Marine ecosystem assessment for the Southern Ocean : Birds and marine mammals in a changing climate
- Bestley, Sophie, Ropert-Coudert, Yan, Bengtson Nash, Susan, Brooks, Cassandra, Cotté, Cedric, Dewar, Meagan, Friedlaender, Ari, Jackson, Jennifer, Labrousse, Sara, Lowther, Andrew, McMahon, Clive, Phillips, Richard, Pistorius, Pierre, Puskic, Peter, Reis, Ana, Reisinger, Ryan, Santos, Mercedes, Tarszisz, Esther, Tixier, Paul, Trathan, Philip, Wege, Mia, Wienecke, Barbara
- Authors: Bestley, Sophie , Ropert-Coudert, Yan , Bengtson Nash, Susan , Brooks, Cassandra , Cotté, Cedric , Dewar, Meagan , Friedlaender, Ari , Jackson, Jennifer , Labrousse, Sara , Lowther, Andrew , McMahon, Clive , Phillips, Richard , Pistorius, Pierre , Puskic, Peter , Reis, Ana , Reisinger, Ryan , Santos, Mercedes , Tarszisz, Esther , Tixier, Paul , Trathan, Philip , Wege, Mia , Wienecke, Barbara
- Date: 2020
- Type: Text , Journal article , Review
- Relation: Frontiers in Ecology and Evolution Vol. 8, no. (2020), p. 1-39
- Full Text:
- Reviewed:
- Description: The massive number of seabirds (penguins and procellariiformes) and marine mammals (cetaceans and pinnipeds) – referred to here as top predators – is one of the most iconic components of the Antarctic and Southern Ocean. They play an important role as highly mobile consumers, structuring and connecting pelagic marine food webs and are widely studied relative to other taxa. Many birds and mammals establish dense breeding colonies or use haul-out sites, making them relatively easy to study. Cetaceans, however, spend their lives at sea and thus aspects of their life cycle are more complicated to monitor and study. Nevertheless, they all feed at sea and their reproductive success depends on the food availability in the marine environment, hence they are considered useful indicators of the state of the marine resources. In general, top predators have large body sizes that allow for instrumentation with miniature data-recording or transmitting devices to monitor their activities at sea. Development of scientific techniques to study reproduction and foraging of top predators has led to substantial scientific literature on their population trends, key biological parameters, migratory patterns, foraging and feeding ecology, and linkages with atmospheric or oceanographic dynamics, for a number of species and regions. We briefly summarize the vast literature on Southern Ocean top predators, focusing on the most recent syntheses. We also provide an overview on the key current and emerging pressures faced by these animals as a result of both natural and human causes. We recognize the overarching impact that environmental changes driven by climate change have on the ecology of these species. We also evaluate direct and indirect interactions between marine predators and other factors such as disease, pollution, land disturbance and the increasing pressure from global fisheries in the Southern Ocean. Where possible we consider the data availability for assessing the status and trends for each of these components, their capacity for resilience or recovery, effectiveness of management responses, risk likelihood of key impacts and future outlook. © Copyright © 2020 Bestley, Ropert-Coudert, Bengtson Nash, Brooks, Cotté, Dewar, Friedlaender, Jackson, Labrousse, Lowther, McMahon, Phillips, Pistorius, Puskic, Reis, Reisinger, Santos, Tarszisz, Tixier, Trathan, Wege and Wienecke.
- Authors: Bestley, Sophie , Ropert-Coudert, Yan , Bengtson Nash, Susan , Brooks, Cassandra , Cotté, Cedric , Dewar, Meagan , Friedlaender, Ari , Jackson, Jennifer , Labrousse, Sara , Lowther, Andrew , McMahon, Clive , Phillips, Richard , Pistorius, Pierre , Puskic, Peter , Reis, Ana , Reisinger, Ryan , Santos, Mercedes , Tarszisz, Esther , Tixier, Paul , Trathan, Philip , Wege, Mia , Wienecke, Barbara
- Date: 2020
- Type: Text , Journal article , Review
- Relation: Frontiers in Ecology and Evolution Vol. 8, no. (2020), p. 1-39
- Full Text:
- Reviewed:
- Description: The massive number of seabirds (penguins and procellariiformes) and marine mammals (cetaceans and pinnipeds) – referred to here as top predators – is one of the most iconic components of the Antarctic and Southern Ocean. They play an important role as highly mobile consumers, structuring and connecting pelagic marine food webs and are widely studied relative to other taxa. Many birds and mammals establish dense breeding colonies or use haul-out sites, making them relatively easy to study. Cetaceans, however, spend their lives at sea and thus aspects of their life cycle are more complicated to monitor and study. Nevertheless, they all feed at sea and their reproductive success depends on the food availability in the marine environment, hence they are considered useful indicators of the state of the marine resources. In general, top predators have large body sizes that allow for instrumentation with miniature data-recording or transmitting devices to monitor their activities at sea. Development of scientific techniques to study reproduction and foraging of top predators has led to substantial scientific literature on their population trends, key biological parameters, migratory patterns, foraging and feeding ecology, and linkages with atmospheric or oceanographic dynamics, for a number of species and regions. We briefly summarize the vast literature on Southern Ocean top predators, focusing on the most recent syntheses. We also provide an overview on the key current and emerging pressures faced by these animals as a result of both natural and human causes. We recognize the overarching impact that environmental changes driven by climate change have on the ecology of these species. We also evaluate direct and indirect interactions between marine predators and other factors such as disease, pollution, land disturbance and the increasing pressure from global fisheries in the Southern Ocean. Where possible we consider the data availability for assessing the status and trends for each of these components, their capacity for resilience or recovery, effectiveness of management responses, risk likelihood of key impacts and future outlook. © Copyright © 2020 Bestley, Ropert-Coudert, Bengtson Nash, Brooks, Cotté, Dewar, Friedlaender, Jackson, Labrousse, Lowther, McMahon, Phillips, Pistorius, Puskic, Reis, Reisinger, Santos, Tarszisz, Tixier, Trathan, Wege and Wienecke.
Can we improve management practice of floodplain lakes using Cladoceran zooplankton?
- Authors: Kattel, Giri
- Date: 2011
- Type: Text , Journal article
- Relation: River Research & Applications Vol. 28, no. 4 (2011), p. 1-9
- Full Text: false
- Reviewed:
- Description: Natural resource managers across Australia intend to promote healthy floodplain lake ecosystems with rich diversity and composition of biota because such ecosystems provide economically valuable services to society. However, management practice of these floodplain lake ecosystems is impeded by confounding effects of anthropogenic impacts and natural climate variability in recent decades. Yet, there are a few potential biological markers available that profoundly respond to ecological effects of climate change and human disturbances. Cladoceran zooplankton plays an intermediary role in food web dynamics. They show distinct responses to changes in temperature and environmental perturbations, such as acidification, nutrient loading and salinization. The effects of temperature and land-use changes on food web dynamics and water quality, in particular, are major concerns for shallow lowland large river floodplain lakes management in Australia. Information on zooplankton assemblages and diversity can help increase our understanding of ecological processes in a wide range of environmental exposures. The study of cladoceran fossils and their ephippia preserved in floodplain lake sediment has substantially furthered our understanding of species–environment relationships at different temporal and spatial scales and allowed us to develop powerful inference models for degraded floodplain lake ecosystems. This consequently defines a benchmark of a shift from a naturally intact ecosystem to an ecologically poor regime. In this paper, I have made an attempt to persuade wetland managers through application of contemporary and palaeocladoceran communities to improve management practice of floodplain lake ecosystems in Australia by providing a range of examples. Copyright © 2011 John Wiley & Sons, Ltd
- Description: 2003009403
What makes a swamp swampy? Water regime and the botany of endangered wetlands in western Victoria
- Casanova, Michelle, Powling, Joan
- Authors: Casanova, Michelle , Powling, Joan
- Date: 2014
- Type: Text , Journal article
- Relation: Australian Journal of Botany Vol. 62, no. (2014), p. 469-480
- Full Text: false
- Reviewed:
- Description: Freshwater temporary wetlands are a little-studied ecosystem worldwide. They have been recognised as critically endangered in south-eastern Australia under Australian biodiversity conservation legislation. However, little has been recorded about their hydrology, functioning or biodiversity values; i.e. the factors that make them intrinsically ‘swampy’. In this paper, we developed a simple threshold model of wetland hydrology based on historical rainfall records and calculated evaporation records matched to records and recollections of the owners of swamps, and documented water-plant and microalgal species richness. The model indicated that swamps were inundated to at least 10-cm depth in an average of 6.3 years per decade for most of the 20th century. The average dry time between inundations was 1.27 years (maximum of 4.5 years). Since 1998, the frequency of inundation appears to have decreased, and the average dry times have increased. Despite, or because of, their temporary nature, these swamps have high biodiversity values among the vegetation and the microalgae, more than has been recorded for near-by permanent wetlands. There is no evidence that a drier and warmer climate will have a negative impact on biodiversity values; however, land management is likely to be important for maintaining these systems as the climate changes.
Happy feet in a hostile world? The future of penguins depends on proactive management of current and expected threats
- Ropert-Coudert, Yan, Chiaradia, Andre, Ainley, David, Barbosa, Andres, Boersma, Dee, Brasso, Rebecka, Dewar, Meagan, Ellenberg, Ursula, García-Borboroglu, Pablo, Emmerson, Loulse, Hickcox, Rachel, Jenouvrier, Stephanie, Kato, Akiko, McIntosh, Rebecca, Lewis, Phoebe, Ramírez, Francisco, Ruoppolo, Valeria, Ryan, Peter, Seddon, Philip, Sherley, Richard, Vanstreels, Ralph, Waller, Lauren, Woehler, Eric, Trathan, Phil
- Authors: Ropert-Coudert, Yan , Chiaradia, Andre , Ainley, David , Barbosa, Andres , Boersma, Dee , Brasso, Rebecka , Dewar, Meagan , Ellenberg, Ursula , García-Borboroglu, Pablo , Emmerson, Loulse , Hickcox, Rachel , Jenouvrier, Stephanie , Kato, Akiko , McIntosh, Rebecca , Lewis, Phoebe , Ramírez, Francisco , Ruoppolo, Valeria , Ryan, Peter , Seddon, Philip , Sherley, Richard , Vanstreels, Ralph , Waller, Lauren , Woehler, Eric , Trathan, Phil
- Date: 2019
- Type: Text , Journal article
- Relation: Frontiers in Marine Science Vol. 6, no. May (2019), p. 1-23
- Full Text:
- Reviewed:
- Description: Penguins face a wide range of threats. Most observed population changes have been negative and have happened over the last 60 years. Today, populations of 11 penguin species are decreasing. Here we present a review that synthesizes details of threats faced by the world's 18 species of penguins. We discuss alterations to their environment at both breeding sites on land and at sea where they forage. The major drivers of change appear to be climate, and food web alterations by marine fisheries. In addition, we also consider other critical and/or emerging threats, namely human disturbance near nesting sites, pollution due to oil, plastics and chemicals such as mercury and persistent organic compounds. Finally, we assess the importance of emerging pathogens and diseases on the health of penguins. We suggest that in the context of climate change, habitat degradation, introduced exotic species and resource competition with fisheries, successful conservation outcomes will require new and unprecedented levels of science and advocacy. Successful conservation stories of penguin species across their geographical range have occurred where there has been concerted effort across local, national and international boundaries to implement effective conservation planning.
- Authors: Ropert-Coudert, Yan , Chiaradia, Andre , Ainley, David , Barbosa, Andres , Boersma, Dee , Brasso, Rebecka , Dewar, Meagan , Ellenberg, Ursula , García-Borboroglu, Pablo , Emmerson, Loulse , Hickcox, Rachel , Jenouvrier, Stephanie , Kato, Akiko , McIntosh, Rebecca , Lewis, Phoebe , Ramírez, Francisco , Ruoppolo, Valeria , Ryan, Peter , Seddon, Philip , Sherley, Richard , Vanstreels, Ralph , Waller, Lauren , Woehler, Eric , Trathan, Phil
- Date: 2019
- Type: Text , Journal article
- Relation: Frontiers in Marine Science Vol. 6, no. May (2019), p. 1-23
- Full Text:
- Reviewed:
- Description: Penguins face a wide range of threats. Most observed population changes have been negative and have happened over the last 60 years. Today, populations of 11 penguin species are decreasing. Here we present a review that synthesizes details of threats faced by the world's 18 species of penguins. We discuss alterations to their environment at both breeding sites on land and at sea where they forage. The major drivers of change appear to be climate, and food web alterations by marine fisheries. In addition, we also consider other critical and/or emerging threats, namely human disturbance near nesting sites, pollution due to oil, plastics and chemicals such as mercury and persistent organic compounds. Finally, we assess the importance of emerging pathogens and diseases on the health of penguins. We suggest that in the context of climate change, habitat degradation, introduced exotic species and resource competition with fisheries, successful conservation outcomes will require new and unprecedented levels of science and advocacy. Successful conservation stories of penguin species across their geographical range have occurred where there has been concerted effort across local, national and international boundaries to implement effective conservation planning.
- Baumgartner, Lee, Gell, Peter, Thiem, Jason, Finlayson, Colin, Ning, Nathan
- Authors: Baumgartner, Lee , Gell, Peter , Thiem, Jason , Finlayson, Colin , Ning, Nathan
- Date: 2020
- Type: Text , Journal article
- Relation: River Research and Applications Vol. 36, no. 4 (May 2020), p. 645-655
- Full Text: false
- Reviewed:
- Description: Restoration programmes for degraded aquatic ecosystems frequently focus on flow restoration or reinstatement, including recovery targets for volumes of water to be used for environmental benefit. Australia's Murray-Darling Basin is an example of a major system undergoing substantial water reform to balance the needs of competing users, including the environment, within the constraints of an arid climate. This reform revolves around accounting for finite volumes of water that have been shared amongst water users. We argue that while recovering water will provide good outcomes, as a sole intervention, it is not enough to deliver the desired environmental benefits of the reform given the significantly altered state of the catchment. Here, we present 10 measures that could be used to complement planned water recovery actions. These "complementary measures" integrate recovery actions, which when strategically combined with water delivery would significantly enhance water reform efforts to generate environmental outcomes in a highly modified system.
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