A Metapopulation Model to Assess Water Management Impacts on the Threatened Australian Lungfish, <i>Neoceratodus forsteri</i>
The Australian lungfish, <i>Neoceratodus forsteri</i>, is one of the world’s oldest vertebrate lineages, with a slow life-history and threatened status, requiring immediate conservation efforts. The main threats to lungfish populations are degradation and availability of key macrophyte h...
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2025-01-01
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| author | Charles R. Todd Andrew J. McDougall Scott M. C. Raymond Robin Hale Timothy R. Brown John D. Koehn Henry F. Wootton Steven G. Brooks Adrian M. Kitchingman Tom Espinoza Benjamin G. Fanson Peter K. Kind Sharon M. Marshall David T. Roberts |
| author_facet | Charles R. Todd Andrew J. McDougall Scott M. C. Raymond Robin Hale Timothy R. Brown John D. Koehn Henry F. Wootton Steven G. Brooks Adrian M. Kitchingman Tom Espinoza Benjamin G. Fanson Peter K. Kind Sharon M. Marshall David T. Roberts |
| author_sort | Charles R. Todd |
| collection | DOAJ |
| description | The Australian lungfish, <i>Neoceratodus forsteri</i>, is one of the world’s oldest vertebrate lineages, with a slow life-history and threatened status, requiring immediate conservation efforts. The main threats to lungfish populations are degradation and availability of key macrophyte habitats, water regulation and flow modification. As this long-lived species (at least 77 years) has delayed maturity (mature at 10 years), field monitoring alone will not be enough to inform the challenge of ensuring sustainable populations. A stochastic metapopulation model was developed for the Burnett River (Southeast Queensland, Australia), an important habitat for the lungfish that is a highly regulated system with extensive water infrastructure. The model consists of three interacting populations, where the ecology and biology of the species were translated into an 80-year-class population projection matrix for each population, each with post-development streamflow, habitat and movement rules. The model highlights the longer-term interaction between dams and stream flows on habitat availability and subsequent recruitment. Through a pre-development streamflow, we quantify the impact of high regulation and development on the lungfish population in the Burnett River: a minor decline in the upstream population (e.g., 9.8% decline), a large decline in the middle population (64.2% decline), virtually no change in the downstream population (e.g., 1.2% decline) and a moderate decline in the overall metapopulation (e.g., 22.3% decline). The loss of spawning and feeding habitat remains the main reason for population decline, with implications that the loss will lead to greater pressure on remaining downstream habitat due to combined flow and dam effects and, in turn, to extended periods of recovery of spawning habitat. Our modeling approach substantially advances conservation management of this species, as it can be adapted to suit other populations in other river systems and used to test sensitivity to recovery actions. |
| format | Article |
| id | doaj-art-e44aee62ddfe4028b6160b14f87f913e |
| institution | Kabale University |
| issn | 2410-3888 |
| language | English |
| publishDate | 2025-01-01 |
| publisher | MDPI AG |
| record_format | Article |
| series | Fishes |
| spelling | doaj-art-e44aee62ddfe4028b6160b14f87f913e2025-01-24T13:32:28ZengMDPI AGFishes2410-38882025-01-011012210.3390/fishes10010022A Metapopulation Model to Assess Water Management Impacts on the Threatened Australian Lungfish, <i>Neoceratodus forsteri</i>Charles R. Todd0Andrew J. McDougall1Scott M. C. Raymond2Robin Hale3Timothy R. Brown4John D. Koehn5Henry F. Wootton6Steven G. Brooks7Adrian M. Kitchingman8Tom Espinoza9Benjamin G. Fanson10Peter K. Kind11Sharon M. Marshall12David T. Roberts13Arthur Rylah Institute for Environmental Research, Department of Energy, Environment and Climate Change Action, 123 Brown Street, Heidelberg, VIC 3084, AustraliaDepartment of Regional Development, Manufacturing and Water, 16-32 Enterprise St., Bundaberg, QLD 4670, AustraliaArthur Rylah Institute for Environmental Research, Department of Energy, Environment and Climate Change Action, 123 Brown Street, Heidelberg, VIC 3084, AustraliaArthur Rylah Institute for Environmental Research, Department of Energy, Environment and Climate Change Action, 123 Brown Street, Heidelberg, VIC 3084, AustraliaArthur Rylah Institute for Environmental Research, Department of Energy, Environment and Climate Change Action, 123 Brown Street, Heidelberg, VIC 3084, AustraliaArthur Rylah Institute for Environmental Research, Department of Energy, Environment and Climate Change Action, 123 Brown Street, Heidelberg, VIC 3084, AustraliaArthur Rylah Institute for Environmental Research, Department of Energy, Environment and Climate Change Action, 123 Brown Street, Heidelberg, VIC 3084, AustraliaElectrofishing Services, 131 McClintock Rd, Wamuran, QLD 4512, AustraliaArthur Rylah Institute for Environmental Research, Department of Energy, Environment and Climate Change Action, 123 Brown Street, Heidelberg, VIC 3084, AustraliaDepartment of Regional Development, Manufacturing and Water, 16-32 Enterprise St., Bundaberg, QLD 4670, AustraliaArthur Rylah Institute for Environmental Research, Department of Energy, Environment and Climate Change Action, 123 Brown Street, Heidelberg, VIC 3084, AustraliaDepartment of Agriculture and Fisheries, 275 George St., Brisbane, QLD 4000, AustraliaDepartment of Regional Development, Manufacturing and Water, 16-32 Enterprise St., Bundaberg, QLD 4670, AustraliaSeqwater, 117 Brisbane Street, Ipswich, QLD 4305, AustraliaThe Australian lungfish, <i>Neoceratodus forsteri</i>, is one of the world’s oldest vertebrate lineages, with a slow life-history and threatened status, requiring immediate conservation efforts. The main threats to lungfish populations are degradation and availability of key macrophyte habitats, water regulation and flow modification. As this long-lived species (at least 77 years) has delayed maturity (mature at 10 years), field monitoring alone will not be enough to inform the challenge of ensuring sustainable populations. A stochastic metapopulation model was developed for the Burnett River (Southeast Queensland, Australia), an important habitat for the lungfish that is a highly regulated system with extensive water infrastructure. The model consists of three interacting populations, where the ecology and biology of the species were translated into an 80-year-class population projection matrix for each population, each with post-development streamflow, habitat and movement rules. The model highlights the longer-term interaction between dams and stream flows on habitat availability and subsequent recruitment. Through a pre-development streamflow, we quantify the impact of high regulation and development on the lungfish population in the Burnett River: a minor decline in the upstream population (e.g., 9.8% decline), a large decline in the middle population (64.2% decline), virtually no change in the downstream population (e.g., 1.2% decline) and a moderate decline in the overall metapopulation (e.g., 22.3% decline). The loss of spawning and feeding habitat remains the main reason for population decline, with implications that the loss will lead to greater pressure on remaining downstream habitat due to combined flow and dam effects and, in turn, to extended periods of recovery of spawning habitat. Our modeling approach substantially advances conservation management of this species, as it can be adapted to suit other populations in other river systems and used to test sensitivity to recovery actions.https://www.mdpi.com/2410-3888/10/1/22damsenvironmental flowsthreatened speciespopulation viability analysisslow life historylong-lived |
| spellingShingle | Charles R. Todd Andrew J. McDougall Scott M. C. Raymond Robin Hale Timothy R. Brown John D. Koehn Henry F. Wootton Steven G. Brooks Adrian M. Kitchingman Tom Espinoza Benjamin G. Fanson Peter K. Kind Sharon M. Marshall David T. Roberts A Metapopulation Model to Assess Water Management Impacts on the Threatened Australian Lungfish, <i>Neoceratodus forsteri</i> Fishes dams environmental flows threatened species population viability analysis slow life history long-lived |
| title | A Metapopulation Model to Assess Water Management Impacts on the Threatened Australian Lungfish, <i>Neoceratodus forsteri</i> |
| title_full | A Metapopulation Model to Assess Water Management Impacts on the Threatened Australian Lungfish, <i>Neoceratodus forsteri</i> |
| title_fullStr | A Metapopulation Model to Assess Water Management Impacts on the Threatened Australian Lungfish, <i>Neoceratodus forsteri</i> |
| title_full_unstemmed | A Metapopulation Model to Assess Water Management Impacts on the Threatened Australian Lungfish, <i>Neoceratodus forsteri</i> |
| title_short | A Metapopulation Model to Assess Water Management Impacts on the Threatened Australian Lungfish, <i>Neoceratodus forsteri</i> |
| title_sort | metapopulation model to assess water management impacts on the threatened australian lungfish i neoceratodus forsteri i |
| topic | dams environmental flows threatened species population viability analysis slow life history long-lived |
| url | https://www.mdpi.com/2410-3888/10/1/22 |
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