effect of the Grand Ditch on the abundance of benthic invertebrates in the Colorado River, Rocky Mountain National Park

We investigate herein the hypothesis that there is a significant relationship between bed particle mobility and benthic invertebrate abundance in the gravel-bed channel of the upper Colorado River in Rocky Mountain National Park. A large diversion channel called the Grand Ditch normally diverts a si...

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Veröffentlicht in:	River research and applications 2008-09, Vol.24 (7), p.975-987
Hauptverfasser:	Clayton, Jordan A, Westbrook, Cherie J
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Sprache:	eng
Schlagworte:	Animal and plant ecology Animal, plant and microbial ecology benthic invertebrate Biological and medical sciences Diptera disturbance Earth sciences Earth, ocean, space Ephemeroptera Exact sciences and technology Fresh water ecosystems Freshwater Fundamental and applied biological sciences. Psychology Hydrology Hydrology. Hydrogeology Invertebrata Plecoptera Rocky Mountain National Park sediment transport Synecology Trichoptera
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creator	Clayton, Jordan A Westbrook, Cherie J
description	We investigate herein the hypothesis that there is a significant relationship between bed particle mobility and benthic invertebrate abundance in the gravel-bed channel of the upper Colorado River in Rocky Mountain National Park. A large diversion channel called the Grand Ditch normally diverts a significant portion (~50%) of the annual snowmelt runoff from the watershed northward out of the basin. In May 2003, a ~30-m section of the ditch was breached, contributing substantially to the magnitude and duration of discharge in the Colorado River until the ditch breach was repaired in July of that year. As a result, all grain sizes in the river channel were mobilized, which contrasted sharply with the minimal gravel transport experienced during the exceptional drought of the previous year. Benthic macroinvertebrates were collected in the field using a Surber sampler at the same six locations for both years, and the number of individuals of the orders ephemeroptera (mayflies), plecoptera (stoneflies), trichoptera (caddisflies) and diptera (e.g. chironomids) was counted in the laboratory. The total number of individuals was 240% higher in 2003, and the proportion of mayflies in the samples increased from 25% in 2002 to 40% in 2003. In 2003, samples were also taken immediately upstream and downstream of a large flow obstruction in the channel in order to further isolate the relative importance of sediment transport against other variables affecting the stream habitat. Numbers of individuals for all taxa collected (particularly ephemeroptera and plecoptera) were nearly an order of magnitude higher at the upstream site than at the downstream, protected location. These results have important implications for the ecosystem management of streams within Rocky Mountain National Park and elsewhere. Copyright © 2008 John Wiley & Sons, Ltd.
doi_str_mv	10.1002/rra.1117
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A large diversion channel called the Grand Ditch normally diverts a significant portion (~50%) of the annual snowmelt runoff from the watershed northward out of the basin. In May 2003, a ~30-m section of the ditch was breached, contributing substantially to the magnitude and duration of discharge in the Colorado River until the ditch breach was repaired in July of that year. As a result, all grain sizes in the river channel were mobilized, which contrasted sharply with the minimal gravel transport experienced during the exceptional drought of the previous year. Benthic macroinvertebrates were collected in the field using a Surber sampler at the same six locations for both years, and the number of individuals of the orders ephemeroptera (mayflies), plecoptera (stoneflies), trichoptera (caddisflies) and diptera (e.g. chironomids) was counted in the laboratory. The total number of individuals was 240% higher in 2003, and the proportion of mayflies in the samples increased from 25% in 2002 to 40% in 2003. In 2003, samples were also taken immediately upstream and downstream of a large flow obstruction in the channel in order to further isolate the relative importance of sediment transport against other variables affecting the stream habitat. Numbers of individuals for all taxa collected (particularly ephemeroptera and plecoptera) were nearly an order of magnitude higher at the upstream site than at the downstream, protected location. These results have important implications for the ecosystem management of streams within Rocky Mountain National Park and elsewhere. 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Applic</addtitle><description>We investigate herein the hypothesis that there is a significant relationship between bed particle mobility and benthic invertebrate abundance in the gravel-bed channel of the upper Colorado River in Rocky Mountain National Park. A large diversion channel called the Grand Ditch normally diverts a significant portion (~50%) of the annual snowmelt runoff from the watershed northward out of the basin. In May 2003, a ~30-m section of the ditch was breached, contributing substantially to the magnitude and duration of discharge in the Colorado River until the ditch breach was repaired in July of that year. As a result, all grain sizes in the river channel were mobilized, which contrasted sharply with the minimal gravel transport experienced during the exceptional drought of the previous year. Benthic macroinvertebrates were collected in the field using a Surber sampler at the same six locations for both years, and the number of individuals of the orders ephemeroptera (mayflies), plecoptera (stoneflies), trichoptera (caddisflies) and diptera (e.g. chironomids) was counted in the laboratory. The total number of individuals was 240% higher in 2003, and the proportion of mayflies in the samples increased from 25% in 2002 to 40% in 2003. In 2003, samples were also taken immediately upstream and downstream of a large flow obstruction in the channel in order to further isolate the relative importance of sediment transport against other variables affecting the stream habitat. Numbers of individuals for all taxa collected (particularly ephemeroptera and plecoptera) were nearly an order of magnitude higher at the upstream site than at the downstream, protected location. 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subjects	Animal and plant ecology Animal, plant and microbial ecology benthic invertebrate Biological and medical sciences Diptera disturbance Earth sciences Earth, ocean, space Ephemeroptera Exact sciences and technology Fresh water ecosystems Freshwater Fundamental and applied biological sciences. Psychology Hydrology Hydrology. Hydrogeology Invertebrata Plecoptera Rocky Mountain National Park sediment transport Synecology Trichoptera
title	effect of the Grand Ditch on the abundance of benthic invertebrates in the Colorado River, Rocky Mountain National Park
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