Animal movements in fire-prone landscapes
- Nimmo, Dale, Avitabile, Sarah, Banks, Sam, Bird, Rebecca, Callister, Kate, Clarke, Michael, Dickman, Chris, Doherty, Tim, Driscoll, Don, Greenville, Aaron, Haslem, Angie, Kelly, Luke, Kenny, Sally, Lahoz-Monfort, Jose, Lee, Connie, Leonard, Steven, Moore, Harry, Newsome, Thomas, Parr, Catherine, Ritchie, Euan, Schneider, Kathryn, Turner, James, Watson, Simon, Westbrooke, Martin, Wouters, Mike, White, Matthew, Bennett, Andrew
- Authors: Nimmo, Dale , Avitabile, Sarah , Banks, Sam , Bird, Rebecca , Callister, Kate , Clarke, Michael , Dickman, Chris , Doherty, Tim , Driscoll, Don , Greenville, Aaron , Haslem, Angie , Kelly, Luke , Kenny, Sally , Lahoz-Monfort, Jose , Lee, Connie , Leonard, Steven , Moore, Harry , Newsome, Thomas , Parr, Catherine , Ritchie, Euan , Schneider, Kathryn , Turner, James , Watson, Simon , Westbrooke, Martin , Wouters, Mike , White, Matthew , Bennett, Andrew
- Date: 2019
- Type: Text , Journal article , Review
- Relation: Biological Reviews Vol. 94, no. 3 (2019), p. 981-998
- Full Text:
- Reviewed:
- Description: Movement is a trait of fundamental importance in ecosystems subject to frequent disturbances, such as fire-prone ecosystems. Despite this, the role of movement in facilitating responses to fire has received little attention. Herein, we consider how animal movement interacts with fire history to shape species distributions. We consider how fire affects movement between habitat patches of differing fire histories that occur across a range of spatial and temporal scales, from daily foraging bouts to infrequent dispersal events, and annual migrations. We review animal movements in response to the immediate and abrupt impacts of fire, and the longer-term successional changes that fires set in train. We discuss how the novel threats of altered fire regimes, landscape fragmentation, and invasive species result in suboptimal movements that drive populations downwards. We then outline the types of data needed to study animal movements in relation to fire and novel threats, to hasten the integration of movement ecology and fire ecology. We conclude by outlining a research agenda for the integration of movement ecology and fire ecology by identifying key research questions that emerge from our synthesis of animal movements in fire-prone ecosystems.
- Authors: Nimmo, Dale , Avitabile, Sarah , Banks, Sam , Bird, Rebecca , Callister, Kate , Clarke, Michael , Dickman, Chris , Doherty, Tim , Driscoll, Don , Greenville, Aaron , Haslem, Angie , Kelly, Luke , Kenny, Sally , Lahoz-Monfort, Jose , Lee, Connie , Leonard, Steven , Moore, Harry , Newsome, Thomas , Parr, Catherine , Ritchie, Euan , Schneider, Kathryn , Turner, James , Watson, Simon , Westbrooke, Martin , Wouters, Mike , White, Matthew , Bennett, Andrew
- Date: 2019
- Type: Text , Journal article , Review
- Relation: Biological Reviews Vol. 94, no. 3 (2019), p. 981-998
- Full Text:
- Reviewed:
- Description: Movement is a trait of fundamental importance in ecosystems subject to frequent disturbances, such as fire-prone ecosystems. Despite this, the role of movement in facilitating responses to fire has received little attention. Herein, we consider how animal movement interacts with fire history to shape species distributions. We consider how fire affects movement between habitat patches of differing fire histories that occur across a range of spatial and temporal scales, from daily foraging bouts to infrequent dispersal events, and annual migrations. We review animal movements in response to the immediate and abrupt impacts of fire, and the longer-term successional changes that fires set in train. We discuss how the novel threats of altered fire regimes, landscape fragmentation, and invasive species result in suboptimal movements that drive populations downwards. We then outline the types of data needed to study animal movements in relation to fire and novel threats, to hasten the integration of movement ecology and fire ecology. We conclude by outlining a research agenda for the integration of movement ecology and fire ecology by identifying key research questions that emerge from our synthesis of animal movements in fire-prone ecosystems.
Monitoring the dead as an ecosystem indicator
- Newsome, Thomas, Barton, Brandon, Buck, Julia, DeBruyn, Jennifer, Barton, Philip
- Authors: Newsome, Thomas , Barton, Brandon , Buck, Julia , DeBruyn, Jennifer , Barton, Philip
- Date: 2021
- Type: Text , Journal article
- Relation: Ecology and Evolution Vol. 11, no. 11 (2021), p. 5844-5856
- Full Text:
- Reviewed:
- Description: Dead animal biomass (carrion) is present in all terrestrial ecosystems, and its consumption, decomposition, and dispersal can have measurable effects on vertebrates, invertebrates, microbes, parasites, plants, and soil. But despite the number of studies examining the influence of carrion on food webs, there has been no attempt to identify how general ecological processes around carrion might be used as an ecosystem indicator. We suggest that knowledge of scavenging and decomposition rates, scavenger diversity, abundance, and behavior around carrion, along with assessments of vegetation, soil, microbe, and parasite presence, can be used individually or in combination to understand food web dynamics. Monitoring carrion could also assist comparisons of ecosystem processes among terrestrial landscapes and biomes. Although there is outstanding research needed to fully integrate carrion ecology and monitoring into ecosystem management, we see great potential in using carrion as an ecosystem indicator of an intact and functional food web. © 2021 The Authors. Ecology and Evolution published by John Wiley & Sons Ltd. **Please note that there are multiple authors for this article therefore only the name of the first 5 including Federation University Australia affiliate “Philip Barton" is provided in this record**
- Authors: Newsome, Thomas , Barton, Brandon , Buck, Julia , DeBruyn, Jennifer , Barton, Philip
- Date: 2021
- Type: Text , Journal article
- Relation: Ecology and Evolution Vol. 11, no. 11 (2021), p. 5844-5856
- Full Text:
- Reviewed:
- Description: Dead animal biomass (carrion) is present in all terrestrial ecosystems, and its consumption, decomposition, and dispersal can have measurable effects on vertebrates, invertebrates, microbes, parasites, plants, and soil. But despite the number of studies examining the influence of carrion on food webs, there has been no attempt to identify how general ecological processes around carrion might be used as an ecosystem indicator. We suggest that knowledge of scavenging and decomposition rates, scavenger diversity, abundance, and behavior around carrion, along with assessments of vegetation, soil, microbe, and parasite presence, can be used individually or in combination to understand food web dynamics. Monitoring carrion could also assist comparisons of ecosystem processes among terrestrial landscapes and biomes. Although there is outstanding research needed to fully integrate carrion ecology and monitoring into ecosystem management, we see great potential in using carrion as an ecosystem indicator of an intact and functional food web. © 2021 The Authors. Ecology and Evolution published by John Wiley & Sons Ltd. **Please note that there are multiple authors for this article therefore only the name of the first 5 including Federation University Australia affiliate “Philip Barton" is provided in this record**
- Cairncross, Rhys, Barton, Philip, Bonat, Stefanie, Crowther, Matthew, Dickman, Christopher, Vandersteen, James, Newsome, Thomas
- Authors: Cairncross, Rhys , Barton, Philip , Bonat, Stefanie , Crowther, Matthew , Dickman, Christopher , Vandersteen, James , Newsome, Thomas
- Date: 2022
- Type: Text , Journal article
- Relation: Food Webs Vol. 31, no. (2022), p.
- Full Text: false
- Reviewed:
- Description: Carrion is a vital resource in terrestrial ecosystems, supporting complex networks of interacting consumer organisms. The insect community attending carrion forms a vital part of this food web, but the functional roles of insects as scavengers can be altered by invasive species via the effects of predation and competition. European wasps (Vespula germanica) have invaded many parts of Australia and have been documented to directly kill native insect scavengers, especially necrophilous flies. Yet, little is known about the factors that influence predation rates by European wasps on flies at carcasses. The aim of this study was to determine how carcass state and altitude influences the occurrence and predatory impacts of wasps on flies. We placed 18 kangaroo carcasses along an altitudinal gradient in an Australian alpine ecosystem and manipulated half of the carcasses by splitting them open to simulate the wounds created by vertebrate scavengers present at the time of death. We found that carcasses with open wounds exacerbated already severe predation on flies from wasps, as well as intense scavenging activity, even though wasp abundance remained the same across both treatments. Meanwhile, densities of wasps declined and their impact on flies lessened with higher altitude. We suggest that the suppressive effect of wasps on flies may interrupt key processes triggered by carrion and cause shifts in energy flow through scavenger food webs. Further, under climate change, we predict that wasps will continue to spread into new areas at altitudes the species currently find unhospitable and conclude that carcass management practices must recognise the potential threat that wasps pose to ecosystem stability. © 2022 Elsevier Inc.
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