Landscape‐wide pulse events predict trait‐based responses among wetland birds in perennial channels of a dryland wetland

Author:

Becker Frowin K.12,Boyes Rutledge S.2,Wittmer Heiko U.1,Inman Victoria3,Marsland Stephen4

Affiliation:

1. School of Biological Sciences Victoria University of Wellington/Te Herenga Waka Wellington New Zealand

2. National Geographic Okavango Wilderness Project Maun Botswana

3. Centre for Ecosystem Science, School of Biological, Earth and Environmental Sciences University of New South Wales Sydney New South Wales Australia

4. School of Mathematics and Statistics Victoria University of Wellington/Te Herenga Waka Wellington New Zealand

Abstract

AbstractWetlands in arid or semiarid zones are vital for maintaining biodiversity but face growing threats. Flooding regime variability is a key driver of ecological dynamism in these systems, dictating primary productivity on a large spatial scale. The functional composition or diversity of wetland‐dependent bird species has been found to be sensitive to fluctuations in hydrological regimes and can thus be indicative of cascading ecosystem responses associated with climate change. In this paper, we investigate whether large‐scale changes in inundation and fire—a significant additional biodiversity determinant in (semi‐)arid landscapes—are reliable predictors of functional group responses of wetland‐dependent birds along a perennial channel of the Okavango Delta, Botswana. We fit generalized additive models (GAMs) to 6 years of bird survey data collected along ~190‐km‐long annual transects and use remotely sensed landscape‐level inundation estimates, as well as spatiotemporal distance to fire, to predict the responsiveness of seven trait‐based functional group abundances. During the surveys, a total of 89 different wetland‐dependent bird species were recorded, including 76 residents, across all years, with below‐surface feeding waders consistently the most abundant functional group. Including estimated spatiotemporal variability in flooding and fire, as well as their interactions, improved model fit for all seven functional groups, explaining between 46.8% and 68.3% of variability in functional group abundances. Covariates representing longer‐term variability in inundation generally performed better than shorter‐term ones. For example, variability in inundation over the 5 months preceding a survey best predicted the responses of all functional groups, which also all exhibited responsiveness to the interaction between flooding and fire. We were able to interpret the responses of individual functional groups, based on the resource exploitation assumption. Overall, our results suggest that perennial waters in dryland wetlands offer functional refugia to wetland‐dependent birds and highlight the indicative power of large‐scale trait‐based bird monitoring. Our findings demonstrate the potential utility of such a monitoring regime for dryland wetland ecosystems vulnerable to industrial‐scale anthropogenic pressure and associated climate change.

Publisher

Wiley

Subject

Ecology

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