No-tillage silage corn with legume hairy vetch(Vicia villosa Roth, HV) has renewed interest in supply of mineral N, soil erosion control at sloping land and weed control by cover of HV killed. This study was conducted to monitor concentration of soil mine
A pulse-chase labeling of on winter rye (Scale cereale) and forage rape (Brassica napus) grown at and was carried out to determine the effects of low temperature on the uptake exogenous N and the remobilization of endogenous N. The growth rate of leave
To elucidate the physiological responses of rice plants to the essential mineral silicon (Si), we assessed the effects of treatments with Si, nitrogen (NH4NO3; ammonium nitrate), and calcium (CaCl2; calcium chloride), independently or in combination on mineral uptake rates and levels of the hormones abscisic acid (ABA), gibberellin (GA1) and jasmonic acid (JA). We found that nitrogen and calcium uptake was inhibited by Si application. However, solo application of nitrogen or calcium did not affect Si uptake. Compared to the untreated plants, the application of Si, NH4NO3 or CaCl2 increased the endogenous hormone levels in treated plants. In particular, the concentrations of GA1 and JA increased significantly after the application of Si or NH4NO3. The level of GA1 observed after a treatment (solo or combine) with Si, and NH4NO3 was higher than that of the control. By contrast, independent application of CaCl2 or a combined treatment with Si and CaCl2 did not alter GA1 levels. The highest level of GA1 was present in plants given a combination treatment of Si and NH4NO3. This effect was observed at all time points (6 h, 12 h and 24 h). Endogenous JA contents were higher in all treatments than the control. In particular, a combination treatment with Si and NH4NO3 significantly increased the JA levels in plants compared to other treatments at all time points. A small increase in JA levels was observed after 6 h in plants given the CaCl2 treatment. However, JA levels did not differ between plants given a CaCl2 treatment and controls after 12 h or 24 h of exposure. We conclude that treatment with CaCl2 alone does not affect endogenous JA levels in the short term. Endogenous ABA contents did not show any differences among the various treatments.
논을 밭으로 1년 전환 후 다시 논으로 복원한 논에서의 벼의 생육촉진 및 질소흡수 증가의 효과를 살펴보기 위하여 복원논 1년 및 2년차인 2006년 및 2007년에 복원논 및 연작논을 대상으로 질소비료를 0, 3, 6 kg 10a1 시용하여 벼의 생육량, 질소흡수량, 쌀의 수량 및 단백질 함량 등을 조사하였는데 결과는 다음과 같다. 연작논에 비해 복원논에서 복원 1년 및 2년차 모두 벼의 초기생육이 크게 증가하여 유수형성기 건물중 및 질소함량이 증가하였으며, 복원논에서도 질소시비량 증가에 따라 건물중 및 질소량이 증가하여 질소시비량 6 kg 10a1까지 질소시비 효과가 뚜렷이 나타났는데, 복원논 1년차 및 2년차의 질소무비구의 건물중 및 질소흡수량은 각각 연작논의 질소시비량 6 및 3 kg 10a1와 동일한 값을 나타내었다. 수확기에서의 벼의 건물중 및 질소흡수량도 유수형성기와 비슷한 경향을 보였으며, 질소시비 방법으로는 같은 량의 질소시비량이라도 전량을 기비로 시용한 것보다 유수형성기에 추비로 3 kg 10a1를 시용한구가 질소흡수량이 다소 높았다. 수량구성요소에서는 연작논에 비해 복원논에서 벼의 수당립수가 증가하는 경향이었으며, 질소시비량이 많아질수록 등숙율이 감소하였는데, 특히 질소흡수량이 많았던 복원논-질소시비량 6 kg 10a1 구에서의 등숙비율이 많이 감소하였다. 벼의 수량도 복원논이 연작논에 비해 복원 1년차 및 2년차 모두 연작논보다 증가하였는데, 복원 1년차는 질소시비량간 벼수량의 차이가 없었지만, 복원 2년차에는 무질소시비구에서 벼의 수량이 다소 감소하였다. 현미 및 백미의 단백질 함량은 복원논이 연작논보다, 질소시비량이 증대할수록 높아졌는데, 질소시비방법에서는 질소시비량 모두 3, 6 kg 10a1 모두 유수형성기에서 추비로 3 kg 10a1를 준 구에서 높아 질소흡수량이 많은 복원논에서 질소를 추비로 줄 때 단백질함량이 증대할 위험성이 높았다.
This experiment was carried out on plastic pots (40cm~times25cm~times30cm ) filled with sand soil at greenhouse using two soybean cultivars with small seed; one was Pungsannamulkong (PSNK) recognized as a tolerant cultivar against excessive water stress and the other one was Sobaeknamulkong (SBNK) recognized as a susceptible cultivar. Seed was sown with 30 plants of 2 hills, and the amount of applied fertilizer was N; 3.0 g, P; 3.0 g, and K; 3.4 g per m2 with all basal fertilizations. Plants were grown under photoperiod of natural light with day temperature of 31~pm5~circC and night temperature of 22~pm1~circC . The flooding treatment was done for 3, 5, 7 and 10 days by filling pots with tap water up to 1 cm above the level of the soil surface when plants were 2 days after emerging. Nitrogen uptake by leaves of soybeans decreased significantly by the flooding after 6 days. This significant reduction of N uptake by flooding was evidently recognized from the chlorosis of leaves. The dry matter of flooded soybean seedlings significantly decreased compared to non-flooded soybean seedlings at 10 days. The dry matter of roots also showed similar result of the shoot. Shoots had more N reduction than roots under the flooding. This N reduction was more pronounce in SBNK than in PSNK. Chlorophyll content of flooded soybeans showed decreasing or non-increasing tendency, and the reduction of chlorophyll content was more in SBNK than in PSNK from the flooding stress. Nitrate content of soybean seedlings with flooding stress showed decreasing tendency in shoot and root parts. Ammonium content, however, was higher in flooding stress compared to the non-flooding. Flooding caused a remarkable change in the AA (amino acid) composition and TAA (total amino acid) concentration in the leaves of soybean seedlings.
N fertilizer required by rice could be reduced greatly in the rice-barley double cropping system than in the rice single cropping system. This study was conducted to investigate how much of the N fertilizer during the early stage of rice in the rice-barley double cropping system, could be saved compared to that in the rice single cropping system. This experiment was carried out at the paddy field of the National Crop Experiment Station in Suwon, Korea during three years from 1999 to 2001. Amounts of soil mineral nitrogen (SMN) and SPAD values of rice leaf during rice growing season in the rice-barley double cropping system were higher than those in the rice single cropping system under the same amount of N application during two years. Yield and N uptakes of rice at harvesting time were also higher in the rice-barley double cropping system than in the rice single cropping system during two years. Yield and N uptake of rice in the rice single cropping system were decreased when basal N fertilizer was omitted, but those reductions were not found by either omitting basal N fertilizer or omitting N fertilizer at tillering stage in the rice-barley double cropping system during 2000 and 2001. But yield and N uptakes of rice were decreased by 70 kg/10a and 2kgN/10a by the omission of both N application at basal and tillering stages in the rice-barley double cropping system in 2002. It was concluded that N fertilizer as much as tillering N fertilizer could be saved in the rice-barley double cropping system.
돈분퇴비 시용시 산국 (Chrysanthemum boreale)의 수량과 유효성분들의 함량변화를 알아보고자 토양 16 kg이 충진된 와그너포트에서 돈분퇴비가 각각 0, 2000, 4000, 6000, 8000, 12000 kg 10a-1을 처리한 결과, 8000 kg 10a-1처리구에서 대조구보다 전체 수량과 꽃의 수량은 각각 5.9배 (195.0 g plant-1)와 24배 (21.7 g plant-1)가 증가한 것으로 조사되었다. 질소양분 이용율은 4000 kg 10a-1처리구가 66.6%로 가장 높았다. 꽃에서의 주요 아미노산은 proline (7.4~9.2 g kg-1)이였으며, 돈분퇴비의 시용량이 증가할수록 정의 상관관계를 보였다. Cumambrin A함량을 측정한 결과, 돈분퇴비 시용량에 의한 질소의 함량이 증가할수록 부의 상관관계가 나타났으나 (R2=-0.723, p〈0.01), 전체 수량면에서는 오히려 돈분퇴비의 시용량이 증가할수록 cumambrin A의 수량이 오히려 증가하였다. 이로서 돈분퇴비의 시용이 산국의 수량을 향상시킬 수 있을 것으로 기대되었다.
The responses of six mungbean [Vigna radiata (L.) Wilczek] varieties to Rhizobium inoculation on number and dry weight of nodules, nitrogenase activity of root nodule bacteria, dry weight of shoot and root, nitrogen content, and uptake by shoot were investigated. The mungbean varieties were BARI Mung-2, BARI Mung-3, BARI Mung-4, BARI Mung-5, BINA Moog-2, and BU Mung-1. Two-third seeds of each variety were inoculated with Rhizobium inoculant and the remaining one-third seeds were kept uninoculated. Rhizobium strains TAL 169 and TAL 441 were used for inoculation of seeds. Inoculation of seeds with Rhizobium strains significantly increased nodulation, nitrogenases activity, dry matter production, nitrogen content, and uptake by shoot of the crop compared to uninoculated control. There was positive correlation among the number and dry weight of nodules, nitrogenase activity, dry weight of shoot and root, nitrogen content, and uptake by shoot of the crop. It was concluded that BARI Mung-4 in association with Rhizobium strain TAL 169 performed best in recording nodulation, nitrogenase activity, dry matter production, and nitrogen uptake by shoot of mungbean.
Soybean can produce high-N residue due to N-fixation, so soybean rotation may increase yield of subsequent corn and reduce N fertilizer on the corn fairly. To find out the contribution of nitrogen to subsequent corn following soybean cultivation, soil nitrate, corn yield, and nitrogen uptake were measured for three continuous corn cropping years after soybean rotation. Three N rates of 0, 80, and 160 kg/ha were applied to three continuous corn following soybean cropping. At 6-leaf stage, soil nitrate amount at the soil depth of 0-30cm ranged from 60 to 80 kgN/ha higher in the first corn cropping year than that in the second and third corn cropping years. Judging from corn N status such as SPAD value, N concentration of ear-leaf and stover at silking stage, N contribution of previous soybean to corn in the first corn year was N fertilizer of approximately 80 kg N/ha. Stover N uptake at silking stage increased from 47 to 52 kg N/ha at the 0, and 80 kg N/ha of N rates in the first corn cropping year compared with those in the second and third corn cropping years. Corn grain yield at the 0 kg N/ha of N rate was 6-7 ton/ha higher in the first corn cropping year than that in the second and third corn cropping years, respectively. When compared the first corn year following soybean cropping with the second and third corn cropping years, N uptake of grain and stover at harvest with low N rates such as 0 and 80 kg N/ha increased from 45 to 67kg N/ha, from 35 to 60 kg N/ha, respectively. N uptake of whole plant by soybean rotation increased from 93 to 118 kg N/ha in the first year compared with that in the second and third corn cropping years. However, the N contribution by soybean cropping was small in the second and third continuous corn cropping years. Therefore, it was concluded that the nitrogen fertilizer of 80-100 kg N/ha in the first corn cropping year could be saved by soybean rotation and annual alternative corn-soybean rotation could be the best rotation system
Field experiment was conducted during 1993-94 season to determine the pattern of nutrient uptake and productivity of maize/sweet potato intercropping system. Four levels of nitrogen (0, 50, 100 and 150kg N ha-1 ) and four levels of potassium (0, 40, 80 and 120kg K2 O ha-1 ) formed treatment variables. Plants were sampled periodically to determine dry matter and tissue concentrations of N and K in the individual plant components of intercropped maize and sweet potato. Nitrogen and potassium fertilizer did not interact significantly to nutrient uptake by any plant parts of intercropped maize and sweet potato. But application of N fertilizer independently enhanced N uptake in all the plant parts of maize and sweet potato. The uptake of N in leaf, leaf sheath, stem, husk, and cob of maize increased upto 90 days after planting (DAP) but grain continued to accumulate N till its maturity. Sweet potato exhibited a wide variation in N uptake pattern. Sweet potato leaf shared the maximum uptake of N at 50 DAP which rapidly increased at 70 DAP and then declined. Declination of N uptake by petiole and stem were observed after 120 DAP whereas N uptake by tuber increased slowly upto 90 DAP and then rapidly till harvest. Rate of applied K had very little effect on the uptake patterns in different components of intercropped maize. Pattern of K uptake by leaf, petiole and stem of sweet potato showed almost similar trend to N uptake. But uptake of K by tuber increased almost linearly with the K application. Pattern of N and K uptake by grain and tuber paralleled the grain yield of maize and sweet potato respectively. Intercropped productivity of maize and sweet potato found to be better by the application of 100kg N and 120 kg K2 O ha-1
질소의 형태를 질산태(NO3 -N), 암모니아태(NH4 +-N) 그리고 질산태와 암모니아태(NO3 -N + NH4 +-N)를 혼합한 양액 하에서 수경재배하여 담배의 생육단계별 질소이용에 따른 흡수 양상과 생육 및 nitrate reductase, glutamine synthetase 효소활성을 평가하여 질소 시비 유형에 따른 체내 질소대사의 기초자료를 제공하고져 축행한 결과는 다음과 같다. 질소의 형태별 생육은 NO3 -N, NH4 +-N 단독 처리구보다 혼합처리구에서 지상 및 지하부의 생육이 좋았고, NH4 +-N 처리구에서는 암모늄 독성에 의해 생육이 극히 불량하였다. 생육단계별 양액의 pH 변화는 NO3 -N 처리구에서 이식 초기부터 이식 후 40일까지 증가하였고 NH4 +-N 처리구에서는 이식 후 20일에 pH 3.42, 혼합처리구에서는 이식 후 30일에 pH 3.64까지 떨어졌다가 증가하였다. 혼합처리구의 질소흡수반응은 생육초기에서는 NH4 +-N의 흡수를 우선하고 생육중기부터 NO3 -N 흡수가 증가하여 흡수 양상을 달리하였다. 생육시기에 따라 흡수형태도 NO3 -N와 NH4 +-N 사이의 상대적인 비율에 의해 크게 영향을 미쳤다. 엽록소와 가용성 단백질은 혼합처리구에서 전질소는 NH4 +-N 처리구에서 높았고, 특히 NH4 +-N 질소를 시비하였을 때는 질소함량이 증가하였다. 질산함량이 증가하였다. 질산함량은 NO3 -N 처리구에서 암모니아함량은 NH4 +-N 처리구에서 높았고, 산소 활성은 혼합처리구에서 nitrate reductase와 glutamine synthetase 활성이 높았다.
단옥수수의 수량을 상품성 있는 이삭수, 이삭무게, 이삭 크기별 시장가격을 적용한 조수입으로 평가하였을 때 이들 수량평가방법의 결과를 비교하기 위하여 단옥수수 품종 Golden Cross Bantam 70을 질소시비량(0, 5, 10, 15, 20kg/10a)을 달리하여 0.03mm 투명 P.E. film 피복하에서 재배하였다. 출아후 30일과 44일에 초장과 분벽수를 조사하였고, 이삭조사는 출사후 25일에 수확하여 포엽을 제거한 후 이삭의 수, 크기, 무게를 조사하고 무게별 이삭수, 10a당 상품성 있는 이삭수, 이삭무게, 조수입을 조사하였다. 1. 초장, 간장, 착수고, 분벽수는 질소시비량이 많을수록 증가하고 출사기는 1-2일 빨랐다. 2. 수확기의 주간 엽면적지수는 1.5-1.9이었으며, 질소시비량이 많을수록 증가하였다. 3. 이삭의 질소함유율은 지비량간에 차이가 없었으나 경엽의 질소함유율과 총질소흡수량은 질소시비량이 많을수록 증가하였다. 그러나 질소이용율은 질소시비량이 많을수록 감소하였다. 4. 상품성있는 이삭은 도매시장가격에 따라 상품(포엽 제거한 무게 150g, 포엽 포함한 무게 350g이상)과 중품(포엽 제거한 무게 100-150g, 포엽 포함한 무게 180-230g)으로 분류하였다. 가격은 출하시기, 상품의 품질 및 년차에 따라 현저히 달랐다. 5. 상품성있는 이삭이 평균 길이, 굵기, 무게는 질소시비량간에 차이가 없었다. 6. 포엽을 제거한 이삭무게가 150g 이상인 상품비율과 10a당 100g 이상의 상품성있는 이삭수, 이삭무게, 크기별 가격과 이삭수를 고려한 조수입은 질소시비량이 많을수록 증가하였다. 7. 10a당 상품성있는 이삭수, 이삭무게, 크기별 가격과 이삭수를 고려하여 계산한 조수입간에는 고도로 유의한 정의 상관이 있었다. 그러나 질소시비량이 많을 때 상품성있는 이삭수와 무게로 수량을 평가하면 조수입보다 다소 과소평가되었다. 8. 이삭을 수확한 후 경엽의 건물수량은 740-963kg/10a으로 질소시비량이 많을수록 증가하였으며, 건물함량은 20.8-24.5%이었다. 9. 흑조위축병은 11.8-15.0% 리병되었으나 질소시비량간에는 차이가 없었다.