Plant phylogenetic diversity stabilizes large-scale ecosystem productivity

Aim Global carbon cycle models do not incorporate the stabilizing effect of biodiversity on productivity despite this phenomenon has been widely described in several local scale manipulative experiments. The reason is a lack of evidence supporting the importance of biodiversity on spatial scales at...

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Bibliographic Details
Published in:Global ecology and biogeography 2019-10, Vol.28 (10), p.1430-1439
Main Authors: Mazzochini, Guilherme G., Fonseca, Carlos R., Costa, Gabriel C., Santos, Rubens M., Oliveira-Filho, Ary T., Ganade, Gislene
Format: Article
Language:English
Subjects:
Biodiversity
Caatinga
Carbon cycle
Climate change
Climatic data
Control stability
diversity–stability hypothesis
ecosystem functioning
Ecosystems
enhanced vegetation index
Environment models
Global climate models
phylogenetic diversity
Phylogenetics
Phylogeny
Plant diversity
Plants (botany)
Productivity
Rainfall
Research Papers
species distribution modelling
Species diversity
Species richness
Vegetation
Vegetation index
Woody plants
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Summary:Aim Global carbon cycle models do not incorporate the stabilizing effect of biodiversity on productivity despite this phenomenon has been widely described in several local scale manipulative experiments. The reason is a lack of evidence supporting the importance of biodiversity on spatial scales at which climate models are built. Here, we test the hypothesis that diversity enhances productivity stability at a large scale. Location South American dryland known as Caatinga (~830,000 km2). Time period 2001–2010. Major taxa studied Woody plants. Methods We used the enhanced vegetation index of Caatinga vegetation remnants, from 2001 to 2010, to calculate vegetation productivity stability across years. We used occurrence records of 606 woody species from floristic surveys to derive species richness and phylogenetic diversity at ~5 km and ~55 km (0.5°) resolution. Climate data were obtained from global databases. Results Plant phylogenetic diversity has a strong positive correlation with productivity stability even after controlling for several climatic variables, such as rainfall, temperature and cloudiness, at both resolutions. Species richness was not significant when climatic variables were included. Main conclusions This result expands by several orders of magnitude the spatial scale of the evidence that biodiversity strengths the resilience of key ecosystem functions. We highlight that, by incorporating plant phylogenetic diversity, regional and global climate models can generate more accurate predictions about future ecosystem functioning and services that are critical to humankind.
ISSN:1466-822X
1466-8238
DOI:10.1111/geb.12963