Tree species diversity promotes aboveground carbon storage through functional diversity and functional dominance

dc.contributor.authorMensah, Sylvanusen_ZA
dc.contributor.authorVeldtman, Ruanen_ZA
dc.contributor.authorAssogbadjo, Achille E.en_ZA
dc.contributor.authorKakai, Romain Gleleen_ZA
dc.contributor.authorSeifert, Thomasen_ZA
dc.date.accessioned2017-08-07T13:50:11Z
dc.date.available2017-08-07T13:50:11Z
dc.date.issued2016
dc.descriptionCITATION: Mensah, S., et al. 2016. Tree species diversity promotes aboveground carbon storage through functional diversity and functional dominance. Ecology and Evolution, 6(20):7546–7557, doi:10.1002/ece3.2525.
dc.descriptionThe original publication is available at http://onlinelibrary.wiley.com
dc.description.abstractENGLISH ABSTRACT: The relationship between biodiversity and ecosystem function has increasingly been debated as the cornerstone of the processes behind ecosystem services delivery. Experimental and natural field-based studies have come up with nonconsistent patterns of biodiversity–ecosystem function, supporting either niche complementarity or selection effects hypothesis. Here, we used aboveground carbon (AGC) storage as proxy for ecosystem function in a South African mistbelt forest, and analyzed its relationship with species diversity, through functional diversity and functional dominance. We hypothesized that (1) diversity influences AGC through functional diversity and functional dominance effects; and (2) effects of diversity on AGC would be greater for functional dominance than for functional diversity. Community weight mean (CWM) of functional traits (wood density, specific leaf area, and maximum plant height) were calculated to assess functional dominance (selection effects). As for functional diversity (complementarity effects), multitrait functional diversity indices were computed. The first hypothesis was tested using structural equation modeling. For the second hypothesis, effects of environmental variables such as slope and altitude were tested first, and separate linear mixed-effects models were fitted afterward for functional diversity, functional dominance, and both. Results showed that AGC varied significantly along the slope gradient, with lower values at steeper sites. Species diversity (richness) had positive relationship with AGC, even when slope effects were considered. As predicted, diversity effects on AGC were mediated through functional diversity and functional dominance, suggesting that both the niche complementarity and the selection effects are not exclusively affecting carbon storage. However, the effects were greater for functional diversity than for functional dominance. Furthermore, functional dominance effects were strongly transmitted by CWM of maximum plant height, reflecting the importance of forest vertical stratification for diversity–carbon relationship. We therefore argue for stronger complementary effects that would be induced also by complementary light-use efficiency of tree and species growing in the understory layer.en_ZA
dc.description.urihttp://onlinelibrary.wiley.com/doi/10.1002/ece3.2525/references
dc.description.versionPublisher's version
dc.identifier.citationMensah, S., et al. 2016. Tree species diversity promotes aboveground carbon storage through functional diversity and functional dominance. Ecology and Evolution, 6(20):7546–7557, doi:10.1002/ece3.2525
dc.identifier.issn2045-7758 (online)
dc.identifier.otherdoi:10.1002/ece3.2525
dc.identifier.urihttp://hdl.handle.net/10019.1/102064
dc.language.isoen_ZAen_ZA
dc.publisherWiley Open Access
dc.rights.holderAuthors retain copyright
dc.subjectBiological diversificationen_ZA
dc.subjectEcosystemsen_ZA
dc.subjectCarbon compounds -- Biotechnologyen_ZA
dc.titleTree species diversity promotes aboveground carbon storage through functional diversity and functional dominanceen_ZA
dc.typeArticleen_ZA
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