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dc.contributor.authorJucker, Tommasoen
dc.contributor.authorSanchez, Aida Cunien
dc.contributor.authorLindsell, Jeremy Aen
dc.contributor.authorAllen, Harrieten
dc.contributor.authorAmable, Gabrielen
dc.contributor.authorCoomes, Daviden
dc.identifier.citationEcology and Evolution 2016en
dc.description.abstract1. Tropical forests currently play a key role in regulating the terrestrial carbon cycle and abating climate change by storing carbon in wood. However, there remains considerable uncertainty as to whether tropical forests will continue to act as carbon sinks in the face of increased pressure from expanding human activities. Consequently, understanding what drives productivity in tropical forests is critical. 2. We used permanent forest plot data from the Gola Rainforest National Park (Sierra Leone) – one of the largest tracts of intact tropical moist forest in West Africa – to explore how (i) stand basal area and tree diversity, (ii) past disturbance associated with past logging and (iii) underlying soil nutrient gradients interact to determine rates of aboveground wood production (AWP). We started by statistically modelling the diameter growth of individual trees and used these models to estimate AWP for 142 permanent forest plots. We then used structural equation modelling to explore the direct and indirect pathways which shape rates of AWP. 3. Across the plot network, stand basal area emerged as the strongest determinant of AWP, with densely packed stands exhibiting the fastest rates of AWP. In addition to stand packing density, both tree diversity and soil phosphorus content were also positively related to productivity. By contrast, historical logging activities negatively impacted AWP through the removal of large trees, which contributed disproportionately to productivity. 4. Synthesis. Understanding what determines variation in wood production across tropical forest landscapes requires accounting for multiple interacting drivers – with stand structure, tree diversity and soil nutrients all playing a key role. Importantly, our results also indicate that logging activities can have a long-lasting impact on a forest’s ability to sequester and store carbon, emphasizing the importance of safeguarding old-growth tropical forests.
dc.description.sponsorshipThis study was funded through a grant from the Cambridge Conservation Initiative Collaborative Fund entitled “Applications of airborne remote sensing to the conservation management of a West African National Park”. T.J. was funded in part through NERC grant NE/K016377/1. A.C.S. was funded in part through a grant from the Percy Sladen Memorial Fund.
dc.rightsAttribution 2.0 UK: England & Wales*
dc.subjectdeterminants of plant community diversity and structureen
dc.subjecteffective number of speciesen
dc.subjectforest productivityen
dc.subjectpacking densityen
dc.subjectselective loggingen
dc.subjectSierra Leoneen
dc.subjectsoil nutrientsen
dc.subjectstructural equation modellingen
dc.titleDrivers of aboveground wood production in a lowland tropical forest of West Africa: teasing apart the roles of tree density, tree diversity, soil phosphorus and historical loggingen
dc.description.versionThis is the final version of the article. It first appeared from Wiley via
prism.publicationNameEcology & Evolutionen
dc.contributor.orcidAllen, Harriet [0000-0001-9046-2134]
dc.contributor.orcidCoomes, David [0000-0002-8261-2582]
rioxxterms.typeJournal Article/Reviewen
pubs.funder-project-idNERC (NE/K016377/1)
cam.orpheus.successThu Jan 30 12:54:27 GMT 2020 - The item has an open VoR version.*

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Attribution 2.0 UK: England & Wales
Except where otherwise noted, this item's licence is described as Attribution 2.0 UK: England & Wales