Identifying Sources of Stress to Native Aquatic Species Using a Watershed Ecological Risk Assessment Framework.

Notice - This site contains archived material(s)

Archive disclaimer
Archived files are provided for reference purposes only. The file was current when produced, but is no longer maintained and may now be outdated. Persons with disabilities having difficulty accessing archived files may contact the NCEA Webmaster for assistance. Please use the contact us form if you need additional support.


The free-flowing Clinch and Powell River basin, located in southwestern Virginia, U.S.A., historically had one of the richest assemblages of native fish and freshwater mussels in the world. Nearly half of the species once residing here are now extinct, threatened or endangered. The United States Environmental Protection Agency's (USEPA) framework for conducting an ecological risk assessment was used to structure a watershed scale analysis of human land use, in-stream habitat quality, and their relationship to native fish and mussel populations in order to develop future management strategies and prioritize areas in need of enhanced protection. Our analyses indicate that agricultural and urban land uses, as well as proximity to mining activities and transportation corridors, are inversely related to fish index of biotic integrity (IBI) and mussel species diversity. Forward stepwise multiple regression analyses indicated that coal mining had the most impact on fish IBI followed by percent cropland and urban area in the riparian corridor (R2 = 0.55, p = 0.02), however, these analyses suggest that other site-specific factors are important. Habitat quality measures accounted for as much as approximately half of the variability in fish IBI values if the analysis was limited to sites within a relatively narrow elevation range. These results, in addition to other data collected in this watershed, suggest that non-habitat related stressors (e.g., accidental chemical spills) also have significant effects on biota in this basin. The number of co-occurring human land uses was inversely related to fish IBI = -0.49, p < 0.01). Sites with 2 co-occurring land uses had > 90% probability of having < 2 mussel species present. Our findings predict that many mussel concentration sites are vulnerable to future extirpation. In addition, our results suggest that protection and enhancement of naturally vegetated riparian corridors, better controls of mine effluents and urban runoff, and increased safeguards against accidental chemical spills, as well as reintroduction or augmentation of threatened and endangered species, may help sustain native fish and mussel populations in this watershed.


Diamond, J. M. AND V. Serveiss. Identifying Sources of Stress to Native Aquatic Species Using a Watershed Ecological Risk Assessment Framework. ENVIRONMENTAL SCIENCE & TECHNOLOGYAccepted, (2002).