Your search keyword '"Shaorong Li"' showing total 4 results

1. Environmental DNA from multiple pathogens is elevated near active Atlantic salmon farms.

Author

Shea, Dylan, Bateman, Andrew, Shaorong Li, Tabata, Amy, Schulze, Angela, Mordecai, Gideon, Ogston, Lindsey, Volpe, John P., Frazer, L. Neil, Connors, Brendan, Miller, Kristina M., Short, Steven, and Krkošek, Martin

Subjects

*SALMON farming, *ATLANTIC salmon, *PATHOGENIC microorganisms, *SALMON fishing, *ENVIRONMENTAL sampling, *DNA

Abstract

The spread of infection from reservoir host populations is a key mechanism for disease emergence and extinction risk and is a management concern for salmon aquaculture and fisheries. Using a quantitative environmental DNA methodology, we assessed pathogen environmental DNA in relation to salmon farms in coastal British Columbia, Canada, by testing for 39 species of salmon pathogens (viral, bacterial, and eukaryotic) in 134 marine environmental samples at 58 salmon farm sites (both active and inactive) over 3 years. Environmental DNA from 22 pathogen species was detected 496 times and species varied in their occurrence among years and sites, likely reflecting variation in environmental factors, other native host species, and strength of association with domesticated Atlantic salmon. Overall, we found that the probability of detecting pathogen environmental DNA (eDNA) was 2.72 (95% CI: 1.48, 5.02) times higher at active versus inactive salmon farm sites and 1.76 (95% CI: 1.28, 2.42) times higher per standard deviation increase in domesticated Atlantic salmon eDNA concentration at a site. If the distribution of pathogen eDNA accurately reflects the distribution of viable pathogens, our findings suggest that salmon farms serve as a potential reservoir for a number of infectious agents; thereby elevating the risk of exposure for wild salmon and other fish species that share the marine environment. [ABSTRACT FROM AUTHOR]

Published

2020

2. Aquaculture mediates global transmission of a viral pathogen to wild salmon.

Author

Mordecai, Gideon J., Miller, Kristina M., Bass, Arthur L., Bateman, Andrew W., Teffer, Amy K., Caleta, Jessica M., Di Cicco, Emiliano, Schulze, Angela D., Kaukinen, Karia H., Shaorong Li, Tabata, Amy, Jones, Brad R., Ming, Tobi J., and Joy, Jeffrey B.

Subjects

*FISH mortality, *SALMON farming, *VIRAL transmission, *AQUACULTURE, *EMERGING infectious diseases, *SOCKEYE salmon, *FISHERIES

Abstract

The article discusses about the global expansion of aquaculture and agriculture facilitates disease emergence and catalyzes transmission to sympatric wildlife populations. It mentions about the phylogenetic analysis and reverse transcription polymerase chain reaction surveillance further illuminate the circumstances of emergence of PRV-1 in the North East Pacific and provide strong evidence for Atlantic salmon aquaculture as a source of infection in wild Pacific salmon.

Published

2021

3. Cumulative Effects of Thermal and Fisheries Stressors Reveal Sex-Specific Effects on Infection Development and Early Mortality of Adult Coho Salmon (Oncorhynchus kisutch).

Author

Teffer, Amy Kathryn, Hinch, Scott, Miller, Kristina, Jeffries, Kenneth, Patterson, David, Cooke, Steven, Farrell, Anthony, Kaukinen, Karia H., Shaorong Li, and Juanes, Francis

Abstract

Multiple stressors are commonly encountered by wild animals, but their cumulative effects are poorly understood, especially regarding infection development. We conducted a holding study with repeated gill and blood sampling to characterize the effects of cumulative stressors on infection development in adult coho salmon. Treatments included chronic thermal stress (15°C vs. 10°C) and acute gill net entanglement with an air exposure (simulating fisheries bycatch release). The potential loadings of 35 infectious agents and the expression of 17 host immune genes were quantified using high-throughput quantitative polymerase chain reaction, while host physiology was characterized with chemical analysis of blood. Temporal increases in infectious agent richness and loads were concurrent with decreased expression of immune genes in fish sampled in the river. In the laboratory, mortality was minimal in cool water regardless of fishery treatment (<15%). Elevated water temperature under laboratory conditions increased mortality of males and females (8% and 28% mortality, respectively, delayed by >1 wk) and enhanced mortality associated with handling and biopsy (∼40% both sexes). Experimental gillnetting at high temperature further enhanced female mortality (73%). Fish held at high temperature demonstrated heavier infectious agent loads, osmoregulatory impairment, suppressed female maturation, and upregulation of inflammatory and extracellular immune genes. At high temperature, heavy Parvicapsula minibicornis loads were associated with premature mortality. Females exhibited physiological impairment from both stressors after 1 wk, and infection burdens correlated poorly with immune gene regulation compared with males. Cumulative effects of multiple stressors on female mortality are likely a function of physiological impairment and enhanced infections at high temperature. [ABSTRACT FROM AUTHOR]

Published

2019

4. Asymmetric metasurface structures for light absorption enhancement in thin film silicon solar cell.

Author

Hengchang Lu, Xiaowei Guo, Juan Zhang, Xizheng Zhang, Shaorong Li, and Cheng Yang

Subjects

*SILICON solar cells, *SILICON films, *THIN films, *LIGHT absorption, *INSECT traps

Abstract

Thin-film silicon solar cells with light-trapping structures can enhance light absorption within the semiconductor absorber layer. Metasurfaces, consisting of single-layer of planar structures, can be realized inexpensively by means of new nanopatterning techniques. Here we propose an asymmetric metasurface light trapping scheme that enables broadband absorption enhancement within c-Si thin film. Our numerical results demonstrate that the proposed metasurfaces exhibit better light trapping performance than the inverted pyramid that has been widely studied in recent years. Our work illustrates the impressive promise for metasurface structures used in thin film silicon solar cells. [ABSTRACT FROM AUTHOR]

Published

2019