In order to identify the growth characterization, the yield and chemical composition of Jeju barnyard grass (Echinochloa crusgalli var. fiurnentacea(Roxb) Wight) based on seeding date in Jeju region, seeding carried out the 10-day intervals from March 27

가을철 봄 연맥의 생산을 위해 파종량과 파종기간의 관계를 이해하는 것은 매우 중요하다. 따라서, 본시험은 파종량 및 파종시기가 사초용 연맥 (Avena sativa L.)의 사초특성 및 사료가치에 어떠한 영향을 미치는가를 알아보기 위하여 1997년 8월 15일부터 10월 24일까지 서울대학교 농업생명과학대학 부속실험목장의 사초시험 포장에서 실시되었으며, 파종량은 ha당 150, 200 및 250kg을 주구로 하고, 파종시기(월/일) 인 8/15, 8/22, 8/29, 9/5를 세구로 하는 분할구 시험법으로 3반복 설계 배치하였으며, 결과를 요약하면 다음과 같다. 건물 함량(DM%)은 파종시기가 늦어짐에 따라 9월 5일 파종기(24.8%)를 제외한 다른 파종기는 유의적으로 감소하였으며(P<0.01), 8월15일 파종시는 23.0%, 22일은 21.5%, 29일은 20.5%가 됐다. 연맥의 건물 함량에 대하여 파종량 및 파종시기간에는 유의적인 교호작용이 있었다(P<0.01). 조단백질(CP) 함량은 파종시기가 늦어짐에 따라 15.6%에서 27.9%로 유의적으로(P<0.01) 증가됐다. 연맥의 조단백질 함량에 대하여 파종량 및 파종시기간에 유의적인 교호작용이 있었다(P<0.01). ADF 및 NDF 함량은 파종시기가 빠른 것이 높게 나타났으며(P<0.01), 파종량에 있어서는 유의성이 인정되지 않았다. In vitro 건물 소화율은 파종량이 많고 파종시기가 늦은 것이 높게 나타났다(P<0.01). Ha당 평균건물 수량은 2,647kg에서 615kg으로 나타나 파종시기가 늦어짐에 따라 유의적으로 계속 감소하였으며(P<0.01), 파종량간에 있어서는 유의성이 인정되지 않았다. 연맥의 평균 건물수량에 대하여 파종량 및 파종시기간에는 고도의 유의적인 교호작용이 있었다. 평균 조단백질 수량은 ha당 171kg에서 410kg으로 나타나 파종시기가 늦어짐에 따라 계속 증가하였으며, 파종량에 있어서는 파종량이 많을수록 유의성이 인정되었다(P<0.01). 따라서 연맥의 평균 조단백질 수량에 대하여 파종량 및 파종시기간에는 유의적인 교호작용이 있었다(P<0.01). In vitro 가소화 건물(IVDDM)수량은 파종시기가 늦어짐에 따라 계속 감소하였으며(P<0.01), 파종량에 있어서는 유의성이 인정되지 않았다. 이상의 연구결과 우리나라에서 사초용 연맥의 수량 증수 및 사료가치의 향상을 위해 파종량은 ha당 200kg, 파종시기는 8월29일 이전이라고 생각된다.

본 시험은 파종량 및 파종시기가 추파 호밀(Secale cereale L.)의 사초특성, 수량 및 사료가치에 어떠한 영향을 미치는가를 알아보기 위하여 1997년에서 1998년 4월 20일까지 서울대학교 농업생명과학대학 부속 실험목장 사초 시험 포장에서 실시되었으며, 파종량으로서 ha 당 100, 150 및 200kg을 주구로 하고 파종시기로서 9월 5일, 9월 20일, 10월 5일 및 10월 20일 파종을 세구로 하는 분할구 시험법으로 3반복 설계 배치하였으며, 결과를 요약하면 다음과 같다. 호밀의 출수 시작일은 파종기에 따라서 뚜렷한 영향을 받지 않는 것으로 나타났다. 하지만 1일 기준으로, 파종시기가 15일 지연됨에 따라 출수 시작일이 1일 지연되어짐으로서 호밀의 출수시작일과 파종시기간에는 1:15 비율이 나타났다. 호밀의 건물 함량은 파종량간에는 200 kg/ha 파종구에서 13.6%로 가장 낮게 나타났다. 파종시기간에는 각각 15.2, 14.2, 14.3 및 13.8%로 파종시기가 지연됨에 따라 건물 함량이 낮아졌으며 (P<0.05), 호밀의 건물 함량에 대하여 파종량과 파종시기간에는 고도의 교호작용(P<0.01)이 인정되었다. 호밀의 ADF 함량은 파종량간에 유의적인 차이가 없었으나 파종시기간에는 각각 32.2, 31.6, 31.6 및 29.3%로 파종시기가 늦어짐에 따라 함량이 낮아졌으며, 파종량과 파종시기간에는 교호작용이 인정되었다. 또한 NDF 함량도 ADF 함량과 비슷한 경향을 보였다. 조단백질(CP) 함량은 파종량간에는 차이가 없었으나 파종시기가 늦어짐에 따라서 각각 17.3, 17.7, 18.2 및 18.9%로 증가하였다. In vitro 건물소화율(IVDMD)도 파종량간에는 차이가 없었으나 파종시기가 늦어짐에 따라서 각각 77.5, 80.6, 80.9 및 80.9%로 증가하였다. 호밀의 건물수량은 100 kg/ha 파종구가 9,059 kg/ha로 가장 높았고 200kg/ha 파종구가 7,647 kg/ha로 가장 낮았다(P<0.01). 파종시기간에는 10월 5일 파종구(8,945 kg/ha)가 가장 높게 나타났으며 10월 20일 파종구(7,249 kg/ha)에서 가장 낮게 나타났다(P<0.01). 또한 호밀의 건물 수량에 대하여 파종량과 파종시기간에는 유의적인 교호작용이 인정되었다(P<0.01). CP 및 IVDDM 수량도 건물 수량과 비슷한 경향을 보였다. 본 시험의 결과를 종합하면 우리 나라 중부지방에서 사초용 호밀을 재배시 건물 수량의 증수를 위해서 파종은 9월 20일에서부터 10월 5일 사이에 하는 것이 가장 유리하며 조기 파종할 경우 100~150kg/ha, 만기 파종할 경우는 200 kg/ha로 파종량을 증가시키는 것이 바람직하다고 생각된다.

The objective of this study is to obtain the basic data for investigating the effects of organic reserves on winter survial or regrowth yield. Forage rape (Brussicu napus L.) was sown at 10 day> interval from Sep. I to Nov. 1. Field-grown palnts were samp

본 시험은 가을에 파종한 호밀()에 대한 파종시기 및 가을 수확방법이 호밀의 생육특성, 사초수량 및 사료가치에 미치는 영향을 구명하기 위하여 1992년 9월 5일부터 1993년 4월 21일까지 서울대학교 농업생명과학대학 부속시럼목장의 사초시험포장에서 수행되였으며, 가을수확방법으로서 무예취, 가을예취 및 가을 방목을 주구로 하고 파종시기(조기파종;9월 5일, 중기파종;9월 25일, 만기파종;10월 15일)를 세구로 하는 분할구 시험법으로 3반복 설계배치하

This experiment was canied out to study -the effects of different seeding date on the yields and nutritional value of Pearl millet. Seeding dates were ,,,, and , and harvest dates were , (7 July) and , (18Augst), respectively. The results were summarized

The experiment was conducted to evaluate the effect of the different seeding date on the dry matter yield and chemical composition of oat for forage. The crops wrc sccdcd on August 3l(lirst). Scptember IO(second). and September 20(third seeding date) and

파종기(播種期)를 이동(移動)할 때 수수, 수단그라스, 그리고 수수×수단그라스 교잡종(交雜種)의 생육(生育), 건물축적(乾物蓄積) 및 성분함량(成分含量)의 변화(變化)에 미치는 영향을 알고져 1981~'83년(年)에 포장시험(圃場試驗)으로 실시(實施)하였다. 파종기(播種期)는 4월(月) 16일(日)부터 2주일(週日) 간격(間隔)으로 7처리(處理)를 두었던 바 그 얻어진 결과(結果)를 요약(要約)하면 다음과 같다. 1 수수속작

This experiment was conducted to investigate the aspect of tiller occurrence, growth and yield of sorghum according to planting distance and sowing date. The object of this experiment is to get basic data to inhibit non-productive tillers uneconomical and cumbersome for mechanical harvesting. Also another object was to evaluate optimum planting distance and sowing date in central district area. Total number of tillers was more in 80 ㎝ ridge than 60 ㎝ ridge and it was increased as the planting distance was wider from 15 ㎝ to 30 ㎝ on the each ridge. Ratio of effective tillers was higher in 60 ㎝ ridge than 80 ㎝ ridge and it was decreased as planting distance was wider from 15 ㎝ to 30 ㎝. The lower the planting distance, the more increased total number of tillers, whereas effective tillers was decreased as planting distance was high. Average of total number of tillers of three varieties was higher in sowing date of May 2 (1st sowing date), whereas ratio of effective tillers was the highest in sowing date of May 23 (2nd sowing date). Hwanggeumchal showed the highest total number of tillers (1.2 tillers), while Moktaksusu had the lowest total number of tillers (0.8 tillers) among three varieties. There were no significant difference between planting distance and days to heading and ripening date from seeding. Culm length increased as planting distance was high, but ear length, grains per ear and 1000 grain weight were decreased on the other hand. The highest yield of sorghum per 10a was obtained from 60×20 ㎝ planting distance among 6 planting distances.

This study was carried out to identify the optimum seeding dates for selecting a double-cropping system and to assess the effect of polyethylene film mulching on the yield of Proso millet. Seeds of the varieties Hwanggeumgijang and Ibaegchal were sown in Miryang on five different dates: 1st (May 25), 2nd (June 15), 3rd (June 25), 4th (July 5), and 5th (July 15), with and without polyvinyl mulching. The varieties have different characteristics, for example, Hwanggeumgijang is an early-maturing type and more sensitive to temperature, whereas Ibaegchal is a medium-maturing type and more sensitive to the duration for which it is exposed to sunlight. Late-sown Hwanggeumgijang had a short heading date from seeding and required a low accumulated temperature. It also had a shorter period of heading, a shorter culm length and a shorter diameter of stem. In contrast, it had had a higher number of ears per m2 although similar ear length and similar 1000-grain weight. The yield potential of Hwanggeumgijang was found to decrease at a late seeding date. In particular, it significantly decreased at the seeding date of July 15. In the case of cultivation with polyvinyl mulching, the period of heading was shorter by 2–4 days and the yield potential was increased by approximately 12–32%. The length and diameter of culm in Ibaegchal were slowly decreased, but the length of ear, the 1000-grain weight and the yield potential were similar for all seeding dates (except July 15) and cultivation with and without mulching. When sown late, the length and diameter of the culm of Ibaegchal very rapidly decreased by the July 15 seeding date. The protein content of Ibaegchal was higher but the amlyose content of Ibaechal was lower compared to Hwanggeumgijang. At late seeding dates, the protein contents of the two varieties increased but the amylose contents were similar.

The subject of this experiment is to supply basic data to inhibit non-productive tillers which are uneconomical for mechanical harvesting and to evaluate optimum planting density and sowing date in central district. Total number of tillers and effective first and second of tillers according to different planting density was higher in 80 ㎝ ridge than 60 ㎝ ridge in proso millet. The wider between plant distance on the ridge, the more increased total number of tillers and effective first and second of tillers. The highest effective tillers (91.7 %) in the first tillers was obtained from the second sowing date (23 May) among different sowing date and next is in the order of 3 rd (13 June, 89.8%) > 1 st (2 May, 85.6%) > 4 th (4 July, 85.2%). The percentage of effective tillers in the second tillers was decreased in the order of 2 May (53.7%), 23 May (40.7%), 13 June (22.2%), 4 July (0%) as the sowing date was delayed. There was no significant difference in days to heading and days to ripening according to different planting density. Although culm length was increased as planting density was increased, whereas number of tillers, stem diameter, ear length, grains per ear and 1000 grain weight was decreased. In the growth and yield characteristics of proso millet according to different sowing date, days to heading and days to ripening, culm length, stem diameter, ear length, grains per ear and yield per 10a were decreased. After the sowing date of 13 June, the reduction of growth and yield characteristics were higher because of excess-moisture injury.

Background : Bai Zhu is generally harvested in 1-2 years after seedstock planting. Recently mainly in Guemsan, Bai Zhu is harvested in just 1 year after planting in spring . According to medicinal plant standard culture, Bai Zhu should be directly sown by 20cm distance in April. This study was carried out to find out proper planting date. Materials and Methods ○ Experiment variety : Bai Zhu (Atractylodes macrocephala Koidz.) ○ Treatment : Planting Date ① Late march ② Early april ③ Middle of april(control) ④ Late april Plantind density : ① 30×10cm ② ① 30×20cm ○ Planting type : Direct Seeding ○ Experiment place : Ginseng and Medicinal Plant Research Institute (Geumsan-gun, Chungcheongnam-do) Conclusion : Number of lateral branches in 30×10cm was more in late march than late April and aerial part growth was superior as planting date was earlier. Emergence rate was higher in middle of April and late April and aerial part weight, fresh root weight, dry root weight rate, and dry root weight were superior as planting date was earlier. Dry weight yield increased as 38.3% in late March compared to middle of April. Dry weight was havier as 36.2% in planting time of late March and early April than planting time of middle of April and late April. Total income was higher in planting time of late March and early April than planting time of middle of April and late April.

The photochemical characteristics were analyzed in the context of sowing time and different levels of fertilized nitrogen during the maize (Zea mays L.) growth. When maize was early sawn, the fluorescence parameters related with electrontransport, in photosystem II (PSII) and PSI, were effectively enhanced with the higher level of fertilized nitrogen. Highest values were observed in maize leaves grown in double Nfertilized plot. The photochemical parameters were declined in the progress of growth stage. In early growth stage, the fluorescence parameters were highest, and then reduced to about half of the parameters related with electron transport on PSII and PSI at middle and late growth stages. In 1/2 N plot, the photochemical energy dissipation was measured to 13% in term of active reaction center per absorbed photon resulting in decrease in performance index and driving force of electron. This decrease induced to lower the photochemical effectiveness. In 2 N plots, the electron transport flux from QA to QB per cross section and the number of active PSII RCs per cross section were considerably enhanced. It was clearly indicated that the connectivity between photosynthetic PSII and PSI, i.e. electron transport, was far effective.

The growth period of corn is so shorter than that of any other crops. So, corn is the most promising crop in upland cropping systems. However, there was not so much in basic informations related to cultivation method including seeding period. This study was undertaken to investigate how different seeding date affected the growth characteristics and yield in corn. Two corn varieties(Chalok 4, Ilmichal) were planted on 6 different seeding date(from April 11 to July 10) in upland and paddy field. The total growth period was the longest(105 days) on the seeding date of April 11 regardless of testing varieties and cultivation condition. The total growth period was ranged from 77 days to 86 days in other seeding dates. The commercial yield of corn was higher in paddy field than that of upland field. In consideration of economic productivity, it was concluded that seeding date can be possible from early in April to middle of July in middle and south plain regions.

호남평야지에서 보리 후작 벼 담수표면직파재배시 파종 한계기를 설정하기 위하여 1998~1999 년에 호남농업시험장 수도포장인 전북통(미사질양토)에서 조생종 삼천벼, 상주벼, 오봉벼, 중생종 금오벼 1호, 주안벼를 공시하여 6월 5일, 6월 10일, 6월 15일, 6월 20일에 10 a당 7 kg씩 담수표면산파하여 생육 및 쌀 수량 등을 검토한 결과를 요약하면 다음과 같다. 1. 입모율은 68~81% 로 파종시기가 빠를수록 입모율이 다소 높은 경향이었다. 2. 도복은 오봉벼, 주안벼에서 경미하게 발생하였으나 삼천벼, 상미벼, 금호벼 1호는 도복발생이 심했다. 3. 안전출수기로 본 파종한계기는 삼천벼, 상주벼, 오봉벼의 경우 6월 20일까지, 금오벼 1호와 주안벼는 6월 15일까지였다. 4. 쌀 수량은 6월 5일 파종과 6월 10일 파종은 파종기간에 별 차이가 없었으나 6월 15일 이후 파종에서는 수량감소가 컸다. 5. 따라서 호남평야지에서 보리 후작 벼 담수표면직파재배시 출수기, 수량 등을 고려한 파종한계기는 6월 10일이었다.

중부지방에서 월동 1년생 두과 녹비작물인 헤어리벳치를 이용한 유기재배를 확대하는데 필요한 기초 자료를 얻기 위하여 헤어리벳치-옥수수 작부체계의 후작물로서 가을무를 헤어리벳치와 혼파시기를 달리하여 생육을 조사한 결과는 다음과 같았다. 1. 혼파시기가 빠를수록 섭식성 해충에 의한 무의 생육저해가 증대하였다. 2. 혼파시기가 빠를수록 여름형 잡초의 종류와 생육량이 증대하였다. 3. 헤어리벳치는 8월 중순 이후의 파종시기가 빠를수록 월동 전 생육량이 증대하였다. 4. 가을무도 8월 중순 이후의 파종시기가 빠를수록 생육량 및 최종 수량이 증대하였다. 따라서 헤어리벳치와 가을무를 혼파 할 경우 혼파 시기는 관행의 파종적기인 8월 중순이 적절할 것으로 판단되었다.

The objectives of this experiment was to evaluate the effect of seeding and transplanting date on yield and quality of rapeseed experiment were conducted in the research field of Chungcheongnam Do(Taejun) Agricultural Research and Extension Services with Yudal, one of the rapeseed cultivar of different growth characteristics among the six treatments were examined and recorded. Results showed that yield components such as plant height, length of ear and pod, number of branches and pods and percentage of pod setting and seed set were highest at the plot with direct seeding in Sep. 10. In this treatment yield of seed, 1,000 grains weight and weight of 1l were highest. On the basis of vegetative and yield parameter of direct seeding in Sep. 10 was the best sowing date of rapeseed crop in Chungcheongnam Do region of Korea. Experiments were conducted in the research field of Chungcheongnam Do(Taejun) Agricultural Research and Extension Services with Yudal variety, which showed different growth characteristics. Yield components such as plant height, length of ear and pod, number of branches and pods and percentage of pod setting and seed set were highest at the plot with direct seeding in Sep. 10. Yield of seed, 1,000 grains weight and weight of 1l were highest at the direct seeding in Sep. 10. Judging from the results reported above, seemed to be direct seeding in Sep. 10.

To evaluate growth habits, fresh pod yield potential, and possibility of early and late seeding, seeding dates were extended from March 21 to June 20 by PE mulching and non-mulching. Soil temperature, under 5cm from surface, above 15~circC at 10 a.m. in early seeding reached about March 25 in mulching and April 5 to April 12 in non-mulching. Days to emergence and first flowering were accelerated owing to increasing temperature, as seeding was delayed. Days to emergence according to seeding dates reduced 21 to 8 day in mulching and 33 to 10 day in non-mulching. Days to flowering were ranged from 51 to 26 day in mulching and from 69 to 32 day in non-mulching and differences between mulching and non-mulching on each seeding date had 18 to 4 days. Early seedings till April 21 had 160-170 flowers per plant for 8 weeks, while late seedings from May 21 increased more speedily with 200 flower for 6 weeks. Harvesting of fresh peanut, at 80 days after first flowering, was possible from Aug. 1 to Oct. 7 (133-108 days to harvest) by mulching and from Aug. 19 to Oct. 12 (151 to 114 days) by non-mulching. Yields between mulching and non-mulching in early seeding until April 21 had more difference, but in late seeding after May 21 was higher and showed insignificance. Pod setting periods by early and late seeding were about 3 weeks equally. In late seeding pod setting were almost concentrated for front 15 days. In spite of difference of fresh pod weight between two seeding times, the distributions of average of seed weight showed nearly same tendency.