Photoperiod and Temperature Control in the Regulation of Reproduction in the Female Catfish Heteropneustes fossilis

Abstract: The annual reproductive cycle of the catfish Heteropneustes fossilis is divided into the preparatory period (February–April), prespawning period (May–June), spawning period (July–August), and postspawning period (September–January). Ovarian recrudescence, which normally occurs during the prespawning period, can be advanced by photothermal manipulations. During the postspawning and preparatory periods, the tempo of ovarian recrudescence is much faster at 30 C than at other temperatures (ambient, 25 or 34 C) reg… Show more

“…Various parameters remained somewhat lower in the animals kept under an Israeli light regime than in those kept under a semi-natural Dutch light periodicity, but those differences are probably attribu~ble to the lower initial body weight of the former group and the difference in protein content of the food, The overall conclusion from the experiments carried out at Wageningen seems to be that light periodicity does not influence the formation of numerous healthy postvitellogenic oocytes in C. guriepinus reared in indoor hatcheries. An independence from light periodicity with respect to ovarian recrudescence has also been described by Sudararaj and Sehgal (1970) and by Sundararaj and Vasal (1976) for the Indian catfish, Heteropneustes fossilis.…”

The significance of photoperiodicity, water temperature and an inherent endogenous rhythm for the production of viable eggs by the African catfish, Clarias gariepinus, kept in subtropical ponds in Israel and under Israeli and Dutch hatchery conditions

“…Various parameters remained somewhat lower in the animals kept under an Israeli light regime than in those kept under a semi-natural Dutch light periodicity, but those differences are probably attribu~ble to the lower initial body weight of the former group and the difference in protein content of the food, The overall conclusion from the experiments carried out at Wageningen seems to be that light periodicity does not influence the formation of numerous healthy postvitellogenic oocytes in C. guriepinus reared in indoor hatcheries. An independence from light periodicity with respect to ovarian recrudescence has also been described by Sudararaj and Sehgal (1970) and by Sundararaj and Vasal (1976) for the Indian catfish, Heteropneustes fossilis.…”

The significance of photoperiodicity, water temperature and an inherent endogenous rhythm for the production of viable eggs by the African catfish, Clarias gariepinus, kept in subtropical ponds in Israel and under Israeli and Dutch hatchery conditions

“…As in Clarias batrachus (Lehri, 1967(Lehri, , 1968 and in Heteropneustes fossilis (Sundararaj and Vasal, 1976), spermatogenesis and vitellogenesis in feral Clarias gariepinus are resumed in late winter and early spring, when the water temperatures are relatively low, but increasing daily. During that time of year Viveen (unpublished results) observed sunbathing of catfish in very shallow and warm (28°C) water of the Hula Nature Reserve at midday.…”

Annual correlative changes in gonads and pituitary gonadotropes of feral African catfish, Clarias gariepinus

“…Rainfall followed by a rise in water level, resulting in inundation of grassland bordering the shallow lakes in which the African catfish live, appear to trigger spawning behaviour in several catfish species, i.e. C. guriepinus (Van Der Waal, 1974;Bruton, 1979)) C. b~tr~h~ (Van Der Waal, 1974), and ~etero~ne~tes~~ssi~~ f Sundararaj and Vasal, 1976;Lamba et al, 1983). In the absence of these environmental changes, for instance under laboratory and husbandry conditions, catfish do not spawn spontaneously, and the ovaries remain in a postvitellogenic stage.…”

Steroidogenesis in pre- and postspawned ovaries of feral African catfish, Clarias gariepinus