David L. Strayer scite author profile

SUMMARY1. Biological invasions are numerous in fresh waters around the world. At least hundreds of freshwater species have been moved outside of their native ranges by vectors such as ballast water, canals, deliberate introductions, and releases from aquaria, gardens, and bait buckets. As a result, many bodies of fresh water now contain dozens of alien species. 2. Invasions are highly nonrandom with respect to the taxonomic identity and biological traits of the invaders, the ecological characteristics of the ecosystems that are invaded, and the geographical location of the ecosystems that supply and receive the invaders. 3. Some invaders have had deep and pervasive effects on the ecosystems that they invade. Classes of ecologically important invaders in fresh waters include molluscs that are primary consumers and disrupt the food web from its base, fishes that disrupt the food web from its apex or centre, decapods that act as powerful omnivores, aquatic plants that have strong engineering effects and affect the quality and quantity of primary production, and diseases, which probably have been underestimated as an ecological force. 4. The number of alien species in freshwater ecosystems will increase in the future as new aliens are moved outside of their native ranges by humans, and as established aliens fill their potential ranges. Alien species create ''no-analogue'' ecosystems that will be difficult to manage in the future. We may be able to reduce future impacts of invaders by making more serious efforts to prevent new invasions and manage existing invaders. 5. Thematic implications: interactions between alien species and other contemporary stressors of freshwater ecosystems are strong and varied. Because disturbance is generally thought to favour invasions, stressed ecosystems may be especially susceptible to invasions, as are highly artificial ecosystems. In turn, alien species can strongly alter the hydrology, biogeochemical cycling, and biotic composition of invaded ecosystems, and thus modulate the effects of other stressors. In general, interactions between alien species and other stressors are poorly studied.

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Mollusks as ecosystem engineers: the role of shell production in aquatic habitats

Gutiérrez¹,

Jones²,

Strayer³

et al. 2003

Oikos

878

584

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The Contribution of Headwater Streams to Biodiversity in River Networks¹

Meyer

Strayer

Wallace

et al. 2007

J American Water Resour Assoc

597

478

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The diversity of life in headwater streams (intermittent, first and second order) contributes to the biodiversity of a river system and its riparian network. Small streams differ widely in physical, chemical, and biotic attributes, thus providing habitats for a range of unique species. Headwater species include permanent residents as well as migrants that travel to headwaters at particular seasons or life stages. Movement by migrants links headwaters with downstream and terrestrial ecosystems, as do exports such as emerging and drifting insects. We review the diversity of taxa dependent on headwaters. Exemplifying this diversity are three unmapped headwaters that support over 290 taxa. Even intermittent streams may support rich and distinctive biological communities, in part because of the predictability of dry periods. The influence of headwaters on downstream systems emerges from their attributes that meet unique habitat requirements of residents and migrants by: offering a refuge from temperature and flow extremes, competitors, predators, and introduced species; serving as a source of colonists; providing spawning sites and rearing areas; being a rich source of food; and creating migration corridors throughout the landscape. Degradation and loss of headwaters and their connectivity to ecosystems downstream threaten the biological integrity of entire river networks.

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David L. Strayer

Freshwater biodiversity conservation: recent progress and future challenges

Understanding the long-term effects of species invasions

Alien species in fresh waters: ecological effects, interactions with other stressors, and prospects for the future

Mollusks as ecosystem engineers: the role of shell production in aquatic habitats

The Contribution of Headwater Streams to Biodiversity in River Networks¹

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Product

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About

David L. Strayer

Freshwater biodiversity conservation: recent progress and future challenges

Understanding the long-term effects of species invasions

Alien species in fresh waters: ecological effects, interactions with other stressors, and prospects for the future

Mollusks as ecosystem engineers: the role of shell production in aquatic habitats

The Contribution of Headwater Streams to Biodiversity in River Networks1

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Product

Resources

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The Contribution of Headwater Streams to Biodiversity in River Networks¹