In order to investigate the genotypic differences in Cu accumulation of rice, 35 rice cultivars of different cultivar groups (temperate japonica, tropical japonica, tongil, and indica) were cultivated in a field condition that rice was irrigated by irrigation water containing 2 ppm Cu throughout all growing season in 2007. Thirty-five rice cultivars showed large differences in Cu concentrations in all rice parts, including root, shoot, straw, grain, chaff, brown rice, rice bran, and polished rice. Cu concentrations in polished rice ranged from 0.78 to 2.84 mg/kg. The total Cu accumulation of shoot varied from 1.31 to 4.54 mg/m2. Indica and tongil cultivar groups presented the higher Cu concentration and accumulation comparing the two japonica rice cultivar groups (temperate japonica and tropical japonica). The large genotypic variation suggested the possibility of breeding low Cu accumulating rice cultivar.

This experiment was conducted to examine the influence of four plant growth regulators on growth, photosynthesis parameters and yield of soybean. To increase dry matter accumulation of seeds, some growth regulators were applied to field grown soybean cv. Sinpaldalkong #2 as determinate type and Muhankong as indeterminate type at dense planting condition. Choline caused significant reduction of stem length, but did not increase seed yield. The number of leaf and total leaf area were showed significant increase in all the treatments, but those increased tremendously in Muhankong treated with ethrel. CO2 assimilation and water use efficiency of a single leaf were showed the highest as 17.2 molm-2s-1 and 9.3 μ mmol mol-1 treated with mepiquat in Sinpaldalkong, respectively. The Photosynthetic rate was closely related to stomatal conductance, transpiration and water use efficiency. Mepiquat treatment mainly produced positive effects on the number of pods, percent of pod setting, number of seeds per pod in two cultivars and also increased their seed yield as compared with control.

AtHMA3 is one of P1B-ATPase of Arabidopsis thaliana which transports and/or stores Cd and Pb in the plant cell. To test whether AtHMA3 can be used to develop enhanced resistance plant to Cd and Pb for phytoremediation, we overexpressed AtHMA3 in Columbia-0 using a pBI121vector containing the 35S promoter. To evaluate their Cd and Pb resistance, seeds of three different T3 homozygous(HMA3-1~3) and wild type plants(col-0) were germinated and grown on agar plates containing 50μM Cd, 500μM Pb and 50μM Cd+ 500μM Pb for 3 weeks. 35S::AtHMA3 grew better than wild type plants about 1.1-to 1.8-fold in Cd or Pb containg mediums. Fresh weights of all three lines of transgenic plants were 1.2-to 1.5-fold higher than those of wild type plants in Cd or Pb-containing medium. In addition to, we measured Cd and Pb content in both wild type and transgenic plants grown in solution with 50μM Cd, 500μM Pb and 50μM Cd+ 500μM Pb for 6 d. AtHMA3-overexpressing plants had consistently higher Cd and Pb contents than wild type plants. Chlorophyll contents were not significant difference between overlines and wild-types. These results show that HMA3 contributes to Cd and Pb resistance, and it might be useful for the phytoremediation.

말차, 오룡차, 홍차 및 보이차로 제조한 음료가 Cd에 중독된 SD계 흰쥐의 해독에 미치는 영향을 조사하였다. 관능검사 결과 일반 물 추출물에 비하여 색상, 향, 맛에 대한 기호도가 현저하게 향상되었으며, 종합적 기호도는 오룡차 음료가 4.18점, 홍차음료가 4.14점으로 말차음료나 보이차 음료의 점에 비하여 높았다. SD계 흰쥐를 정상군 (NC), Cd 대조군(Cd-Co), Cd투여 말차음료 15% 급여군 (Cd-Gt), Cd투여 오룡차음료 1

Echinacea purpurea is an important medicinal plant native of North America, which contains caffeic acid derivatives, alkamides, glycoproteins, and polysaccharides. For commercial roduction of bioactive compounds from Echinacea purpurea, adventitious roots were induced and proliferated in 5 and 20-liter bioreactors under various cultural conditions (Medium composition, inoculum density, air volume, light, temperature et al.). In a 5-liter bioreactor, more than 10-fold of biomass increment was achieved after 5 weeks of culture. Increases of root biomass and bioactive compounds were correlated with increased consumption of sucrose and macro/micro nutrients in the medium. Elicitations have been conducted with UV-C, NO, and SA to increase the accumulation of total polyphenolics, flavonoids and caffeic acid derivatives in the adventitious root cultures, which resulted in 1.2-1.6 times of increment. Based on the previous experimental results, 500-liter and 1000-liter scale bioreactors were applied for large scale cultures of Echinacea purpurea adventitious roots. Total root biomass of 3.62 kg and 5.05kg (dry weight) were achieved in a 500 L and a 1000 L bioreactor, respectively. The accumulation of 22.55 mg/g DW cichoric acid, 4.92 mg/g DW chlorogenic acid and 3.99 mg/g DW caftaric acids were also achieved from the adventitious root in a 1000-liter scale bioreactor.

난분 함수량에 따른 생육반응에서 건중에 비해 생체중의 변화가 현저하였다. 특히 난분 함수량이 0%± 5인 C point는 100%± 5인 A point에 비해 16.1g에서 4.7g으로 지하부의 생체중 감소가 매우 격감하였으나, 지상부의 생체중에서는 3.5g에서 2.1g으로 다소 감소하는 경향을 볼 수 있었다. 건중에서는 현저한 차이를 볼 수 없었다. 또한 엽록소와 총수용성 탄수화물(Total soluble carbohydrate)에서 용토 내의 함수량에 따른 현저한 차이를 볼 수 있었으나, 지상부와 지하부에 따른 다른 현상을 볼 수 있었다. 체내 총수용성 탄수화물량의 변화를 살펴보면, 지상부는 난분 내의 함수량이 0%± 5의 C point시점에서 0.2mg/g DW로 다소 감소함을 알 수 있었으나, 근권부에서는 100%± 5인 A point에서 0.14mg/g DW에 비해 50%± 5(B point) 그리고 0%± 5(C point)의 시점에서 0.22mg/g DW로 보다 증가함을 알 수 있었다. 난분 함수량에 따른 proline 축적량 변화는 100%± 5인 A point에 0.05mg/g FW 비해 0%± 5인 C point의 시점에서 0.6mg/g FW로 큰 변화를 볼 수 없었다. 한편, glycinebetaine에서는 지상부에서는 변화가 없었으나, 근권부인 뿌리에서 함수량이 100%± 5(A point)의 0.11mg/g DW에서 0%± 5인 C point의 시점에서 0.26mg/g DW로 2배의 증가를 불 수 있었다.

Effects of abscisic acid(ABA) and temperature on the anthocyanin accumulation and phenylalanine ammonia lyase(PAL) activity were investigated in seedlings of Arabidopsis thaliana. In time course study, exogenous application of ABA (50-1000 μM) led to a noticeable increase in anthocyanin pigments which persisted over the following 5 days. Anthocyanins increased in concert with the chlorophyll loss. The activity of PAL, a key enzyme in the phenylpropanoid pathway, increased on exposure to ABA and reached maximum on the 4th day. This result shows that anthocyanin synthesis and PAL activity have a close physiological relationships. In the effects of temperatures (10℃, 17℃, 25℃ and 30℃) on anthocyanin accumulation and PAL activity in seedlings, a moderate-low temperatures (17℃) enhanced both anthocyanin content and PAL activity, whereas elevated temperatures (30℃) showed low levels of anthocyanin and PAL activity, suggesting a correlation between temperature-induced anthocyanin synthesis and the accumulation of PAL mRNA. Simultaneous application of ABA with temperatures induced higher anthocyanin synthesis and PAL activity in seedlings than ABA or temperature stress alone. Moderate-low temperature with ABA exposure elicited the maximal induction of anthocyanin synthesis and PAL activity. Therefore, ABA treatment significantly increased thermotolerance in A. thalinan seedlings. Ethephon and ABA showed similar mode of action in physiological effects on anthocyanin accumulation and PAL activity. Our data support that anthocyanins may be protective in preventing damage caused by environmental stresses and play an important role in the acquisition of freezing tolerance.

This study was carried out to investigate the patterns of dry matter (DM) production and accumulation, and to screen the relationships between related major growth characters and DM accumulation in four cassava varieties in Bogor (6~circ19, West Java, Indonesia. Gading and Adiral developed an enough source and canopy in short at the early growth phase and then translocated assimilates to storage roots with a higher partitioning rate, even these varieties were considered as early-bulking varieties, which have superior source and sink potentials in increasing yield and DM of tubers. The root/shoot ratio (R/SR), total dry weight (TDW), leaf area duration, leaf area index (LAI), and number of tubers showed higher positive correlations with the dry weight of roots (DWR), and the direct effects of TDW, R/SR, and LAI on the DWR were higher. These characters were considered to be useful target characters to screen cassava varieties with high yield potential and high DM in aspect of tuber production.

The deep irrigation of rice plants brings about some beneficial effects such as reduced tiller production which results in the formation of bigger panicles, prevention of chilling injury, reduced weed growth, etc. The present study was carried out to examine the involvement of ethylene in the suppression of tiller production due to deep water irrigation in rice (cv. Dongjinbyeo). The ethylene production was induced in leaf sheath within 24 hours after the deep water irrigation and has increased even until 30 days after the treatment, recording 4.5-fold increase as compared to the shallow-irrigated rice plants. In the deep water irrigated rice plants, ethylene was accumulated to a high concentration in the air space of submerged leaf sheath as the irrigated water deterred the diffusion of ethylene out of the leaf sheath and ethylene biosynthesis was accelerated by the deep irrigation as well. The ethylene concentration recorded 35-fold increase in the deep-irrigated rice plants for 35 days. The tiller production was reduced significantly by the deep irrigation with water, the tiller bud, especially tertiary tiller bud differentiation being suppressed by the deepwater irrigation treatment, whereas the rice plants deep-irrigated with solutions containing 10-5 M or 10-6 M silver thiosulfate (STS), an action inhibitor of ethylene, showed the same or even higher production of tillers than those irrigated shallowly with water. This implies that the ethylene is closely linked with the suppression of tiller production due to deep water irrigation. In conclusion, ethylene, which was induced by hypoxic stress and accumulated in the leaf sheath due to submergence, played a key role in suppressing the tiller production of the deepwater irrigated rice

In this study, we present different physiological responses to cold acclimation between the freezing tolerant barley landrace, Jeonnamjaerae, and the freezing sensitive line, PI283398, chosen by the previous field test. We tried to identify some key facto

3-weeks old Commelina was transferred to and grown in Hoagland solution (Control, 100μM Cd2+, 100μM Cd2++100μM IAA, 100μM Cd2++100μM IAA+2 mM sucrose) for 3 weeks and then the effects of indole acetic acid (IAA) on the accumulation of Cd2+ and growth of Cd2+-treated Commelina were investigated. In the treatment of Cd2+, Cd2+ was uptaked to 1.74, and 51.36 μg/g frwt. at the first week, but for three weeks, 0.51 and 34.53 μg/g frwt. in leaf and stem respectively. When IAA was treated along with Cd2+, Cd2+ was uptaked to 0.18 and 8.63 μg/g frwt. at the first week, and for the incubation of 3 weeks, 0.51 and 45.0 μg/g frwt. in leaf and stem. In case of Cd2++IAA+sucrose, Cd2+ was uptaked to 1.45 and 18.33 μg/g frwt. at the first week, but for 3 weeks, 0.51 and 25.45 μg/g frwt. in leaf and stem. Likewise Cd2+ uptake, the growth was also affected by Cd2+ and IAA. During the incubation of 3 weeks, Cd2+ reduced the stem growth about 8% in all weeks, but the treatment of IAA recovered the inhibition of stem growth caused by Cd2+ to the degree of the control Therefore, it could be concluded that IAA altered the pattern of Cd2+ uptake and the growth which were supposed to change Cd2+ toxicity.

적설 및 융설모의를 포함하여 소양강댐과 충주댐에 대한 유출모의를 수행하였다. 사용한 모의모형은 탱크모형의 수정 형태로서 직렬 3단 탱크와 맥동 응답함수로 이루어져 있다. 매개변수의 추정에는 컴플렉스 혼합진화 (SCE-UA) 전역최적화 기법을 사용하였다. 적설 및 융설모의를 위하여 유역을 고도별로 4개 영역으로 구분하였으며 고도에 따른 기온감률은 0.6/100m로 하였다. 모의 결과 12∼2월 사이에 이 지역에 내리는 강수는 대부분 눈으로 쌓여 있다가3∼