Structural diversity and tree density drives variation in the biodiversity–ecosystem function relationship of woodlands and savannas
Godlee, John L.; Ryan, Casey M.; Bauman, David; Bowers, Samuel J.; Carreiras, Joao M. B.; Chisingui, Antonio Valter; Cromsigt, Joris P. G. M.; Druce, Dave J.; Finckh, Manfred; Gonçalves, Francisco Maiato; Holdo, Ricardo M.; Makungwa, Steve; McNicol, Iain M.; Mitchard, Edward T. A.; Muchawona, Anderson; Revermann, Rasmus; Ribeiro, Natasha Sofia; Siampale, Abel; Syampungani, Stephen; Tchamba, José João; Tripathi, Hemant G.; Wallenfang, Johannes; te Beest, Mariska; Williams, Mathew; Dexter, Kyle G.
(2021) New Phytologist, volume 232, issue 2, pp. 579 - 594
(Article)
Abstract
Positive biodiversity–ecosystem function relationships (BEFRs) have been widely documented, but it is unclear if BEFRs should be expected in disturbance-driven systems. Disturbance may limit competition and niche differentiation, which are frequently posited to underlie BEFRs. We provide the first exploration of the relationship between tree species diversity and biomass, one
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measure of ecosystem function, across southern African woodlands and savannas, an ecological system rife with disturbance from fire, herbivores and humans. We used > 1000 vegetation plots distributed across 10 southern African countries and structural equation modelling to determine the relationship between tree species diversity and above-ground woody biomass, accounting for interacting effects of resource availability, disturbance by fire, tree stem density and vegetation type. We found positive effects of tree species diversity on above-ground biomass, operating via increased structural diversity. The observed BEFR was highly dependent on organismal density, with a minimum threshold of c. 180 mature stems ha−1. We found that water availability mainly affects biomass indirectly, via increasing species diversity. The study underlines the close association between tree diversity, ecosystem structure, environment and function in highly disturbed savannas and woodlands. We suggest that tree diversity is an under-appreciated determinant of wooded ecosystem structure and function.
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Keywords: biodiversity, biomass, ecosystem function, forest structure, miombo, savanna, structural equation modelling, woodland, Physiology, Plant Science
ISSN: 0028-646X
Publisher: Blackwell Publishing Ltd
Note: Funding Information: This work is funded by a NERC E3 Doctoral Training Partnership PhD studentship at the University of Edinburgh (John L. Godlee, Grant no. NE/L002558/1). The data for this study were contributed by some independently funded projects and were assembled and prepared by SEOSAW (A Socio‐Ecological Observatory for Southern African Woodlands, https://seosaw.github.io ), an activity of the Miombo Network and a NERC‐funded project (Grant no. NE/P008755/1). Revisions of the SEOSAW dataset were funded by SavannaChange, a GCRF/University of Edinburgh funded project. We thank all data providers and the field assistance they received in collecting plot data. JMBC was supported by the Natural Environment Research Council (Agreement PR140015 between NERC and the National Centre for Earth Observation). Publisher Copyright: © 2021 The Authors. New Phytologist © 2021 New Phytologist Foundation
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