Abalone from exposed locations subject to heavy wave action may incur greater metabolic costs and structural stress in muscles used for attachment than do abalone in aquaculture or from sheltered sites. Because foot and adductor muscle texture and flavor affect economic value, we sought evidence of differences attributable to wave action among populations of the commercial New Zealand abalone, Haliotis iris. Evidence of environmentally induced changes were not found for condition indices relating shell and soft body proportions; muscle composition, such as total protein, collagen or water content; muscle biochemistry, such as intracellular pH buffering capacity, adenylate content, homarine or inositol monophosphate (IMP) content; blood hemocyanin concentration and muscle RNA content indicative of protein synthesis and somatic growth rates. The major difference in muscles of animals from exposed sites were higher activities of the glycolytic pyruvate reductase enzyme, tauropine dehydrogenase, and lower glycogen content. The differences imply that abalone exposed to heavy wave action routinely depend on bouts of anaerobic muscle work associated with attachment and locomotion but that the absence of wave action in aquacultural practice may not adversely affect muscle properties.