Testing the Dispersal-Origin-Status-Impact (DOSI) scheme to prioritise non-native and translocated species management
Authors: Tarkan, A.S., Emiroğlu, Ö., Aksu, S., Kurtul, I., Błońska, D., Bayçelebi, E., Soto, I., Chan, S.S., Haubrock, P.J. and Bradshaw, C.J.A.
Journal: Scientific Reports
Volume: 14
Issue: 1
eISSN: 2045-2322
DOI: 10.1038/s41598-024-82284-z
Abstract:Assessing actual and potential impacts of non-native species is necessary for prioritising their management. Traditional assessments often occur at the species level, potentially overlooking differences among populations. The recently developed Dispersal-Origin-Status-Impact (DOSI) assessment scheme addresses this by treating biological invasions as population-level phenomena, incorporating the complexities affecting populations of non-native species. We applied the DOSI scheme to the non-native and translocated species reported in a shallow alluvial lake (Lake Gala) and a reservoir (Sığırcı Reservoir) in north-western Türkiye. DOSI identified 12 established species across both ecosystems, including nine fish, two invertebrates, and one mammal. Most species received High and Medium–High priority rankings, in both sites. In contrast, Medium and Low priority rankings were less common, each occurring once in Lake Gala and four times in Sığırcı Reservoir. These high-priority species warrant targeted management interventions due to their established status, autonomous spread, and observed negative impacts. By enabling a more nuanced and context-specific approach, DOSI facilitates the development of targeted strategies for managing species posing the highest risks. Moreover, DOSI’s focus on population-level assessment within ecosystems is highly relevant for stakeholders, decision-makers, and environmental managers, because it provides a more detailed and precise unit of evaluation.
https://eprints.bournemouth.ac.uk/40677/
Source: Scopus
Testing the Dispersal-Origin-Status-Impact (DOSI) scheme to prioritise non-native and translocated species management.
Authors: Tarkan, A.S., Emiroğlu, Ö., Aksu, S., Kurtul, I., Błońska, D., Bayçelebi, E., Soto, I., Chan, S.S., Haubrock, P.J. and Bradshaw, C.J.A.
Journal: Sci Rep
Volume: 14
Issue: 1
Pages: 31059
eISSN: 2045-2322
DOI: 10.1038/s41598-024-82284-z
Abstract:Assessing actual and potential impacts of non-native species is necessary for prioritising their management. Traditional assessments often occur at the species level, potentially overlooking differences among populations. The recently developed Dispersal-Origin-Status-Impact (DOSI) assessment scheme addresses this by treating biological invasions as population-level phenomena, incorporating the complexities affecting populations of non-native species. We applied the DOSI scheme to the non-native and translocated species reported in a shallow alluvial lake (Lake Gala) and a reservoir (Sığırcı Reservoir) in north-western Türkiye. DOSI identified 12 established species across both ecosystems, including nine fish, two invertebrates, and one mammal. Most species received High and Medium-High priority rankings, in both sites. In contrast, Medium and Low priority rankings were less common, each occurring once in Lake Gala and four times in Sığırcı Reservoir. These high-priority species warrant targeted management interventions due to their established status, autonomous spread, and observed negative impacts. By enabling a more nuanced and context-specific approach, DOSI facilitates the development of targeted strategies for managing species posing the highest risks. Moreover, DOSI's focus on population-level assessment within ecosystems is highly relevant for stakeholders, decision-makers, and environmental managers, because it provides a more detailed and precise unit of evaluation.
https://eprints.bournemouth.ac.uk/40677/
Source: PubMed
Testing the Dispersal-Origin-Status-Impact (DOSI) scheme to prioritise non-native and translocated species management
Authors: Tarkan, A.S., Emiroglu, O., Aksu, S., Kurtul, I., Blonska, D., Baycelebi, E., Soto, I., Chan, S.S., Haubrock, P.J. and Bradshaw, C.J.A.
Journal: SCIENTIFIC REPORTS
Volume: 14
Issue: 1
ISSN: 2045-2322
DOI: 10.1038/s41598-024-82284-z
https://eprints.bournemouth.ac.uk/40677/
Source: Web of Science (Lite)
Testing the Dispersal-Origin-Status-Impact (DOSI) scheme to prioritise non-native and translocated species management.
Authors: Tarkan, A.S., Emiroğlu, Ö., Aksu, S., Kurtul, I., Błońska, D., Bayçelebi, E., Soto, I., Chan, S.S., Haubrock, P.J. and Bradshaw, C.J.A.
Journal: Scientific reports
Volume: 14
Issue: 1
Pages: 31059
eISSN: 2045-2322
ISSN: 2045-2322
DOI: 10.1038/s41598-024-82284-z
Abstract:Assessing actual and potential impacts of non-native species is necessary for prioritising their management. Traditional assessments often occur at the species level, potentially overlooking differences among populations. The recently developed Dispersal-Origin-Status-Impact (DOSI) assessment scheme addresses this by treating biological invasions as population-level phenomena, incorporating the complexities affecting populations of non-native species. We applied the DOSI scheme to the non-native and translocated species reported in a shallow alluvial lake (Lake Gala) and a reservoir (Sığırcı Reservoir) in north-western Türkiye. DOSI identified 12 established species across both ecosystems, including nine fish, two invertebrates, and one mammal. Most species received High and Medium-High priority rankings, in both sites. In contrast, Medium and Low priority rankings were less common, each occurring once in Lake Gala and four times in Sığırcı Reservoir. These high-priority species warrant targeted management interventions due to their established status, autonomous spread, and observed negative impacts. By enabling a more nuanced and context-specific approach, DOSI facilitates the development of targeted strategies for managing species posing the highest risks. Moreover, DOSI's focus on population-level assessment within ecosystems is highly relevant for stakeholders, decision-makers, and environmental managers, because it provides a more detailed and precise unit of evaluation.
https://eprints.bournemouth.ac.uk/40677/
Source: Europe PubMed Central
Testing the Dispersal-Origin-Status-Impact (DOSI) scheme to prioritise non-native and translocated species management
Authors: Tarkan, A.S., Emiroğlu, Ö., Aksu, S., Kurtul, I., Błońska, D., Bayçelebi, E., Soto, I., Chan, S.S., Haubrock, P.J. and Bradshaw, C.J.A.
Journal: Scientific Reports
Volume: 14
Abstract:Assessing actual and potential impacts of non-native species is necessary for prioritising their management. Traditional assessments often occur at the species level, potentially overlooking differences among populations. The recently developed Dispersal-Origin-Status-Impact (DOSI) assessment scheme addresses this by treating biological invasions as population-level phenomena, incorporating the complexities affecting populations of non-native species. We applied the DOSI scheme to the non-native and translocated species reported in a shallow alluvial lake (Lake Gala) and a reservoir (Sığırcı Reservoir) in north-western Türkiye. DOSI identified 12 established species across both ecosystems, including nine fish, two invertebrates, and one mammal. Most species received High and Medium–High priority rankings, in both sites. In contrast, Medium and Low priority rankings were less common, each occurring once in Lake Gala and four times in Sığırcı Reservoir. These high-priority species warrant targeted management interventions due to their established status, autonomous spread, and observed negative impacts. By enabling a more nuanced and context-specific approach, DOSI facilitates the development of targeted strategies for managing species posing the highest risks. Moreover, DOSI’s focus on population-level assessment within ecosystems is highly relevant for stakeholders, decision-makers, and environmental managers, because it provides a more detailed and precise unit of evaluation.
https://eprints.bournemouth.ac.uk/40677/
Source: BURO EPrints