Physiological energetics and gross biochemical composition of the ascidian Styela clava cultured in suspension in a temperate bay of Korea

The ascidian Styela clava has recently become a common species for suspended aquaculture in Korea. Because of the ecological and commercial importance of this species, it is important to understand seasonal variations in its physiological energetics and gross biochemical composition. The purpose of...

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Bibliographic Details
Published in:Aquaculture
Main Authors: Kang, CK, Choy, EJ, Lee, WC, Kim, NJ, Park, HJ, Choi, KS
Other Authors: 해양대학원, 10098613
Format: Article in Journal/Newspaper
Language:English
Published: ELSEVIER SCIENCE BV 2011
Subjects:
Styela clava
Suspended culture
Physiological energetics
Biochemical composition
CRASSOSTREA-GIGAS THUNBERG
COCKLE CERASTODERMA-EDULE
OXYGEN-CONSUMPTION
MYTILUS-EDULIS
ENERGY-BALANCE
FEEDING PROCESSES
SEASONAL-CHANGES
BODY-SIZE
GROWTH
CYCLE
Crassostrea gigas
Online Access:https://oasis.postech.ac.kr/handle/2014.oak/17211
https://doi.org/10.1016/J.AQUACULTURE.2011.06.016
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Summary:The ascidian Styela clava has recently become a common species for suspended aquaculture in Korea. Because of the ecological and commercial importance of this species, it is important to understand seasonal variations in its physiological energetics and gross biochemical composition. The purpose of this study was to determine fundamental biological traits for the cultivation of S. clava. Physiological processes (food consumption, feces production, ammonia excretion and respiration), and gross biochemical composition (protein, lipids, and carbohydrates) of the ascidian were measured monthly from April 2008 to April 2009 under in situ environmental conditions in a mariculture region on the temperate coast of Jindong Bay, Korea. Changes in the physiology and somatic growth of S. clava were largely influenced by seasonal variation in water temperatures. The reduced importance of food availability in explaining their physiological adjustments seems to be due to low seston concentrations in water column of the bay. Seasonal variations in the ingestion and respiration rates of the ascidians were mismatched, resulting in an energy imbalance (i.e. an increased metabolic energy cost and lowered ingestion rate; and vice versa). This mismatched activity resulted in negative scope for growth (SFG) values during spring-summer, followed by rapid exhaustion of energy reserves and flesh weight loss. Weight loss during this period was also related to spring spawning. During autumn-winter, the ascidians had a positive SFG as a result of decreased oxygen consumption and elevated ingestion rates, showing accumulation of nutrient reserves and weight gain. The ascidians showed positive SFG, even in cold conditions below 12 degrees C in the present study. In this respect, an autumn-winter culturing period is recommended to maximize ascidian production in long-line suspended culture under the natural environmental conditions occurring in the study area. (C) 2011 Elsevier B.V. All rights reserved. X 1 1 6 5 scie scopus

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