Connecting thiamine availability to the microbial community composition in Chinook salmon spawning habitats of the Sacramento River basin

Suffridge, Christopher P.; Shannon, Kelly C.; Matthews, H.; Johnson, R. C.; Jeffres, C.; Mantua, N.; Ward, A. E.; Holmes, E.; Kindopp, J.; Aidoo, M.; Colwell, F. S.

doi:10.1128/aem.01760-23

Appl Environ Microbiol

2024

DOI: 10.1128/aem.01760-23

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Connecting thiamine availability to the microbial community composition in Chinook salmon spawning habitats of the Sacramento River basin

Christopher P. Suffridge,

Kelly C. Shannon,

H. Matthews

et al.

Abstract: Thiamine deficiency complex (TDC) is a major emerging threat to global populations of culturally and economically important populations of salmonids. Salmonid eggs and embryos can assimilate exogenous thiamine, and evidence suggests that microbial communities in benthic environments can produce substantial amounts of thiamine. We therefore hypothesize that natural dissolved pools of thiamine exist in the surface water and hyporheic zones of riverine habitats where salmonids with TDC migrate, spawn, and begin t… Show more

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2024

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Cited by 2 publications

References 86 publications

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Does Method of Field Preparation Affect Survival and Growth of Juvenile Chinook Salmon in Agricultural Floodplains?

Tallman,

Wampler,

Singer

et al. 2024

River Research & Apps

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There is growing interest to integrate conservation initiatives into agricultural practices using a reconciliation ecology framework. In California's Central Valley, one approach to improving crucial nursery habitat for threatened and endangered fish species is by re‐creating floodplain habitats through the inundation of agricultural fields during the non‐growing season. We conducted a series of field experiments in agricultural floodplains (winter‐flooded rice fields that historically were natural floodplains) to examine whether different field preparation methods enhanced growth and survival of floodplain‐dependent fish species. Approximately 8000 juvenile fall‐run Chinook Salmon (Oncorhynchus tshawytscha) were reared for at least 28 days on eight, 0.2 hectares (ha) experimental fields. Each experimental field represented one of four treatments (two replicates per treatment): addition of large wood, addition of in‐field canals, addition of both large wood and in‐field canals, and control. Controls fields received no additional field preparations beyond standard post‐growing practices: that is chopping rice into stubble, baling, and removing excess rice straw, and discing the field with a single pass by plowing rice straw into the ground to promote decomposition. We found no significant difference in water temperature, fish growth or fish survival among habitat treatments. Across treatments, survival ranged from 50.1% to 78.3% and averaged 65.75% (+/− 7.89% SE). These findings suggest agricultural floodplains require no additional modifications to promote fish growth and survival. Results illustrate the benefits of integrating working landscapes with conservation initiatives, as this approach creates more accessible and beneficial habitat for native fish species.

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Does Method of Field Preparation Affect Survival and Growth of Juvenile Chinook Salmon in Agricultural Floodplains?

Tallman,

Wampler,

Singer

et al. 2024

River Research & Apps

View full text Add to dashboard Cite

show abstract

Thiamin (vitamin B1, thiamine) transfer in the aquatic food web from lower to higher trophic levels

Hylander,

Farnelid,

Fridolfsson

et al. 2024

PLoS ONE

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Micronutrients such as vitamins are transferred from lower to higher trophic levels, but no general ecological concept describes the factors regulating this process. Here, we investigated thiamin (thiamine, vitamin B1), which is an example of a metabolically important water-soluble micronutrient. Thiamin is produced by organisms such as bacteria and phytoplankton, and all consumers, such as zooplankton and fish, rely on a continuous intake of thiamin through their diet and possibly from de novo-synthesized thiamin by gut microbiota. A deficiency in thiamin negatively affects reproduction in fish and bird populations worldwide. The aim of this study was to quantify thiamin transfer in a planktonic food web in response to thiamin and/or nutrient addition, using an outdoor mesocosm system (an approximately 1.9 m3 bag submerged in sea water). These estimates were then compared with literature data on thiamin concentrations at different trophic levels. The results showed that thiamin was rapidly taken up by phytoplankton in both the ambient and nutrient-amended treatments. However, large differences in thiamin concentrations in phytoplankton did not lead to any significant changes in community composition or abundance. Nitrogen addition led to changes in the abundance and community composition of picoplankton and phytoplankton but there were no additional major effects of thiamin addition. Differences in thiamin concentrations in phytoplankton were not detected at the next trophic level in zooplankton. Although the concentrations did not change, a greater abundance of some zooplankton taxa were developed in the thiamin treatments. Comparing the mesocosm results with literature data demonstrated a gradual reduction in thiamin concentrations along the food chain, with six percent of the concentration in producers occurring in top consumers (i.e., piscivorous fish). Overall, these observations illustrate the concept of trophic dilution of micronutrients where concentrations decrease along the food web from phytoplankton via zooplankton and planktivorous fish to piscivorous fish.

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Connecting thiamine availability to the microbial community composition in Chinook salmon spawning habitats of the Sacramento River basin

Cited by 2 publications

References 86 publications

Does Method of Field Preparation Affect Survival and Growth of Juvenile Chinook Salmon in Agricultural Floodplains?

Does Method of Field Preparation Affect Survival and Growth of Juvenile Chinook Salmon in Agricultural Floodplains?

Thiamin (vitamin B1, thiamine) transfer in the aquatic food web from lower to higher trophic levels

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