Continental-scale decreases in shorebird populations in Australia
- Clemens, Robert, Rogers, Danny, Hansen, Birgita, Gosbell, Ken, Minton, Clive, Straw, Phil, Bamford, Mike, Woehler, Eric, Milton, David, Weston, Michael, Venables, Bill, Weller, Dan, Hassell, Chris, Rutherford, Bill, Onton, Kimberly, Herrod, Ashley, Studds, Colin, Choi, Chi-Yeung, Dhanjal-Adams, Kiran, Murray, Nicholas, Skilleter, Gregory, Fuller, Richard
- Authors: Clemens, Robert , Rogers, Danny , Hansen, Birgita , Gosbell, Ken , Minton, Clive , Straw, Phil , Bamford, Mike , Woehler, Eric , Milton, David , Weston, Michael , Venables, Bill , Weller, Dan , Hassell, Chris , Rutherford, Bill , Onton, Kimberly , Herrod, Ashley , Studds, Colin , Choi, Chi-Yeung , Dhanjal-Adams, Kiran , Murray, Nicholas , Skilleter, Gregory , Fuller, Richard
- Date: 2016
- Type: Text , Journal article
- Relation: Emu Vol. 116, no. 2 (2016), p. 119-135
- Full Text:
- Reviewed:
- Description: Decreases in shorebird populations are increasingly evident worldwide, especially in the East Asian-Australasian Flyway (EAAF). To arrest these declines, it is important to understand the scale of both the problem and the solutions. We analysed an expansive Australian citizen-science dataset, spanning the period 1973 to 2014, to explore factors related to differences in trends among shorebird populations in wetlands throughout Australia. Of seven resident Australian shorebird species, the four inland species exhibited continental decreases, whereas the three coastal species did not. Decreases in inland resident shorebirds were related to changes in availability of water at non-tidal wetlands, suggesting that degradation of wetlands in Australia's interior is playing a role in these declines. For migratory shorebirds, the analyses revealed continental decreases in abundance in 12 of 19 species, and decreases in 17 of 19 in the southern half of Australia over the past 15 years. Many trends were strongly associated with continental gradients in latitude or longitude, suggesting some large-scale patterns in the decreases, with steeper declines often evident in southern Australia. After accounting for this effect, local variables did not explain variation in migratory shorebird trends between sites. Our results are consistent with other studies indicating that decreases in migratory shorebird populations in the EAAF are most likely being driven primarily by factors outside Australia. This reinforces the need for urgent overseas conservation actions. However, substantially heterogeneous trends within Australia, combined with declines of inland resident shorebirds indicate effective management of Australian shorebird habitat remains important. © BirdLife Australia 2016.
- Authors: Clemens, Robert , Rogers, Danny , Hansen, Birgita , Gosbell, Ken , Minton, Clive , Straw, Phil , Bamford, Mike , Woehler, Eric , Milton, David , Weston, Michael , Venables, Bill , Weller, Dan , Hassell, Chris , Rutherford, Bill , Onton, Kimberly , Herrod, Ashley , Studds, Colin , Choi, Chi-Yeung , Dhanjal-Adams, Kiran , Murray, Nicholas , Skilleter, Gregory , Fuller, Richard
- Date: 2016
- Type: Text , Journal article
- Relation: Emu Vol. 116, no. 2 (2016), p. 119-135
- Full Text:
- Reviewed:
- Description: Decreases in shorebird populations are increasingly evident worldwide, especially in the East Asian-Australasian Flyway (EAAF). To arrest these declines, it is important to understand the scale of both the problem and the solutions. We analysed an expansive Australian citizen-science dataset, spanning the period 1973 to 2014, to explore factors related to differences in trends among shorebird populations in wetlands throughout Australia. Of seven resident Australian shorebird species, the four inland species exhibited continental decreases, whereas the three coastal species did not. Decreases in inland resident shorebirds were related to changes in availability of water at non-tidal wetlands, suggesting that degradation of wetlands in Australia's interior is playing a role in these declines. For migratory shorebirds, the analyses revealed continental decreases in abundance in 12 of 19 species, and decreases in 17 of 19 in the southern half of Australia over the past 15 years. Many trends were strongly associated with continental gradients in latitude or longitude, suggesting some large-scale patterns in the decreases, with steeper declines often evident in southern Australia. After accounting for this effect, local variables did not explain variation in migratory shorebird trends between sites. Our results are consistent with other studies indicating that decreases in migratory shorebird populations in the EAAF are most likely being driven primarily by factors outside Australia. This reinforces the need for urgent overseas conservation actions. However, substantially heterogeneous trends within Australia, combined with declines of inland resident shorebirds indicate effective management of Australian shorebird habitat remains important. © BirdLife Australia 2016.
Insights from long-term shorebird monitoring for tracking change in ecological character of Australasian Ramsar sites
- Hansen, Birgita, Szabo, Judit, Fuller, Richard, Clemens, Robert, Rogers, Danny, Milton, David
- Authors: Hansen, Birgita , Szabo, Judit , Fuller, Richard , Clemens, Robert , Rogers, Danny , Milton, David
- Date: 2021
- Type: Text , Journal article
- Relation: Biological Conservation Vol. 260, no. (2021), p.
- Full Text:
- Reviewed:
- Description: The Ramsar Convention is the centrepiece of international efforts for wetland conservation, aiming to maintain the ecological character of wetlands through holistic ecosystem management. Here, we review studies on shorebird populations at individual Australasian Ramsar sites and compare these against original listings under Criterion 6 to determine if there have been potential changes in ecological character. One to 12 migratory shorebird species have declined at four New Zealand and 18 Australian Ramsar sites over a 12 to 36-year period, resulting in 22 species (at 13 sites) no longer reaching Criterion 6 thresholds for Ramsar designation. In addition, 10 species at six Australian sites had exceeded the Limits of Acceptable Change. Despite these concerning results, there were remarkably few published site-based determinations of listed shorebird species' trends (and even fewer that were ≤5 years old). This is especially surprising since shorebird populations are regularly monitored at 27 out of 35 Australasian Ramsar sites (listed on the basis of one or more shorebird species). Thus, despite the volume of data available for analysis, long-term shorebird monitoring provides only limited insights about Ramsar ecological character. The value of these data would be greatly enhanced through complementary monitoring of other ecological characters at sites, particularly where shorebird populations provide early warning signs of potential deterioration. The main impediment to achieving a good understanding of how Ramsar sites are changing in Australasia appears to be a lack of analysis and centralised system for data and analytics, rather than a lack of monitoring data. © 2021 Elsevier Ltd
- Authors: Hansen, Birgita , Szabo, Judit , Fuller, Richard , Clemens, Robert , Rogers, Danny , Milton, David
- Date: 2021
- Type: Text , Journal article
- Relation: Biological Conservation Vol. 260, no. (2021), p.
- Full Text:
- Reviewed:
- Description: The Ramsar Convention is the centrepiece of international efforts for wetland conservation, aiming to maintain the ecological character of wetlands through holistic ecosystem management. Here, we review studies on shorebird populations at individual Australasian Ramsar sites and compare these against original listings under Criterion 6 to determine if there have been potential changes in ecological character. One to 12 migratory shorebird species have declined at four New Zealand and 18 Australian Ramsar sites over a 12 to 36-year period, resulting in 22 species (at 13 sites) no longer reaching Criterion 6 thresholds for Ramsar designation. In addition, 10 species at six Australian sites had exceeded the Limits of Acceptable Change. Despite these concerning results, there were remarkably few published site-based determinations of listed shorebird species' trends (and even fewer that were ≤5 years old). This is especially surprising since shorebird populations are regularly monitored at 27 out of 35 Australasian Ramsar sites (listed on the basis of one or more shorebird species). Thus, despite the volume of data available for analysis, long-term shorebird monitoring provides only limited insights about Ramsar ecological character. The value of these data would be greatly enhanced through complementary monitoring of other ecological characters at sites, particularly where shorebird populations provide early warning signs of potential deterioration. The main impediment to achieving a good understanding of how Ramsar sites are changing in Australasia appears to be a lack of analysis and centralised system for data and analytics, rather than a lack of monitoring data. © 2021 Elsevier Ltd
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