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Tree cover shows strong sensitivity to precipitation variability across the global tropics

Journal Article · · Global Ecology and Biogeography
DOI:https://doi.org/10.1111/geb.12707· OSTI ID:1415296
 [1];  [2];  [3];  [4];  [5];  [6]
  1. Department of Geosciences Princeton University Princeton New Jersey
  2. Department of Geosciences Princeton University Princeton New Jersey, Department of Biological Sciences University of Notre Dame Notre Dame Indiana
  3. Program in Atmospheric and Oceanic Sciences Princeton University Princeton New Jersey
  4. Department of Natural Resources and Environmental Sciences University of Illinois at Urbana‐Champaign Urbana Illinois
  5. Department of Biological &, Ecological Engineering Oregon State University Corvallis Oregon
  6. Department of Ocean Engineering Texas A&,M University College Station Texas, Department of Civil Engineering Texas A&,M University College Station Texas, Department of Agricultural and Biological Engineering Texas A&,M University College Station Texas
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Abstract Aim

Vegetation is sensitive to mean annual precipitation (MAP), but the sensitivity of vegetation to precipitation variability (PV) is less clear. Tropical ecosystems are likely to experience increased PV in the future. Here we assessed the importance, magnitude and mechanism of PV effects on tree cover in the context of covarying environmental drivers such as fire, temperature and soil properties.

Location

Tropical land.

Time period

2000–2010.

Major taxa studied

Trees.

Methods

We compiled climate, soil and remotely‐sensed tree cover data over tropical land. We then comprehensively assessed the contribution of PV at different time‐scales to tropical tree cover variations and estimated the sensitivity of tree cover to PV changes by conducting rolling‐window regression and variance decomposition analyses. We further adopted a mechanistic modelling approach to test whether water competition between trees and grasses can explain the observed effect of PV.

Results

We find that PV contributes 33–56% to the total explained spatial variation (65–79%) in tree cover. The contribution of PV depends on MAP and is highest under intermediate MAP (500–1,500 mm). Tree cover generally increases with rainy day frequency and wet season length but shows mixed responses to inter‐annual PV. Based on the estimated sensitivity, tropical tree cover can decrease by 3–5% overall and by up to 20% in Amazonia under a 20% decrease in rainy days. Mechanistic modelling analysis reproduced the continental differences in tree cover along an MAP gradient.

Main conclusions

Under intermediate rainfall regimes (500–1,500 mm), PV can be a more important determinant of tropical tree cover than conventionally proposed drivers such as MAP and fire. The effect of PV likely results from the sensitivity of tree–grass competition to the temporal distribution of water resources. These results show that climate variability can strongly shape the biosphere.

Sponsoring Organization:
USDOE
Grant/Contract Number:
SC0014363
OSTI ID:
1415296
Journal Information:
Global Ecology and Biogeography, Journal Name: Global Ecology and Biogeography Journal Issue: 4 Vol. 27; ISSN 1466-822X
Publisher:
Wiley-BlackwellCopyright Statement
Country of Publication:
United Kingdom
Language:
English

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