Design and monitoring of woody structures and their benefits to juvenile steelhead ( <i>Oncorhynchus mykiss</i> ) using a net rate of energy intake model. Wall, C. E., Bouwes, N., Wheaton, J. M., Bennett, S. N., Saunders, W. C., McHugh, P. A., & Jordan, C. E. Canadian Journal of Fisheries and Aquatic Sciences, 74(5):727–738, May, 2017.
Design and monitoring of woody structures and their benefits to juvenile steelhead ( <i>Oncorhynchus mykiss</i> ) using a net rate of energy intake model [link]Paper  doi  abstract   bibtex   
Despite substantial effort and resources being invested in habitat rehabilitation for stream fishes, mechanistic approaches to designing and evaluating how habitat actions influence the fish populations they are intended to benefit remain rare. We used a net rate of energy intake (NREI) model to examine expected and observed changes in energetic habitat quality and capacity from woody debris additions in a 40 m long study reach being treated as part of a restoration experiment in Asotin Creek, Washington. We simulated depths, velocities, and NREI values for pre-treatment, expected, and post-treatment habitat conditions, and we compared pre-treatment versus expected and pre-treatment versus post-treatment simulation results. The pre-treatment versus expected topography simulations suggested treatment would increase energetically favorable area, mean NREI, and capacity in the study reach. Pre-treatment versus post-treatment comparisons yielded similar predictions, though to smaller magnitudes, likely due to the short time span and single high-flow event between pre- and post-treatment data collection. We feel the NREI modelling approach is an important tool for improving the efficacy of habitat rehabilitation actions for stream fishes.
@article{wall_design_2017,
	title = {Design and monitoring of woody structures and their benefits to juvenile steelhead ( \textit{{Oncorhynchus} mykiss} ) using a net rate of energy intake model},
	volume = {74},
	issn = {0706-652X, 1205-7533},
	url = {http://www.nrcresearchpress.com/doi/10.1139/cjfas-2016-0131},
	doi = {10.1139/cjfas-2016-0131},
	abstract = {Despite substantial effort and resources being invested in habitat rehabilitation for stream fishes, mechanistic approaches to designing and evaluating how habitat actions influence the fish populations they are intended to benefit remain rare. We used a net rate of energy intake (NREI) model to examine expected and observed changes in energetic habitat quality and capacity from woody debris additions in a 40 m long study reach being treated as part of a restoration experiment in Asotin Creek, Washington. We simulated depths, velocities, and NREI values for pre-treatment, expected, and post-treatment habitat conditions, and we compared pre-treatment versus expected and pre-treatment versus post-treatment simulation results. The pre-treatment versus expected topography simulations suggested treatment would increase energetically favorable area, mean NREI, and capacity in the study reach. Pre-treatment versus post-treatment comparisons yielded similar predictions, though to smaller magnitudes, likely due to the short time span and single high-flow event between pre- and post-treatment data collection. We feel the NREI modelling approach is an important tool for improving the efficacy of habitat rehabilitation actions for stream fishes.},
	language = {en},
	number = {5},
	urldate = {2022-01-09},
	journal = {Canadian Journal of Fisheries and Aquatic Sciences},
	author = {Wall, C. Eric and Bouwes, Nicolaas and Wheaton, Joseph M. and Bennett, Stephen N. and Saunders, W. Carl and McHugh, Pete A. and Jordan, Chris E.},
	month = may,
	year = {2017},
	keywords = {NREI, ecohydraulics},
	pages = {727--738},
}

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