The gill of fish larvae. Is it primarily a respiratory or an ionoregulatory structure?

Abstract

Based on surface area and chloride cell number, rainbow trout Oncorhynchus mykiss gills appear initially to be more important in terms of ion balance than gas exchange. Chloride cells appear on the gill 3–6 days before hatch at 10°C. This is about 9 days before secondary lamellae, the definitive adult gas exchange structure, begin to form. At hatch, 22% of all chloride cells but only 7% of total surface area are located on the gill. This discrepancy gradually diminishes but even at complete yolk absorption the gill still seems to be about twice as important in terms of ion balance (75% of chloride cells) as gas exchange (37% of total surface area represented by gill filaments and lamellae combined). Surface area measurements and chloride cell counts reported in the literature for larvae of other species show a similar pattern suggesting that this may be a general phenomenon. If true, the implications are profound not only for developmental physiologists but also for those interested in the evolutionary history of gills and their function in adult fish.