• Mycobiology
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• 제49권3호
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• pp.223-234
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• 2021

Itajahya rosea was found growing in association with Leucaena leucocephala plants at Savitribai Phule Pune University campus in India. The species identity was confirmed by phylogenetic analysis based on ITS and LSU regions of rDNA, wherein, our fugus was placed along with I. rosea in phylogenetic tree. It represents first record of I. rosea from India. Frequent visitation by Drosophila species on I. rosea fruiting body particularly on gleba was observed. The Drosophila got attracted to the detached gleba under the laboratory conditions and even sometimes, they prefer to sit over the gleba as compare to their food banana. It suggested that I. rosea gleba or pseudostipe produces some compounds for attraction and feeding behavior of Drosophila species. Therefore, we characterized the volatile attractants produced by gleba and pseudostipe of I. rosea by GC-MS analysis. Nineteen compounds were identified from gleba while nine compounds were recovered from the pseudostipe. Out of them, blends of three abundant odor producing volatile compounds were reported namely, Hexadecane, Pentadecane and Nonadecane, which are responsible for attraction of Drosophila toward the gleba. Three fatty acids namely 9,12-octadecadienoic acid (Z,Z), hexadecanoic acid and benzoic acid ethyl ester produced are served as an appetitive signal through olfactory response of Drosophila, so the flies were feed on the gleba. Two pheromones' compounds, heneicosane and (+)-(5S,9S)-5,9-dimethylpentadecane, were also reported in pseudostipe and gleba, respectively, which play a role in Drosophila for breeding. Our study highlights an intriguing chemical ecology of fungus-Drosophila interaction.

• Journal of Animal Science and Technology
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• 제50권1호
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• pp.33-44
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• 2008

본 연구는 (사)한국종축개량협회에서 1999년부터 2005년까지 농장검정한 Landrace종, Yorkshire종 2개 품종 111,169두의 번식자료를 이용하여 조사 분석하였다.품종 및 환경요인의 효과 추정은 사용된 모든 품종을 통합하여 분석하였으며, 육종가 및 유전모수의 추정은 1산차의 자료를 이용하여 분석하였으며, 혈통이 없는 자료는 분석에서 제외하였다. 자료의 표준화를 위해 총산자수의 표준편차 3배가 넘는 자료는 제거하였다.품종의 효과에서는 총산자수, 생시 생존 자돈수 및 총 사고두수에 대해 Yorkshire종이 각각 11.57±0.107두, 10.69±0.099두 및 0.88±0.041두로 나타났고, Landrace종이 각각 11.06±0.108두, 10.29±0.100두 및 0.77±0.042두로 나타나 모든 형질에서 Yorkshire종이 Landrace종보다 유의적으로 높게 나타났다.유전력은 총산자수 0.246, 생시 생존 자돈수 0.256, 총 사고두수 0.141로 나타났다. 또한, 유전상관과 표현형상관에서는 총산자수와 생시 생존 자돈수 간에 각각 0.958, 0.925로 모두 높은 정의상관을 나타내었고, 총산자수와 총 사고두수는 각각 0.194, 0.379로 정의상관을 보였으며, 생시 생존 자돈수와 총 사고두수는 각각 －0.089, －0.002로 모두 낮은 부의 상관을 보였다.총산자수와 생시 생존 자돈수의 유전적 및 표현형 개량 정도에서 자돈등기가 시작된 2001년 이전에는 일정한 경향을 보이지 않다가 2001년 이후부터 증가하는 경향을 보였으며, 총 사고두수는 감소하는 경향을 보였다.이상의 연구결과를 통해 농장검정돈의 번식능력을 파악할 수 있었고, 유전적 및 표현형 변화추세로 미루어 볼 때 (사)종축개량협회에서 2001년부터 실시한 자돈등기로 인해 번식성적의 정확도가 높아졌다고 추정 할 수 있다. 그러나 유전력이 다소 높게 나타난 것은 분만성적이 우수하지 못한 초산차의 성적을 이용하였고, 번식기록 및 혈통관리가 농장별로 일정한 기준이 없어 정확한 결과를 나타내지 못한 것으로 사료된다. 본 연구결과를 바탕으로 하여 검정농가의 산자능력에 대한 폭넓은 연구가 가능할 것으로 사료된다.

• 한국동물위생학회지
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• 제14권2호
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• pp.87-103
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• 1991

The somatic cell counts SCC and bacteria counts were done by D milk plant, P milk plant, S milk plant and Inch'${\v{\times}}n$ Vet. Serv. Lab from 1987 to 1990 with Coulter counter, Fossomatic 90, Bactoscan, Rolling ball viscometer and Resazurin reduction test. The results were summarized as follows 1. In the distribution of SCC of the bulk herd milk, D milk plant from Nov. 1989 to Oct. 1990 remarks 80.2% on the range below 500, 000, 14.5% ranging from 1, 000, 000 to 1, 500, 000, 1.2% ranging from 1, 500, 000 to 2, 000, 000, 0.69% ranging from 2, 000, 000 to 3, 000, 000, 0.71% on the range over 3, 000, 000. P milk plant remarks 237, 000 in the first half year and 251, 000 in the second half year in 1990 year. S milk plant remarks annual average of 335, 000 in 1987, 273, 000 in 1988 and 262, 000 in 1989. The individual record of Inch'${\v{\times}}n$ Vet. Serv Lab. remarks 79.35% and 80.2% below 500, 000 8.30% and 7.40% from 500, 000 to 1, 000, 000, 2.37% and 3.2% from 1, 000, 000 to 1, 500, 000, 2.77% and 2.30% from 1, 500, 000 to 2, 000, 000, 1.67% and 2.00% from 2, 000, 000 to 3, 000, 000, 5.53% and 4.40% over 3, 000, 000 in 1989 and 1990, respectively. The grade distirbution of SCC is as follows: D milk plant shows 1st grade-80.20%, 2nd grade-l6.5% and 3rd grade-3.30%. And P milk plant shows all 1st grade. S milk plant shows 87.30%, 8.6% and 4.1% in 1987 and 91.90%, 6.1% and 2.0% in 1988, and 92.40%, 6.1% and l.5% in 1989 on the 1st, 2nd and 3rd grade respectively. 2. The distribution of bacteria P milk plant reached 15.123 in 1st half year and 21.515 in 2nd half year. Also, S milk plant reached 81.5%, 12.5%, 6.0% in 1987, and 86.20%, 9.70%, 4.1% in 1988, and 86.2%, 10.8%, 3.0% in 1989 respectively for 1st, 2nd and 3rd grade. 3. The regional SCC distribution in D milk plant shows 1, 540, 000 in three regions and 714, 000 in one region. And monthly SCC distribution shows 671, 000 in December and 1, 165, 000 in June. 4. As a result of the individual SCC test, 9 times for 16 cows in “I”farm(1986-1988), and 6 times for 13 cows in“D”farm(1987-1988) No.3, 5, 9, 14 cows in“I”farm showed the high SCC beyond 1, 000, 000 over 4-5times. 5. If the SCC over 300, 000 reach 40%, the national producing quality of milk can be reduced by 87, 600M /I annually and in the sum of money, it should be about 35.5 billion Won. 6. The difference between high group and low group for SCC in D milk plant reached over 1, 000, 000. In case that the difference reaches 1, 000, 000 in the farm bulk milk at a farm breeding 20 cows which produce 20kg milk per day, it was estimate that the annual difference of producing quantity and sum of money respectively should be reached 26, 280kg in milk and 10, 643, 400 Won in income.