TY - JOUR
T1 - Management of stocking density, pond size, starting time of aeration, and duration of cultivation for intensive commercial production of shrimp Litopenaeus vannamei
AU - Ruiz-Velazco, Javier M.J.
AU - Hernández-Llamas, Alfredo
AU - Gomez-Muñoz, Victor M.
PY - 2010/11
Y1 - 2010/11
N2 - A dynamic stock model was used for quantification of shrimp production and analysis of alternative management schemes of stocking density, pond size, starting time of aeration, and duration of cultivation for intensive commercial production of the shrimp Litopenaeus vannamei. Databases from Mexican farms were used to calibrate the model. Multiple linear regression models were employed to establish relationships between parameters of the stock model and the management variables. Water quality variables (dissolved oxygen, temperature, and salinity) were complementarily analyzed. The final weight of shrimp was directly related to duration of cultivation and dissolved oxygen, and inversely related to stocking density, pond size, and salinity. There were inverse relationships between the growth coefficient and temperature and dissolved oxygen and between mortality rate and temperature. Dissolved oxygen was significantly related to starting time of aeration. Simple linear regression and an equivalence test indicated that biomass at harvest (after 13 weeks in winter, and 20 weeks in summer) was adequately predicted by using the stock model and the multiple regression models. The highest production (winter, 6900kgha-1; summer, 12,600kgha-1) were predicted using 60postlarvaem-2, small ponds (2ha), and starting aeration at the first week of cultivation; while the lowest yields (winter, 2600kgha-1; summer, 6000kgha-1) were obtained using 40postlarvaem-2, large ponds (8ha), and delaying the start of aeration until the fifth week of cultivation. The lowest production was 38% (winter) and 48% (summer) of the highest yield. Using small ponds could be particularly important during winter cycles to increase production, while stocking density and starting time of aeration contributed less. In contrast, pond size played a minor role during summer cycles and stocking density was the most sensitive variable.
AB - A dynamic stock model was used for quantification of shrimp production and analysis of alternative management schemes of stocking density, pond size, starting time of aeration, and duration of cultivation for intensive commercial production of the shrimp Litopenaeus vannamei. Databases from Mexican farms were used to calibrate the model. Multiple linear regression models were employed to establish relationships between parameters of the stock model and the management variables. Water quality variables (dissolved oxygen, temperature, and salinity) were complementarily analyzed. The final weight of shrimp was directly related to duration of cultivation and dissolved oxygen, and inversely related to stocking density, pond size, and salinity. There were inverse relationships between the growth coefficient and temperature and dissolved oxygen and between mortality rate and temperature. Dissolved oxygen was significantly related to starting time of aeration. Simple linear regression and an equivalence test indicated that biomass at harvest (after 13 weeks in winter, and 20 weeks in summer) was adequately predicted by using the stock model and the multiple regression models. The highest production (winter, 6900kgha-1; summer, 12,600kgha-1) were predicted using 60postlarvaem-2, small ponds (2ha), and starting aeration at the first week of cultivation; while the lowest yields (winter, 2600kgha-1; summer, 6000kgha-1) were obtained using 40postlarvaem-2, large ponds (8ha), and delaying the start of aeration until the fifth week of cultivation. The lowest production was 38% (winter) and 48% (summer) of the highest yield. Using small ponds could be particularly important during winter cycles to increase production, while stocking density and starting time of aeration contributed less. In contrast, pond size played a minor role during summer cycles and stocking density was the most sensitive variable.
KW - Farming management
KW - Litopenaeus vannamei
KW - Shrimp production
UR - http://www.scopus.com/inward/record.url?scp=78149497410&partnerID=8YFLogxK
U2 - 10.1016/j.aquaeng.2010.08.002
DO - 10.1016/j.aquaeng.2010.08.002
M3 - Artículo
SN - 0144-8609
VL - 43
SP - 114
EP - 119
JO - Aquacultural Engineering
JF - Aquacultural Engineering
IS - 3
ER -