Evans, Bradley John; Lyons, Tom

Author(s)

Evans, Bradley John

Lyons, Tom

Publication Date

2013-09

Abstract

Extreme and persistent reductions in annual precipitation and an increase in the mean diurnal temperature range have resulted in patch scale forest mortality following the summer of 2010–2011 within the Forest study area near Perth, Western Australia. The impacts of 20 bioclimatic indicators derived from temperature, precipitation and of actual and potential evapotranspiration are quantified. We found that spatially aggregated seasonal climatologies across the study area show 2011 with an annual mean of 17.7 °C (± 5.3 °C) was 1.1 °C warmer than the mean over recent decades (1981–2011,-16.6 °C ± 4.6 °C) and the mean has been increasing over the last decade. Compared to the same period, 2010–2011 summer maximum temperatures were 1.4 °C (31.6 °C ± 2.0 °C) higher and the annual mean diurnal temperature range (Tmax−Tmin) was 1.6 °C higher (14.7 °C ± 0.5 °C). In 2009, the year before the forest mortality began, annual precipitation across the study area was 69% less (301 mm ± 38 mm) than the mean of 1981–2010 (907 mm ± 69 mm). Using Système Pour l'Observation de la Terre mission 5 (SPOT-5) satellite imagery captured after the summer of 2010–2011 we map a broad scale forest mortality event across the Forested study area. This satellite-climatology based methodology provides a means of monitoring and mapping similar forest mortality eventsa critical contribution to our understanding the dynamical bioclimatic drivers of forest mortality events.

Citation

Climate, 1(2), p. 28-52

ISSN

2225-1154

Link

https://hdl.handle.net/1959.11/61335

Publisher

MDPI AG

Rights

Attribution 3.0 International

Title

Bioclimatic Extremes Drive Forest Mortality in Southwest, Western Australia

Type of document

Journal Article

Entity Type

Publication

Author(s)	Evans, Bradley John Lyons, Tom
Publication Date	2013-09
Abstract	<p> Extreme and persistent reductions in annual precipitation and an increase in the mean diurnal temperature range have resulted in patch scale forest mortality following the summer of 2010–2011 within the Forest study area near Perth, Western Australia. The impacts of 20 bioclimatic indicators derived from temperature, precipitation and of actual and potential evapotranspiration are quantified. We found that spatially aggregated seasonal climatologies across the study area show 2011 with an annual mean of 17.7 °C (± 5.3 °C) was 1.1 °C warmer than the mean over recent decades (1981–2011,-16.6 °C ± 4.6 °C) and the mean has been increasing over the last decade. Compared to the same period, 2010–2011 summer maximum temperatures were 1.4 °C (31.6 °C ± 2.0 °C) higher and the annual mean diurnal temperature range (T<sub>max</sub>−T<sub>min</sub>) was 1.6 °C higher (14.7 °C ± 0.5 °C). In 2009, the year before the forest mortality began, annual precipitation across the study area was 69% less (301 mm ± 38 mm) than the mean of 1981–2010 (907 mm ± 69 mm). Using Système Pour l'Observation de la Terre mission 5 (SPOT-5) satellite imagery captured after the summer of 2010–2011 we map a broad scale forest mortality event across the Forested study area. This satellite-climatology based methodology provides a means of monitoring and mapping similar forest mortality eventsa critical contribution to our understanding the dynamical bioclimatic drivers of forest mortality events.</p>
Citation	Climate, 1(2), p. 28-52
ISSN	2225-1154
Link	https://hdl.handle.net/1959.11/61335
Publisher	MDPI AG
Rights	Attribution 3.0 International
Title	Bioclimatic Extremes Drive Forest Mortality in Southwest, Western Australia
Type of document	Journal Article
Entity Type	Publication

Bioclimatic Extremes Drive Forest Mortality in Southwest, Western Australia

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