Thyroid function, pituitary structure and serum lipids in Great Lakes coho salmon, Oncorhynchus kisutch Walbaum, ‘jacks’ compared with sexually immature spring salmon

Abstract

Whereas spring salmon, Oncorhynchus kisutch, from Lake Ontario had no overt thyroid goiters, comparable Lake Erie spring salmon had a 44% goitre incidence. Goitre incidence in sexually precocious ‘jacks’ from Lakes Ontario and Michigan was 43–45% and 100% in ‘jacks’ from Lake Erie.All fish displayed thyroid hyperplasia. The degree of hyperplasia (as indicated by thyroid follicle colloid content, thyroid follicle size and shape and thyroid follicle epithelial cell size) in Lake Ontario fish tended to be greater in the ‘jacks’ than in the spring fish; the reverse was true in Lake Erie fish. Serum total L‐thyroxine (T4) concentrations in Lake Ontario spring fish were higher than in any other group. There were no differences in serum T, levels between the groups of ‘jacks’, nor were serum T, levels in ‘jacks’ and spring salmon from Lake Ontario significantly different. Serum total triiodo‐thyronine (T) concentrations in Lake Ontario spring salmon were significantly higher than in all other groups and that in Lake Erie spring salmon greater than in all groups of ‘jacks’. Serum T, levels in Lake Ontario ‘jacks’ were higher than in Lake Erie ‘jacks’. Serum free fatty acid (FFA) and cholesterol levels showed significant interlake differences with lower levels present in Lake Erie salmon. Lake Erie ‘jacks’ appeared to have fewer and less well vacuolated pituitary gonadotropic basophils than ‘jacks’ from Lakes Michigan and Ontario. Putative thyrotrop cells appeared to be more numerous and more active in the Lake Erie spring salmon compared with Lake Ontario spring salmon. Prolactin, corticotrop and melanotrop cells appeared less active in spring salmon than in the ‘jacks’.