Difference between revisions of "Bioenergetics Studies"

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===The interaction of fish, foodbase, and temperature===
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Fish occupying warmer water have higher metabolic demands than individuals in cooler water, and if these demands increase concurrently with a seasonal decline in prey availability, then growth rates may be reduced. [http://wec.ufl.edu/floridarivers/NSE/Finch%20RRA%20HBC%20Growth%20NSE.pdf]
  
 
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'''2020'''
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*[https://esajournals.onlinelibrary.wiley.com/doi/10.1002/bes2.1810 Korman et al., 2021, Controls on somatic growth and population dynamics of rainbow trout: Bulletin of the Ecological Society of America]
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*[https://doi.org/10.1002/ecm.1427 Korman et al., 2020, Changes in prey, turbidity, and competition reduce somatic growth and cause the collapse of a fish population: Ecological Monographs ]
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*[https://www.usbr.gov/uc/progact/amp/twg/2020-01-13-twg-meeting/20200113-AnnualReportingMeeting-PredictionsPopulationsEnergeticConstraints-Presentation-508-UCRO.pdf Predictions, populations, and energetic constraints ]
  
 
'''2017'''
 
'''2017'''

Latest revision as of 15:27, 23 February 2021


NOcrew.jpg

The interaction of fish, foodbase, and temperature

Fish occupying warmer water have higher metabolic demands than individuals in cooler water, and if these demands increase concurrently with a seasonal decline in prey availability, then growth rates may be reduced. [1]

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Updates

BoomBust.jpg
TroutDecline.jpg
HFEsTroutCondition.jpg
BottomUpContol.jpg


Links and Information

Projects

Presentations and Papers

2020

2017

2016

2015

2013

2011

Potential Policy Implications [2]

Avoid boom-and-bust cycles to reduce trout export to LCR and maintain consistent catch rates and larger trout in the fishery:

  • Enhance food supply via ‘bug flows’ or fertilization (add liquid nitrogen & phosphorous) as a mitigation for fluctuating flows and low reservoir elevation
  • Limit recruitment via Trout Management Flows (TMFs)
  • Do not implement fall HFEs in years when trout are in poor condition
  • Fertilize prior to conducting an HFE to mitigate negative effects

Critical uncertainties:

  • Will TMFs be implemented & work? What years to implement (e.g., 2016)?
  • Will bug flows or fertilization increase food supply?
  • Does enhanced food supply increase or decrease extent of trout export?

Monitoring Needs [3]

STAY ON THE ROAD TO LEARNING: Estimate growth, survival, recruitment, and abundance by mark-recapture at time- scale that is fine enough to address GCD AMP questions.

  • Response of recruitment to a particular flow in one year (e.g. spring HFE, 2011 equalization)
  • Seasonal effects of fall HFEs on growth
  • “Identify approaches to determine the root cause(s) of the unstable trout population in Lees Ferry” (#1 question)
  • Measure export of trout from Glen Canyon to upper Marble Canyon (tagging not needed)

The current Catch-Per-Effort survey provides imprecise indices of recruitment and abundance.

  • Useful for assessing trends in population over longer blocks of time (e.g. 5 yrs), but not for tracking annual changes needed to address management questions.
  • Growth is not estimated from CPE surveys but is needed to understand why recruitment and abundance are changing, and effects of fall HFEs.

Two choices for TWG:

  • Keep asking current management questions and therefore continue with mark-recapture program that can address these questions.
  • Ask much simpler questions restricted to long-term trends in status which can be addressed from current CPE program.

Other Stuff