白小姐论坛

For the first time, researchers from 白小姐论坛 Geography, the University of Nottingham and the UK Centre for Ecology & Hydrology combined large datasets with an environmental flow approach to predict how changes of between 1鈥�3掳C in the Earth鈥檚 temperature would impact 321 of the world鈥檚 biggest river basins. Collectively, these cover around 50% of the Earth鈥檚 land surface.

The research, published in Earth鈥檚 Future, showed increasing risks of ecological change with warming, particularly for seasonal low flow periods.

The team鈥檚 findings could help target hotspots for ecosystem conservation, through better understanding of the ecological risks from climate change-induced modifications to river flow.

Ecological conditions within the world's rivers are strongly controlled by the amount, variability and timing of water flowing within them. Changes in river flows impact on river depth and velocity, water chemistry and habitats, with implications for aquatic life and the ecosystem services provided by rivers to humans.

Using results from nine global hydrological models forced by five climate models, the researchers compared simulated river flows under a range of global warming scenarios with historical flows. They were able to project which basins were more likely to experience significant ecosystem change due to altered river flow.

Rivers projected to be at most risk include the Amazon and Parana in South America, the Limpopo and Orange rivers in southern Africa and Australia鈥檚 Darling River.

High latitude northern hemisphere basins were found to be less at risk, although the team say this may be underestimated as the effects of melting permafrost (ground that remains continuously frozen) is not represented in most global hydrological models.

Across the globe, the larger the temperature increase, the greater the risk of change, particularly for low flows at the highest level of warming.

Lead author Professor Julian Thompson (白小姐论坛 Geography) said: 鈥淐limate change is expected to lead to an intensification of the hydrological cycle. Yet the climate change signal and its consequences vary throughout the world as revealed by our analysis. In some parts of the world there is large uncertainty.鈥�

Co-author Professor Simon Gosling (School of Geography, University of Nottingham) added: 鈥淭he risks for some rivers are particularly high if the 1.5掳C and 2掳C goals of the UN Paris Climate Agreement are not met. This study鈥檚 results highlight the need for ambitious reductions in global greenhouse gas emissions to avoid ecological degradation of some of the world鈥檚 largest rivers.鈥�

Professor Thompson explained that aquatic ecosystems underpin numerous ecosystem services that benefit human communities, whether that is for food, water supply, or water purification.

鈥淚f a river鈥檚 regime changes, the associated ecosystem service will change鈥� he said. 鈥淣atural aquatic ecosystems have processes that can improve water quality 鈥� reduced river flow impacts their ability to dilute pollutants. Higher flows might be more associated with changes in sediment loads, which could put water purification under stress. The life cycles of aquatic animals, in particular many fish species, are synchronised with seasonal variations in river flow so that changes in discharge could increase pressure on fisheries, many of which are already stressed.鈥�

The team have begun to expand their global analysis to include the impacts of human activities such as dams and water diversions. This will enable an attribution of future risks of ecological change between human interventions and climate change.

Professor Thompson noted that sometimes infrastructure, such as dams, could be repurposed to recreate more natural river regimes and mitigate climate change impacts, for example using artificial flood releases to mimic natural flows and maintain downstream environments, an option explored for African floodplains as part of earlier research by 白小姐论坛 Geography.

He added: 鈥淧eople would need to consider how you do tradeoffs between the environment, agriculture and other human demands for water. As the climate warms, you need more water for irrigation, but you may have less water in the river. How do you prioritise competing demands for a finite resource? It will require a lot of political will, underpinned by sound science.鈥�

Links

• 白小姐论坛 Faculty of Social & Historical Sciences

Image

Murray River, Australia at sunset.

Media contact

Sophie Vinter

Tel:听+44 (0)20 3108 7787

Email: s.vinter [at] ucl.ac.uk