Development of dual fish multi-metric indices of biological condition for streams with characteristic thermal gradients and low species richness
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- 作者:Y. Kanno ; J.C. Vokoun ; M. Beauchene
- 关键词:Multi-metric indices (MMI) ; Fish ; Streams ; Thermal gradients ; Biomonitoring ; Landuse ; Index of biotic integrity (IBI) ; Southern New England
- 刊名:Ecological Indicators
- 出版年:2010
- 出版时间:May 2010
- 年:2010
- 卷:10
- 期:3
- 页码:565-571
- 全文大小:363 K
文摘
Biological indicators based on fish assemblage characteristics are used to assess stream condition worldwide. Fish-based bioassessment poses challenges in Southern New England, the USA, due to the effects of within-watershed thermal gradients on fish assemblage types, low regional species richness, and lack of minimally disturbed sites. Dual multi-metric indices (MMI) of biological condition were developed for wadeable streams based on fish assemblage characteristics sampled across watershed landscapes with varying levels of human disturbance. A coldwater MMI was developed using streams with drainage area of ≤15 km2, and a mixed-water MMI for streams with drainage areas of >15 km2. For each MMI development, candidate metrics represented by ecological classes were sequentially tested by metric range, within-year precision, correlation with stream size, responsiveness to landscape-level human disturbances, and redundancy. Resultant coldwater and mixed-water MMI were composed of 5 and 7 metrics, respectively. Stream sites tended to score similarly when the two MMI were applied to transitional sites, i.e., drainage areas of 5–40 km2. However, some sites received high scores from the mixed-water MMI and intermediate scores from the coldwater MMI. It was thus difficult to ascertain high-quality mixed-water streams from potential coldwater streams which currently support mixed-water assemblages due to ecological degradation. High-quality coldwater streams were restricted to stream sites with drainage areas ≤15 km2. The newly developed fish-based MMI will serve as a useful management tool and the dual-MMI development approach may be applicable to other regions with thermal gradients that transition from coldwater to warmwater within watersheds.