TY - JOUR
T1 - A compendium of ecological knowledge for restoration of freshwater fishes in Australia's Murray-Darling Basin
AU - Koehn, John D.
AU - Raymond, Scott M.
AU - Stuart, Ivor
AU - Todd, Charles R.
AU - Balcombe, Stephen R.
AU - Zampatti, Brenton P.
AU - Bamford, Heleena
AU - Ingram, Brett A.
AU - Bice, Christopher M.
AU - Burndred, Kate
AU - Butler, Gavin
AU - Baumgartner, Lee
AU - Clunie, Pam
AU - Ellis, Iain
AU - Forbes, Jamin P.
AU - Hutchison, Michael
AU - Koster, Wayne M.
AU - Lintermans, Mark
AU - Lyon, Jarod P.
AU - Mallen-Cooper, Martin
AU - McLellan, Matthew
AU - Pearce, Luke
AU - Ryall, Jordi
AU - Sharpe, Clayton
AU - Stoessel, Daniel J.
AU - Thiem, Jason D.
AU - Tonkin, Zeb
AU - Townsend, Anthony
AU - Ye, Qifeng
PY - 2020/10
Y1 - 2020/10
N2 - Many freshwater fishes are imperilled globally, and there is a need for easily accessible, contemporary ecological knowledge to guide management. This compendium contains knowledge collated from over 600 publications and 27 expert workshops to support the restoration of 9 priority native freshwater fish species, representative of the range of life-history strategies and values in south-eastern Australia's Murray-Darling Basin. To help prioritise future research investment and restoration actions, ecological knowledge and threats were assessed for each species and life stage. There is considerable new knowledge (80% of publications used were from the past 20 years), but this varied among species and life stages, with most known about adults, then egg, juvenile and larval stages (in that order). The biggest knowledge gaps concerned early life stage requirements, survival, recruitment, growth rates, condition and movements. Key threats include reduced longitudinal and lateral connectivity, altered flows, loss of refugia, reductions in both flowing (lotic) and slackwater riverine habitats, degradation of wetland habitats, alien species interactions and loss of aquatic vegetation. Examples and case studies illustrating the application of this knowledge to underpin effective restoration management are provided. This extensive ecological evidence base for multiple species is presented in a tabular format to assist a range of readers.
AB - Many freshwater fishes are imperilled globally, and there is a need for easily accessible, contemporary ecological knowledge to guide management. This compendium contains knowledge collated from over 600 publications and 27 expert workshops to support the restoration of 9 priority native freshwater fish species, representative of the range of life-history strategies and values in south-eastern Australia's Murray-Darling Basin. To help prioritise future research investment and restoration actions, ecological knowledge and threats were assessed for each species and life stage. There is considerable new knowledge (80% of publications used were from the past 20 years), but this varied among species and life stages, with most known about adults, then egg, juvenile and larval stages (in that order). The biggest knowledge gaps concerned early life stage requirements, survival, recruitment, growth rates, condition and movements. Key threats include reduced longitudinal and lateral connectivity, altered flows, loss of refugia, reductions in both flowing (lotic) and slackwater riverine habitats, degradation of wetland habitats, alien species interactions and loss of aquatic vegetation. Examples and case studies illustrating the application of this knowledge to underpin effective restoration management are provided. This extensive ecological evidence base for multiple species is presented in a tabular format to assist a range of readers.
KW - Australia
KW - environmental flows
KW - functional traits
KW - knowledge transfer
KW - native freshwater fish
KW - rehabilitation
UR - http://www.scopus.com/inward/record.url?scp=85095121295&partnerID=8YFLogxK
U2 - 10.1071/MF20127
DO - 10.1071/MF20127
M3 - Review article
AN - SCOPUS:85095121295
SN - 1323-1650
VL - 71
SP - 1391
EP - 1463
JO - Marine and Freshwater Research
JF - Marine and Freshwater Research
IS - 11
ER -