Difference between revisions of "Near Shore Ecology (NSE) Study"
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== Background== | == Background== | ||
− | Glen Canyon Dam is operated primarily as a load-following hydropower facility, increasing and decreasing dam discharge to match power demand. This periodic “flushing” of the river reduces the residence time of water as well as the availability of certain shoreline habitat types. In contrast, steady flows can increase the retention time of water in littoral areas such as backwaters and low-angle shorelines, and if discharge volume and ambient temperature are appropriate, can locally increase water temperatures. The NSE project evaluated experimental steady flows that occurred from 1 September- 31 October in each year 2009-2011. This study took place between river km 102-106 just downstream of the confluence of the mainstem Colorado and Little Colorado rivers where most prior research on humpback chub in Grand Canyon has occurred. The timing and magnitude of the steady flow experiment was developed by resource managers independent of the NSE team. Experimental flow regimes were about 10% of the unregulated (pre-Glen Canyon Dam) annual fluctuations. | + | Glen Canyon Dam is operated primarily as a load-following hydropower facility, increasing and decreasing dam discharge to match power demand. This periodic “flushing” of the river reduces the residence time of water as well as the availability of certain shoreline habitat types. In contrast, steady flows can increase the retention time of water in littoral areas such as backwaters and low-angle shorelines, and if discharge volume and ambient temperature are appropriate, can locally increase water temperatures. The NSE project evaluated experimental steady flows that occurred from 1 September- 31 October in each year 2009-2011 (the actual Fall Steady Flow Experiment occurred over 5 years from 2008-2012). This study took place between river km 102-106 just downstream of the confluence of the mainstem Colorado and Little Colorado rivers where most prior research on humpback chub in Grand Canyon has occurred. The timing and magnitude of the steady flow experiment was developed by resource managers independent of the NSE team. Experimental flow regimes were about 10% of the unregulated (pre-Glen Canyon Dam) annual fluctuations. |
Prior to the NSE project, our understanding of juvenile humpback chub ecology in the mainstem Colorado River was deficient compared with our knowledge of adult humpback chub primarily because of limited sampling of mainstem habitat for juvenile life stages. The NSE project developed a sampling and analytical framework to directly assess juvenile humpback chub survival, abundance, individual growth, and habitat use. These analyses used spatially referenced mark-recapture experiments with multiple gear types and determined provenance (birth river) through otolith microchemistry. This direct assessment of key vital rates complements indirect approaches used to estimate survival through population modeling efforts. For example, age-structured-mark-recapture (ASMR, Coggins et al. 2006) reconstructs juvenile abundance and survival through time from adult population numbers (estimated from mark-recapture) and assumes survival relationships based on life-history characteristics and growth rates. In contrast, the NSE project directly estimates juvenile fish population metrics in terms of abundance, survival, growth, or habitat use, which is useful for rapidly assessing how juvenile humpback chub respond to management actions such as experimental flows. [http://wec.ufl.edu/floridarivers/NSE.htm] | Prior to the NSE project, our understanding of juvenile humpback chub ecology in the mainstem Colorado River was deficient compared with our knowledge of adult humpback chub primarily because of limited sampling of mainstem habitat for juvenile life stages. The NSE project developed a sampling and analytical framework to directly assess juvenile humpback chub survival, abundance, individual growth, and habitat use. These analyses used spatially referenced mark-recapture experiments with multiple gear types and determined provenance (birth river) through otolith microchemistry. This direct assessment of key vital rates complements indirect approaches used to estimate survival through population modeling efforts. For example, age-structured-mark-recapture (ASMR, Coggins et al. 2006) reconstructs juvenile abundance and survival through time from adult population numbers (estimated from mark-recapture) and assumes survival relationships based on life-history characteristics and growth rates. In contrast, the NSE project directly estimates juvenile fish population metrics in terms of abundance, survival, growth, or habitat use, which is useful for rapidly assessing how juvenile humpback chub respond to management actions such as experimental flows. [http://wec.ufl.edu/floridarivers/NSE.htm] | ||
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*[http://wec.ufl.edu/floridarivers/NSE/Gerig_et_al_2013_Accepted.pdf Gerig, B. S., M. J. Dodrill, and W. E. Pine, III. In-Press. Habitat Selection and Movement of Adult Humpback Chub in the Colorado River in Grand Canyon during an Experimental Steady Flow Release. North American Journal of Fisheries Management] | *[http://wec.ufl.edu/floridarivers/NSE/Gerig_et_al_2013_Accepted.pdf Gerig, B. S., M. J. Dodrill, and W. E. Pine, III. In-Press. Habitat Selection and Movement of Adult Humpback Chub in the Colorado River in Grand Canyon during an Experimental Steady Flow Release. North American Journal of Fisheries Management] | ||
− | *[ | + | *[[Media:Finch_2013_HBC_Growth_NSE_(1).pdf| Finch, C., W. E. Pine, III, K. E. Limburg. 2013. Do hydropeaking flows alter juvenile fish growth rates? A test with juvenile humpback chub in the Colorado River. River Research and Applications. DOI 10.1002/rra.2725]] |
*Dodrill, M. J. C. B. Yackulic, B. S. Gerig, W. E. Pine, III, J. Korman and C. Finch. 2014. Do management actions to restore rare habitat benefit native fish conservation? Distribution of juvenile native fish among shoreline habitats of the Colorado River. River Research and Applications. DOI 10.1002/rra/2842. | *Dodrill, M. J. C. B. Yackulic, B. S. Gerig, W. E. Pine, III, J. Korman and C. Finch. 2014. Do management actions to restore rare habitat benefit native fish conservation? Distribution of juvenile native fish among shoreline habitats of the Colorado River. River Research and Applications. DOI 10.1002/rra/2842. | ||
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− | The cost to hydropower due to the 2011 Fall Steady Flow | + | The cost to hydropower due to the Fall Steady Flow Experiments were: |
+ | *2008: $4,220,000* | ||
+ | *2009: $270,000 | ||
+ | *2010: $590,000 | ||
+ | *2011: $523,000 | ||
+ | *2012: $992,000 | ||
+ | |||
+ | * *Costs of the Fall Steady Flow could not be determined individually from the Spring 2008 HFE because water was reallocated for both experiments in that year. | ||
+ | |||
+ | *[https://ceeesa.es.anl.gov/pubs/70776.pdf Financial Analysis of Experimental Releases Conducted at Glen Canyon Dam during Water Years 2006 through 2010 ] | ||
+ | *[https://publications.anl.gov/anlpubs/2012/07/73616.pdf Financial Analysis of Experimental Releases Conducted at Glen Canyon Dam during Water Year 2011 ] | ||
*[[Media:Financial Analysis of Experimental Flows Vol4 WY12.pdf| Financial Analysis of Experimental Releases Conducted at Glen Canyon Dam during Water Year 2012]] | *[[Media:Financial Analysis of Experimental Flows Vol4 WY12.pdf| Financial Analysis of Experimental Releases Conducted at Glen Canyon Dam during Water Year 2012]] | ||
− | *[[Media:Financial Analysis of Experimental Flows Vol5 WY13 Final.pdf| Financial Analysis of Experimental Releases Conducted at Glen Canyon Dam during Water Year 2013]] | + | *[[Media:Financial Analysis of Experimental Flows Vol5 WY13 Final.pdf| Financial Analysis of Experimental Releases Conducted at Glen Canyon Dam during Water Year 2013]] |
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Latest revision as of 09:54, 7 October 2021
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Introduction- Management actions in aquatic ecosystems are frequently directed at restoring or improving specific habitats to improve fish growth and survival. In the Grand Canyon reach of the Colorado River experimental flow operations as part of the Glen Canyon Dam Adaptive Management Program impact the creation of habitat types (i.e., sandbars and associated backwaters), water temperatures, or flow fluctuations and magnitude which are critical for juvenile native fish conservation. One of the objectives of a recent experiment evaluating steady flow operations from Glen Canyon Dam was to understand how river discharge, through its interaction with physical habitat structure, influences the growth, survival rates, and habitat use of juvenile native fish in the Colorado River in Grand Canyon. The key fish species of interest was humpback chub Gila cypha, currently listed as “Endangered” under the US Endangered Species Act. Population recovery of humpback chub is of keen interest to numerous federal, state, and tribal entities. The “Nearshore Ecology” (NSE) project was designed to address key fundamental research questions to improve our knowledge of humpback chub population ecology.
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