Prevalence of spinal abnormalities in Chinook salmon smolt and influence of early rearing temperature and growth rates

Munday, John S.; Perrott, Matthew R.; Symonds, Jane E.; Walker, Seumas P.; Preece, Mark; Davie, Peter S.

doi:10.1111/jfd.12804

Cited by 8 publications

(5 citation statements)

References 22 publications

(58 reference statements)

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“…Existing research suggests that transformation, remodeling, and replacement of intervertebral tissue eventually lead to vertebral fusion, which involves alterations in extracellular matrix (ECM) components, metaplastic chondrogenesis and mineralization (Witten et al, 2006;Pedersen et al, 2011;Davie et al, 2019). Meanwhile, the occurrence of vertebral fusion is externally regulated by rearing temperature and nutritional factors (Ytteborg et al, 2010a;Wu et al, 2016;Munday et al, 2018).…”

Section: Introductionmentioning

confidence: 99%

Temperature Significantly Regulates Gene Expressions of Vertebrae Chondrocytes and Osteoblasts in Juvenile Golden Pompano (Trachinotus ovatus)

Han

Yang

et al. 2021

Front. Mar. Sci.

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To elucidate the possible molecular reaction of vertebral fusion in juvenile golden pompano at high temperature, we examined the changes in growth, vertebral fusion incidence, histological differences and transcription levels of genes related to bone development in juvenile golden pompano at 27 and 33°C for 30 days, respectively. The growth rate of juvenile fish was faster when the water temperature was 33°C, but the incidence of vertebral fusion was higher. Prolonged high water temperature reduced the osteogenic layer in the growth zone of the vertebral endplate and the elastic externa. The endplate growth areas of the fused vertebrae were transformed into cartilage tissue, which was then remodeled into bone. The intervertebral notochord tissue was transformed into bone and the intervertebral space disappeared. In normal phenotypes of vertebrae, short-term high temperature could promote the expression of genes related to cartilage differentiation and maturation, as well as genes related to osteoblastic differentiation. With the increase of culture time, the expression of genes related to cartilage and osteogenesis development was inhibited. In fused vertebrae, cartilage proliferation was enhanced, osteogenic differentiation was inhibited, and matrix mineralization may be enhanced. Genes associated with the development of chondrocytes and osteoblasts in the vertebrae of juvenile Trachinotus ovatus were significantly regulated by temperature and time. The results may contribute to further understanding of the occurrence of vertebral fusion at high temperature.

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Section: Introductionmentioning

confidence: 99%

Temperature Significantly Regulates Gene Expressions of Vertebrae Chondrocytes and Osteoblasts in Juvenile Golden Pompano (Trachinotus ovatus)

Han

Yang

et al. 2021

Front. Mar. Sci.

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“…Deviations of the entire vertebral column, as in spinal curvatures, are comparatively rare. However, in Chinook (king) salmon ( Oncorhynchus tshawytscha ) farmed in New Zealand (NZ), spinal curvatures in the form of lordosis (downwards), kyphosis (upwards) and scoliosis (lateral) comprise the majority of spinal aberrations 20 – 23 , and can affect up to 40% of individuals at harvest 24 . The curvatures are known to appear late in production, in the last nine months of the seawater cycle 23 , but their exact point of onset, and thus the critical seawater period(s) for their development, remains to be identified.…”

Section: Introductionmentioning

confidence: 99%

“…The curvatures are known to appear late in production, in the last nine months of the seawater cycle 23 , but their exact point of onset, and thus the critical seawater period(s) for their development, remains to be identified. Spinal curvatures are also known to develop in the early hatchery stages of Chinook salmon production 25 , but these anomalies are rare in smolts 24 , suggesting that curvatures which appear later during seawater production may arise by different mechanisms. Although termed “LKS” (lordosis–kyphosis–scoliosis), the three curvature types can develop in isolation or in various combinations within an individual.…”

Section: Introductionmentioning

confidence: 99%

Radiographic characterisation of spinal curvature development in farmed New Zealand Chinook salmon Oncorhynchus tshawytscha throughout seawater production

Lovett

Firth

Tuck

et al. 2020

Sci Rep

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Spinal anomalies are a recognised source of downgrading in finfish aquaculture, but identifying their cause(s) is difficult and often requires extensive knowledge of the underlying pathology. Late-onset spinal curvatures (lordosis, kyphosis, scoliosis) can affect up to 40% of farmed New Zealand Chinook (king) salmon (Oncorhynchus tshawytscha) at harvest, but little is known about their pathogenesis. Curvature development was radiographically documented in two related cohorts of commercially-farmed Chinook salmon throughout seawater production to determine (1) the timing of radiographic onset and relationships between (2) the curvature types, (3) the spinal regions in which they develop and (4) their associations with co-existing vertebral body anomalies (vertebral compression, fusion and vertical shift). Onset of curvature varied between individuals, but initially occurred eight months post-seawater transfer. There were strong associations between the three curvature types and the four recognised spinal regions: lordosis was predominantly observed in regions (R)1 and R3, kyphosis in R2 and R4, manifesting as a distinct pattern of alternating lordosis and kyphosis from head to tail. This was subsequently accompanied by scoliosis, which primarily manifested in spinal regions R2 and R3, where most of the anaerobic musculature is concentrated. Co-existing vertebral body anomalies, of which vertebral compression and vertical shift were most common, appeared to arise either independent of curvature development or as secondary effects. Our results suggest that spinal curvature in farmed New Zealand Chinook salmon constitutes a late-onset, rapidly-developing lordosis–kyphosis–scoliosis (LKS) curvature complex with a possible neuromuscular origin.

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“…Spinal deformities are a frequent phenomenon in many different fish species and can be caused by many factors during fish development, such as bacterial and parasitic infections, water environment, elevated egg incubation temperatures, pollution, nutrients, inappropriate light regimes and vaccination, etc. [2,3,4,5,6,7]. Spinal deformities often result in increased metabolic costs in the deformed fish, leading to reduced growth and low harvest weight [8].…”

Section: Introductionmentioning

confidence: 99%

Identification of Loci Controlling the Dwarfism Trait in the White Sailfin Molly (Poecilia latipinna) Using Genome-Wide Association Studies Based on Genotyping-By-Sequencing

Liu

Ren

et al. 2019

Genes

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Dwarfism is a condition defined by low harvest weight in fish, but also results in strange body figures which may have potential for the selective breeding of new ornamental fish strains. The objectives of this study are to reveal the physiological causes of dwarfism and identify the genetic loci controlling this trait in the white sailfin molly. Skeletons of dwarf and normal sailfin mollies were observed by X-ray radioscopy and skeletal staining. Genome-wide association studies based on genotyping-by-sequencing (n = 184) were used to map candidate genomic regions associated with the dwarfism trait. Quantitative real-time PCR was performed to determine the expression level of candidate genes in normal (n = 8) and dwarf (n = 8) sailfin mollies. We found that the dwarf sailfin molly has a short and dysplastic spine in comparison to the normal fish. Two regions, located at NW_015112742.1 and NW_015113621.1, were significantly associated with the dwarfism trait. The expression level of three candidate genes, ADAMTS like 1, Larp7 and PPP3CA, were significantly different between the dwarf and normal sailfin mollies in the hepatopancreas, with PPP3CA also showing significant differences in the vertebrae and Larp7 showing significant differences in the muscle. This study identified genomic regions and candidate genes associated with the dwarfism trait in the white sailfin molly and would provide a reference to determine dwarf-causing variations.

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Prevalence of spinal abnormalities in Chinook salmon smolt and influence of early rearing temperature and growth rates

Cited by 8 publications

References 22 publications

Temperature Significantly Regulates Gene Expressions of Vertebrae Chondrocytes and Osteoblasts in Juvenile Golden Pompano (Trachinotus ovatus)

Temperature Significantly Regulates Gene Expressions of Vertebrae Chondrocytes and Osteoblasts in Juvenile Golden Pompano (Trachinotus ovatus)

Radiographic characterisation of spinal curvature development in farmed New Zealand Chinook salmon Oncorhynchus tshawytscha throughout seawater production

Identification of Loci Controlling the Dwarfism Trait in the White Sailfin Molly (Poecilia latipinna) Using Genome-Wide Association Studies Based on Genotyping-By-Sequencing

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