J
Jonathan W. Moore
Researcher at Simon Fraser University
Publications - 124
Citations - 7303
Jonathan W. Moore is an academic researcher from Simon Fraser University. The author has contributed to research in topics: Population & Oncorhynchus. The author has an hindex of 33, co-authored 116 publications receiving 6019 citations. Previous affiliations of Jonathan W. Moore include National Marine Fisheries Service & University of California, Santa Cruz.
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Ecological restoration and enabling behavior: a new metaphorical lens?
TL;DR: In this article, the authors explore a metaphor that views ecological restoration through the lens of co-dependency theories about enabling behaviors in the lives of addicts, and raise questions about the nature of the relation between restoration practices and an industrial growth economy "addicted" to cheap fuel and consumer goods.
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Genetics of century-old fish scales reveal population patterns of decline
Michael H. H. Price,Brendan Connors,Brendan Connors,John R. Candy,Brenda McIntosh,Terry D. Beacham,Jonathan W. Moore,John D. Reynolds +7 more
TL;DR: The authors applied genetic tools to a unique collection of 100-year-old salmon scales to reveal declines of 56% to 99% in wild sockeye populations across Canada's second largest salmon watershed, the Skeena River.
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Getting ahead of climate change for ecological adaptation and resilience
Jonathan W. Moore,H. Schindler +1 more
TL;DR: In this article , a review of forward-looking conservation approaches to enable adaptation and resilience is presented, which includes expanding beyond preservationist approaches by including those that enable and facilitate ecological change.
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Trophic tangles through time? Opposing direct and indirect effects of an invasive omnivore on stream ecosystem processes.
Jonathan W. Moore,Stephanie M. Carlson,Laura A. Twardochleb,Jason L. Hwan,Justin M. Fox,Sean A. Hayes +5 more
TL;DR: It is posited that during invasion, generalist crayfish replace the more specialized native detritivores (caddisflies), thereby leading to little long-term change in net detrital breakdown, and the impacts of omnivores represent a temporally-shifting interplay between direct and indirect effects that can control basal resources.
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Bidirectional connectivity in rivers and implications for watershed stability and management1
TL;DR: In this article, the authors examine the implications of these linkages for the stability, productivity, and management of watersheds and their migratory fishes and use simple simulations of watershed alteration to illustrate that degradation can erode the productivity and stability of both upstream and downstream fisheries.