Outbreak of Phoracantha semipunctata in Response to Severe Drought in a Mediterranean Eucalyptus Forest

Seaton, Stephen; Matusick, George; Ruthrof, Katinka X.; Hardy, G.

doi:10.3390/f6113868

Cited by 40 publications

(51 citation statements)

References 33 publications

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“…Ecosystems may change most rapidly and profoundly in regions experiencing compound events or multiple stress periods, occurring concurrently, or in quick succession . In the Northern Jarrah Forest, and elsewhere, the combination of drought and warming has corresponded with beetle outbreaks (Seaton et al 2015), forest fires (Gouveia et al 2016), and associated widespread terrestrial carbon losses (Berner et al 2017). Not only do these processes have an impact on forest structure and functioning, but also the potential to profoundly alter our future atmosphere and climate (Zemp et al 2017).…”

Section: Discussionmentioning

confidence: 99%

Chronic historical drought legacy exacerbates tree mortality and crown dieback during acute heatwave-compounded drought

Matusick

Ruthrof

Kala

et al. 2018

Environ. Res. Lett.

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Globally, combinations of drought and warming are driving widespread tree mortality and crown dieback. Yet thresholds triggering either tree mortality or crown dieback remain uncertain, particularly with respect to two issues: (i) the degree to which heat waves, as an acute stress, can trigger mortality, and (ii) the degree to which chronic historical drought can have legacy effects on these processes. Using forest study sites in southwestern Australia that experienced dieback associated with a short-term drought with a heatwave (heatwave-compounded drought) in 2011 and span a gradient in long-term precipitation (LTP) change, we examined the potential for chronic historical drought to amplify tree mortality or crown dieback during a heatwave-compounded drought event for the dominant overstory species Eucalyptus marginata and Corymbia calophylla. We show pronounced legacy effects associated with chronically reduced LTP (1951LTP ( -1980LTP ( versus 1981LTP ( -2010 at the tree level in both study species. When comparing areas experiencing 7.0% and 11.5% decline in LTP, the probability of tree mortality increased from low (<0.10) to high (>0.55) in both species, and probability of crown dieback increased from high (0.74) to nearly complete (0.96) in E. marginata. Results from beta regression analysis at the stand-level confirmed tree-level results, illustrating a significant inverse relationship between LTP reduction and either tree mortality (F=10.39, P=0.0073) or dieback (F=54.72, P<0.0001). Our findings quantify chronic climate legacy effects during a well-documented tree mortality and crown dieback event that is specifically associated with an heatwave-compounded drought. Our results highlight how insights into both acute heatwavecompounded drought effects and chronic drought legacies need to be integrated into assessments of how drought and warming together trigger broad-scale tree mortality and crown dieback events.

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Section: Discussionmentioning

confidence: 99%

Chronic historical drought legacy exacerbates tree mortality and crown dieback during acute heatwave-compounded drought

Matusick

Ruthrof

Kala

et al. 2018

Environ. Res. Lett.

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“…A sudden and unprecedented forest collapse was observed in the Northern Jarrah Forest (NJF) of SWWA following record dry and heat conditions in 2010/2011, with the death and collapse of midstorey and overstorey jarrah and marri crowns observed following this period of sudden and severe drought (Matusick et al, 2013). The four tree deaths at the Brunswick Junction forest site that were not associated with canker were attributed to drought induced mortality, with high feeding damage and infestation levels by the native Eucalyptus longhorned borer (Phorocantha semipunctata Fabricius) providing further evidence that these deaths resulted from water stress (Seaton, Matusick, Ruthrof, & Hardy, 2015). under severe water stress, B. mediterranea develops rapidly within the xylem with the potential to kill the entire host (Desprez-Loustau et al, 2006;Vannini & Valentini, 1994).…”

Section: Discussionmentioning

confidence: 88%

“…The SWWA has experienced a persistent trend of declining annual rainfall and increasing temperatures since the 1970s (Bates, Hope, Ryan, Smith, & Charles, 2008), which is projected to continue into the future (CSIRO & BOM 2007, IPCC 2013. The four tree deaths at the Brunswick Junction forest site that were not associated with canker were attributed to drought induced mortality, with high feeding damage and infestation levels by the native Eucalyptus longhorned borer (Phorocantha semipunctata Fabricius) providing further evidence that these deaths resulted from water stress (Seaton, Matusick, Ruthrof, & Hardy, 2015). A sudden and unprecedented forest collapse was observed in the Northern Jarrah Forest (NJF) of SWWA following record dry and heat conditions in 2010/2011, with the death and collapse of midstorey and overstorey jarrah and marri crowns observed following this period of sudden and severe drought (Matusick et al, 2013).…”

Section: Discussionmentioning

confidence: 94%

A thirteen‐year study on the impact of a severe canker disease of Corymbia calophylla, a keystone tree in Mediterranean‐type forests

et al. 2016

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Worldwide, forests and woodlands have shown progressive declines in health as a result of global environmental changes in combination with local anthropogenic drivers. This study examined the incidence and progression of a canker disease of marri (Corymbia calophylla) caused by the endemic fungal pathogen Quambalaria coyrecup at three paired forest and anthropogenically disturbed sites in the southwest of Western Australia over 13 years. At the time of plot establishment in 2001, cankers were present on trees at all six sites with 22.7% of the assessed trees cankered. By 2014, cankers had led to the death of 6.7% of the trees, and an additional 10.0% of the trees developed cankers during this time. A further 2.3% of trees died due to causes other than canker, resulting in a final figure of 65.0% of trees remaining alive and free of cankers for the duration of the survey period. Canker incidence was significantly greater on trees present at anthropogenically disturbed sites (along roadsides and in paddocks) than forest trees (35.3%increasing to 50.7%, 10.0% increasing to 14.7%, respectively). Trunk diameter at breast height, tree height and crown ratings were not correlated with canker presence. This long-term study provides evidence of the increasing severity of this canker pathogen and the impact it is having on the survival of marri.

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“…Large areas of stressed and dying trees associated with a drought event, leading to widespread attack by P. semipunctata in Southwestern Australia jarrah forest, showed that tree health was critical for determining the intensity of borer emergence [36]. To estimate the borer's population size and better understand its behaviour, these drought-stressed trees in the Northern Jarrah Forest (NJF) provided an opportunity to determine how tree characteristics shaped the within-tree distribution and affected the survival of P. semipunctata in Australia.…”

Section: Introductionmentioning

confidence: 99%

Within-Tree Distribution and Survival of the Eucalyptus Longhorned Borer Phoracantha semipunctata (Coleoptera: Cerambycidae) in a Mediterranean-Type Ecosystem

Seaton

Matusick

Hardy

2020

Insects

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The attack patterns, infestation success and larval development of woodborers within living trees are complex and are largely shaped by host tree characteristics. Following a severe drought in a native eucalypt forest where outbreak densities of a native Australian beetle, the eucalyptus longhorned borer (Phoracantha semipunctata), occurred, a tree dissection study was conducted in Australia. This involved felling 40 trees each of jarrah (Eucalyptus marginata) and marri (Corymbia calophylla) that were cut into 1-m sections and neonate larval galleries, larvae in pupal cells and adult borer emergence were measured and added to give total numbers per tree to determine the within-tree distribution and survival of P. semipunctata. There was a significant impact on larval survival in both species, in contrast, pupal survival remained high. Within-tree distribution of P. semipunctata was directional with borer emergence and incidence of larval galleries both negatively associated with tree section height above the ground and positively associated with section diameter and bark thickness, reaching a maximum towards the base of trees. High incidence and survival in lower thicker tree sections indicate a more conducive environment for larval development, in contrast to poor larval survival in smaller thinner sections at the top of trees. The dependence of larval survival on tree characteristics controlling the within-tree distribution of borer emergence is emphasized, and needs to be considered when estimating the spread of borer populations during outbreaks.

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Outbreak of Phoracantha semipunctata in Response to Severe Drought in a Mediterranean Eucalyptus Forest

Cited by 40 publications

References 33 publications

Chronic historical drought legacy exacerbates tree mortality and crown dieback during acute heatwave-compounded drought

Chronic historical drought legacy exacerbates tree mortality and crown dieback during acute heatwave-compounded drought

A thirteen‐year study on the impact of a severe canker disease of Corymbia calophylla, a keystone tree in Mediterranean‐type forests

Within-Tree Distribution and Survival of the Eucalyptus Longhorned Borer Phoracantha semipunctata (Coleoptera: Cerambycidae) in a Mediterranean-Type Ecosystem

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