Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/wiley/nutritional-and-animal-husbandry-aspects-of-rearing-early-life-stages-CtjnvtC5Op
References (32)
-
J. Brett, J. Shelbousne, C. Shoop (1969)
GROWTH RATE AND BODY COMPOSITION OF FINGERLING SOCHEYE SALMON ONCORHYNCHUS MESHA IN RELATION TO TEMPERATURE AND RATION SIZEWsq: Women's Studies Quarterly, 26
-
Grignard Grignard, Mélard Mélard, Kestemont Kestemont (1996)
Pathology of perch ( P. fluviatilis ) in intensive culture system: a preliminary list of pathogenic agentsJ. Appl. Ichthyol, 12
-
K. Dąbrowski (1984)
The feeding of fish larvae : present « state of the art » and perspectivesReproduction Nutrition Development, 24
-
Mélard Mélard, Baras Baras, Kestemont Kestemont (1995)
Preliminary results of European perch ( Perca fluviatilis ) intensive rearing trials: effects of temperature and size grading on growthBull. Fr. Pêch. Pisc, 336
-
Awaïss Awaïss, Kestemont Kestemont, Micha Micha (1996)
Fatty acid profiles of two freshwater fish larvae (gudgeon and perch) reared with Brachionus calyciflorus Pallas (Rotifer)Aquac. Res, 27
-
Wang Wang (1994)
Food and feeding of young perch ( Perca fluviatilis L.) in Lake ConstanceVerh. Int. Ver. Limnol, 25
-
J. Malison, J. Held (1992)
Effects of fish size at harvest, initial stocking density and tank lighting conditions on the habituation of pond-reared yellow perch (Perca flavescens) to intensive culture conditionsAquaculture, 104
-
M. Ashraf, D. Bengtson, K. Simpson (1993)
Effects of Dietary Fatty Acid Enrichment on Survival, Growth, and Salinity-Stress-Test Performance of Inland SilversidesThe Progressive Fish-culturist, 55
-
Anderson Anderson, Mitchum Mitchum (1974)
Atlas of trout histologyWyoming Game and Fish Department Bull, 13
-
Hokanson Hokanson (1978)
Optimum culture requirements of some percids and adaptations to the seasonal temperature cycleJ. Fish. Res. Board Can, 34
-
A. Ostrowski, S. Divakaran (1990)
Survival and bioconversion of n-3 fatty acids during early development of dolphin (Coryphaena hippurus) larvae fed oil-enriched rotifers.Aquaculture, 89
-
Dabrowski Dabrowski (1982)
The influence of light intensity on feeding fish larvae and fry. II. Rutilus rutilus (L.), Perca fluviatilis (L.)Zool.J.Physiol, 86
-
Brown Brown, Dabrowski Dabrowski, Garling Garling (1996)
Nutritional and feeding of yellow perch ( Perca flavescens )J. Appl. Ichthyol
-
A. Awaiss, P. Kestemont, J. Micha (1992)
Nutritional suitability of the rotifer, Brachionus calyciflorus Pallas for rearing freshwater fish larvaeJournal of Applied Ichthyology, 8
-
C. Mélard, P. Kestemont, E. Baras (1995)
Premiers résultats de l'élevage intensif de la perche européenne (Perca fluviatilis) en bassin : effet de la température et du tri sur la croissanceBulletin Francais De La Peche Et De La Pisciculture, 68
-
W. Koven, G. Kissil, A. Tandler (1989)
Lipid and n−3 requirement of Sparus aurata larvae during starvation and feedingAquaculture, 79
-
R. Wootton (1989)
Ecology of Teleost Fishes -
A. Awaiss, P. Kestemont, J. Micha (1996)
Fatty acid profiles of two freshwater fish larvae (gudgeon and perch) reared with Brachionus calyciflorus Pallas (rotifer) and/or dry dietAquaculture Research, 27
-
C. Nash, C. Kuo (1975)
Hypotheses for problems impeding the mass propagation of grey mullet and other finfishAquaculture, 5
-
Shirota Shirota (1970)
Studies on the matt size of fish larvaeBull. Jpn. Soc. Sci. Fish, 36
-
Menshutkin Menshutkin, Zhakov Zhakov, Umnov Umnov (1968)
A model method examination of causes of death among young perch. Prob. IchthyolAm.Fish.Soc, 8
-
Ning Wang, R. Eckmann (1994)
Effects of temperature and food density on egg development, larval survival and growth of perch (Perca fluviatilis L.)Aquaculture, 122
-
J. Hinshaw (1985)
Effects of Illumination and Prey Contrast on Survival and Growth of Larval Yellow Perch Perca flavescensTransactions of The American Fisheries Society, 114
-
J. Treasurer (1990)
The food and daily food consumption of lacustrine 0+ perch, Perca fluviatilis L.Freshwater Biology, 24
-
Chevey Chevey (1925)
Recherches sur la perche et le bar. Etude embryogénique, systématique et biogéographique des Percidés européensBull. Biol. Fr. et Belge, 59
-
Gutti Gutti (1993)
Mortality, growth and diet of perch Perca fluviatilis L. in the Cikola branch system of the Szigetköz area, River Danube, ArchHydrobiol, 128
-
West West, Leonard Leonard (1978)
Culture of yellow perch with emphasis on development of eggs and fryAm.Fish.Soc.Spec.Publ, 11
-
Malison Malison, Held Held (1995)
Lights can be used to feed, harvest certain fishFeedstuffs, 67
-
K. Hokanson (1977)
Temperature Requirements of Some Percids and Adaptations to the Seasonal Temperature CycleWsq: Women's Studies Quarterly, 34
-
J. Grignard, C. Mélard, P. Kestemont (1996)
A preliminary study of parasites and diseases of perch in an intensive culture systemJournal of Applied Ichthyology, 12
-
E. Kamler, M. Lewkowicz, S. Lewkowicz, J. Uchmański, E. Urban-Jezierska (1986)
Gravimetric techniques for measuring consumption of live foods and artificial diets by fish larvaeAquaculture, 54
-
J. Hale, A. Carlson (1972)
Culture of the Yellow Perch in the LaboratoryThe Progressive Fish-culturist, 34
- Publisher
- Wiley
- Copyright
- Copyright © 1996 Wiley Subscription Services, Inc., A Wiley Company
- ISSN
- 0175-8659
- eISSN
- 1439-0426
- DOI
- 10.1111/j.1439-0426.1996.tb00082.x
- Publisher site
- See Article on Publisher Site
Abstract
The Eurasian perch Perca fluviatilis larviculture can be divided into three major areas: the ontogeny of the digestive system, the nutritional requirements and, the growth, production and cannibalism in different culture systems. Ontogeny of digestive system of larvae and juveniles, i.e., the morphological and histological characteristics of the digestive system (including the digestive tract, liver, pancreas and pyloric caeca), is described from hatching up to 1‐month‐old. Preliminary data on proteolytic activities (pepsin, trypsin and chymotrypsin) during larval growth and weaning on dry diet are also provided. The effects of diet (type of live prey, live food vs. dry or mixed diet) on survival and growth of perch are compared and discussed. In many perch larvae, mouth size constitutes a limiting factor to an optimal utilization of Artemia nauplii from hatching onwards. However, this diet can support satisfactory survival and growth in larger larvae, usually obtained from large breeders. Although perch larvae ingest dry food after yolk sac absorption, survival and growth rates are very low at that stage, compared with results obtained with live food and mixed diet. Weaning experiments performed at different larval and juvenile body weights demonstrated that fish can be trained to accept and to use a dry diet efficiently as a unique food supply starting at 50 mg. Some data related to the nutritional requirements (feeding level, dietary protein, fatty acids) of perch larvae are provided. Juvenile production in different culture conditions (fertilized ponds, green water tanks, recirculated system) indicated that the optimal system for the production of weaned fry was the semiintensive one. In this method, combining an enhanced production of natural plankton and a regular supply of Artemia nauplii and dry food after 44 days of rearing, survival rate varied from 9.2 to 38.6% and body weight from 350 to 950 mg, depending on temperature and stocking densities (400–4000 eyed eggs m−2).
Journal
Journal of Applied Ichthyology – Wiley
Published: Dec 1, 1996