This study was conducted to determine Cd, Cr, Cu, Fe and Pb concentrations in the seawater of a fish hatchery and to compare the values obtained with several Marine Fish Culture Standards (MFCS). Six sampling places across the hatchery system were selected for monitoring over a 10-month period and analyzed with Atomic Absorption Spectrometry (AAS). Results showed that the heavy metal concentrations were lower than the MFCS, except for Cu. The concentration of Cu was high in the broodfish recirculating tanks (St. 4) where it measured 19.35 ± 7.76 ug/L and in the effluent (St. 6), where it was 10.57 ± 11.48 ug/L. Copper sulfate added into the broodfish recirculating tanks as algicide treatment appears to be the main reason for this high Cu concentration. In the water intake (St. 1) and the settling tank (St. 2) the concentrations of Cd, Cr, Fe and Pb exhibited a greater range of fluctuation than in other stations. This might be due to the discharge of rivers which open in Sepanggar Bay, sediment-seawater interaction, current, tides and other dynamic processes. The study concluded that the concentrations of heavy metal in the hatchery of Borneo Marine Research Institute can be considered to be within the permissible level for aquaculture activity. However, the operating procedure at the broodfish recirculating tanks may be further improved for still better water quality and fish rearing conditions.
This paper was presented in the Annual Seminar on Marine Science and Aquaculture - Marine Ecosystems and Aquaculture Practices in Changing Climate, 11 - 13 March 2009
Showing posts with label fish hatchery. Show all posts
Showing posts with label fish hatchery. Show all posts
Wednesday, March 11, 2009
Friday, February 13, 2009
Tidal effects on the seawater quality of a fish hatchery water intake
The seawater temperature, DO, pH, salinity, conductivity, total dissolved solids, total alkalinity, total carbon dioxide, turbidity, total suspended solids, NH3-N, NO2-N, NO3-N, PO4-P, Cd, Cr, Cu, Fe and Pb concentrations in a fish hatchery were determined. The study was conducted at the seawater intake point of the Borneo Marine Research Institute (BMRI), Universiti Malaysia Sabah, Malaysia from May to December 2006. Seawater samples were collected during ebb and flood tides at two different depths namely, 0.1 m from surface and bottom. The objectives of the study were to determine the seawater quality during ebb tide and flood tide and to compare the values obtained with the seawater quality standards for marine fish culture activity. An independent t-test showed that only the seawater DO, total alkalinity, turbidity, NO3-N and Cr concentrations were affected by the tides (p<0.05). The concentrations of total alkalinity, turbidity and Cr were higher during ebb tide compared to the flood tide but lower DO and NO3-N were recorded. However, all the parameters measured (except DO) were within the range of seawater quality guidelines for marine fish culture activity. The maximum DO detected during flood tide was 12.2 mg/L, which is two times higher than normal condition. Solubility of DO in the water at 30oC and 30 ppt was 6.39 mg/L only. This high DO may be due to the algal bloom occurring during the time of sampling in the area of the seawater intake point. TSS was also found to be higher than the standards for marine fish culture activity and there was no significant different (p<0.05) during ebb tide and flood tide. The standard TSS for marine fish activity is not more than 10 mg/L and the study recorded maximum concentrations during ebb tide and flood tide of 27.1 mg/L and 26.8 mg/L, respectively. This study suggests that based on the guidelines for marine fish culture, TSS is the main parameter contributing to poor water quality at the seawater intake point of BMRI fish hatchery. The study forms the basis for water management strategies required for aquaculture activities.
This paper was presented in the 7th International Scientific Symposium IOC/WESTPAC "Natural Hazards and Changing Marine Environment In The Western Pacific". May 2008
This paper was presented in the 7th International Scientific Symposium IOC/WESTPAC "Natural Hazards and Changing Marine Environment In The Western Pacific". May 2008
Labels:
aquaculture,
fish hatchery,
Tidal effects,
Water quality
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