Resistance and resilience of terrestrial birds in drying climates: do floodplains provide drought refugia?

Katherine E Selwood, James R Thomson, Rohan H Clarke, Melodie McGeoch, Ralph Mac Nally

Research output: Contribution to journalArticleResearchpeer-review

Abstract

Aim: Climate refugia will become increasingly important for biota as climate change causes an increased frequency and intensity of extreme events, such as drought. Floodplains are potential drought refugia because they have cooler and more mesic microclimates than adjacent areas, and greater water availability through shallower groundwater and flooding. We explored the role of floodplains as drought refugia by estimating the resistance and resilience of terrestrial birds over a 13-year drought (the 'Big Dry') and for 4 years following the break in the drought in floodplain and non-floodplain zones.
Location: Murray-Darling Basin, Australia.
Methods: We used Atlas of Australian Birds survey data from more than 39,000 surveys at over 28,000 sites to estimate trends in reporting rates in floodplain and non-floodplain zones for 144 bird species during extended drought (1998-2009) and in the post-drought period (2010-13).
Results: There was greater resistance to drought in floodplain zones: fewer species declined in floodplain zones (19%) than in non-floodplain zones (29%) during the Big Dry, and more species had elevated reporting rates (13% vs. 8%). More species showed a recovery in reporting rates in non-floodplain zones (40.3%) than in floodplain zones (15.3%) during the post-drought period, which was expected because declines during the Big Dry were more common in non-floodplain zones. There was some evidence for limitations in the resilience of floodplain avifauna, with only 17.9% of species that declined in floodplain zones during the drought subsequently recovering.
Conclusions: Floodplains appear to enhance resistance to drought for many bird species, and are likely to be particularly important as refugia in areas with an arid climate. However, their role in resilience is less clear. Floodplain ecosystems require long-term management to relieve pressures and to restore their ecological condition so that their role as drought refugia is maintained or enhanced.
Original languageEnglish
Pages (from-to)838-848
Number of pages11
JournalGlobal Ecology and Biogeography
Volume24
Issue number7
DOIs
Publication statusPublished - 2015

Keywords

  • Aridity
  • Climate change
  • Climate refuge
  • Climate refugia
  • Climate variability
  • Extreme events
  • Millennium Drought
  • Recovery
  • Riparian zone

Cite this

@article{62cdaa656baf4cf8aa1a3e2f1f0a566a,
title = "Resistance and resilience of terrestrial birds in drying climates: do floodplains provide drought refugia?",
abstract = "Aim: Climate refugia will become increasingly important for biota as climate change causes an increased frequency and intensity of extreme events, such as drought. Floodplains are potential drought refugia because they have cooler and more mesic microclimates than adjacent areas, and greater water availability through shallower groundwater and flooding. We explored the role of floodplains as drought refugia by estimating the resistance and resilience of terrestrial birds over a 13-year drought (the 'Big Dry') and for 4 years following the break in the drought in floodplain and non-floodplain zones. Location: Murray-Darling Basin, Australia. Methods: We used Atlas of Australian Birds survey data from more than 39,000 surveys at over 28,000 sites to estimate trends in reporting rates in floodplain and non-floodplain zones for 144 bird species during extended drought (1998-2009) and in the post-drought period (2010-13). Results: There was greater resistance to drought in floodplain zones: fewer species declined in floodplain zones (19{\%}) than in non-floodplain zones (29{\%}) during the Big Dry, and more species had elevated reporting rates (13{\%} vs. 8{\%}). More species showed a recovery in reporting rates in non-floodplain zones (40.3{\%}) than in floodplain zones (15.3{\%}) during the post-drought period, which was expected because declines during the Big Dry were more common in non-floodplain zones. There was some evidence for limitations in the resilience of floodplain avifauna, with only 17.9{\%} of species that declined in floodplain zones during the drought subsequently recovering. Conclusions: Floodplains appear to enhance resistance to drought for many bird species, and are likely to be particularly important as refugia in areas with an arid climate. However, their role in resilience is less clear. Floodplain ecosystems require long-term management to relieve pressures and to restore their ecological condition so that their role as drought refugia is maintained or enhanced.",
keywords = "Aridity, Climate change, Climate refuge, Climate refugia, Climate variability, Extreme events, Millennium Drought, Recovery, Riparian zone",
author = "Selwood, {Katherine E} and Thomson, {James R} and Clarke, {Rohan H} and Melodie McGeoch and {Mac Nally}, Ralph",
year = "2015",
doi = "10.1111/geb.12305",
language = "English",
volume = "24",
pages = "838--848",
journal = "Global Ecology and Biogeography",
issn = "1466-822X",
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number = "7",

}

Resistance and resilience of terrestrial birds in drying climates: do floodplains provide drought refugia? / Selwood, Katherine E; Thomson, James R; Clarke, Rohan H; McGeoch, Melodie; Mac Nally, Ralph.

In: Global Ecology and Biogeography, Vol. 24, No. 7, 2015, p. 838-848.

Research output: Contribution to journalArticleResearchpeer-review

TY - JOUR

T1 - Resistance and resilience of terrestrial birds in drying climates: do floodplains provide drought refugia?

AU - Selwood, Katherine E

AU - Thomson, James R

AU - Clarke, Rohan H

AU - McGeoch, Melodie

AU - Mac Nally, Ralph

PY - 2015

Y1 - 2015

N2 - Aim: Climate refugia will become increasingly important for biota as climate change causes an increased frequency and intensity of extreme events, such as drought. Floodplains are potential drought refugia because they have cooler and more mesic microclimates than adjacent areas, and greater water availability through shallower groundwater and flooding. We explored the role of floodplains as drought refugia by estimating the resistance and resilience of terrestrial birds over a 13-year drought (the 'Big Dry') and for 4 years following the break in the drought in floodplain and non-floodplain zones. Location: Murray-Darling Basin, Australia. Methods: We used Atlas of Australian Birds survey data from more than 39,000 surveys at over 28,000 sites to estimate trends in reporting rates in floodplain and non-floodplain zones for 144 bird species during extended drought (1998-2009) and in the post-drought period (2010-13). Results: There was greater resistance to drought in floodplain zones: fewer species declined in floodplain zones (19%) than in non-floodplain zones (29%) during the Big Dry, and more species had elevated reporting rates (13% vs. 8%). More species showed a recovery in reporting rates in non-floodplain zones (40.3%) than in floodplain zones (15.3%) during the post-drought period, which was expected because declines during the Big Dry were more common in non-floodplain zones. There was some evidence for limitations in the resilience of floodplain avifauna, with only 17.9% of species that declined in floodplain zones during the drought subsequently recovering. Conclusions: Floodplains appear to enhance resistance to drought for many bird species, and are likely to be particularly important as refugia in areas with an arid climate. However, their role in resilience is less clear. Floodplain ecosystems require long-term management to relieve pressures and to restore their ecological condition so that their role as drought refugia is maintained or enhanced.

AB - Aim: Climate refugia will become increasingly important for biota as climate change causes an increased frequency and intensity of extreme events, such as drought. Floodplains are potential drought refugia because they have cooler and more mesic microclimates than adjacent areas, and greater water availability through shallower groundwater and flooding. We explored the role of floodplains as drought refugia by estimating the resistance and resilience of terrestrial birds over a 13-year drought (the 'Big Dry') and for 4 years following the break in the drought in floodplain and non-floodplain zones. Location: Murray-Darling Basin, Australia. Methods: We used Atlas of Australian Birds survey data from more than 39,000 surveys at over 28,000 sites to estimate trends in reporting rates in floodplain and non-floodplain zones for 144 bird species during extended drought (1998-2009) and in the post-drought period (2010-13). Results: There was greater resistance to drought in floodplain zones: fewer species declined in floodplain zones (19%) than in non-floodplain zones (29%) during the Big Dry, and more species had elevated reporting rates (13% vs. 8%). More species showed a recovery in reporting rates in non-floodplain zones (40.3%) than in floodplain zones (15.3%) during the post-drought period, which was expected because declines during the Big Dry were more common in non-floodplain zones. There was some evidence for limitations in the resilience of floodplain avifauna, with only 17.9% of species that declined in floodplain zones during the drought subsequently recovering. Conclusions: Floodplains appear to enhance resistance to drought for many bird species, and are likely to be particularly important as refugia in areas with an arid climate. However, their role in resilience is less clear. Floodplain ecosystems require long-term management to relieve pressures and to restore their ecological condition so that their role as drought refugia is maintained or enhanced.

KW - Aridity

KW - Climate change

KW - Climate refuge

KW - Climate refugia

KW - Climate variability

KW - Extreme events

KW - Millennium Drought

KW - Recovery

KW - Riparian zone

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