Feeding physiology and scope for growth of the oyster Crassostrea corteziensis (Hertlein, 1951) acclimated to different conditions of temperature and salinity

There is a particular interest in Mexico for the grow-out and breeding in captivity of the native oyster Crassostrea corteziensis . However, there is a lack of knowledge of the effect of temperature and salinity on the feeding physiology that maximizes the growth and eventually achieves the maturati...

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Bibliographic Details
Published in:Aquaculture international 2013-04, Vol.21 (2), p.283-297
Main Authors: Guzmán-Agüero, Juan Eduardo, Nieves-Soto, Mario, Hurtado, Miguel Ángel, Piña-Valdez, Pablo, Garza-Aguirre, María del Carmen
Format: Article
Language:English
Subjects:
Ammonium
Aquaculture
Biomedical and Life Sciences
Chaetoceros muelleri
Crassostrea corteziensis
Excretion
Feeding rates
Filtration
Freshwater & Marine Ecology
Life Sciences
Marine
Oxygen consumption
Oysters
Particulate matter
Physiology
Salinity
Seawater
Shellfish
Temperature
Zoology
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Summary:There is a particular interest in Mexico for the grow-out and breeding in captivity of the native oyster Crassostrea corteziensis . However, there is a lack of knowledge of the effect of temperature and salinity on the feeding physiology that maximizes the growth and eventually achieves the maturation of C. corteziensis . Our aim was to evaluate the filtration and clearance rates, oxygen consumption, ammonium excretion rates, assimilation efficiency, and scope for growth of the oyster C. corteziensis acclimated during 2 weeks to different combinations of temperature (23, 26, 29, and 32 °C) and salinity (20, 30, 40, and 50 psu). Oysters were fed with a standard suspension of the microalga Chaetoceros muelleri as total particulate matter, which was supplied at 4.2 L h −1 into 10 1-L tanks used as experimental chambers. The results showed that filtration and clearance rates increased with increasing temperature and decreased with increasing salinity, with the highest values obtained at 29 °C and 20 psu. Ammonium excretion and, to lesser extent, oxygen consumption matched with the variations in the feeding rate. The values of the scope for growth (SFG) suggested that C. corteziensis is able to grow out in all combinations of temperatures and salinities tested in this work. However, the SFG decreased at higher salinity (50 psu) in both extreme temperatures (23 and 32 °C), with highest value occurring at intermediate temperature and the lowest salinity. The SFG increased with increasing temperature and decreased with increasing salinity, which was explained by the increase in the feeding rates and ammonium excretion, coupled with higher absorption efficiency of the food. We concluded that higher filtrations and scope for growth of oysters occurred at 29 °C in brackish-water (20 psu) rather than in marine-water conditions. The results obtained can be considered highly useful information for aquacultural management of this oyster species, and useful to establish suitable sites to enhance their cultivation and maximize the growth of C. corteziensis .
ISSN:0967-6120
1573-143X
DOI:10.1007/s10499-012-9550-4