One of the most obvious and expected impacts of climate change is a shift in the distributional range of organisms, which could have considerable ecological and economic consequences. Australian waters are hotspots for climate-induced environmental changes; here, we review these potential changes and their apparent and potential implications for freshwater, estuarine and marine fish. Our meta-analysis detected 300 papers globally on 'fish' and 'range shifts', with ∼7% being from Australia. Of the Australian papers, only one study exhibited definitive evidence of climate-induced range shifts, with most studies focussing instead on future predictions. There was little consensus in the literature regarding the definition of 'range', largely be...
Climate change poses a severe global threat to freshwater ecosystems. Aestivating freshwater fauna (...
This study uses species distribution modeling and physiological and functional traits to predict the...
This study uses species distribution modeling and physiological and functional traits to predict the...
One of the most obvious and expected impacts of climate change is a shift in the distributional rang...
Freshwater environments and their fishes are particularly vulnerable to climate change because the p...
There are few quantitative predictions for the impacts of climate change on freshwater fish in Austr...
Climate‐driven changes in the distribution of species are a pervasive and accelerating impact of cli...
Anthropogenic climate change is already apparent and will have significant, ongoing impacts on Austr...
Shifts in species ranges are a global phenomenon, well known to occur in response to a changing clim...
© The authors 2018. Climate change and associated increased water temperatures pose a substantial th...
Climate change will affect populations and communities of marine fishes in many ways, ranging from i...
[Departement_IRSTEA]Eaux [TR1_IRSTEA]QUASAREInternational audience1. Climate change could be one of ...
Aim: Climate change is redistributing species globally, resulting in altered community structures an...
1. Climate change could be one of the main threats faced by aquatic ecosystems and freshwater biodiv...
Estuaries are especially vulnerable to the impacts of climate change because changes in climatic and...
Climate change poses a severe global threat to freshwater ecosystems. Aestivating freshwater fauna (...
This study uses species distribution modeling and physiological and functional traits to predict the...
This study uses species distribution modeling and physiological and functional traits to predict the...
One of the most obvious and expected impacts of climate change is a shift in the distributional rang...
Freshwater environments and their fishes are particularly vulnerable to climate change because the p...
There are few quantitative predictions for the impacts of climate change on freshwater fish in Austr...
Climate‐driven changes in the distribution of species are a pervasive and accelerating impact of cli...
Anthropogenic climate change is already apparent and will have significant, ongoing impacts on Austr...
Shifts in species ranges are a global phenomenon, well known to occur in response to a changing clim...
© The authors 2018. Climate change and associated increased water temperatures pose a substantial th...
Climate change will affect populations and communities of marine fishes in many ways, ranging from i...
[Departement_IRSTEA]Eaux [TR1_IRSTEA]QUASAREInternational audience1. Climate change could be one of ...
Aim: Climate change is redistributing species globally, resulting in altered community structures an...
1. Climate change could be one of the main threats faced by aquatic ecosystems and freshwater biodiv...
Estuaries are especially vulnerable to the impacts of climate change because changes in climatic and...
Climate change poses a severe global threat to freshwater ecosystems. Aestivating freshwater fauna (...
This study uses species distribution modeling and physiological and functional traits to predict the...
This study uses species distribution modeling and physiological and functional traits to predict the...