Diversity and Endemism in Freshwater Ecosystems
By Claire Asher, on 6 November 2014
Freshwater ecosystems are ecologically important, providing a home to hundreds of thousands of species and offering us vital ecosystem servies. However, many freshwater species are currently threatened by habitat loss, pollution, disease and invasive species. Recent research from GEE indicates that freshwater species are at greater risk of extinction than terrestrial species. Using data on over 7000 freshwater species across the world, GEE researchers also show a lack of correlation between patterns of species richness across different freshwater groups, suggesting that biodiversity metrics must be carefully selected to inform conservation priorities.
Freshwater ecosystems are of great conservation importance, estimated to provide habitat for over 125,000 species of plant and animal, as well as crucial ecosystem services such as flood protection, food, water filtration and carbon sequestration. However, many freshwater species are threatened and in decline. Freshwater ecosystems are highly connected, meaning that habitat fragmentation can have serious implications for species, while pressures such as pollution, invasive species and disease can be easily transmitted between different freshwater habitats. Recent work by GEE academics Dr Ben Collen, in collaboration with academics from the Institute of Zoology, investigated the global patterns of freshwater diversity and endemism using a new global-level dataset including over 7000 freshwater mammals, amphibians, reptiles, fishes, crabs and crayfish. Many freshwater species occupy quite small ranges and the authors were also interested in the extent to which species richness and the distribution threatened species correlated between taxonomic groups and geographical areas.
The study showed that almost a third of all freshwater species considered are threatened with extinction, with remarkably little large-scale geographical variation in threats. Freshwater diversity is highest in the Amazon basin, largely driven by extremely high diversity of amphibians in this region. Other important regions for freshwater biodiversity include the south-eastern USA, West Africa, the Ganges and Mekong basins, and areas of Malaysia and Indonesia. However, there was no consistent geographical pattern of species richness in freshwater ecosystems.
Freshwater species in certain habitats are more at risk than others – 34% of species living in rivers and streams are under threat, compared to just 20% of marsh and lake species. It appears that flowing freshwater habitats may be more severely affected by human activities than more stationary ones. Freshwater species are also consistently more threatened than their terrestrial counterparts. Reptiles, according to this study, are particularly at risk from extinction, with nearly half of all species threatened or near threatened. This makes reptiles the most threatened freshwater taxa considered in this analysis. The authors identified key process that were threatening freshwater species in this dataset – habitat degradation, water pollution and over-exploitation are the biggest risks. Habitat loss and degradation is the most common threat, affecting over 80% of threatened freshwater species.
That there was relatively little congruence between different taxa in the distribution of species richness and threatened species in freshwater ecosystems suggests that conservation planning that considers only one or a few taxa may miss crucial areas of conservation priority. For example, conservation planning rarely considers patterns of invertebrate richness, but if these groups are affected differently and in different regions than reptiles and amphibians, say, then they may be overlooked in initiatives that aim to protect them. Further, different ways to measure the health of populations and ecosystems yield different patterns. The metrics we use to identify threatened species, upon which conservation decisions are based, must be carefully considered if we are to suceeed in protecting valuable ecosystems and the services the provide.
This research was made possible by funding from the Rufford Foundation and the European Commission