Abstract
Problem statement: Shrimp farming has rapidly developed in coastal areas of the World Heritage-listed Ha Long Bay since the last decade. Effluent discharged from shrimp farms with high levels of nutrient waste may cause eutrophication in receiving waterways. Therefore, assessing water quality at tidal creeks receiving shrimp farm effluent in coastal areas of Ha Long Bay supports environmental protection and decision making for sustainable development of the region. Approach: Water samples were collected at 3 different locations for spatial assessment: inside sections of creeks directly receiving farm effluent (IEC), from main creeks adjacent to points of effluent discharge outside concentrated shrimp farms (OEC) and a few kilometers away from shrimp farm (ASF). Samples were taken on 3 occasions for temporal assessment. Parameters related to nutrient waste from shrimp farms, including: Total Ammonia Nitrogen (TAN), Nitrite-Nitrogen (NO2-N), Nitrate-Nitrogen (NO3-N), Total Phosphorus (TP), Dissolved Orthophosphate (PO4-P), Biochemical Oxygen Demand (BOD), Chemical Oxygen Demand (COD), Total Suspended Solid (TSS), Chlorophyll-a (Chl-a), Temperature, Salinity, pH and Dissolved Oxygen (DO) were determined using standard methods. Results: There were statistically significant differences in the concentrations of TAN, NO2-N, NO3-N, TP, PO4-P, BOD, COD and Chl-a among IEC, OEC, ASF and the levels of these parameters increased after shrimp crops, especially after the main shrimp crop of the season in North Vietnam. The concentrations of TAN, NO3-N, TP, BOD, COD, Chl-a, TSS at IEC sites were higher than recommended for protecting aquatic ecosystems. Principal Component Analysis (PCA) efficiently summarized patterns of co-variation in water quality parameters among locations and study times. Conclusion/Recommendations: The findings of this study indicate that greater awareness of the environmental impacts of shrimp farms is required if this industry is to be sustainable and if the highly valued marine ecosystem of Ha Long Bay is to be protected for the future.
Highlights
Waste feed, shrimp faeces and excreta that can lead to Shrimp farming has rapidly expanded over the last two decades, with the total world cultured shrimp production reaching 3.4 million tonnes, valued at over 14 billion USD in 2008 (FAO, 2010)
There were no significant differences in the mean salinity among IEC, outside concentrated shrimp farms (OEC), away from shrimp farm (ASF) locations at most study times, except for the first observation (T0) for which salinity was significantly higher at ASF sites
RM-ANOVA analysis showed that there were significant differences in mean Chemical Oxygen Demand (COD) between study times in surrounding concentrated shrimp farms (IEC, OEC), but that there were no significant differences in mean COD at ASF among study times
Summary
Waste feed, shrimp faeces and excreta that can lead to Shrimp farming has rapidly expanded over the last two decades, with the total world cultured shrimp production reaching 3.4 million tonnes, valued at over 14 billion USD in 2008 (FAO, 2010). Pollution from shrimp farms is in the form of nutrient enrichment, eutrophication and increased suspended solids in receiving waters (Boyd and Green, 2002; Jackson et al, 2003; Senarath and Visvanathan, 2001). Spatial and temporal when shrimp farms have been idle during the winter assessment and monitoring of coastal aquatic season (end of winter, dry season-March 2009)-T0; environments in shrimp farming areas are essential if after the harvest of first shrimp crop (during the estuarine and marine ecosystems are to be protected and summer, raining season-August 2009)-T1 and after economic development of coastal areas is to be the harvest of second shrimp crop (beginning of the sustainable (Boyd and Green, 2002). This study, aims to investigate the impacts of effluent discharged from shrimp farms on water quality of receiving waterways in the Ha Long Bay area, thereby contributing essential information for environmental protection, sustainable coastal development and management in the region. Water samples were analyzed, using spectrophotometric determination, for TAN by phenate
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