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.
Citation
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 , Araujo-Murakami , A , Gutierrez , A P , Andrade , A , Roopsind , A , Manzatto , A G , Di Fiore , A , Torres-Lezama , A , Dourdain , A , Marimon , B , Marimon , B H , Burban , B , van Ulft , B , Herault , B , Quesada , C , Mendoza , C , Stahl , C , Bonal , D , Galbraith , D , Neill , D , de Oliveira , E A , Hase , E , Jimenez-Rojas , E , Vilanova , E , Arets , E , Berenguer , E , Alvarez-Davila , E , Honorio Coronado , E N , Almeida , E , Coelho , F , Valverde , F C , Elias , F , Brown , F , Bongers , F , Arevalo , F R , Lopez-Gonzalez , G , van der Heijden , G , Aymard C. , G A , Llampazo , G F , Pardo , G , Ramírez-Angulo , H , do Amaral , I L , Vieira , I C G , Huamantupa-Chuquimaco , I , Comiskey , J A , Singh , J , Espejo , J S , del Aguila-Pasquel , J , Zwerts , J A , Talbot , J , Terborgh , J , Ferreira , J , Barroso , J G , Barlow , J , Camargo , J L , Stropp , J , Peacock , J , Serrano , J , Melgaço , K , Ferreira , L V , Blanc , L , Poorter , L , Gamarra , L V , Aragão , L , Arroyo , L , Silveira , M , Peñuela-Mora , M C , Vargas , M P N , Toledo , M , Disney , M , Réjou-Méchain , M , Baisie , M , Kalamandeen , M , Camacho , N P , Cardozo , N D , Silva , N , Pitman , N , Higuchi , N , Banki , O , Loayza , P A , Graça , P M L A , Morandi , P S , van der Meer , P J , van der Hout , P , Naisso , P , Camargo , P B , Salomão , R , Thomas , R , Boot , R , Umetsu , R K , da Costa Silva , R , Burnham , R , Zagt , R , Martinez , R V , Brienen , R , Ribeiro , S C , Lewis , S L , Vieira , S A , de Almeida Reis , S M , Fauset , S , Laurance , S , Feldpausch , T , Erwin , T , Killeen , T , Wortel , V , Moscoso , V C , Vos , V , Huasco , W H , Laurance , W , Malhi , Y , Magnusson , W E , Phillips , O L & Costa , F R C 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
Publication
Global Ecology and Biogeography
Status
Peer reviewed
ISSN
1466-822XType
Journal article
Rights
Copyright © 2022 John Wiley & Sons Ltd. This work has been made available online in accordance with publisher policies or with permission. Permission for further reuse of this content should be sought from the publisher or the rights holder. This is the author created accepted manuscript following peer review and may differ slightly from the final published version. The final published version of this work is available at https://doi.org/10.1111/geb.13531
Description
Funding: 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).Collections
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