Irrigation with saline water of rivers and groundwater reservoir into paddy field cause decreases rice production depending on water salinity. The purpose of this research was to determine the critical concentration of water salinity for provision of a basic information on the stable rice production in west costal area of Honam region. A greenhouse experiment was conducted at the 13 levels of saline water [0.01(control) 0.03, 0.05, 0.08, 0.10, 0.13, 0.15, 0.20, 0.25, 0.30, 0.50, 0.70, 1.00%] in transplanted rice using c.v. Cheongho and tolerance to different water salinities was evaluated at three growth stages of the rice plant such as [(35 DAT:Tillering), (81 DAT:Heading), and (106 DAT:Ripening)], respectively. Increasing water salinity significantly decreased grain yield and the higher in salinity the severe effect on yield reduction. The growth responses to water salinity varied at different growth stages of rice. At 35 DAT, increased water salinity decreased plant height and number of tillers significantly. Higher water salinity delayed the days to heading by 2 days (0.05%), 4 days (0.08%) and 7 days (0.1%). The critical water salinity at 35 DAT was below 0.08%. At 81 DAT, Cheongho survived at 0.10 and 0.08% salinity, respectively. However, at water salinity levels above 0.10%, the yield components such as number of panicles and number of spikelet decreased drastically. Thus, it was suggested that the critical water salinity at the mid-stage (tillering~heading, 81 DAT) was 0.05%, At 106 DAT, based on yield index that gives above 50% grain yield, the 0.05% salinity showed the lowest 61.1% grain yield of 19.2 g/plant as compared with the highest grain yield of 31.4 g/plant at 0.01% (control).

경상남도 밀양에서 옥수수 나방류 해충인 조명나방(Ostrinia furnacalis)과, 왕담배나방(Helicoverpa armigera)의 발생양상을 조사하였다. 밀양에서 조명나방의 1차 성충은 5월 하순에 16.8마리로 최고발생밀도를 보였고, 2차 성충은 8월 하순에 4.8마리로 최고발생밀도를 보였다. 2012-2014년 호남지역인 익산, 고창, 부안에서 조명나방 1차 성충의 최고발생밀도를 보인 시기가 5월말에서 6월 상순이었다는 것과 비슷하였으나 밀양이 3-5일 정도 빠른 것으로 보인다. 2차 성충은 익산, 고창, 익산에서 8월 하순에서 9월 상순사이 최고발생밀도를 보인 것과 비슷한 발생양상을 보였다. 밀양에서 왕담배나방의 1차 성충은 5월 상순에 12.7마리로 최고발생밀도를 보였으며, 2차 성충은 6월 하순에 16.7마리로 최고발생밀도를 보였고, 3차 성충은 8월 상순에 23.3마리로 최고발생밀도를 보였다. 2012-2014년 부안에서 왕담배나방의 1차 성충 최고발생밀도는 5월 중순으로 밀양보다 약 10일정도 늦었으며, 2차성충과 3차 성충의 최고발생 시기는 6월 하순과 8월 상순으로 비슷한 양상을 보였다. 밀양에서 왕담배나방의 1차 성충의 최고발생 시기는 부안에 비해 약 7-10일 정도 빠른 것으로 보이며, 2차 성충과 3차성충의 최고발생시기는 비슷한 양상을 보였다.

In this study, growth and yield characteristics of 14 potato varieties were analyzed in the uncultivated field Saemangeum reclaimed tidal land in spring season cropping and to select suitable varieties for the cultivation. The shoot emergence has been started about 20 days after planting and has been continued for 10 ~ 22 days after first emergence. All varieties showed 90% or higher emergence rate. The potato varieties yield was classified into three groups depend on the total yield. High yield varieties; Atlantic, Chuyeong, Seohong, Chubaek and medium yield varieties; Chudong, Goun, Haryung, Jopung, Dejima, Superior and low yield varieties; Hongyoung, Jayoung, Jowon, Namseo. For the marketable yield, Jowon, Altantic, Chuyeong, Jopung, Seohong, Goun, Superior and Haryung varieties showed 70% or higher while Hongyoung showed the lowest with 47%. According to the results of virus detection test after two year successive cultivation in reclaimed tidal land, very low amount of Potato virus Y (PVY) was detected only on Seohong sprouts (fitst year) and Dejima leaves (second year) while other varieties were shown no symptom of virus. From the survey with consumers, Haryung, Superior, Goun, Dejima and Chuyeong varieties were found to be relatively higher in the purchase preference for the shape, color and taste. The measurement of antioxidant activity showed Jayoung variety to be excellent with the total phenol contents and DPPH antioxidant activity. Atlantic, Chuyeong, Seohong, Goun, Haryung and Jopung varieties showing high total yield and marketability of 70% higher were considered to be suitable for cultivation in the sandy loam of Saemangeum reclaimed tidal land. According to the above results, the growing possibility of spring potatoes in he sandy loam of newly Saemangeum reclaimed tidal land.

벼상자육묘(箱子育苗)에서 살균제(殺菌齊)와 생장조절제처리(生長調節劑處理)가 묘생육(苗生育) 및 생리장해(生理障害)에 미치는 영향(影響)을 구명(究明)코자 삼강(三綱)벼와 낙동(洛東)벼를 공시(供試)하여 시험(試驗)하였던 결과(結果)를 요약(要約)하면 다음과 같다. 살균제처리(殺菌齊處理)에서 삼강(三綱)벼는 Metalaxyl과 SF8002 처리구(處理區)가, 낙동(洛東)벼는 SF8002와 Metalaxyl처리구(處理區)가 초장(草長)과 3엽(葉) 및 4엽(葉)이 뚜렷한 신장교과(伸長效果)를 보였다. 건물중(乾物重)은 Metalaxyl구(區)가 가장 무거웠고 엽수(葉數)와 묘충실도(苗充實度)는 Dachigaren청리구(廳理區)가 양호(良好)하였으며, 살균제처리구(殺菌齊處理區)가 무처리(無處理)에 비(比)해 입고병발생(立枯病發生)이 적었다. 생장조절제처리구(生長調節劑處理區)에서 삼강(三綱)벼에서는 BA처리구(處理區)가, 낙동(洛東)벼에서는 GA，처리구(處理區)가 초장(草長)이 가장 길었으며, ABA(處理區)가 초장(草長)이 가장 작았고, ABA와 CCC처리구(處理區)가 신근발근력(新根發根力)이 왕성(旺盛)했다. 살균제(殺菌齊)+생장조절제처리구(生長調節劑處理區)에서 살균제(殺菌齊)+GA, 구(區)와 Metalaxyl+생장조절제처리구(生長調節劑處理區)가 초장(草長)이 가장 길었으며, Isoprothiolane+생장조절제처리구(生長調節劑處理區)가 초장(草長)이 가장 짧았다. Dachigaren+IAA 처리구(處理區)가 건물중(乾物重)과 묘충실도(苗充實度)가 양호(良好)하여 묘소질(苗素質)이 좋았으며, 살균제(殺菌齊)+생장조절제처리구(生長調節劑處理區)가 무처리(無處理)보다 입고병발생(立枯病發生)이 적었다. 또한 삼강(三綱)벼에서는 Metalaxyl+IAA 처리구(處理區)가 낙동(洛東)벼에서는 Dachigaren+IAA 처리구(處理區)가 지상부재생력(地上部再生力)이 양호(良好)했다.

A new peanut variety ‘Daan’(Arachis hypogaea ssp. hypogaea L.) was developed at the Department of Southern Area Crop Science, National Institute of Crop Science (NICS) in Milyang 2014. This was developed from the cross between ‘Iksan 31’ with Virginia typed short stem and ‘Dakwang’ with Shinpung-typed larger grain. ‘Daan’ which is a Shinpung plant type had 13 branches per plant and its length of main stem was 44cm. Each pod has two grains with brown testa and long ellipse-shaped large kernel. Its yield components showed 34 pods per plant, 127 g of 100-seed-weight and 75% of pod shelling ratio in the regional yield trials (RYT). Seed quality showed 47.8% of crude oil and 28.3% of protein content. This variety showed resistant to early leaf spot and had more resistant to late leaf spot, stem rot and lodging, compared to reference variety. In the regional yield trials for 3 years ‘Daan’ was more productive than reference variety by 16% with 5.00 MT/ha for grain production.

For high-quality colored rice production, the cultivation environment is a critical factor. The major environmental factor is temperature, which includes the accumulated and average temperature during vegetative and reproductive stages. Generally, during the cultivation period, the temperature can be controlled by shifting the transplanting date. This study was carried out to determine the optimum transplanting date for high-quality red-colored rice production. Four red-colored rice varieties (Jeokjinju, Jeokjinjuchal, Hongjinju, and Gunganghongmi) were used as test materials. The transplanting dates were May 20 and June 5, 20, and 30 in 2015~2016. The most variable factor controlled by the transplanting date was the grain filling rate. The varieties transplanted on June 30 showed low yields owing to the decrease in the grain filling rate. In contrast, the polyphenol content increased with increasing delay in the transplanting date. Collectively, these two results indicate that the optimum transplanting date was June 20. The average temperature for 30 days after the heading date (30DAH) highly affected the polyphenol content. A lower temperature during the 30DAH induced higher polyphenol contents but also caused low yield. The optimum 30DAH temperature for obtaining a higher yield and polyphenol content was 22~23°C. Using the average 30DAH and accumulated temperatures, the optimum transplanting date was calculated as June 18 to 24 in Miryang region. The optimum transplanting date of Kyeungsangnamdo region was approximately mid-June to early July, and that of Kyeungsangbukdo region was approximately early to mid-June.

‘Nunkeunheugchal’ is a waxy black rice variety that has a large embryo. The quality of black rice depends on the anthocyanin content of the rice seed coat, which is mainly determined by cultivation environment. Factors that affect the anthocyanin content include nitrogen level, planting density, transplanting date and harvesting date. This study was carried out to investigate the optimum black rice cultivation conditions by examining the effects of different nitrogen levels and planting densities. An initial study was conducted to determine the optimum nitrogen level in which four levels of nitrogen were applied to the field (0, 4, 8 and 12 kg/10a). As the nitrogen contents were increased up to 8 kg/10a, there was a concomitant increase in rice yields. However, nitrogen levels greater than 8 kg/10a, the yield was maintained at the same level. Correlation analysis indicated that the optimum nitrogen level for maximum yield was 9.6 kg/10a. In addition, anthocyanin levels showed a trend similar to that of yield, with correlation analysis indicating that the optimum nitrogen level for maximum anthocyanin content is 10.6 kg/10a.On the basis of these results, a second study was conducted to determine the optimum combination of planting density and nitrogen level. The planting densities investigated were 30 × 12, 30 × 14, 30 × 16cm and nitrogen levels were 7, 9 and 12 kg/10a. A high planting density (30 × 12cm) was shown to produce higher numbers of tillers and yield. As calculated in the first study, a nitrogen level of 9 kg/10a shown to produce the highest anthocyanin content and yield. Collectively, the results of this study indicate that a planting density of 30 × 12 cm and a nitrogen level of 9 kg/10a is the optimal combination in terms of maximizing both rice yield and anthocyanin content.

A new peanut variety ‘Heuksaeng’(Arachis hypogaea ssp. hypogaea L.) was developed at the Department of Southern Area Crop Science, National Institute of Crop Science (NICS) in 2014. This was developed from the cross between ‘Iksan 31’ with Virginia typed short stem and ‘Iksan 35’ with large grain. ‘Heuksaeng’ is the first purple testa variety developed in Korean. It has 25 branches per plant and its length of main stem was 32 cm. Each pod has two grains with puple testa and long ellipse-shaped kernel. Its yield components showed 60 pods per plant, 69 g of 100-seed-weight and 77% of pod shelling ratio in the regional yield trials (RYT). Seed quality showed 46.0% of crude oil and 26.9% of protein content. This variety has anthocyanins typed as delpinidin-3-glucoside (D3G) and cyanidin-3-glucoside (C3G) in seed testa. This variety showed more resistant to late leaf spot, web blotch, and lodging, compared to reference variety. In the regional yield trials for 2 years, ‘Heuksaeng’ with 4.25 MT/ha for grain production has the same productivity to reference variety.

Germination characteristics, seedling emergence, and early seedling growth of iron-coated rice seeds, cultivars Daebo and Samdeokbyeo, under different water depths were compared with those of non-coated seeds (control) and the results evaluated to obtain basic information for establishing stable seedlings in direct water seeding. The total germination percentage of the two seed treatments was similar, but iron-coated seeds had slightly faster germination and shorter mean germination time than non-coated seeds. Water absorption rates of iron-coated seeds were lower than that of non-coated seeds during seed germination. The germination percentage of the two iron-coated rice seed cultivars showed a significant decline of 15-22% after one year of storage under natural conditions. The seedling emergence percentage and uniformity of the two rice cultivars were significantly higher in the iron-coated seeds at 1-13 cm water depths but the percentage of floating seedlings was lower in iron-coated seeds than in non-coated seeds. The iron-coated seeds had a high seedling emergence percentage of 91.3-93.3% at all flooding depths whereas the non-coated seeds had a significantly low seedling emergence percentage of 57.7-71.7% at a water depth of 13 cm. Moreover, the shoot dry weight and seedling health score of iron-coated seeds were significantly higher than those of non-coated seeds, while root dry weights were similar in iron-coated and non-coated seeds, regardless of water depth. These results suggest that iron-coated seeds are more appropriate for stable seedling establishment in direct water seeding than are non-coated seeds.

A new peanut variety ‘Danwon’(Arachis hypogaea ssp. fastigiata L.) was developed at the Department of Southern Area Crop Science, National Institute of Crop Science (NICS) in Milyang 2013. This was developed from the cross between ‘YG75’ with Shinpung type and ‘SP9617’ with larger grain. ‘Danwon’ is the first Shinpung typed short stem variety ever developed in Korea. It has 13 branches per plant and its length of main stem was 32 cm. Each pod has two grains with brown testa and long ellipse-shaped large kernel. Its yield components showed 40 pods per plant, 91 g of 100-seed-weight and 77% of pod shelling ratio in the regional yield trials (RYT). Seed quality showed 48.7% of crude oil and 26.9% of protein content. This variety showed more resistant to early and late leaf spot, web blotch, stem rot and lodging, compared to reference variety. In the regional yield trials for 3 years ‘Danwon’ was more productive than reference variety by 6% with 4.52 MT/ha for grain production.

A new peanut variety ‘K-Ol’(Arachis hypogaea ssp. fastigiata L.) was developed at the Department of Southern Area Crop Science, National Institute of Crop Science (NICS) in Milyang 2013. This was developed from a cross between ‘Baekseon’ with Shinpung type and ‘F435-5’ with high oleic acid. ‘K-Ol’ is the first high oleate variety in Korean and has short stem and Shinpung plant type. It has 10 branches per plant and its length of main stem was 43 cm. Each pod has two grains with brown testa and short ellipse-shaped kernel. Its yield components showed 46 pods per plant, 74 g of 100-seed-weight and 76% of pod shelling ratio in the regional yield trials (RYT). Seed contains 26.0% protein and 50.7% crude oil with a typical fatty acid composition of 82.9% oleate and 2.7% linoleate. This variety showed more resistant to late leaf spot, web blotch, stem rot and lodging, compared to reference variety ‘Daekwang’. In the regional yield trials for 2 years ‘K-Ol’ showed 4.34 MT/ha for grain yield by 99% of production level of reference variety.

A new peanut variety ‘Huaseon’ (Arachis hypogaea ssp. hypogaea L.) was developed at the Department of Southern Area Crop Science, National Institute of Crop Science (NICS) in Milyang 2013. This was developed from the cross between ‘Iksan 31’ with Virginia typed short stem and ‘SP9614’ with Shinpung-typed larger grain. ‘Huaseon’ which is a Shinpung plant type had 10 branches per plant and its length of main stem was 41 cm. Each pod has two grains with brown testa and long ellipse-shaped large kernel. Its yield components showed 45 pods per plant, 84 g of 100-seed-weight and 79% of pod shelling ratio in the regional yield trials (RYT). Seed quality showed 47.3% of crude oil and 27.6% of protein content. This variety showed resistant to early leaf spot and had more resistant to stem rot and lodging, compared to reference variety. In the regional yield trials for 3 years ‘Huaseon’ was more productive than reference variety by 12% with 4.78 MT/ha for grain production.

A new peanut variety ‘Sinpalkwang’ (Arachis hypogaea ssp. hypogaea L.) was developed at the Department of Southern Area Crop Science, National Institute of Crop Science (NICS) in Milyang 2012. This was developed from the cross between line ‘HP299’, crossed high yielding variety ‘Palkwang’ and short stem cultivar ‘PI156649’, and ‘Palkwang’. ‘Sinpalkwang’ which is a Virginia plant type had 25 branches per plant and its length of main stem was 41 cm. Each pod has two grains with brown testa and long ellipse-shaped large kernel. Its yield components showed 45 pods per plant, 92 g of 100-seed-weight and 79% of pod shelling ratio in the regional yield trials (RYT). Seed quality showed 45.4% of crude oil and 29.2% of protein content. This variety also showed more resistant to web blotch, compared with reference variety. In the regional yield trials for 3 years ‘Sinpalkwang’ was more productive than reference variety by 28% with 5.4 MT/ha for grain production.

간식용 대립 땅콩의 선호도가 높음에 따라 대립 양질 다수 성 신품종 육성을 위하여 단경 대립인 ‘Satonoka’와 소분지 내병 단경인 ‘밀양16호’를 인공교배하여 육성한 ‘아미’의 주 요 특성을 요약하면 다음과 같다. ‘아미’는 신풍 초형으로 개 화기가 빠르고 지상부 생장습성은 직립 소분지성이다. ‘아미’ 는 ‘팔광’ 땅콩에 비해 주당협수, 성숙협비율, 협당립수 등이 높으며 100립중이 84 g인 대립품종이며, 도복은 비교적 강한 특성을 나타내며 그물무늬병, 흑반병은 비슷한 정도이다. ‘아 미’는 단백질이 26.2%, 기름함량이 50.5%이고 양질지방산중 올레산(60.5%)이 리놀산(23.6%) 보다 훨씬 더 높아 기름의 산화안정성이 양호한 특성을 가진다. ‘아미’는 3년간 지역적 응시험 결과 풋땅콩 수량이 전국평균 10.10 ton/ha로서 ‘팔 광’ 땅콩에 비하여 9% 증수되었다. ‘아미’는 대립종이므로 적 기에 파종하고, 충분한 성숙을 위하여 성숙기 병해 방제에 유 의해야 하며 강원도와 산간 고냉지를 제외한 지역에서 적응성이 높은 품종이다(품종등록 번호: 제5260호).