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A fire driven shift from forest to non-forest: evidence for alternative stable states? (2014)

onlinepublishing@allenpress.com (Michael-Shawn Fletcher et al)

Wiley

In: Ecology

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Publication Date: 2014-05-06

Description: Ecology, Ahead of Print. We test the validity of applying the alternative stable state paradigm to account for the landscape-scale forest/non-forest mosaic that prevails in temperate Tasmania, Australia. This test is based on fine scale pollen, spore and charcoal analyses of sediments located within a small patch of non-forest vegetation surrounded by temperate forest. Following nearly 500 years of forest dominance at the site, a catastrophic fire drove an irreversible shift from a forested Cyperaceae-Sphagnum wetland to a non-forested Restionaceae wetland at ca.7000 cal yr BP. Persistence of the non-forest/Restionaceae vegetation state over 7000 years despite long fire-free intervals implies that fire was not essential for the maintenance of the non-forest state. We propose that reduced interception and transpiration of the non-forest state resulted in local waterlogging, presenting an eco-hydrological barrier to forest reestablishment over the succeeding 7000 years. We further contend that the rhizotamous nature of the non-forest species presented a reinforcing eco-physical barrier to forest development. Our results satisfy a number of criteria for consideration as an example of a switch between alternative stable states, including different origin and maintenance pathways, and provide insights into the role of threshold dynamics and hysteresis in forest/non-forest transitions.

Print ISSN: 0012-9658

Electronic ISSN: 1939-9170

Topics: Biology

Published by Wiley on behalf of The Ecological Society of America (ESA).

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The Southern Annular Mode determines inter-annual and centennial-scale fire activity in temperate southwest Tasmania, Australia (2016)

Michela Mariani, Michael-Shawn Fletcher

Wiley

In: Geophysical Research Letters

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Publication Date: 2016-02-12

Description: Southern Annular Mode (SAM) is the primary mode of atmospheric variability in the Southern Hemisphere. While it is well established that the current anthropogenic-driven trend in SAM is responsible for decreased rainfall in southern Australia, its role in driving fire regimes in this region has not been explored. We examined the connection between fire activity and SAM in southwest Tasmania, which lies in the latitudinal band of strongest correlation between SAM and rainfall in the Southern Hemisphere. We reveal that fire activity during a fire season is significantly correlated with the phase of SAM in the preceding year using Superposed Epoch Analysis. We then synthesised new 14 charcoal records from southwest Tasmania spanning the last 1000 years, revealing a tight coupling between fire activity and SAM at centennial timescales, observing a multi-century increase in fire activity over the last 500 years and a spike in fire activity in the 21 st century in response to natural and anthropogenic SAM trends.

Print ISSN: 0094-8276

Electronic ISSN: 1944-8007

Topics: Geosciences , Physics

Published by Wiley on behalf of American Geophysical Union (AGU).

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A fire driven shift from forest to non-forest: evidence for alternative stable states? (2013)

onlinepublishing@allenpress.com (Michael-Shawn Fletcher et al)

Wiley

In: Ecology

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Publication Date: 2013-12-15

Description: Ecology, Volume 0, Issue 0, Ahead of Print. We test the validity of applying the alternative stable state paradigm to account for the landscape-scale forest/non-forest mosaic that prevails in temperate Tasmania, Australia. This test is based on fine scale pollen, spore and charcoal analyses of sediments located within a small patch of non-forest vegetation surrounded by temperate forest. Following nearly 500 years of forest dominance at the site, a catastrophic fire drove an irreversible shift from a forested Cyperaceae-Sphagnum wetland to a non-forested Restionaceae wetland at ca.7000 cal yr BP. Persistence of the non-forest/Restionaceae vegetation state over 7000 years despite long fire-free intervals implies that fire was not essential for the maintenance of the non-forest state. We propose that reduced interception and transpiration of the non-forest state resulted in local waterlogging, presenting an eco-hydrological barrier to forest reestablishment over the succeeding 7000 years. We further contend that the rhizotamous nature of the non-forest species presented a reinforcing eco-physical barrier to forest development. Our results satisfy a number of criteria for consideration as an example of a switch between alternative stable states, including different origin and maintenance pathways, and provide insights into the role of threshold dynamics and hysteresis in forest/non-forest transitions.

Print ISSN: 0012-9658

Electronic ISSN: 1939-9170

Topics: Biology

Published by Wiley on behalf of The Ecological Society of America (ESA).

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Variance and rate-of-change as early warning signals for a critical transition in an aquatic ecosystem state: a test case from Tasmania, Australia (2018)

Kristen K. Beck, Michael-Shawn Fletcher, Patricia S. Gadd, Henk Heijnis, Krystyna M. Saunders, Gavin L. Simpson, Atun Zawadzki

Wiley

In: Journal of Geophysical Research JGR - Biogeosciences

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Publication Date: 2018-02-09

Description: Critical transitions in ecosystem states are often sudden and unpredictable. Consequently, there is a concerted effort to identify measurable early warning signals (EWS) for these important events. Aquatic ecosystems provide an opportunity to observe critical transitions due to their high sensitivity and rapid response times. Using palaeoecological techniques we can measure properties of time series data to determine if critical transitions are preceded by any measurable ecosystem metrics, i.e. identify EWS. Using a suite of palaeoenvironmental data spanning the last 2,400 years (diatoms, pollen, geochemistry and charcoal influx) we assess whether a critical transition in diatom community structure was preceded by measurable EWS. Lake Vera, in the temperate rainforest of western Tasmania, Australia, has a diatom community dominated by Discostella stelligera and undergoes an abrupt compositional shift at ca. 820 cal yr BP that is concomitant with increased fire disturbance of the local vegetation. This shift is manifest as a transition from less oligotrophic acidic diatom flora ( Achnanthidium minutissimum , Brachysira styriaca and Fragilaria capucina ) to more oligotrophic acidic taxa ( Frustulia elongatissima , Eunotia diodon and Gomphonema multiforme ). We observe a marked increase in compositional variance and rate-of-change prior to this critical transition, revealing these metrics are useful EWS in this system. Interestingly, vegetation remains complacent to fire disturbance until after the shift in the diatom community. Disturbance taxa invade and the vegetation system experiences an increase in both compositional variance and rate-of-change. These trends imply an approaching critical transition in the vegetation and the probable collapse of the local rainforest system.

Print ISSN: 0148-0227

Topics: Biology , Geosciences

Published by Wiley on behalf of American Geophysical Union (AGU).

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The influence of fine‐scale topography on the impacts of Holocene fire in a Tasmanian montane landscape (2019)

HAIDEE CADD, MICHAEL‐SHAWN FLETCHER, MICHELA MARIANI, HENDRIK HEIJNIS, PATRICIA S. GADD

Wiley

In: Journal of Quaternary Science

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Publication Date: 2019

Description: Abstract Tasmania's montane temperate rainforests contain some of Australia's most ancient and endemic flora. Recent landscape‐scale fires have impacted a significant portion of these rainforest ecosystems. The complex and rugged topography of Tasmania results in a highly variable influence of fire across the landscape, rendering predictions of ecosystem response to fire difficult. We assess the role of topographic variation in buffering the influence of fire in these endemic rainforest communities. We developed a new 14 000‐year (14‐ka) palaeoecological dataset from Lake Perry, southern Tasmania, and compared it to neighbouring Lake Osborne (〈250 m distant) to examine how topographic variations influence fire and vegetation dynamics through time. Repeated fire events during the Holocene cause a decline in montane rainforest taxa at both sites; however, in the absence of fire, rainforest taxa are able to recover. Montane temperate rainforest taxa persisted at Lake Perry until European settlement, whilst these taxa were driven locally extinct and replaced by Eucalyptus species at Lake Osborne after 2.5 ka. Contiguous topographic fire refugia within the Lake Perry catchment probably provided areas of favourable microclimates that discouraged fire spread and supported the recovery of these montane temperate rainforests.

Print ISSN: 0267-8179

Electronic ISSN: 1099-1417

Topics: Geography , Geosciences

Published by Wiley

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