Contamination status of groundwater used as livestock drinking in beef and dairy cattle farms, Korea.
- Author:
Yangho JANG
1
;
Soojin LEE
;
Hyobi KIM
;
Jeonghak LEE
;
Manho LEE
;
Hyekyoung GIL
;
Nonghoon CHOE
Author Information
1. College of Veterinary Medicine, Konkuk University, Seoul 143-701, Korea. nojamaji@hanmail.net
- Publication Type:Original Article
- Keywords:
groundwater contamination;
livestock drinking water quality;
microbial contamination;
NO3-N
- MeSH:
Animals;
Cattle;
Copper;
Drinking;
Drinking Water;
Feces;
Groundwater;
Hardness;
Humans;
Hydrogen-Ion Concentration;
Korea;
Livestock;
Organothiophosphorus Compounds;
Water;
Zinc
- From:Korean Journal of Veterinary Research
2011;51(1):47-53
- CountryRepublic of Korea
- Language:Korean
-
Abstract:
In Korea, groundwater is main water source in livestock farms. Most dairy and cattle farms have constructed their own wells for human drinking and livestock farming. However, these private residential wells have not been controlled by government and also there was scant study about livestock drinking water quality. Therefore this study was to monitor of the livestock farms' groundwater quality in Korea. Water samples were collected at 123 dairy and cattle farms and were analysed forty six substances with quality standard for drinking water approved by the Minister of Environment. Seventy eight (63.4%) of 123 samples failed to drinking water stand a test. The most frequent contaminants were nitrate-nitrogen and microbial. 22.8% (n = 28) of samples showed nitrate-N concentration of higher than 10 mg/L meant that can't be used drinking water for human and the Nitrate-N concentration analysed in the range of 0.2 to 61.2 mg/L. All of 78 failed to drinking samples had microbial problems, especially 5.7% (n = 7) of samples indicated water could be contaminated by feces. Other contaminants detected were zinc and evaporation residue. Especially detected zinc concentration (32 mg/L) was about ten times higher than standard of zinc (3 mg/L). Regression analysis indicated that groundwater pH did not influence to nitrate-N concentration but the hardness and chloride could affect to nitrate-N concentration in the groundwater. Most livestock farms were adjacent to crop farmland in Korea. This could cause contamination of groundwater with nitrate-N and pesticide that could accumulate livestock product. Moreover Heavy metal such as zinc and copper could be released from a corrosive plated water pipe in livestock farm. Put together, Korea livestock system is indoor, not pasture-based, hence livestock could be exposed to potential contaminated water consistently. Therefore on the basis of these data, appropriate livestock drinking water quality standards should be prepared to keep livestock healthy and their product safe. Further, livestock drinking water quality should be monitored continuously in suitable livestock drinking water standards.
