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Above- and belowground carbon stocks are decoupled in secondary tropical forests and are positively related to forest age and soil nutrients respectively

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Citation

Jones IL, DeWalt SJ, Lopez OR, Bunnefeld L, Pattison Z & Dent DH (2019) Above- and belowground carbon stocks are decoupled in secondary tropical forests and are positively related to forest age and soil nutrients respectively. Science of The Total Environment, 697, Art. No.: 133987. https://doi.org/10.1016/j.scitotenv.2019.133987

Abstract
Reducing atmospheric CO2 is an international priority. One way to assist stabilising and reducing CO2 is to promote secondary tropical forest regrowth on abandoned agricultural land. However, relationships between above- and belowground carbon stocks with secondary forest age and specific soil nutrients remain unclear. Current global estimates for CO2 uptake and sequestration in secondary tropical forests focus on aboveground biomass and are parameterised using relatively coarse metrics of soil fertility. Here, we estimate total carbon stocks across a chronosequence of regenerating secondary forest stands (40–120 years old) in Panama, and assess the relationships between both above- and belowground carbon stocks with stand age and specific soil nutrients. We estimated carbon stocks in aboveground biomass, necromass, root biomass, and soil. We found that the two largest carbon pools - aboveground biomass and soil – have distinct relationships with stand age and soil fertility. Aboveground biomass contained ~61-97 Mg C ha-1 (24-39 % total carbon stocks) and significantly increased with stand age, but showed no relationship with soil nutrients. Soil carbon stocks contained ~128-206 Mg C ha-1 (52-70 % total stocks) and were unrelated to stand age, but were positively related to soil nitrogen. Root biomass carbon stocks tracked patterns exhibited by aboveground biomass. Necromass carbon stocks did not increase with stand age, but stocks were held in larger pieces of deadwood in older stands. Comparing our estimates to published data from younger and older secondary forests in the surrounding landscape, we show that soil carbon recovers within 40 years of forest regeneration, but aboveground biomass carbon stocks continue to increase past 100 years. Above- and belowground carbon stocks appear to be decoupled in secondary tropical forests. Paired measures of above- and belowground carbon stocks are necessary to reduce uncertainty in large-scale models of atmospheric CO2 uptake and storage by secondary forests.

Keywords
Aboveground biomass; Belowground biomass; Carbon storage; Forest restoration; Land-use change; Necromass; Neotropics; Soil; Succession

Journal
Science of The Total Environment: Volume 697

StatusPublished
FundersCarnegie Trust for the Universities of Scotland, 我要吃瓜, Secretaria Nacional de Ciencia, Tecnologia e Innovacion, Gilchrist Educational Trust and NSF
Publication date20/12/2019
Publication date online19/08/2019
Date accepted by journal18/08/2019
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PublisherElsevier BV
ISSN0048-9697

People (2)

Dr Isabel Jones

Dr Isabel Jones

Senior Research Fellow, Biological and Environmental Sciences

Dr Zarah Pattison

Dr Zarah Pattison

Senior Lecturer in Plant Sciences, Biological and Environmental Sciences

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