DRYvER
The 2015 Paris Agreement stresses the need to protect biodiversity and secure the functional integrity of ecosystems, while fighting against climate change and adapting to its impacts. River networks are among Earth’s most threatened hot-spots of biodiversity. They act as ecological corridors for species and they safeguard biodiversity by linking terrestrial and aquatic ecosystems down to the sea. River networks also contribute substantially to the carbon cycle (including the evasion of carbon dioxide into the atmosphere) and they provide key ecosystem services (e.g. supply drinking water and food, climate regulation) which are essential to sustain human well-being. In river networks, aquatic communities, ecosystem functions and services are organised through local environmental constraints (e.g. physical habitat) and regional fluxes of organisms (dispersal) and resources (e.g. organic matter transport). These fluxes are threatened by climate change and increased human water use, which cause rivers and streams to dry up worldwide, including in Europe. Over 50% of the global river network include drying channels and this share is dramatically increasing worldwide. Drying river networks (DRNs) are not only crucial in the European Union (EU) but also worldwide, including South America, harbouring 30% of Earth's freshwaters and several of the world’s major biodiversity hotspots.
Because shifts from permanent to intermittent flow regimes represent major tipping points for rivers, with often irreversible environmental and societal consequences (including massive fish deaths and impaired water quality) we must urgently understand ecosystem processes and socio-ecological consequences of drying. However, DRNs have received little attention from scientists and policy makers, and the public is unaware of their importance. This makes predicting how climate change will alter riverine drying patterns and affect their biodiversity, ecosystem functions and services and the consequences of such alterations for both nature and humans impossible. Consequently, there is no effective integrated biodiversity conservation or ecosystem management strategy of DRNs facing climate change.
The Horizon 2020 project, DRYvER (Securing biodiversity, functional integrity and ecosystem services in DRYing riVER networks) consists of multidisciplinary teams of 25 experts from 11 countries in Europe, South America, China and the USA will build on EU efforts to investigate how climate change has cascading impacts on biodiversity, ecosystem functions and ecosystem services of DRNs. DRYvER aims to collect, analyse and model data from nine drying river networks (DRN) in Europe and South America to create a novel global meta-system approach that incorporates hydrology, socio-economics, ecology and biogeochemistry in order to craft strategies, tools and recommendations for adaptive management of river networks.
DRYvER consortium member