Effects of cnidarian biofouling on salmon gill health and development of amoebic gill disease

Bloecher, Nina; Powell, Mark D.; Hytterød, Sigurd; Gjessing, Mona Cecilie; Wiik‐Nielsen, Jannicke; Mohammad, Saima; Johansen, Joachim Tørum; Hansen, Haakon; Floerl, Oliver; Gjevre, Anne-Gerd

doi:10.1371/journal.pone.0199842

Cited by 39 publications

(41 citation statements)

References 52 publications

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“…Direct contact with cnidarian biofouling can be harmful to the fish, as organisms bearing nematocysts (stinging cells), such as the hydroid Ectopleura larynx and the anemone Anthothoe albocincta, have the potential to cause gill and skin damage (Baxter et al 2012;Wybourne 2013;Bloecher, Powell, et al 2018). In addition, biofouling poses a health risk to cultured fish as it can facilitate and amplify the presence of pathogens by harbouring viral, bacterial, and parasitic organisms that cause various diseases (reviewed in Fitridge et al 2012).…”

Section: Biofouling and Associated Pathogensmentioning

confidence: 99%

“…Upon contact, cnidarian biofoulers expel nematocysts that can penetrate fish skin and deliver poison (Helmholz et al 2010;Cegolon et al 2013), even after fragmentation following pressure-washing . For example, the hydroid Ectopleura larynx causes gill injuries in Atlantic salmon (Baxter et al 2012;Bloecher, Powell, et al 2018), and white-striped anemones Anthothoe albocincta are suspected to cause skin damage in Chinook salmon (Wybourne 2013). Management methods for other issues (eg parasitic sea lice) can further exacerbate these impacts.…”

Section: Net Cleaning and Exchangementioning

confidence: 99%

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Biofouling in marine aquaculture: a review of recent research and developments

et al. 2019

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Biofouling in marine aquaculture is one of the main barriers to efficient and sustainable production. Owing to the growth of aquaculture globally, it is pertinent to update previous reviews to inform management and guide future research. Here, the authors highlight recent research and developments on the impacts, prevention and control of biofouling in shellfish, finfish and seaweed aquaculture, and the significant gaps that still exist in aquaculturalists' capacity to manage it. Antifouling methods are being explored and developed; these are centred on harnessing naturally occurring antifouling properties, culturing fouling-resistant genotypes, and improving farming strategies by adopting more sensitive and informative monitoring and modelling capabilities together with novel cleaning equipment. While no simple, quick-fix solutions to biofouling management in existing aquaculture industry situations have been developed, the expectation is that effective methods are likely to evolve as aquaculture develops into emerging culture scenarios, which will undoubtedly influence the path for future solutions. ARTICLE HISTORY

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Section: Biofouling and Associated Pathogensmentioning

confidence: 99%

Section: Net Cleaning and Exchangementioning

confidence: 99%

Biofouling in marine aquaculture: a review of recent research and developments

et al. 2019

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“…In addition to the presence of putative pathogens, a number of other potential risk factors for CGD have been proposed. One major type of risk factor may be environmental insult to the gills, such as exposure to harmful phytoplankton, gelatinous zooplankton species in the water column or biofouling organisms dislodged into pens during in situ net washing (Rodger et al 2011a; Bloecher et al 2018; Kintner & Brierley 2019). Bath treatments involving the use of chemotherapeutants such as formalin (Speare et al 1997) or hydrogen peroxide (Kiemer & Black 1997; Rodger et al 2011a) can be directly damaging to gills or may exacerbate existing gill conditions and may represent a risk factor for the development of CGD.…”

Section: Complex Gill Disease and Related Syndromesmentioning

confidence: 99%

“…To counter this, nets can be cleaned using pressure washers, but fish in cages have been observed to exhibit avoidance behaviour from the dense clouds of debris that come off the nets during the cleaning process. Experimental challenges showed that this debris can cause pathological changes in the gills, such as epithelial sloughing, necrosis and haemorrhaging (Baxter et al 2012; Bloecher et al 2018).…”

Section: Specific Types Of Marine Salmonid Gill Diseasementioning

confidence: 99%

Epidemiology of marine gill diseases in Atlantic salmon (Salmo salar) aquaculture: a review

Boerlage

Ashby²,

Herrero³

et al. 2020

Reviews in Aquaculture

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Gill disease of farmed Atlantic salmon (Salmo salar) in the marine environment has emerged as a significant problem for the salmon aquaculture industry. Different types of marine salmon gill disease reported include amoebic gill disease (AGD), parasitic gill disease, viral gill disease, bacterial gill disease, zooplankton (cnidarian nematocyst)‐associated gill disease, harmful algal gill disease and chemical/toxin‐associated gill disease. The term ‘multifactorial gill disease’ is used when multiple distinguishable types of disease (as opposed to an obvious single primary type) are present. When gill disease is non‐specific, it is referred to as ‘complex gill disease’ (CGD) or ‘complex gill disorder’. These two terms are often used interchangeably and are overlapping. The significance of many infectious and non‐infectious agents that may be associated with CGD is often unclear. In this review, we summarise aspects of the different types of gill disease that are relevant to the epidemiology of gill disease and of CGD in particular. We also tabulate simultaneously occurring putative pathogens to explore the multifactorial nature of gill disease.

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“…Finally, Bloecher et al [56] recently confirmed the negative impact that the hydroid nematocyst Ectopleura larynx can have on salmon gill health and highlighted the potential risks that net cleaning poses to fish welfare. However, in situ measurements of gill health before and after net cleaning conducted in the field are necessary to validate these findings.…”

Section: Pathogens Involved In Cgdmentioning

confidence: 95%

Gill diseases in marine salmon aquaculture with an emphasis on amoebic gill disease.

Rozas‐Serri¹

2019

CABI Reviews

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Gill diseases are a growing health challenge in salmon farming worldwide, but many gaps remain in our knowledge. Gill diseases are generally complex and multifactorial disorders, often with presumable spatial and temporal distribution patterns, but are highly difficult to effectively prevent and control. The term complex gill disease (CGD) includes a wide range of clinical disease presentations on the gills of farmed salmon; usually, CGD presents from the end of summer to early winter. The pathogens involved include Neoparamoeba perurans, Tenacibaculum maritimum, Candidatus Piscichlamydia salmonis, Candidatus Branchiomonas cysticola, Desmozoon lepeophtherii (syn. Paranucleospora theridion) and viruses, such as the Atlantic salmon paramyxovirus (ASPV) and salmon gill poxvirus (SGPV). Amoebic gill disease (AGD) is perhaps the most significant disease in terms of gill health and economic impact. AGD results in high mortality, reduced production performance and impaired fish welfare. This review summarizes and analyses CGD research, outbreaks and treatment, with a focus on AGD, as well as on knowledge gaps and avenues for future research.

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Effects of cnidarian biofouling on salmon gill health and development of amoebic gill disease

Cited by 39 publications

References 52 publications

Biofouling in marine aquaculture: a review of recent research and developments

Biofouling in marine aquaculture: a review of recent research and developments

Epidemiology of marine gill diseases in Atlantic salmon (Salmo salar) aquaculture: a review

Gill diseases in marine salmon aquaculture with an emphasis on amoebic gill disease.

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