Kristen Blann scite author profile

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Land Use, Spatial Scale, and Stream Systems: Lessons from an Agricultural Region

Vondracek

Blann²,

Cox³

et al. 2005

Environmental Management

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We synthesized nine studies that examined the influence of land use at different spatial scales in structuring biotic assemblages and stream channel characteristics in southeastern Minnesota streams. Recent studies have disagreed about the relative importance of catchment versus local characteristics in explaining variation in fish assemblages. Our synthesis indicates that both riparian- and catchment-scale land use explained significant variation in water quality, channel morphology, and fish distribution and density. Fish and macroinvertebrate assemblages can be positively affected by increasing the extent of perennial riparian and upland vegetation. Our synthesis is robust; more than 425 stream reaches were examined in an area that includes a portion of three ecoregions. Fishes ranged from coldwater to warmwater adapted. We suggest that efforts to rehabilitate stream system form and function over the long term should focus on increasing perennial vegetation in both riparian areas and uplands and on managing vegetation in large, contiguous blocks.

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Relationship of Riparian Buffer Type to Water Temperature in the Driftless Area Ecoregion of Minnesota

Blann

Nerbonne

Vondracek

2002

North American Journal of Fisheries Management

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We used the U.S. Fish and Wildlife Service's Stream Network Temperature Model to examine the role of riparian buffer type in mediating summer water temperatures for the reintroduction of brook trout Salvelinus fontinalis into Wells Creek, a tributary to the Mississippi River located in southeastern Minnesota. Stream temperatures measured from 23 July to 3 September 1997 were used to calibrate the model, evaluate existing temperatures, generate simulations for different shade conditions and channel morphologies, and generate simulations for ''average'' and ''warm'' summers (we define a warm summer as one that is 2.8ЊC above the 30-year mean). The simulations indicated that successional buffers (grasses and forbs) provided as much shade as wooded buffers in streams with a width less than 2.5 m. With a low width:depth ratio, the successional buffer vegetation mediated mean temperature as well as the wooded buffer when discharge was held constant. At a discharge characteristic of our study reach, the mean temperature would be about the same along a successional buffer as in a wooded buffer if the wooded vegetation also led to widening of the stream channel. However, wooded buffers had a significantly higher percentage of shade than grazed or successional buffers. In general, temperatures in an average year decreased along the wooded reaches and increased slightly along the successional and grazed buffer areas. The differences in measured weekly mean maximum temperatures may be as great as 2.5ЊC across riparian buffer types. Maximum temperatures across all riparian types would be higher during warmer than average years, even with 50% shade along the stream. Shade provided by successional and woody vegetation may serve to moderate maximum temperatures and may be sufficient for the reintroduction of brook trout if other conditions improve.

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Facing the adaptive challenge: practitioners' insights from negotiating resource crises in Minnesota

Blann¹,

Light²,

Musumeci³

2001

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Kristen Blann

Effects of Agricultural Drainage on Aquatic Ecosystems: A Review

Land Use, Spatial Scale, and Stream Systems: Lessons from an Agricultural Region

Relationship of Riparian Buffer Type to Water Temperature in the Driftless Area Ecoregion of Minnesota

Facing the adaptive challenge: practitioners' insights from negotiating resource crises in Minnesota

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