This experiment was conducted to a comparison of the productivity according to variety and forage quality by plant parts of imported silage corn (Zea mays, L) in Pyeongchang. The corns evaluated in this experiment were 8 varieties (P1184, P1151, P1194, P1543, P1345, P1429, P1443, and P2105) introduced from the United States, Pioneer Hybrid Co. The harvested corn was divided into 5 plant parts (leaf, stem, cob, husk, and grain), and the ratio of each part was calculated using dry weight and the feed value was analyzed. The emergence rate of corn was generally good except for the P1151 and P2105 varieties. The average tasseling date was July 24th and the silking date was July 27th, but the P2105 variety was late to July 28th and August 1st, and the remaining varieties were similar. P1345 was the highest (289 and 123 cm), and P1151 varieties were the lowest (267 and 101 cm) in the plant and ear height. Disease resistance was low in P1184, P1443 and P1429, and P1197 and P1345 were high. In the case of stover, the dry matter (DM) content was the lowest at 19.6% in the P1151 and the highest at 24.9% in the P1429. DM content of ear was the highest in the P2105 (55.5%), and P1184 (54.2%) and P1345 (54.3%) were also significantly higher (p<0.05). The DM yield of stover of P2105, P1429 and P1194 varieties was significantly higher (p<0.05), and ear yield of P2105, P1345 and P1443 was higher. The proportions of each part of plants (leaf, stem, cob, husk, and grain) divided by 5 was high, with 50-60% of the ear(grain+cob) ratio. The ratio of husk and cob was roughly similar, and the leaf and stem part showed a ratio of about 20%. The crude protein (CP) content was highest in leaf, followed by grain. The CP content of the stem was the lowest, and the husk was not significantly different among the varieties (p>0.05). The acid detergent fiber (ADF) content was similar to the rest parts except grain, but the leaf part tended to be lower, and other parts except the stem and leaf showed no significant difference between varieties (p>0.05). There was no significant difference in NDF (neutral detergent fiber) content in husk, but there was a difference between varieties in other parts (p<0.05). In addition, there was a special difference by plant parts for each variety, P2015 on the stem, P1197 on the leaf, P1151 on the cob, P1197 on the husk, and P1197 on the grains with high NDF content. IVDMD (in vitro dry matter digestibility) was not significantly different between stems and grains, but there was a difference between varieties in cobs and husks. According to the results, DM yield of P2105 variety was the best in the experiment, and the ratio of grain was excellent in P1543 and P1345. In addition, it was found that the feed value was higher in the leaves and grains, and the leaf and stem had higher feed values than husk or cob.

This paper deals with the productivity increment through construction of HT8 production system for automobile factory in China. HT8 production system start to build up several management indices. The important management indices consists of organization management, location management, management of order, management of defective item, management of delivery information, and warehouse management. This HT8 production system is expected to obtain the improvement for overall organization management and reduction by 50% in warehouse cost.

This paper deals with the productivity increment through construction of lean production system for automobile factory in China. This lean production system has been progressed according to 5 steps. Step 1 is the work preparation. Step 2 is the process design. Step 3 is the establishment of method to count production quantity. Step 4 is the establishment of measuring method for input and output. Finally, step 5 is the construction of flexible production system able to adapt for environment change. This lean production system is expected to obtain the productivity increment by 50% for plastic plant and reduction by 50% in inventory quantity.

This study's purpose centers plant management activities that is management system for total plant efficiency's maximization, plant evaluation system that production and safety management activities factor that is enforcing in manufacturing industry can develop evaluation model that can evaluate quantitative activities in process that maximize productivity and safety efficiency wishes to do design.

This study's purpose centers plant management activities that is management system for total plant efficiency's maximization, plant evaluation system that production and safety management activities factor that is enforcing in manufacturing industry can develop evaluation model that can evaluate quantitative activities in process that maximize productivity and safety efficiency wishes to do design.

The manufacturing industries which played a major role in the rapid economic growth and industrialization of Korea in the late 20th century had considerable difficulties changing their manufacturing conditions from producer-oriented conditions to customer-oriented ones according to market changes. In this study, increase plant efficiency because grafts together modular system to plant layout and analyzes Work In Process(WIP) between product's cycle time and each process, family efficient plan wishes to choose opposite bank. Simulation approach used for presented methodology The effect will not gain the results for other reasons the inherent conditions of companies, people, and culture which have been hitherto described, but will be expected to help the direction for a new Lay-out production system to reflect on the native conditions rather than fixed technological means and methods in way of an analysis of fundamental problems which small and medium companies in Korea face.

목초하고 피해를 최소화할 수 있는 방목개시시 초장(주구 3처리 ; 15, 30, 45cm)과 여름철 혼파된 화본 과목초에 경합력이 낮은 화이트클로바 품종(세구 4처리; Regal, Tahora, Brown, STVR)을 선발하기 위해 제주농업시험장의 사료작물시험포장에서 1994년 9월부터 1996년 10월까지 2년간 시험이 수행되었다. 혼파목초의 건물수량은 전체적으로 평균 예취시 초장 30cm 이상에서 유의적 증수를 보였으나(P<0.05) 2년차에는 유의적 차이가 없었다. 2년째 수확시에만 목초의 건물수량이 Brown 품종구에서 타 품종 보다 통계적으로 고도의 유의적 증가를 보였다.(P<0.01). 2년차에 예취시 초장에 따른 식생구성율에 분명한 차이를 발견치 못하였다. 다만 white clover 품종 처리별로 비교할 때 white clover의 비율은 Regal와 Tahora구에서 보다 Brown과 SRVR 처리구에서 낮아지는 경향이었다. 2년차 마지막 예취시에 잡초비율도 주구나 세구간 효과를 발견치 못하였다. 목초의 ADF와 NDF 함량은 예취 초장 15cm에서 가장 낮았고 인 함량은 15cm에서 가장 높았으며 모두 통계적으로 유의차가 인정되었다(P<0.05). 혼파목초의 K 함량은 30cm 초장에서 가장 낮았으며 (P<0.05) 질소 함량은 예취시 초장과 품종간에 상호작용이 있었으며 통계적으로 고도의 유의차가 있었다(P<0.01). White clover의 품종이 목초의 일반성분 함량에 영향을 주지 못하였다. 결론적으로 방목형일 때 15cm 초장에서 화이트 클로바 SRVR을 이용하는 것이 사료가치도 유지하며 두과와 화본과목초 균형을 유지하는 데 적합하다고 사료된다.

To determine optimal plant density of forage rape in southern areas of Korea, Velox, the highest yielding variety among seventeen introduced varieties of forage rape, was grown under five different plant densities. The results obtained are summarized as f

The aim of this study was to determine the optimum level of carbon dioxide to maximize the quality and yields of strawberries cultivated in a greenhouse. Specifically, two strawberry cultivars, namely, ‘Seolhyang’ and ‘Maehyang’, were subjected to varying concentrations of carbon dioxide and patterns linked to their productivity were noted. Both cultivars showed improvements across various physical variables (i.e., leaf area, crown diameter, plant height, fresh weight, and dry weight) when carbon dioxide concentrations were at 1,500 ppm. The optimum carbon dioxide concentration for increased fruit yields and quality was 1,000 ppm. When carbon dioxide was at 1,000 ppm the yields of ‘Seolhyang’ and ‘Maehyang’ increased by 1.99 and 1.78 times, respectively, compared to control plants. The influence of carbon dioxide on fruit color was negligible. However, the carbon dioxide increased the sugar content and sugar-acid ratio of the experimental fruits compared to control plants. Specifically, the sugar-acid ratio, which is directly related to taste, was at its highest when the concentration of carbon dioxide was at 1,000 ppm (i.e., for both ‘Seolhyang’ and ‘Maehyang’). Overall, the application of carbon dioxide culminated in improved yields and fruit quality for both cultivars of interest.

Most eukaryotic organisms, including plants, display specialized cellular and behavioral rhythms with a period of approximately 24 hours. The circadian clock generates this rhythm to convey daily or seasonal basis of temporal information, coordinating the proper phasing of many important cellular processes. Temperature compensation (TC) is one of the defining features of the clock mechanism. Under this function, the speed of the clock or period remains relatively constant over physiologically relevant temperatures, unlike the biochemical reactions. Thus, TC allows organisms to sustain their life ordinarily in various thermal environments by providing an accurate measure of the passage of time regardless of surrounding temperatures. Previously, Edward and his colleagues performed a quantitative trait loci (QTL) study to find TC related natural variations in the recombinant inbred line (RIL) population from two Arabidopsis ecotypes, which are adapted to different thermal environments; one parent is Cvi accession (Cvi) which originates from the warm climate, Cape Verde Island, and the other is Ler accession (Ler) from Northern Europe. For the two most significant QTLs, the core clock components in Arabidopsis clock, GIGANTEA (GI) and ZEITLUPE (ZTL) are proposed as strong candidates. Moreover, the amino acid substitution leading to GICvi and ZTLCvi (Ler to Cvi) are suggested to be the causal factors for the TC QTLs respectively. However, precise molecular mechanisms of these natural variations on TC are still not understood well. Here, we elucidate the molecular impact of the natural variation shaping GICvi and ZTLCvi on TC function. GICvi and ZTLCvi post-translationally regulate ZTL stability in antagonistic way, resulting in the opposite period/clock effects mediated by ZTL protein abundance. However, if both GICvi and ZTLCvi are present, they mutually balance their own effect on ZTL, which in turn supports TC capacity of Cvi especially at high temperatures. Considering the amino acid residues in GI and ZTL, where the natural variations arise, are highly conserved across many important crop species including rice, corn, cabbage and etc., this research will give valuable insights into the TC related thermal adaptive processes in Arabidopsis as well as those important crop plants.