Development of digestive tract and swim bladder in larvae and juvenile stages of the Central American Cichlidae family on the example of T-bar cichlid (Cryptoheros sajica, Bussing, 1974)

• Autorzy: Kamaszewski M. , Ostaszewska T.

Warianty tytułu

PL

Rozwój układu pokarmowego oraz pęcherza pławnego u larw i stadiów młodocianych pielęgnic środkowoamerykańskich na przykładzie pielęgnicy sajica (Cryptoheros sajica, Bussing, 1974)

• Języki publikacji: EN

Abstrakty

EN

Development of digestive tract and swim bladder in larvae and juvenile stages of Central American Cichlidae family on the example of T-bar cichlid (Cryptoheros sajica, Bussing 1974). The aim of the work was to investigate the development of digestive tract and filling of swim bladder in larval fish and juvenile individuals of T-bar cichlid. For tests, larvae and juvenile individuals from 1st to 30th day post hatching (dph) were selected and subjected to standard histological procedure. It was found that the endogenous feeding period in T-bar cichlids lasted since 1 to 4 dph, the endo-exogenous feeding period - since 4th to 10(h dph and the exogenous feeding period was commenced since the 10,h dph. In the examined species, the juvenile period was commenced together with the complete development of stomach and stomach glands, what occurred on 20th dph. The presence of swim bladder in T-bar cichlid was found on 1st dph. The discussed species have a closed bladder (physoclisti). Air duct is present until filling of swim bladder (5th-7th dph).

PL

Rozwój układu pokarmowego oraz pęcherza pławnego u larw i stadiów młodocianych pielęgnic środkowoamerykańskich na przykładzie pielęgnicy sajica (Cryptoheros sajica, Bussing 1974). Celem pracy było prześledzenie rozwoju układu pokarmowego oraz napełnienia pęcherza pławnego u larw i osobników młodocianych pielęgnicy sajica. Do badań pobierano larwy i osobniki młodociane od 1 do 30 dnia od wyklucia (dph), które poddano standardowym procedurom histologicznym. Stwierdzono, że u pielęgnicy sajica okres odżywiania endogennego trwał od 1 do 4 dph, okres odżywiania endo-egzogennego od 4 do 10 dph, natomiast okres odżywiania egzogennego rozpoczął się od 10 dph. U badanego gatunku okres młodociany rozpoczynał się wraz z pełnym ukształtowaniem żołądka i gruczołów żołądkowych co następowało 20 dph. U pielęgnicy sajica stwierdzono obecność pęcherza pławnego w dniu wyklucia. Są to ryby zamkniętopęcherzo- we. Przewód powietrzny obecny jest do momentu napełnienia pęcherza pławnego (5-7 dph).

• Wydawca: -
• Czasopismo: Annals of Warsaw University of Life Sciences - SGGW. Animal Science
• Rocznik: 2009
• Tom: 46
• Opis fizyczny: p.339-347,fig.,ref.

Twórcy

autor

Kamaszewski M.

• Department of Ichthyobiology and Fisheries, Warsaw University of Life Sciences – SGGW, Ciszewskiego 8, 02-786 Warsaw, Poland

autor

Ostaszewska T.

Bibliografia

• CAHU CL., ZAMBONINO INFANTE J., 2001 : Substitution of live food by formulated diets in marine fish larvae. Aquaculture, 200, 161-180.
• CHAKRABARTY P., 2004: Cichlid biogeography: comment and review. Fish and Fisheries, 5, 97-119.
• CHAVEZ-SANCHEZ C, MARTINEZ-PALACIOS C.A., MARTINEZ-PEREZ G., ROSS L.G., 2000: Phosphorus and calcium requirements in the diet of the American cichlid Cichlasoma urophthalmus (Günther). Aquaculture Nutrition, 6, 1 -9.
• CHEN B.N., QIN J.G., KUMAR M.S., HUTCHINSON W., CLARKE S., 2006: Ontogenetic development of the digestive system in yellowtail kingfish Serióla lalandi larvae. Aquaculture, 256, 489-501.
• DARIAS M.J., ORTIZ-DELGADO J.B., SARASQUETE C, MARTÍNEZ-RODRÍGUEZ G.,
• YÚFERA M., 2007: Larval organogenesis of Pagrus pagrus L., 1758 with special attention to the digestive system development. Histology and Histopathology, 22, 753-768.
• DOROSHEV S.I., CORNACCHIA J.W., 1979: Initial swim bladder inflation in the larvae of Tilapia mossambica (Peters) and Morone saxatilis (Walbaum). Aquaculture, 16, 57-66.
• FISHELSON L., 2005: Histogenesis of the oropharyngeal cavity taste buds and the relevant nerves and brain centers in substrate-brooding and mouth-brooding cichlid fish (Cichlidae, Teleostei). Anatomy and Embryology, 209, 179-192.
• FUJIMURA K., OKADA N., 2007: Development of the embryo, larva and early juvenile of Nile tilapia Oreochromis niloticus (Pisces: Cichlidae). Developmental staging system. Development, Growth and Differentiation, 49, 301-324.
• GAGLIARDI-SEELEY J.L., ITZKOWITZ M., 2006: Male size predicts the ability to defend offspring in the biparental convict cichlid Archocentrus nigrofasciatus. Journal of Fish Biology, 69, 1239-1244.
• GARCÍA-GASCA A., GALAVIZ M.A., GUTIÉRREZ J.N., GARCÍA-ORTEGA A., 2006: Development of the digestive tract, trypsin activity and gene expression in eggs and larvae of the bullseye puffer fish Sphoeroides annulatus. Aquaculture, 251, 366-376.
• GISBERT E., PIEDRAHITA R.H., CONKLIN D.E., 2004: Ontogenetic development of the digestive system in California halibut (Paralichthys californicus) with notes on feeding practices. Aquaculture, 232, 455-470.
• GORDON A.K., HECHT T, 2002: Histological studies on the development of the digestive system of the clownfish Amphiprion percula and the time of weaning. Journal of Applied Ichthyology, 18, 113-117.
• KOZARIĆ Z., KUŽIR S., PETRINEC Z., GJURČEVIĆ E., BOŽIĆ M., 2008: The development of the digestive tract in larval European catfish (Silurus glanis L.). Anatomía, Histología, Embryologia, 37, 141-146.
• MAI K.., YU H., MA H., DUAN Q., GISBERT E., ZAMBONINO INFANTE J.L., CAHU C.L., 2005: A histological study on the development of the digestive system of Pseudosciaena crocea larvae and juveniles. Journal of Fish Biology, 67, 1094-1106.
• MARTINEZ-PALACIOS C.A., ROSS L.G., 2004: Post-hatching geotactic behaviour and substrate attachnement in Cichlasoma urophthalmus (Günther). Journal of Applied Ichthyology, 20, 545-547. Short Communication.
• MARTY G.D., HINTON D.E., SUMMERFELT R.C., 1995: Histopathology of swimbladder noniflation in walleye (Stizostedion vitreum) larvae: role of development and inflammation. Aquaculture, 138, 35-48.
• MEIJIDE F.J., GUERRERO G.A., 2000: Embryonic and larval development of a substratebrooding cichlid Cichlasoma dimerus (Heckel, 1840) under laboratory conditions. Journal of Zoology, 252, 481-493.
• MORRISON CM., MIYAKE T., WRIGHT JR J.R., 2001: Histological study of the development of the embryo and early larva of Oreochromis niloticus (Pisces: Cichlidae). Journal of Morphology, 247, 172-295.
• OSTASZEWSKAT, 2005: Developmental changes of digestive system structures in pike-perch (Sander lucioperca L.). Electronic Journal of Ichthyology 2, 65-78.
• PEARCE A.G.E., 1985: Histochemistry. Theoretical and Applied. Vol. 2. Analytic Technology. Churchill Livingstone, New York.
• SÁNCHEZ-AMAYA M.I., ORTIZ-DELGADO J.B., GARCÍA-LÓPEZ Á., CÁRDENAS S.,
• SARASQUETE C, 2007: Larval ontogeny of redbanded seabream Pagrus auriga Valenciennes, 1843 with special reference to the digestive system. A histological and histochemical approach. Aquaculture, 263, 259-279.
• SARASQUETE M.C., POLO A., YÚFERA M., 1995: Histology and histochemistry of the development of the digestive system of larval gilthead seabream, Sparus aurata L. Aquaculture, 130, 79-92.
• SYSA P., OSTASZEWSKA T., OLEJNICZAK M., 2006: Development of digestive system and swim bladder of larval nase (Chondrostoma nasus L.). Aquaculture Nutrition, 12, 331-339.
• TROTTER A.J., PANKHURST P.M., BATTAGLENE S.C, 2004: Morphological development of the swim bladder in the hatchery-reared striped trumpeter Latris lineata. Journal of Applied Ichthyology, 20, 395-401.
• YÚFERA M., DARIAS M.J., 2007: The onset of exogenous feeding in marine fish larvae. Aquaculture, 268, 53-63.
• ZAISS M.M., PAPADAKIS I.E., MAINGOT E., DIVANACH P., MYLONAS C.C., 2006: Ontogeny of the digestive tract in shi drum (Umbrina cirrosa L.) reared using the mesocosm larval rearing system. Aquaculture, 260, 357-368.
• ZILBERG D., OFIR R., RABINSKI T., DIAMANT A., 2004: Morphological and genetic characterization of swimbladder non-inflation in angelfish Pterophyllum scalare (Cichlidae). Aquaculture 230, 13-27.

Uwagi

Rekord w opracowaniu