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The digestive physiology of herbivorous, omnivorous and carnivorous crustacean larvae: a review: Proceedings of the fish and shellfish Larviculture Symposium LARVI '95. / Jones, D.A.; Kumlu, M.; Le Vay, L. et al.
Yn: Aquaculture, Cyfrol 155, Rhif 1-4, 1997, t. 285-295.

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T1 - The digestive physiology of herbivorous, omnivorous and carnivorous crustacean larvae: a review

T2 - Proceedings of the fish and shellfish Larviculture Symposium LARVI '95

AU - Jones, D.A.

AU - Kumlu, M.

AU - Le Vay, L.

AU - Fletcher, D.J.

PY - 1997

Y1 - 1997

N2 - While most copepods are holoplanktonic, decapod larvae are meroplanktonic with a pelagic larval development ranging from days (Penaeidae) to weeks (most Palaemonidae, Palinuridae). Reproductive strategies result in either the early release of larvae in large numbers of small planktonic forms (Penaeidae) or smaller numbers of advanced larvae after parental incubation (Brachyura, Palaemonidae, Nephropidae, Palinuridae). Commercially-cultured decapod larvae exhibit a wide range of feeding strategies exploiting most of the trophic levels found within the planktonic ecosystem. Studies on these crustacean larvae demonstrate how their digestive physiology is adapted to different feeding strategies during larval development, and provide an insight into the design of appropriate artificial feeds for commercial culture. Comparative measurements of digestive enzyme levels reveal that trypsin-like protease appears to dominate in all larvae investigated. Highest levels occur in herbivorous penaeid and brachyuran larval stages. In contrast, carnivorous lobster and caridean larvae show low protease activity at first feeding and appear to rely upon high-energy digestible live prey for their nutrition. Ontogenetic changes in enzyme type, activity and content are displayed during the penaeid mysis and caridean, brachyuran late zoeal stages as larvae transfer to higher trophic levels. The range and extent of these changes are reviewed for the commercial larval groups of commercially important species.

AB - While most copepods are holoplanktonic, decapod larvae are meroplanktonic with a pelagic larval development ranging from days (Penaeidae) to weeks (most Palaemonidae, Palinuridae). Reproductive strategies result in either the early release of larvae in large numbers of small planktonic forms (Penaeidae) or smaller numbers of advanced larvae after parental incubation (Brachyura, Palaemonidae, Nephropidae, Palinuridae). Commercially-cultured decapod larvae exhibit a wide range of feeding strategies exploiting most of the trophic levels found within the planktonic ecosystem. Studies on these crustacean larvae demonstrate how their digestive physiology is adapted to different feeding strategies during larval development, and provide an insight into the design of appropriate artificial feeds for commercial culture. Comparative measurements of digestive enzyme levels reveal that trypsin-like protease appears to dominate in all larvae investigated. Highest levels occur in herbivorous penaeid and brachyuran larval stages. In contrast, carnivorous lobster and caridean larvae show low protease activity at first feeding and appear to rely upon high-energy digestible live prey for their nutrition. Ontogenetic changes in enzyme type, activity and content are displayed during the penaeid mysis and caridean, brachyuran late zoeal stages as larvae transfer to higher trophic levels. The range and extent of these changes are reviewed for the commercial larval groups of commercially important species.

KW - Review

KW - Digestive enzymes

KW - Crustacean larvae

U2 - 10.1016/S0044-8486(97)00129-4

DO - 10.1016/S0044-8486(97)00129-4

M3 - Article

VL - 155

SP - 285

EP - 295

JO - Aquaculture

JF - Aquaculture

SN - 0044-8486

IS - 1-4

ER -