Melgaço, Karina

AU - Ferreira, Leandro V.

AU - Blanc, Lilian

AU - Poorter, Lourens

AU - Gamarra, Luis Valenzuela

AU - Aragão, Luiz

AU - Arroyo, Luzmila

AU - Silveira, Marcos

AU - Peñuela-Mora, Maria Cristina

AU - Vargas, Mario Percy Núñez

AU - Toledo, Marisol

AU - Disney, Mat

AU - Réjou-Méchain, Maxime

AU - Baisie, Michel

AU - Kalamandeen, Michelle

AU - Camacho, Nadir Pallqui

AU - Cardozo, Nállarett Dávila

AU - Silva, Natalino

AU - Pitman, Nigel

AU - Higuchi, Niro

AU - Banki, Olaf

AU - Loayza, Patricia Alvarez

AU - Graça, Paulo M.L.A.

AU - Morandi, Paulo S.

AU - van der Meer, Peter J.

AU - van der Hout, Peter

AU - Naisso, Pétrus

AU - Camargo, Plínio Barbosa

AU - Salomão, Rafael

AU - Thomas, Raquel

AU - Boot, Rene

AU - Umetsu, Ricardo Keichi

AU - da Costa Silva, Richarlly

AU - Burnham, Robyn

AU - Zagt, Roderick

AU - Martinez, Rodolfo Vasquez

AU - Brienen, Roel

AU - Ribeiro, Sabina Cerruto

AU - Lewis, Simon L.

AU - Vieira, Simone Aparecida

AU - de Almeida Reis, Simone Matias

AU - Fauset, Sophie

AU - Laurance, Susan

AU - Feldpausch, Ted

AU - Erwin, Terry

AU - Killeen, Timothy

AU - Wortel, Verginia

AU - Moscoso, Victor Chama

AU - Vos, Vincent

AU - Huasco, Walter Huaraca

AU - Laurance, William

AU - Malhi, Yadvinder

AU - Magnusson, William E.

AU - Phillips, Oliver L.

AU - Costa, Flávia R.C.

N1 - Funding Information: This manuscript is a product of the RAINFOR and PPBio networks and integrates the effort of hundreds of researchers and field assistants across Amazonia. We thank all the field assistants, rural communities and environmental agencies who helped us with the logistics and data collection, without whom this research would not be possible. This work was part of the PhD thesis of the first author, developed at the Graduate Program in Ecology of the National Institute of Amazonian Research (INPA), with a fellowship funded by Coordenação de Aperfeiçoamento de Pessoal de Nível Superior – Brasil (CAPES), Finance Code 001, (88887.141433/2017‐00). The authors are also grateful for the financial and research support of the Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq), Amazonas State Research Foundation (FAPEAM), the Newton Fund via the Natural Environment Research Council (NE/M022021/1 to O.L.P. and F.R.C.C.), PPBio Manaus, Centro de Estudos Integrados da Biodiversidade Amazônica and RAINFOR. We also thank Karina Melgaço, Aurora Levesley and Gabriela Lopez‐Gonzalez for curating and managing ForestPlots.net . This was ForestPlots.net Project 26 led by Thaiane Sousa. This is publication number 832 of the Technical Series of the Biological Dynamics of Forest Fragments Project (BDFFP, INPA/STRI). We thank the anonymous reviewers for their helpful comments and suggestions. Funding Information: This manuscript is a product of the RAINFOR and PPBio networks and integrates the effort of hundreds of researchers and field assistants across Amazonia. We thank all the field assistants, rural communities and environmental agencies who helped us with the logistics and data collection, without whom this research would not be possible. This work was part of the PhD thesis of the first author, developed at the Graduate Program in Ecology of the National Institute of Amazonian Research (INPA), with a fellowship funded by Coordenação de Aperfeiçoamento de Pessoal de Nível Superior – Brasil (CAPES), Finance Code 001, (88887.141433/2017-00). The authors are also grateful for the financial and research support of the Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq), Amazonas State Research Foundation (FAPEAM), the Newton Fund via the Natural Environment Research Council (NE/M022021/1 to O.L.P. and F.R.C.C.), PPBio Manaus, Centro de Estudos Integrados da Biodiversidade Amazônica and RAINFOR. We also thank Karina Melgaço, Aurora Levesley and Gabriela Lopez-Gonzalez for curating and managing ForestPlots.net. This was ForestPlots.net Project 26 led by Thaiane Sousa. This is publication number 832 of the Technical Series of the Biological Dynamics of Forest Fragments Project (BDFFP, INPA/STRI). We thank the anonymous reviewers for their helpful comments and suggestions. Publisher Copyright: © 2022 John Wiley & Sons Ltd.

PY - 2022/8

Y1 - 2022/8

N2 - Aim: Water availability is the major driver of tropical forest structure and dynamics. Most research has focused on the impacts of climatic water availability, whereas remarkably little is known about the influence of water table depth and excess soil water on forest processes. Nevertheless, given that plants take up water from the soil, the impacts of climatic water supply on plants are likely to be modulated by soil water conditions. Location: Lowland Amazonian forests. Time period: 1971–2019. Methods: We used 344 long-term inventory plots distributed across Amazonia to analyse the effects of long-term climatic and edaphic water supply on forest functioning. We modelled forest structure and dynamics as a function of climatic, soil-water and edaphic properties. Results: Water supplied by both precipitation and groundwater affects forest structure and dynamics, but in different ways. Forests with a shallow water table (depth <5 m) had 18% less above-ground woody productivity and 23% less biomass stock than forests with a deep water table. Forests in drier climates (maximum cumulative water deficit < −160 mm) had 21% less productivity and 24% less biomass than those in wetter climates. Productivity was affected by the interaction between climatic water deficit and water table depth. On average, in drier climates the forests with a shallow water table had lower productivity than those with a deep water table, with this difference decreasing within wet climates, where lower productivity was confined to a very shallow water table. Main conclusions: We show that the two extremes of water availability (excess and deficit) both reduce productivity in Amazon upland (terra-firme) forests. Biomass and productivity across Amazonia respond not simply to regional climate, but rather to its interaction with water table conditions, exhibiting high local differentiation. Our study disentangles the relative contribution of those factors, helping to improve understanding of the functioning of tropical ecosystems and how they are likely to respond to climate change.

AB - Aim: Water availability is the major driver of tropical forest structure and dynamics. Most research has focused on the impacts of climatic water availability, whereas remarkably little is known about the influence of water table depth and excess soil water on forest processes. Nevertheless, given that plants take up water from the soil, the impacts of climatic water supply on plants are likely to be modulated by soil water conditions. Location: Lowland Amazonian forests. Time period: 1971–2019. Methods: We used 344 long-term inventory plots distributed across Amazonia to analyse the effects of long-term climatic and edaphic water supply on forest functioning. We modelled forest structure and dynamics as a function of climatic, soil-water and edaphic properties. Results: Water supplied by both precipitation and groundwater affects forest structure and dynamics, but in different ways. Forests with a shallow water table (depth <5 m) had 18% less above-ground woody productivity and 23% less biomass stock than forests with a deep water table. Forests in drier climates (maximum cumulative water deficit < −160 mm) had 21% less productivity and 24% less biomass than those in wetter climates. Productivity was affected by the interaction between climatic water deficit and water table depth. On average, in drier climates the forests with a shallow water table had lower productivity than those with a deep water table, with this difference decreasing within wet climates, where lower productivity was confined to a very shallow water table. Main conclusions: We show that the two extremes of water availability (excess and deficit) both reduce productivity in Amazon upland (terra-firme) forests. Biomass and productivity across Amazonia respond not simply to regional climate, but rather to its interaction with water table conditions, exhibiting high local differentiation. Our study disentangles the relative contribution of those factors, helping to improve understanding of the functioning of tropical ecosystems and how they are likely to respond to climate change.

KW - above-ground biomass

KW - carbon

KW - forest dynamics

KW - groundwater

KW - seasonality

KW - tropical ecology

UR - http://www.scopus.com/inward/record.url?scp=85130927190&partnerID=8YFLogxK

U2 - 10.1111/geb.13531

DO - 10.1111/geb.13531

M3 - Article

AN - SCOPUS:85130927190

SN - 1466-822X

VL - 31

SP - 1571

EP - 1588

JO - Global Ecology and Biogeography

JF - Global Ecology and Biogeography

IS - 8

ER -

Water table depth modulates productivity and biomass across Amazonian forests

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