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The dairy calf mortality : the causes of calf death during ten years at a large dairy farm in Korea
2013
Hur, T.Y., RDA, Cheonan, Republic of Korea | Jung, Y.H., RDA, Cheonan, Republic of Korea | Choe, C.Y., RDA, Cheonan, Republic of Korea | Cho, Y.I., RDA, Cheonan, Republic of Korea | Kang, S.J., RDA, Cheonan, Republic of Korea | Lee, H.J., RDA, Cheonan, Republic of Korea | Ki, K.S., RDA, Cheonan, Republic of Korea | Baek, K.S., RDA, Cheonan, Republic of Korea | Suh, G.H., Chonnam National University, Gwangju, Republic of Korea
The objective of this study was to investigate the calf death and analyse the causes of the mortality by based on medical records and autopsy findings during 10 years in a large dairy farm. Total of 1,361 calf born and 146 calf dead during the invested period. Mortality rate was 10.7% and showed the big difference by year-specific mortality from 2.8% (4 calves) to 19.2% (28 calves). The highest rate of mortality was 1 week age (18.5%, 27 calves) and followed by 2 week age (11.6%, 17 calves) and mortality of more old calf tended to be reduced. The death less than 4 weeks and 8 weeks of age of the entire mortality accounted for 41.1% (60/146 calves) and 70.0% (102/146 calves), respectively. Causes of calf death were digestive diseases (53.4%), respiratory diseases (17.1%), musculoskeletal disease (8.2%), and systemic disease (8.2%) in order. Specific causes of calf death was highest in enteritis (43.2%), followed by pneumonia (14.4%), sepsis (8.2%) and fractures (3.4%). Seasonally, most of calf death happened in winter (48.6%) and then fall (21.2%). This results showed that enteritis and pneumonia are the main reason of calf death but other reasons were involved in calf death on the based on autopsy finding. On going research relating factors of calf mortality is needed.
Show more [+] Less [-]Effect of tissue culture medium waste after harvest of Korean wild ginseng on growth performance and diseases resistance in broiler chickens
2010
Seol, J.W., Chonbuk National University, Jeonju, Republic of Korea | Park, J.H., Chonbuk National University, Jeonju, Republic of Korea | Chae, J.S., Seoul National University, Seoul, Republic of Korea | Kang, H.S., Chonbuk National University, Jeonju, Republic of Korea | Ryu, K.S., Chonbuk National University, Jeonju, Republic of Korea | Kang, C.S., EnT, Nonsan, Republic of Korea | Park, S.Y., Chonbuk National University, Jeonju, Republic of Korea
The large amount of tissue culture medium (TCM), which contains some of the active secretory components of Korean wild ginseng (KWG; Panax ginseng) such as saponins, is usually discarded after harvest of KWG. The present study was aimed to investigate the efficacy of oral administration of the TCM-KWG on growth performance and diseases resistance in broiler chickens. A day old broiler chickens randomized in 6 groups (n=60/groups) were administered orally with 0, 2, 4, 8, 16 and 32 mL/L TCM-KWG through drinking water for 5 weeks and examined the change of weight gain, feed intake and blood components. Also, five weeks old broiler chickens (n=15/groups) were challenged orally with Salmonella (S.) gallinarum and investigated the mortality in broiler chickens. An average weight gain and feed intake significantly didn't change in TCM-KWG administration groups as compared to control group. The concentration of calcium (Ca), phosphate (Pi) and potassium (K) in serum were increase by TCM-KWG administration in broiler chickens. We also found that oral administration of TCM-KWG through drinking water significantly reduced the mortality in broiler chickens experimentally infected with virulent S. gallinarum. The results of this study indicated that TCM-KWG administration may elevate the resistance on disease and improved the skeleton formation and body homeostasis of chickens, and TCM-KWG can be used as a cost-effective and environmentally alternative additives to control of the disease and growth.
Show more [+] Less [-]Fecundity and egg viability of house fly exposed to insect growth regulators
1999
Park, C.G. (Gyeong-sang National University, Chinju (Korea Republic). College of Agriculture) | Choe, S.Y. | Kim, J.S. (Gyeong-sang National University, Chinju College of Veterinary Medicine) | Kim, D.H. (Rural Development Administration, Suwon (Korea Republic). Research Management Bureau) | Lee, H.S. (Gyeongnam Agricultural Research and Extension Service, Chinju (Korea Republic).)
Two-day old house fly adults were exposed to six insect growth regulators, flufenoxuron, teflubenzuron, triflumuron, diflubenzuron, methoxyfenozide, tebufenozide, as a feed additive (milk + 5% sugar + chemical) in the laboratory for 6 days. The number of eggs deposited by the exposed-adults, viability of the eggs, and F1 larval development were checked. All the IGRs tested were found to have no adverse effect on the reproduction of house fly, except methoxyfenozide (210ppm). The most effective inhibitor to egg hatch was flufenoxuron, followed by teflubenzuron, triflumuron, and diflubenzuron. Exposure to flufenoxuron (over 5ppm), teflubenzuron (over 25ppm), triflumuron (over 125ppm), and diflubenzuron (over 125ppm) reduced egg hatchability to 0 to 1.3%, but lower concentrations of these IGRs were less effective (6.3 to 46.3% egg hatchability). Almost all the larvae emerged from eggs deposited by the adults exposed to diflubenzuron (62.5ppm) and teflubenzuron (12.5ppm) failed to develop into pupae, causing total mortalities of 98% and 100%, respectively. However, two IGRs, methoxyfenozide and tebufenozide, did not inhibit egg hatch and F1 larval development, except methoxyfenozide (210ppm) treatment. These results suggest that these 4 IGRs may be used in the development of autosterilization system for house fly control. However, further work is required to develop delivery systems capable of transferring an effective dose to the fly under field conditions.
Show more [+] Less [-]A study on efficacy and safety of bio-gammamix by oral administration to cultured fish
1994
Heo, G.J. (Chungbuk National University, Cheongju (Korea Republic). College of Veterinary Medicine) | Kim, B.G. | Yeh, J.G. | Kim, J.H. (Bayer Vetchem, Ltd., Anyang (Korea Republic). Bayer Veterinary Medical Research Institute)