A long-term habitat fragmentation experiment leads to morphological change in a species of carabid beetle
- Evans, Maldwyn, Banks, Sam, Barton, Philip, Davies, Kendi, Driscoll, Don
- Authors: Evans, Maldwyn , Banks, Sam , Barton, Philip , Davies, Kendi , Driscoll, Don
- Date: 2018
- Type: Text , Journal article
- Relation: Ecological Entomology Vol. 43, no. 3 (2018), p. 282-293
- Full Text:
- Reviewed:
- Description: 1. Habitat fragmentation and transformation are key drivers of species declines in landscapes. Most of the current understanding of species' responses to environmental change originates from studies of populations and communities. However, phenotypic variation offers another key aspect of species responses and could provide additional insights into the functional drivers of population change. 2. The goal of this study was to address this gap by exploring the morphological changes of a species of carabid beetle (Notonomus resplendens) with a known population response to the Wog Wog Habitat Fragmentation Experiment in Australia. We measured morphological traits associated with body size, head width, and dispersal ability. We quantified patterns of morphological variation over time and between native Eucalyptus forest fragments and the surrounding pine plantation matrix and the continuous intact native Eucalyptus forest controls. 3. We found sexually dimorphic morphological changes in response to the experimental treatments. Males increased in size, had larger legs and had smaller interocular widths in the matrix in both the short and long terms. Conversely, females became comparatively smaller and had increased interocular widths in the same treatments. Effects in the fragments were similar to those in the matrix, but exhibited more uncertainty. 4. Our results demonstrate that species can show morphological change in response to environmental change over very short time periods. We demonstrate that using both population and morphological data allows stronger inferences about the mechanisms behind species responses to environmental change. © 2017 The Royal Entomological Society
- Authors: Evans, Maldwyn , Banks, Sam , Barton, Philip , Davies, Kendi , Driscoll, Don
- Date: 2018
- Type: Text , Journal article
- Relation: Ecological Entomology Vol. 43, no. 3 (2018), p. 282-293
- Full Text:
- Reviewed:
- Description: 1. Habitat fragmentation and transformation are key drivers of species declines in landscapes. Most of the current understanding of species' responses to environmental change originates from studies of populations and communities. However, phenotypic variation offers another key aspect of species responses and could provide additional insights into the functional drivers of population change. 2. The goal of this study was to address this gap by exploring the morphological changes of a species of carabid beetle (Notonomus resplendens) with a known population response to the Wog Wog Habitat Fragmentation Experiment in Australia. We measured morphological traits associated with body size, head width, and dispersal ability. We quantified patterns of morphological variation over time and between native Eucalyptus forest fragments and the surrounding pine plantation matrix and the continuous intact native Eucalyptus forest controls. 3. We found sexually dimorphic morphological changes in response to the experimental treatments. Males increased in size, had larger legs and had smaller interocular widths in the matrix in both the short and long terms. Conversely, females became comparatively smaller and had increased interocular widths in the same treatments. Effects in the fragments were similar to those in the matrix, but exhibited more uncertainty. 4. Our results demonstrate that species can show morphological change in response to environmental change over very short time periods. We demonstrate that using both population and morphological data allows stronger inferences about the mechanisms behind species responses to environmental change. © 2017 The Royal Entomological Society
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.
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