Wright, Boyd R; Nipper, Martin; Nipper, Nathan; Merson, Samuel D; Guest, Tracey

Author(s)

Wright, Boyd R

Nipper, Martin

Nipper, Nathan

Merson, Samuel D

Guest, Tracey

Publication Date

2023-06

Abstract

Precipitation variability and heatwaves are expected to intensify over much of inland Australia under most projected climate change scenarios. This will undoubtedly have impacts on the biota of Australian dryland systems. However, accurate modelling of these impacts is presently impeded by a lack of empirical research on drought/heatwave effects on native arid flora and fauna. During the 2018–2021 Australian drought, many parts of the continent's inland experienced their hottest, driest period on record. Here, we present the results of a field survey in 2021 involving indigenous rangers, scientists and national parks staff who assessed plant dieback during this drought at Uluru-Kata Tjuta National Park (UKTNP), central Australia. Spatially randomized quadrat sampling of eight common and culturally important plants indicated the following plant death rates across UKTNP (in order of drought susceptibility): desert myrtle (Aluta maisonneuvei subsp. maisonneuvei) (91%), yellow flame grevillea (Grevillea eriostachya) (79%), Maitland's wattle (Acacia maitlandii) (67%), waxy wattle (A. melleodora) (65%), soft spinifex grass (Triodia pungens) (53%), mulga (A. aneura) (42%), desert oak (Allocasuarina decaisneana) (22%) and quandong (Santalum acuminatum) (0%). The sampling also detected that seedling recruitment was absent or minimal for all plants except soft spinifex, while a generalized linear mixed model (GLMM) indicated two-way interactions among species, plant size and stand density as important predictors of drought survival of adult plants. A substantial loss of biodiversity has occurred at UKTNP during the recent drought, with likely drivers of widespread plant mortality being extreme multi-year rainfall deficit (2019 recorded the lowest-ever annual rainfall at UKTNP [27mm]) and record high summer temperatures (December 2019 recorded the highest-ever temperature [47.1°C]). Our findings indicate that widespread plant death and extensive vegetation restructuring will occur across arid Australia if the severity and frequency of droughts increase under climate change.

Citation

Austral Ecology, 48(4), p. 699-718

ISSN

1442-9993

1442-9985

Link

https://hdl.handle.net/1959.11/69043

Publisher

John Wiley & Sons, Inc

Rights

Attribution-NonCommercial-NoDerivatives 4.0 International

Title

Mortality rates of desert vegetation during high-intensity drought at Uluru-Kata Tjuta National Park, Central Australia

Type of document

Journal Article

Entity Type

Publication

Author(s)	Wright, Boyd R Nipper, Martin Nipper, Nathan Merson, Samuel D Guest, Tracey
Publication Date	2023-06
Abstract	<p>Precipitation variability and heatwaves are expected to intensify over much of inland Australia under most projected climate change scenarios. This will undoubtedly have impacts on the biota of Australian dryland systems. However, accurate modelling of these impacts is presently impeded by a lack of empirical research on drought/heatwave effects on native arid flora and fauna. During the 2018–2021 Australian drought, many parts of the continent's inland experienced their hottest, driest period on record. Here, we present the results of a field survey in 2021 involving indigenous rangers, scientists and national parks staff who assessed plant dieback during this drought at Uluru-Kata Tjuta National Park (UKTNP), central Australia. Spatially randomized quadrat sampling of eight common and culturally important plants indicated the following plant death rates across UKTNP (in order of drought susceptibility): desert myrtle (<i>Aluta maisonneuvei subsp. maisonneuvei</i>) (91%), yellow flame grevillea (<i>Grevillea eriostachya</i>) (79%), Maitland's wattle (<i>Acacia maitlandii</i>) (67%), waxy wattle (<i>A. melleodora</i>) (65%), soft spinifex grass (<i>Triodia pungens</i>) (53%), mulga (<i>A. aneura</i>) (42%), desert oak (<i>Allocasuarina decaisneana</i>) (22%) and quandong (<i>Santalum acuminatum</i>) (0%). The sampling also detected that seedling recruitment was absent or minimal for all plants except soft spinifex, while a generalized linear mixed model (GLMM) indicated two-way interactions among species, plant size and stand density as important predictors of drought survival of adult plants. A substantial loss of biodiversity has occurred at UKTNP during the recent drought, with likely drivers of widespread plant mortality being extreme multi-year rainfall deficit (2019 recorded the lowest-ever annual rainfall at UKTNP [27mm]) and record high summer temperatures (December 2019 recorded the highest-ever temperature [47.1°C]). Our findings indicate that widespread plant death and extensive vegetation restructuring will occur across arid Australia if the severity and frequency of droughts increase under climate change.</p>
Citation	Austral Ecology, 48(4), p. 699-718
ISSN	1442-9993 1442-9985
Link	https://hdl.handle.net/1959.11/69043
Publisher	John Wiley & Sons, Inc
Rights	Attribution-NonCommercial-NoDerivatives 4.0 International
Title	Mortality rates of desert vegetation during high-intensity drought at Uluru-Kata Tjuta National Park, Central Australia
Type of document	Journal Article
Entity Type	Publication

Mortality rates of desert vegetation during high-intensity drought at Uluru-Kata Tjuta National Park, Central Australia

Files: