• Humberto Villarreal Colmenares Centro de Investigaciones Biológicas del Noroeste


parte de los acuacultores debido a su alta tasa de crecimiento. En el presente trabajo se analizan algunos de los parámetros relacionados con el flujo fisiológico de energía en la langosta de agua dulce Australiana Cherax tenuimanus (marrón).


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Barnes, H. and J. Blackstock. 1973. Estimation of lipids in marine animal tissue: detailed

investigation of the sulphovanillin method for total lipids. Journal of Experimental

Biology and Ecology, 12:103-108.

Bordner, C. E. and D. E. Conklin. 1981. Food consumption and growth of juvenile lobsters.

Aquaculture, 24: 285-300.

Brafield, A. E. 1985. Laboratory studies of energy budgets. Pages 257-281 in P. Tyler and P.

Calow, editors. Fish energetics, new perspectives. The Johns Hopkins University Press,

Baltimore, Maryland, U. S. A.

Brett, J. R. and T. D. D. Groves. 1979. Physiological energetics. Pages 335-348 in W. S. Hoar,

D. J. Randall and J. R. Brett, editors. Fish physiology, Volume 8. Academic Press, New

York, New York, U. S. A.

Brown, P. B., C. D. Williams, E. H. Robinson, D. M. Akiyama, and A. L. Lawrence. 1986.

Evaluation of methods for determining in vivo digestion coefficients for adult red swamp

crawfish Procambarus clarkii. Journal of the World Aquaculture Society, 18: 186-189.

Calow, P. 1977. Conversion efficiencies in heterotrophic organisms. Biological reviews, 52:


Cange, s. W., D. Pavel, C. Burns, R. P. Romaire and J. W. Avault Jr. 1986. Evaluation of eighteen

artificial crayfish baits. Freshwater Crayfish, 6:270-273.

Capelli, G. M. and P. A. Hamilton. 1984. Effects of food and shelter on agressive activity in the

crayfish Orconectes rusticus (Girard). Journal of Crustacean Biology, 4(2):252-260.

Capuzzo, J. M. 1983. Crustacean bioenergetics: the role of environmental variables and dietary

levels of macronutrients on energetic efficiencies. Pages 71-86 in G. D. Pruder, C. J.

Langdon and D. E. Conklin, editors. Proceedings of the 2nd International Conference on

Aquaculture Nutrition: Biochemical and Physiological Approaches to Shellfish Nutrition.

October 27-29, 1981, Lewes/Rehoboth Beach, Delaware Louisiana State University,

Baton Rouge, Louisiana, U. S. A.

Claybrook, D. L. 1983. Nitrogen metabolism. Pages 163-215 in D. E. Bliss, editor. The biology

of Crustacea, Volume 5: Internal anatomy and physiological regulation. Academic Press,

New York, New York, U. S. A.

Covich, A. P. 1977. How do crayfish respond to plants and Mollusca as alternate food resources?

Freshwater Crayfish, 3:165-179.

Fellows, F. C. I. and F. J. R. Hird. 1979. Nitrogen metabolism and excretion in the freshwater

crayfish Cherax destructor. Journal of Comparative Biochemistry and Physiology,


Hartee, E. F. 1972. Determination of protein: a modification of the Lowry method that gives a

linear photometric response: Analytical Biochemistry, 48:422-427.

Hessen, D. O. and J. Skurdal. 1986. Analysis of food utilized by the crayfish Astacus astacus

in Lake Steinsfjorden, S. E. Norway. Freshwater Crayfish, 6:187-193.

Hewitt, D. R. 1984. Growth and bioenergetics of the freshwater prawn, Macrobrachium

australiense (Holthius). Honours Thesis. James cook University of North Queensland,

Queensland, Australia.

Hutchings, R. W. and H. Villarreal. 1996. Biología y cultivo de la langosta de agua dulce Cherax

quadricarinatus (redclaw). Manual de Producción. [Biology and culture of the freshwater

crayfish Cherax quadricarinatus (redclaw). Production Manual]. Navimar, S. A. Guayaquil,

Ecuador. 374 pp.

Jones, P. D. and W. T. Momot. 1983. The bioenergetics of Orconectes virilis in two pothole

lakes. Freshwater Crayfish, 5:192-209.

Kemp, A. and J. M. Kits Van Heljningen. 1954. A colorimetric micro-method for the determination

of glycogen in tissues. Biochemistry, 56:646-648.

Kleiber, M. 1956. Energy metabolism. Annual Review of Physiology, 6:375-394.

Klein Breteler, W. C. M. 1975. Laboratory experiments on the influence of environmental

factors on the frequency of molting and the increase in size at molting of juvenile shore

crab, Carcinus maenas. Netherlands Journal of Sea Research, 9:100-120.

Kossakowski, J. 1975. Crayfish Orconectes limosus in Poland. Freshwater Crayfish, 2:31-47.

Lee, D. O. and J. F. Wickins, 1992. Crustacean farming. John Wiley and Sons, Inc. New York.

Logan, D. T. and C. E. Epifanio. 1978. A laboratory energy balance for the larvae and juveniles

of the American lobster Homarus americanus. Marine Biology, 47:381-389.

Lowry, O. H., N. J. Rosebrough, N. J. Farr and R. J. Randall. 1951. Protein measurements with

the folin phenol reagent. Journal of Biological Chemistry, 193:265-275.

Mason, J. C. 1975. Crayfish production in a small woodland stream. Freshwater Crayfish,


Momot, W. T. 1984. Crayfish production: a reflection of community energetics. Journal of

Crustacean Biology, 4(1):35-54.

Momot, W. T., H. Gowing and P. D. Jones. 1978. The dynamics of crayfish and their role in

ecosystems. American Midwest Naturalist, 99:10-35.

Morrissy, N. M. 1970a. Spawning of marron Cherax tenuimanus Smith (Decapoda: Parastacidae)

in Western Australia. Fisheries Bulletin No. 10. Department of Fisheries and Fauna,

Western Australia, Australia.

Morrissy, N. M. 1970b. Report on marron Cherax tenuimanus in farm dams. Report V.

Department of Fisheries and Fauna, Western Australia, Australia.

Morrissy, N. M. 1979. Experimental pond production of marron Cherax tenuimanus Smith

(Decapoda: Parastacidae). Aquaculture, 16:319-344.

Morrissy, N. M. 1984. Assessment of artificial feeds for battery culture of a freshwater

crayfish, marron (Cherax tenuimanus) (Decapoda: Parastacidae). Report No. 63.

Department of Fisheries and Fauna, Western Australia, Australia.

Morrissy, N. M., N. Hall and N. Caputi. 1986. Bioeconomic model for semi-intensive pond

grow-out of marron (Cherax tenuimanus). Appendix I. Pages 93-139 in P. Rogers, editor.

Fisheries management discussion paper No. 2. The report of the fish farming legislative

review committee. Department of Fisheries and Fauna, Perth, Western Australia, Australia.

Moshiri, G. a. and C. R. Goldman. 1969. Estimation of the assimilation efficiency in Pacifastacus

leniusculus (Dana) (Crustacea:Decapoda). Archives of Hydrobiology, 66:298-306.

Nelson, S. G., A. W. Knight and H. W. Li. 1977. The metabolic cost of food utilization and

ammonia production by juvenile Macrobrachium rosenbergii (Crustacea: Palaemonidae).

Journal of Comparative Biochemistry and Physiology, 57A:67-72.

Newell, R. 1966. The role of detritus in the nutrition of two marine deposit feeders, the

prosobranch Hydrobia uvulae and the bivalve Macoma balthica. Proceedings of the

Zoological Society of London, 144:25-45.

Odum, E. P. and A. A. de la Cruz. 1967. Particulate organic detritus in a Georgia salt-marsh

estuarine ecosystem. Pages 383-388 in G. H. Lauff, editor. Estuaries. American Association

Adv. Science, Washington, D. C., U. S. A.

Regnaut, M. 1987. Nitrogen excretion in marine and freshwater crustacea. Biological reviews,


Sanguanruang, M. 1988. The bioenergetics of red swamp crawfish (Procambarus clarkii) and

the white river crawfish (Procambarus acutus acutus). Doctoral thesis. Louisiana State

University, baton Rouge, Louisiana, U. S. A.

Sharma, M. l. 1966. Studies on the changes in the pattern of nitrogenous excretion of Orconectes

rusticus under osmotic stress. Journal of Comparative Biochemistry and Physiology,


Smith, R. R. 1971. A method of measuring digestibility and metabolizable energy of fish feeds.

Progressive Fish-Culturist, 33:132-134.

Sokal, R. R. and F. J. Rohlf. 1969. Biometry. The principles and practices of statistics in

biological research. W. H. Freeman and Company, San Francisco, California, U. S. A.

Solórzano, L. 1969. Determination of ammonia in natural waters by the phenol-hypoclorite

method. Limnological Oceanography, 14:799-801.

Tcherkashina, N. Ya. 1977. Survival, growth and feeding dynamics of juvenile crayfish (Astacus

leptodactylus cubanicus) in ponds and the River Don. Freshwater Crayfish, 3:95-100.

Villarreal, H. 1988. Culture of the Australian freshwater crayfish Cherax tenuimanus (marron)

in Eastern Australia. Freshwater Crayfish, 7:401-408.

Villarreal, H. 1989. Feeding, growth and energetics of the freshwater crayfish Cherax tenuimanus

(Smith) with special emphasis on its potential for commercial culture. Doctoral thesis.

University of Queensland, Queensland, Australia.

Villarreal, H. 1990. Effect of temperature on oxygen consumption and heart rate of the Australian

crayfish Cherax tenuimanus (Smith). Journal of Comparative Biochemistry and

Physiology, 95A(1):189-194.

Woodland, D. J. 1969. Population study of a freshwater crayfish, Cherax albidus Clark, with

particular reference to the ecoenergetics of a population. Doctoral thesis. University of

New England, New South Wales, Australia.


Cómo citar

Villarreal Colmenares, H. (2019). EVALUACION DEL POTENCIAL DE CULTIVO DE LA LANGOSTA DE AGUA DULCE AUSTRALIANA Cherax tenuimanus EN FUNCION DE SU EFICIENCIA BIOENERGÉTICA. Avances En Nutrición Acuicola. Recuperado a partir de https://nutricionacuicola.uanl.mx/index.php/acu/article/view/324