The challenges that climate change poses for marine ecosystems are already manifesting in impacts at the species, population, and community levels in Australia, particularly in Tasmania and tropical northern Australia. Many species and habitats are already under threat as a result of human activities, and the additional pressure from climate change significantly increases the challenge for marine conservation and management. Climate change impacts are expected to magnify as sea surface temperatures, ocean chemistry, ocean circulation, sea level, rainfall, and storm patterns continue to change this century. In particular, keystone species that form the foundation of marine habitats, such as coral reefs, kelp beds, and temperate rocky reefs, ...
Climate change is likely to have important consequences for spawning patterns and productivity cycle...
The effects of anthropogenic climate change on biodiversity are well known for some high‐profile Aus...
The effects of anthropogenic climate change on biodiversity are well known for some high-profile Aus...
The challenges that climate change poses for marine ecosystems are already manifesting in impacts at...
The challenges that climate change poses for marine ecosystems are already manifesting in impacts at...
Tropical Oceania, including Melanesia, Polynesia, Micronesia and northern Australia, is one of the m...
Temperate Australia is a global hotspot for marine biodiversity and its waters have experienced well...
Australia’s marine life is highly diverse and endemic. Here we describe projections of climate chang...
Scientists from James Cook University, CSIRO and Griffith University collaborated to develop a proce...
Natural ecosystems are generally considered to be one of the most vulnerable sectors to negative imp...
Ecosystem reconfigurations arising from climate-driven changes in species distributions are expected...
The potential impact of climate change on marine life and ecosystems in Australia is considerably l...
Climate change is leading to a redistribution of marine species, altering ecosystem dynamics as spec...
Summary: Australia has one of the most species rich and endemic temperate algal floras in the world,...
Climate change is likely to have important consequences for spawning patterns and productivity cycle...
The effects of anthropogenic climate change on biodiversity are well known for some high‐profile Aus...
The effects of anthropogenic climate change on biodiversity are well known for some high-profile Aus...
The challenges that climate change poses for marine ecosystems are already manifesting in impacts at...
The challenges that climate change poses for marine ecosystems are already manifesting in impacts at...
Tropical Oceania, including Melanesia, Polynesia, Micronesia and northern Australia, is one of the m...
Temperate Australia is a global hotspot for marine biodiversity and its waters have experienced well...
Australia’s marine life is highly diverse and endemic. Here we describe projections of climate chang...
Scientists from James Cook University, CSIRO and Griffith University collaborated to develop a proce...
Natural ecosystems are generally considered to be one of the most vulnerable sectors to negative imp...
Ecosystem reconfigurations arising from climate-driven changes in species distributions are expected...
The potential impact of climate change on marine life and ecosystems in Australia is considerably l...
Climate change is leading to a redistribution of marine species, altering ecosystem dynamics as spec...
Summary: Australia has one of the most species rich and endemic temperate algal floras in the world,...
Climate change is likely to have important consequences for spawning patterns and productivity cycle...
The effects of anthropogenic climate change on biodiversity are well known for some high‐profile Aus...
The effects of anthropogenic climate change on biodiversity are well known for some high-profile Aus...