Shifting dynamics of climate-functional groups in old-growth Amazonian forests

Journal Publication ResearchOnline@JCU
Butt, Nathalie;Malhi, Yadvinder;New, Mark;Macia, Manuel J.;Lewis, Simon;López-González, Gabriela;Laurance, William F.;Laurance, Susan;Luizão, Regina;Andrade, Ana;Baker, Timothy R.;Almeida, Samual;Phillips, Oliver L.
Abstract

Background: Climate change is driving ecosystem shifts, which has implications for tropical forest system function and productivity. Aim: To investigate Amazon forest dynamics and test for compositional changes between 1985 and 2005 across different plant groups. Methods: Tree census data from 46 long-term RAINFOR forest plots in Amazonia for three climate-functional groups were used: dry-affiliate, climate-generalist and wet affiliate. Membership of each group was ascribed at genus level from the distribution of individuals across a wet–dry gradient in Amazonia, and then used to determine whether the proportions of these functional groups have changed over time, and the direction of any change. Results: In total, 91 genera, representing 59% of the stems and 18% of genera in the plots, were analysed. Wet-affiliates tended to move from a state of net basal area gain towards dynamic equilibrium, defined as where gain ≈ loss, governed by an increase in loss rather than a decrease in growth and mainly driven by plots in north-west Amazonia, the wettest part of the region. Dry-affiliates remained in a state of strong net basal area gain across western Amazonia and showed a strong increase in stem recruitment. Wet-affiliates and climate-generalists showed increases in stem mortality, and climate-generalists showed increased stem recruitment, resulting in overall equilibrium of stem numbers. Conclusions: While there were no significant shifts in most genera, the results suggest an overall shift in climate-functional forest composition in western Amazonia away from wet-affiliates, and potential for increased forest persistence under projected drier conditions in the future.

Journal

Plant Ecology and Diversity

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Volume

7

ISBN/ISSN

1755-0874

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Issue

1-2

Pages Count

13

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Publisher

Taylor & Francis

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EISSN

N/A

DOI

10.1080/17550874.2012.715210