David A Patterson
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Explore the profile of David A Patterson including associated specialties, affiliations and a list of published articles.
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78
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1719
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Recent Articles
1.
Van Wert J, Ekstrom A, Gilbert M, Hendriks B, Cooke S, Patterson D, et al.
J Exp Biol
. 2024 Jun;
227(20).
PMID: 38841879
Female Pacific salmon often experience higher mortality than males during their once-in-a-lifetime up-river spawning migration, particularly when exposed to secondary stressors (e.g. high temperatures). However, the underlying mechanisms remain unknown....
2.
LoScerbo D, Wilson S, Robinson K, Moore J, Patterson D
Conserv Physiol
. 2024 Apr;
12(1):coae011.
PMID: 38584988
The amount of time that juvenile salmon remain in an estuary varies among and within populations, with some individuals passing through their estuary in hours while others remain in the...
3.
Ekstrom A, Hendriks B, Van Wert J, Gilbert M, Farrell A, Cooke S, et al.
Sci Rep
. 2023 Dec;
13(1):21204.
PMID: 38040741
Climatic warming elevates mortality for many salmonid populations during their physically challenging up-river spawning migrations, yet, the mechanisms underlying the increased mortality remain elusive. One hypothesis posits that a cardiac...
4.
Wang Y, Bass A, Hinch S, Li S, Di Cicco E, Kaukinen K, et al.
Conserv Physiol
. 2023 Sep;
11(1):coad031.
PMID: 37701371
The early marine life of Pacific salmon is believed to be a critical period limiting population-level survival. Recent evidence suggests that some infectious agents are associated with survival but linkages...
5.
Van Wert J, Hendriks B, Ekstrom A, Patterson D, Cooke S, Hinch S, et al.
Conserv Physiol
. 2023 May;
11(1):coad022.
PMID: 37152448
Climate change is causing large declines in many Pacific salmon populations. In particular, warm rivers are associated with high levels of premature mortality in migrating adults. The Fraser River watershed...
6.
Wilson S, Moore J, Ward E, Kinsel C, Anderson J, Buehrens T, et al.
Nat Ecol Evol
. 2023 May;
7(6):852-861.
PMID: 37127767
Global climate change is shifting the timing of life-cycle events, sometimes resulting in phenological mismatches between predators and prey. Phenological shifts and subsequent mismatches may be consistent across populations, or...
7.
Lawrence M, Prystay T, Dick M, Eliason E, Elvidge C, Hinch S, et al.
J Fish Biol
. 2023 Apr;
103(2):280-291.
PMID: 37102404
Metabolic scope represents the aerobic energy budget available to an organism to perform non-maintenance activities (e.g., escape a predator, recover from a fisheries interaction, compete for a mate). Conflicting energetic...
8.
Bass A, Bateman A, Kaukinen K, Li S, Ming T, Patterson D, et al.
Sci Rep
. 2023 Apr;
13(1):5473.
PMID: 37016008
Although infectious agents can act as strong population regulators, knowledge of their spatial distributions in wild Pacific salmon is limited, especially in the marine environment. Characterizing pathogen distributions during early...
9.
Kuhn J, Adkins S, Agwanda B, Al Kubrusli R, Alkhovsky S, Amarasinghe G, et al.
Arch Virol
. 2021 Nov;
166(12):3567-3579.
PMID: 34786611
No abstract available.
10.
Teffer A, Hinch S, Miller K, Patterson D, Bass A, Cooke S, et al.
Mol Ecol
. 2021 Oct;
31(1):134-160.
PMID: 34614262
Incorporating host-pathogen(s)-environment axes into management and conservation planning is critical to preserving species in a warming climate. However, the role pathogens play in host stress resilience remains largely unexplored in...