Rhinogobius gigas is an endemic species of amphidromous goby commonly found in mid- and lower reaches of rivers in the eastern Taiwan. It is one of the dominant species in the fish larval assemblages of the rivers. To investigate the effects of salinity changes on the larvae during their upstream migration, its postflexion larvae were collected from the Hualien River estuary. They were acclimated at 30 ppt, and then, treated with 4 different regimes of salinity changes: 1) 15 ppt for 10 days and then 2 ppt for 15 days; 2) 15 ppt for 10 days and then back to 30 ppt for 15 days; 3) 15 ppt for 25 days; and 4) 30 ppt for 25 days. The daily growth, daily mortality and thyroid gland development of the larvae were measured. The larvae that received Treatment 1 (salinity changes to 15 ppt and 2 ppt) had significantly higher growth rate, and higher number but smaller size of the thyroid follicles than those received the other three treatments. There was no significant difference in the daily mortality rate among the 4 treatments. The results indicated that R. gigas larvae that encounter natural changes in salinity from nearly sea water to freshwater in their upstream migration in river have a faster growth rate with increase in number but decrease in size of thyroid follicles. For those remain in high salinity coastal and estuarine waters, the growth rate retards and the thyroid glands enlarge, the cost of the larvae to stay in the high salinity zones.