• 한국산림과학회지
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• 제57권1호
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• pp.45-51
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• 1982

잣나무의 착과량(着果量)에 미치는 기상환경인자(氣象環境因子)의 영향(影響)을 7개년간(個年間)의 착과량(着果量)과 기상자료간(氣象資料間)의 상관(相關) 및 회귀분석(回歸分析)을 통(通)해 연구(硏究)했다. 잣나무의 착과량(着果量)은 화아분화(花芽分化) 당년(當年) 년평균기온(年平均氣温)이 낮고 화아분화(花芽分化) 전년(前年) 일조량(日照量)과 화아분화전(花芽分化前) 동계기간(冬季期間)의 일조량(日照量)이 많을 때 증가(增加)되었으며 특(特)히 화아분화전(花芽分化前) 6월(月)의 기온(氣溫)이 낮고 강수량(降水量)이 적고 일조량(日照量)이 많을 경우 착과량(着果量)이 많았다.

• 한국작물학회지
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• 제44권3호
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• pp.197-200
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• 1999

In order to get abundant germplasm for develop- ing new corn varieties, major morphological characteristics of ear were evaluated with a total of 210 Korean indigenous maize lines collected from various parts of Pusan City and Kyungnam Province, Korea. The ear shape of Korean indigenous maize was mainly cone type or similar to cone type. Cylinder type or similar to cylinder type of corn was collected from the north-west mountainous. region of Kyungnam Province, whereas cone type or similar to cone type was collected from the plain region. In the kernel colors of each ear, ears with mono colored kernels were 55.7% of the total, and ears with two to four mixed colors were 44.3%. Among the mono colored ears, brown was the most abundant at 16.8%. There was an average of 12∼14 rows per ear. Kernal rows per ear varied from 8∼20. Waxy corn was predominant at 67.2%, mixed corn with waxy kernel and common kernel at 11.0%, and common corn at 21.8%.

• Journal of Biosystems Engineering
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• 제6권1호
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• pp.48-59
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• 1981

The major limiting factor on the determination of combine capacity is the frequent occurence of clogging over the some parts of machine when the crop is wet in the case of Japanese self-feeding type combine. And in the case of American conventional combine having big separating parts, the great grain loss and damage occur when the machine is used for rice harvesting. This experiment was carried out to develop the new type threshing and separating equipment. Proto-type thresher which consist of a conical threshing drum and a conical separating sieve rotating around the threshing cone was constructed and tested. In the case of 800 rpm of threshing cone speed, average threshing loss was below 1 percent, separating loss was about 1 percent, grain damage was about 0.4 percent, and average total power required was about 2.6 PS. This design has some problems such as higher power required or wrapping problems under the conditions of feeding long damp straw. But, compared with the conventional combine or thresher, this machine certainly has some potentials for this approach to combine development. The crop feed rate must be increased through improvement of the feeding portion of the threshing cone. And it is required to investigate further about some parameters causing wrapping phenomena.

• Journal of Biosystems Engineering
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• 제20권4호
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• pp.313-322
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• 1995

This study was conducted to find the design factors of spraying device of the boom sprayer for low volume application. Specific objectives of this study were 1) to select proper nozzles for broadcast spraying and row crop spraying by the nozzle spray characterisic experiment, and 2) to investigate the coverage characteristic of rice plant at the row crop spraying. The results of this study are summarized as follows. (1) From the tested results on the droplet diameter spectrum and spray pattern the standard flat-fan nozzle and drift guard nozzle were judged as appropriate for the broadcasting. Even flat-fan nozzle showed similar span values to standard flat-fan nozzles and drift guard nozzle : however, the nozzles were found to be inappropriate for broadcasting because of their spray pattern. Hollow cone nozzle showed relatively small span values and uniform spray pattern. (2) For the upper and lower sides of the rice plants, coverage rates of even flat-fan nozzles and hollow cone nozzles were maximum at the second row, but decreased rapidly after the third row. For the middle side of the rice plants, coverage rates of them were maximum at the first row, but decreased rapidly. When one nozzle was tested, C.V. values were in the range of 90~160% and 60~160% on entire heights of rice plant for even flat-fan nozzles and hollow cone nozzles respectively. C.V. values at other parts were poor. Spray coverage rate at the middle part was improved by overlapping the nozzles whereas there was little difference on the upper and lower part of rice plants. (3) For spraying lower part of rice plant between rows, even flat-fan nozzles and hollow cone nozzle were judged as appropriate, but in order to ensure the uniform coverage, distance between nozzles, recommended to be less than 90cm.

• 한국작물학회:학술대회논문집
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• 한국작물학회 1988년도 정기총회 및 학술연구발표회
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• pp.50-51
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• 1988

• 한국작물학회지
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• 제33권2호
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• pp.157-160
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• 1988

본 연구는 호프의 수령, 재배지 표고, 생산년도에 따른 생구화 수량의 변화를 구명하여 재배면적 확대, 적지선정 및 수량 예측의 기초자료로 이용하고자 호프 주산지인 강원도 횡성에서 756 농가의 생구화 수량을 중심으로 검토하였던 바 다음과 같은 결과를 얻었다. 1. 호프의 수령별 10a당 평균 생구화 수량은 1년생 181.0kg. 2년생 516.0kg, 3년생 670.0kg, 4년생 726.4kg, 5년생 761.0kg 이었다. 2. 호프의 수령간 생구화 수량은 1, 2, 3, 4 년생에서 각각 고도의 유의한 수량차가 있었으나 4년생과 5년생 이상과는 수량차가 인정되지 않아 호프의 수량성은 4년생 이상이 되어야 충분히 발휘될 수 있었다. 3. 4년생 이상 호프의 재배지 표고별 수량차는 인정되지 않았으나 재배 년도별 평균 수량은 통계적 유의차가 있었다.

• 한국작물학회지
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• 제27권2호
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• pp.141-146
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• 1982

Hop의 증수를 위한 재배기술의 일환으로 적심효과를 검토하고자 무적심, 1회적심, 2회적심, 3회적심의 적심방법 시험을 1979년에 실시하였고, 무적심, 5월 14일 적심(주경 3절위 신장시), 5월 19일 적심(주경 4절위 신장시), 5월 24일 적심(주경 5절위 신장시), 5월 29일 적심(주경 6절위 신장시)의 주경적심시험을 1980년에 실시하였던 바, 그 결과를 요약하면 다음과 같다. 1. 무적심에 비하여 적심회수가 거듭되거나 적심시기가 늦어질수록 영양생장기간 및 개화기가 지연되었다. 2. 주경적심처리는 무적심보다 만장과 총측지수 적었으나 측지 생육이 촉진되어 조기 적심일수록 만중이 증가되었을 뿐만 아니라, 주경 10절위 이하에서도 구화가 착생되어 착화측지수가 증가되었다. 3. 조기적심일수록 무적심에 비하여 10절위 이상 20절위 이하의 측지장이 현저히 길어져 착화측지당구화수 및 주당 구화수가 증가되어 12-43%의 증수를 가져왔다. 4. 만기적심(5월 29일 적심)은 적심 후에서 모화기까지의 일수가 짧아 무적심보다 착화측지수가 적었고, 측지장이 짧아 주당 구화수가 적었으며 100구화중도 가벼워 무적심보다 20% 감수되었다.

• Agricultural and Biosystems Engineering
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• 제5권1호
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• pp.10-20
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• 2004

Precision agriculture aims to minimize costs and environmental damage caused by agriculture and to maximize crop yield and profitability, based on information collected at within-field locations. In this process, quantification of soil physical properties, including soil strength, would be useful. To quantify and manage variability in soil strength, there is need for a strength sensor that can take measurements continuously while traveling across the field. In this paper, preliminary analyses were conducted using two datasets available with current technology, (1) cone penetrometer readings collected at different compaction levels and for different soil textures and (2) tillage draft (TD) collected from an entire field. The objective was to provide information useful for design of an on-the-go soil strength profile sensor and for interpretation of sensor test results. Analysis of cone index (CI) profiles led to the selection of a 0.5-m design sensing depth, 10-MPa maximum expected soil strength, and 0.1-MPa sensing resolution. Compaction level, depth, texture, and water content of the soil all affected CI. The effects of these interacting factors on data obtained with the soil strength sensor should be investigated through experiments. Spatial analyses of CI and TD indicated that the on-the-go soil strength sensor should acquire high spatial-resolution, high-frequency ($\ge$ 4 Hz) measurements to capture within-field spatial variability.

• 한국식품영양과학회지
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• 제15권1호
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• pp.1-8
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• 1986

Authors investigatigated the analysis heavy metals in corps at the Mankyung river area. Samples were digested with Cone. nitric acid and Cone. hydroc hrorico acid and analyzed by Varian 875 Atomic Absorption Atomic Absorption Spectrophotometer in 1984. The results were as follows: The contents of heavy metals in rice were in the range of $0.41{\sim}5.15,\;1.12{\sim}5.18,\;10.65{\sim}14.54,\;24.15{\sim}35.41ppm$ for Pb, Cu, Mn, Zn respectively. Those in barley were in the range of $0.48{\sim}0.8,\;1.39{\sim}2.81,\;9.69{\sim}14.89,\;30.14{\sim}34.84ppm$ for Pb, Cu, Mn, Zn respectively. Those in kidney bean were in the range of $0.06{\sim}0.13,\;3.65{\sim}6.25,\;.65{\sim}12.15,\;51.25{\sim}65.69\;ppm$ for Pb, Cu, Mn, Zn respectively. Those in corn were in the range of $0.59{\sim}0.89,\;2.15{\sim}2.83,\;6.01{\sim}10.15,\;29.31{\sim}36.15ppm$for Pb, Cu, Mn, Zn respectively. We might be concluded that the above values of heavy metals contained in crop at the sites near to Mankyung river were serious partially.

• 한국작물학회지
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• 제33권3호
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• pp.215-221
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• 1988

본 연구는 호프 주산지인 강원도 횡성에서 기상요소의 변화에 따른 수량 예측 모형식을 작성하고, 수량에 관여하는 주요 기상요소와 호프 생리적 작용관계를 구명하고자 1978년부터 1986년까지 9개년간의 년도별 호프 각 생육단계의 기상요소와 4년생 이상 호프의 년평균 수량을 농촌진흥청 VAX 11/785 전산기 AGRISP에 입력 분석하여 검토한 결과는 다음과 같다. 1. 수량 예측을 위하여 선택된 기상요소는 초기생장기(4월 21일~5월 20일)의 최저기온과 평균기온, 화아분화기(5월 21일~6월 20일)의 최고기온, 개화기(6월 11일~7월 10일)의 최고기온, 구화형성기(7월 1일~7월 31일)의 일조시수, 구솨 성숙기(7월 21일~8월 20일)의 강수량이었다. 2. 초기 생장기의 최고기온( $X_3$)과 개화기의 최고기온( $X_4$)은 수량 감소에 영향을 주었고, 초기 생장기의 평균기온( $X_{5}$ )과 구화형성기의 일조시수( $X_{6}$)는 수량 증가에 영향을 주었다. 3. 수량예측의 중선형 회귀모형식은 Y=6042.846-17.665 $X_1$-0.919 $X_2$-96.538 $X_3$-138.105 $X_4$＋86.910 $X_{5}$ ＋ $X_{6}$로 MS $E_{p}$=25.258, $R_{p}$$^{2}$=0.9991, $R_{ap}$ $^{2}$ =0.9962, $C_{p}$=7.00이었다.00이었다.