• 한국작물학회:학술대회논문집
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• 한국작물학회 2022년도 추계학술대회
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• pp.97-97
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• 2022

The yield characteristics of corn for feed by sowing period and the crude protein, crude fat, and coarse flour contents of grain in the harvesting period were compared. The varieties are Kwangpyeongok(KPO), Dapyeongok(DPO) and Pyeonggangok(PGO), and cultivation was tested by the National Food Engineering Department and the Central Crop Department. It was sown at a planting distance of 70×25cm on April 15, June 14, and July 15, 2021, and the amount of fertilizer was applied through soil inspection. For the growth characteristics, plant height, biomass and grain weight were investigated after 50 days of sowing, and general components were analyzed by drying and pulverizing each seed. Compared to the results of sowing in April, which is the right time to sow corn, all three varieties sown on June 14 showed an increase in biomass. In the case of sowing on July 15, the fresh weight of KPO and DPO decreased, and the grain weight of KPO and PGO decreased by 10-20% compared to the sowing in April. There was no significant difference in the crude protein content of grain according to the sowing seasons in April and June, but decreased in the corn sown in July. The crude fat content was highest in KPO sown on June 14 and DPO sown on July 15. Combining the yield and general composition results, it is thought that the cultivation of corn for feed in Suwon in the central part can be sown by mid-June.

• 한국작물학회지
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• 제68권4호
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• pp.313-326
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• 2023

Owing to adverse weather conditions, there is a heightened focus on actively researching the regulation of the sowing date in field crop cultivation. Soybean, a prominent field crop with extensive acreage and production, is a photophilic and thermophilic crop characterized by short-day photoperiodism. Identifying the optimal sowing time is crucial for mitigating the effects of severe weather conditions on soybean yield. Precise control over the timing of soybean sowing is the key to minimizing yield reduction due to unfavorable weather conditions. Temperature, photoperiod, and their interplay are the most significant factors influencing soybean cultivation among various weather factors. We conducted an experiment using three Korean soybean cultivars with varied maturities (Hwangkeumol: early maturing and Daewonkong and Pungsannamulkong: late maturing) in 2013 and 2014. Our investigation covered aspects of soybean growth, development, yield components, isoflavones, and visual seed quality. Across all three varieties, isoflavone levels increased with later sowing dates, while other measured components exhibited significant variations based on the sowing date. This study also provides valuable insights for the selection of suitable cultivars that perform well in soybean cultivation at various durations of maturity.

• 한국작물학회지
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• 제2권
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• pp.27-29
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• 1964

Experiments were carried out to clarify the relationships between seed yields and some ecological characteristics, seed yields and some morphological characteristics, and the relationships among the varietal yields on the several sowing plots when grown under different climatic conditions. Twenty-four soybean varieties were used as the material, selected at random from 138 varieties which were cultivated the year before. These varieties were grown in the Experimental Farm, Chinju Agricultural College, Kyung Sang Namdo, Korea, and seed sowing was conducted at 5 times, from April to July, in 1962 and 1963. The results obtained are summarized as follows: 1. Correlations between seed yields and some ecological characteristics on the sowing date bases are shown in Table 1. Among some ecological characteristics, it was observed that there wert close relationships between seed yields and days to flowering, and between seed yields and the total growing length, except on the late sowing, i.e. July sowing plots, However, there was no clear correlation between seed yields and durations of flowering, and between seed yields and days from flowering to maturity. 2. Correlations between seed yields and some morphological characteristics on the sowing date bases are shown in Table 2. From this table, it was also observed that there were some close relationships between seed yields and branch number for plant, stem diameter, plant weight, pod number per plant, and grain number per plant, but there was no clear relationship between seed yields and stem length, and between seed yields and 100 grain weight, on every sowing plot. 3. Relations between varietal yields and the sowing dates are shown in Table 3. Our leading varieties such as Ulsan, Sangdoo, Changdan Backmok, Iksan, Haman, Barchongdeo, and Anion Daerip, which belong to the maturity groups of IV, V, and VI, have been significantly high in yield at each sowing date plot, but the extreme early varieties, that frequently are damaged by insects, moisture and diseases, and the extreme late varieties, that frequently are caught by frost suffering reduced yield, are showed a lower yield than the others. However, extreme early varieties, for instance, Black Hawk, an American variety, and Chung Buk Baek, a Korean early variety, showed high productivity on the late sowing, June and July sowing plots, and Do san No. 6, which is late Japanese variety, showed a high yield on the extreme early sowing, i.e. April sowing plots. 4. Relations between seed yields and the sowing dates on the varietal bases are shown in Table 4. It was observed that, the early varieties did not differ much in yields at the various sowing dates while the yields of late varieties decreased progressively with subsequent dates. However, the extreme late varieties, such as Tamanishiki, that frequently are caught by frost suffering reduced yield, may be difficult to harvest at this location. The results in these experiments showed that in most cases maximum yields were obtained when leading varieties, which are medium or late varieties, were shown in Mid-May, and progressively lower yields were produced from June and July sowings. On the other hand, the late sowings of the early varieties, such as Black Hawk and Chung Buk Baek, in these experiments showed favorable yields compared with the others. From these results, we can predict that our local medium or late varieties produce higher yields at this location than was produced by early varieties in most of the sowing dates, especially the May sowing, and early varieties such as Black Hawk and Chung Buk Baek should be used in the late sowing, June sowing time.

• 한국작물학회지
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• 제59권3호
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• pp.325-331
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• 2014

본 연구는 동부 생력재배에 적합한 파종기와 재식밀도를 설정하고자 전남 나주(위도 $35^{\circ}$ 04'N, 경도 $126^{\circ}$ 54'E)에서 2012년과 2013년에 수행하였다. 시험 계통은 반유한 직립형인 전남1호와 전남2호를 이용하였다. 적정 파종기 설정을 위해 6월 25일부터 8월 5일까지 약 10일 간격으로 5회 파종하였다. 적정 재식밀도 설정을 위해 10a당 5,000, 10,000, 15,000, 20,000본씩 파종하였다. 1. 개화일수는 7월 25일 파종에서 32일로 가장 짧았고, 7월 25일 파종을 전후하여 길어져 6월 25일 파종에서는 41일로 가장 길었다. 2. 개화시에서 성숙시까지의 소요일수는 6월 25일 파종에서 8일로 가장 짧았고, 이후 파종이 지연됨에 따라 급격하게 길어지는 경향이었다. 반면에 성숙시에서 1차 수확기까지의 소요일수는 8~10일의 범위로 파종기간 차이가 적었다. 3. 8월 5일 파종에서는 일시 수확이 가능하나, 6월 25일부터 7월 25일 파종에서는 3~2회 수확되었다. 4. 수량은 7월 25일 파종에서 전남1호 209 kg/10a, 전남2호 221 kg/10a로 가장 많았다. 뿐만 아니라 1차에 수확한 종실의 점유율이 91%로 높기 때문에 수확기를 15일 가량 미루면 일시수확이 가능하다. 5. 적정 재식밀도는 수량이 전남1호 199 kg/10a, 전남2호 224 kg/10a로 가장 많은 15,000 본/10a 내외로 판단된다.

• 한국초지조사료학회지
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• 제6권3호
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• pp.164-168
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• 1986

본 시험은 사초용(飼草用) 호밀의 파종기와 파종량이 사초(飼草)의 생육특성, 월동성 및 수량에 미치는 영향을 구명(究明)하기 위하여 서울대(大) 농대(農大) 사초시험포장(飼草試驗圃場)에서 수행되었다. 본 시험에서 호밀의 파종기(播種期)를 9월 8일, 9월28일, 10월18일로 하고 ha당 파종량(播種量)을 80, 130 및 180kg로 하여 9처리(處理) 3반복(反復) 난괴법으로 실시하였다. 호밀의 초장(草長)은 파종기(播種期)에 의하여 영향을 받지 않았으나 9월8일 파종구에서 가을에 수확을 하였을 때와 10월18일 파종구에서 파종량(播種量)이 증가됨에 따라 초장(草長)도 길어지는 경향을 보여주었다. 9월8일 파종구는 가을철 수확으로 인하여 월동률(越冬率)이 저하(低下)되었으나 총건물수량(總乾物收量)은 오히려 가을철 수확으로 증가(增加)되었다. 파종기에 따른 평균건물수량(平均乾物收量)은 9월8일 파종구가 ha당 5884kg, 9월28일 파종구가 4993kg, 10월18일 파종구가 3525kg였다. 호밀의 건물수량(乾物收量)은 파종기가 늦어짐에 따라 저하(低下)되었으나 파종량이 증가됨에 따라 증가(增加)되는 경향이었다. 특히 파종량에 따른 건물수량의 차이는 9월8일과 9월28일 파종구에서 보다는 10월18일 파종구에서 현저히 컸다. 본 시험결과를 종합할 때 우리나라의 중부지방에서 밭에 풋베기 호밀을 파종할 경우 조파(早播)하는 것이 수량(收量)이 많았으며 만파(晩播)할 경우 파종량(播種量)을 증가하는 것이 수량이 많았다.

• 한국약용작물학회지
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• 제28권2호
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• pp.128-135
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• 2020

Background: Sowing seeds of Adenophora triphylla is known to be difficult owing to their small size and irregular seed shape. Therefore, this study was conducted to develop a seed pelleting technique to save labor during sowing. Methods and Results: To identify the optimal germination temperature for A. triphylla seeds, the temperature range was set from 17℃ to 32℃. Germination surveys were conducted in plastic greenhouse conditions in March, April, and May to determine the appropriate sowing time. The optimal germination temperature for A. triphylla seeds was 29℃ and May was the optimal sowing time in plastic greenhouse conditions. Covering materials for seed pelleting used talc (T), kaolin (K), calcium carbonate (C), and vermiculite (V). The pellet binder used agar (A), pectin, xanthan gum, polyvinyl alcohol (PVA), and sodium alginate (S). The best suited treatment mixture were the best suited in kaolin / calcium carbonate / vermiculite (KCV), talc / calcium carbonate / vermiculite (TCV) mixture treatment for covering material, and sodium alginate (S), agar (A) as pellet binder, respectively. The germination rate was the best in TCV mixed with S. Conclusion: The mixture of TCV (2 : 1 : 3) + 1.5% S (TCVS), was found to be the best pelleting materials for A. triphylla seeds, and seed pelleting can be labor-saving during sowing.

• 한국작물학회:학술대회논문집
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• 한국작물학회 2022년도 추계학술대회
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• pp.55-55
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• 2022

Purple com Saekso 1 was developed by Maize Research Institute (Hongcheon, Gangwon, Korea) and registered in 2011. Saekso 1 is a anthocyanin-rich hybrid variety that is yellow grain, purple husk and cob. Purple husk and cob of Saekso 1 is as a resource for the bioactive material by health food. In order to investigate optimum sowing date and planting density of Saekso 1. Agronomic characteristics were compared by sowing times April 25, May 15 and June 5. Husk dry weight were 68,72 and 70kg·10a-1, respectively. Cob dry weight were 90, 92 and 92kg·10a-1, respectively. Content of cyanidin-3-glucoside in husk were 0.56, 0.62 and 0.56% and in cob were 0.19, 0.14 and 0.17%. Therefore, the sowing time to increase husk and cob weight and content of cyanidin-3-glucoside is appropriate for planting in mid-May. The number of plants in planting density trial was 9,400, 7,000, 5,700 and 4,700 plants in 10a area. Plant height at each trial were 249, 250, 246 and 248cm, respectively. Husk dry weight were 76, 67 and 63 and 60kg·10a-1, respectively. Cob dry weight were 112, 92, 87 and 81kg·10a-1, respectively. Content of cyanidin-3-glucoside in husk were 0.70, 0.71, 0.71 and 0.75% and in cob were 0.21, 0.28, 0.26 and 0.20%. Therefore, appropriate sowing time was in mid-May and planting density was 5,700~7,000 plants·10a-1 in order to increase the yield and content of cyanidin-3-glucoside of purple com in South Korea.

• 한국작물학회지
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• 제55권3호
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• pp.195-199
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• 2010

This experiment was conducted to develop optimum sesame cultivation practices as succeeding cropping system of watermelon in the greenhouse condition. We also compared major components in sesame seed cultivated in the greenhouse and open field condition. The adaptable varieties under the greenhouse condition were white sesame 'Pyoungan' and black sesame 'Jinki' which showed higher yield and disease resistance. We also conducted several experiments to determine optimum sowing date, planting density and pinching time. Grain yields were statistically different according to the several sowing dates. In general, sesame sowing on June 30th showed higher grain yields than July 10th, July 20th and July 30th in the greenhouse. We also found out sesame cultivation practice with the row spacing of 40 cm and interplant spacing of 30 cm (a few branch type) or 40 cm (many branch type) showed higher yield than other treatments. Optimum pinching time was 25 days after first flowering in main stem when thousand seed weight and grain yield were highest. In the comparison of major components of sesame at the different cultivation conditions, sesame seeds cultivated in the greenhouse contained 4% much more oil content than open field condition. The lignan compounds, sesamin and sesamolin were also higher by 6% in the greenhouse than open field condition. It was concluded that sesame cultivation practices as succeeding cropping system of watermelon in the greenhouse condition guaranteed higher grain yield with less labor input which is now emerging alternative farming practice system in present aging rural society and will also give sesame cultivation farmers to increase net income in Korea.

• 한국초지조사료학회지
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• 제6권2호
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• pp.119-123
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• 1986

본(本) 시험(試驗)은 제경법(蹄耕法)을 이용(利用)하여 산지초지(山地草地)를 조성(造成)할때 파종시기(播種時期)가 목초(牧草)의, 잔존(殘存), 건물생산(乾物生産) 및 이용률(利用率) 등에 미치는 영향을 조사하기 위하여 $1982{\sim}'84$년에 걸쳐 고령지시험장에서 수행(遂行)되었으며 그 결과(結果)를 요약하면 다음과 같다. 1. 목초(牧草)의 정착율(定着率)은 화본과의 경우 4월(月) 15일(日), 5월(月) 15일(日), 8월(月) 1일(日), 8월(月) 30일(日) 파종구에서 각각 11.1, 9.8, 12.4 및 3.1%를 나타내어 8월(月) 30일(日) 파종구(播種區)를 제외하면 10% 내외(內外)의 정착율을 나타내었으며, 한편 두과의 정착율은 춘파구(春播區)에서 30% 내외(內外)로 추파(秋播)에 비해 유의적인 차이가 있었다. 2 파종(播種) 2년차(年次)의 목초식생비율은 $66{\sim}80%$를 나타내었고 또 조성초기의 정착(定着) 및 잔존(殘存)의 차이에 관계없이 파종(播種) 3년차(年次)는 처리간(處理間)에 건물생산(乾物生産)에 차이가 없었다. 따라서 제경법(蹄耕法)에 의한 초지조성시(草地造成時) 적절한 시비(施肥) 및 관리방목(管理放牧)의 중요성이 인정되었다. 3. 파종(播種) 2년차(年次) 시험구(試驗區)의 사초이용율(飼草利用率)은 $45{\sim}53%$로 나타났다.

• 한국작물학회지
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• 제66권4호
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• pp.403-410
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• 2021

본 연구는 5월 30일, 6월 20일, 7월 10일에 파종한 종실들깨 주요 5품종(다유, 들샘, 들향, 백진, 소담)의 종자 품질 및 성분을 분석하여 다양한 작부체계에 따른 종자 품질 변이에 대한 정보 제공 및 기초자료로 활용하고자 수행하였다. 1. 들깨의 파종시기가 늦어짐에 따라 개화 및 성숙일수는 짧아졌으며, 그에 따라 종자 품질의 차이를 보였다. 2. 파종시기가 늦어질수록 천립중이 증가하였으며, 종자의 경도 또한 증가하였다. 3. 들깨의 주요 영양성분인 조단백과 조지방은 파종시기에 따라 유의적인 차이를 보였는데 파종시기가 늦어질수록 조단백질 함량은 높아지고 조지방 함량은 낮아져 이들간에 부의 상관관계를 보였다. 4. 지방산의 경우 품종에 따라 차이를 보였으나, 파종시기에 따른 유의적인 차이를 보이지 않았다. 5. 로즈마린산, 토코페롤 등 기능성 성분 함량 분석 결과 파종기에 따라 품종별 차이를 보여 파종기 세분화 등 추가적인 연구가 필요한 것으로 판단된다.