Tropical forests as drivers of lake carbon burial

被引:0
|
作者
Leonardo Amora-Nogueira
Christian J. Sanders
Alex Enrich-Prast
Luciana Silva Monteiro Sanders
Rodrigo Coutinho Abuchacra
Patricia F. Moreira-Turcq
Renato Campello Cordeiro
Vincent Gauci
Luciane Silva Moreira
Fausto Machado-Silva
Renata Libonati
Thairiny Fonseca
Cristiane Nunes Francisco
Humberto Marotta
机构
[1] Biomass and Water Management Research Center (NAB-UFF),Ecosystems and Global Change Laboratory (LEMG
[2] Fluminense Federal University (UFF),UFF), International Laboratory of Global Change (LINCGlobal)
[3] Fluminense Federal University,Physical Geography Laboratory (LAGEF
[4] Southern Cross University,UFF), Department of Geography, Graduate Program in Geography
[5] Linköping University,Graduate Program in Geosciences (Environmental Geochemistry)
[6] Federal University of Rio de Janeiro,National Marine Science Centre, Faculty of Science and Engineering
[7] Southern Cross University,Biogas Research Center and Department of Thematic Studies – Environmental Change
[8] GeoScience,Department of Marine Sciences, Institute of the Sea, Av Carvalho de Mendonça, 144
[9] State University of Rio de Janeiro (UERJ-FFP), Vila Belmiro, Santos
[10] Rua Dr. Francisco Portela,SP, Multiuser Unit of Environmental Analysis
[11] Geosciences Environnement Toulouse (GET),Environmental Science Engineering
[12] University of Birmingham,Department of Geography, Graduate Program in Geography
[13] Edgbaston,Institut de Recherche pour le Développement (IRD)
[14] University of Toledo,School of Geography, Earth and Environmental Sciences, and Birmingham Institute of Forest Research (BIFoR)
[15] Federal University of Rio de Janeiro,Department of Environmental Sciences
[16] Universidade de Lisboa,Departament of Meteorology, Geosciences Institute
[17] University of Lisbon,Instituto Dom Luiz, Faculdade de Ciências
[18] Fluminense Federal University,Forest Research Centre, School of Agriculture
来源
Nature Communications | / 13卷
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摘要
A significant proportion of carbon (C) captured by terrestrial primary production is buried in lacustrine ecosystems, which have been substantially affected by anthropogenic activities globally. However, there is a scarcity of sedimentary organic carbon (OC) accumulation information for lakes surrounded by highly productive rainforests at warm tropical latitudes, or in response to land cover and climate change. Here, we combine new data from intensive campaigns spanning 13 lakes across remote Amazonian regions with a broad literature compilation, to produce the first spatially-weighted global analysis of recent OC burial in lakes (over ~50-100-years) that integrates both biome type and forest cover. We find that humid tropical forest lake sediments are a disproportionately important global OC sink of 7.4 Tg C yr−1 with implications for climate change. Further, we demonstrate that temperature and forest conservation are key factors in maintaining massive organic carbon pools in tropical lacustrine sediments.
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