Juvenile Steelhead Locate Coldwater Refugia in an Intermittently Closed Estuary

Matsubu, William; Simenstad, Charles A.; Horton, Gregg E.

doi:10.1080/00028487.2017.1301993

Cited by 4 publications

(2 citation statements)

References 51 publications

(55 reference statements)

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“…Allochthonous contributions to the pelagic food web were lower in 2015 than in 2011, and the river-to-sea habitat gradient was less obvious. This reflects how juvenile salmon move among habitats to avoid elevated temperatures and lower water levels in the river and estuary [ 16 , 91 , 93 , 94 ]. Furthermore, it supports existing literature that shows how drought conditions can reduce inputs of terrestrial organic matter from the surrounding marsh into the estuary by shifting vascular plant biomass availability and prey community structure [ 20 , 95 – 97 ].…”

Section: Discussionmentioning

confidence: 99%

Allochthonous marsh subsidies enhances food web productivity in an estuary and its surrounding ecosystem mosaic

Davis,

Woo,

De La Cruz

et al. 2024

PLoS ONE

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Terrestrial organic matter is believed to play an important role in promoting resilient estuarine food webs, but the inherent interconnectivity of estuarine systems often obscures the origins and importance of these terrestrial inputs. To determine the relative contributions of terrestrial (allochthonous) and aquatic (autochthonous) organic matter to the estuarine food web, we analyzed carbon, nitrogen, and sulfur stable isotopes from multiple trophic levels, environmental strata, and habitats throughout the estuarine habitat mosaic. We used a Bayesian stable isotope mixing model (SIMM) to parse out relationships among primary producers, invertebrates, and a pelagic and demersal fish species (juvenile Chinook salmon and sculpin, respectively). The study was carried out in the Nisqually River Delta (NRD), Washington, USA, a recently-restored, macrotidal estuary with a diverse habitat mosaic. Plant groupings of macroalgae, eelgrass, and tidal marsh plants served as the primary base components of the NRD food web. About 90% of demersal sculpin diets were comprised of benthic and pelagic crustaceans that were fed by autochthonous organic matter contributions from aquatic vegetation. Juvenile salmon, on the other hand, derived their energy from a mix of terrestrial, pelagic, and benthic prey, including insects, dipterans, and crustaceans. Consequently, allochthonous terrestrial contributions of organic matter were much greater for salmon, ranging between 26 and 43%. These findings demonstrate how connectivity among estuarine habitat types and environmental strata facilitates organic matter subsidies. This suggests that management actions that improve or restore lateral habitat connectivity as well as terrestrial-aquatic linkages may enhance allochthonous subsidies, promoting increased prey resources and ecosystem benefits in estuaries.

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Section: Discussionmentioning

confidence: 99%

Allochthonous marsh subsidies enhances food web productivity in an estuary and its surrounding ecosystem mosaic

Davis,

Woo,

De La Cruz

et al. 2024

PLoS ONE

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“…These multiple scales of variability generated portfolios of potential growth across the estuaries, which would be expected to drive several important responses in juvenile Chinook salmon (Greene et al, 2021;Davis et al, 2022). In both freshwater and estuarine systems, for example, water temperature has been shown to direct movement and habitat use patterns, where juvenile salmon will select for metabolically favorable conditions (Armstrong and Schindler, 2013;Matsubu et al, 2017;Morrice et al, 2020). In addition, estuarine water temperatures have been linked to the duration of estuary residency (Greene et al, 2021).…”

Section: Discussionmentioning

confidence: 99%

Complex temperature mosaics across space and time in estuaries: implications for current and future nursery function for Pacific salmon

Gross,

Gan,

Scurfield

et al. 2023

Front. Mar. Sci.

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Water temperature is a key dimension of estuaries that can influence important biological processes including organismal growth, survival, and habitat use. For example, juvenile Pacific salmon rely on temperature-mediated growth opportunities in estuaries during seaward migration in the spring and summer. However, oncoming climate change is warming estuary temperatures and transforming growth potential. Yet, it is likely that estuary water temperatures are complex and dynamic across space and time. Here we investigated spatial and temporal patterns of water temperature across two contrasting estuaries on Vancouver Island, BC, and used these data to simulate juvenile Chinook salmon growth potential under both present conditions and a simplified scenario of climate warming. Summer temperatures were warmer and more spatially homogeneous across the Englishman River estuary relative to the Salmon River estuary. Within each system, temperature was variable across habitats and sites, appearing to be driven by a combination of local climate, river and ocean temperatures, tidal fluctuations, and habitat features. This shifting mosaic of temperatures generated a complex portfolio of growth opportunities for juvenile Chinook salmon. There were broad patterns of increasing growth potential across both systems as temperatures warmed in early summer. However, excessively hot late summer temperatures drove steep declines in growth potential across the Englishman River estuary, while positive trends continued through August in the Salmon River estuary. A simple climate change scenario revealed that estuaries and habitats may have differing vulnerabilities to increasing temperatures—with climate warming, favorable growth opportunities were even more constricted to early summer in the Englishman River estuary, but expanded across most habitats and times in the Salmon River estuary given lower baseline temperatures and higher habitat complexity. Collectively, this work underscores the importance of habitat complexity and local climate for maintaining diverse growth opportunities across estuaries, which may confer resilience to the nursery function of estuaries as temperature mosaics warm.

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