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        검색결과 7

        1.
        2013.06 KCI 등재 구독 인증기관 무료, 개인회원 유료
        본 논문에서 2011년 출범한 글로벌벼연구협력체계(GRiSP: Global Rice Science Partnership)의 개관과 연구내용을 기술하고, 우리나라의 GRiSP 참여 및 기여, 그리고 전망에 대해 제안하였다. 1. GRiSP는 벼 신품종, 신기술을 통한 생산성 증대, 지속가능하고 효율적인 쌀농업생산계체 확립, 그리고 정보전달 매커니즘을 통한 각 쌀 생산 영역의 균형성과 효율성 증대를 목표로 하며, 각 6개의 주제(theme)에 총 26개의 성과관리체계(product line: PL)를 두고 있다. 2. 2013년 현재47개국 903개의 연구기관이 GRiSP에 참여하고 있으며, 참여기관별 비중은 정부기관 및 출연연구소 (43.6%), 선진연구소 및 학계(25.9%), 시민단체(16.6%), 기업(12.5%), CGIAR(1.4%) 순이다. 3. GRiSP는 다국적 또는 지역적으로 특화되어 있는 다양한 컨소시움 또는 네트워크를 포함하며, 각각은 품종보급, 쌀의 품질과 영양개선, 벼 유전자원의 표현형 또는 유전자 기능 연구, 지속가능농업 기술, 생물공학 등을 공유한다. 4. GRiSP의 핵심기관인 IRRI의 2010-2011년 주요연구재원은, CGIAR(25.3%), 빌앤멜린다게이츠 재단(24.5%), 미국(8.0%), 일본(7.5%) 등을 들 수 있다. 5. 한국의 농촌진흥청은 지난 50년 간 IRRI와 긴밀히 연구협력을 해왔으며, 품종 및 재배기술 개발, 유전자원관련 연구등 총 49개의 연구주제가 GRiSP 연구성과관리체계에 대응될 수 있고, 현재 3개에 과제에 한국이 참여하고 있다. GRiSP의연구 내용 중 우리나라의 참여가 요구되는 전망 있는 분야로는 (1) 분자육종을 이용한 신품종 개발, (2) ICT와 쌀농업의결합, (3) 국제협력체계의 구축, (4) 농업에서의 여성의 역할,그리고 (5) 쌀농업의 후학 양성과 농업정책적 기여 등을 제안해 볼 수 있다.
        4,900원
        4.
        2013.07 서비스 종료(열람 제한)
        To determine the expression levels of genes related to the salt stress response in rice, gene expression profiles were investigated through microarray analysis using the rice mutant line Till-II-877. There were no significant changes in physiological response under salt stress of the mutant increased less than that in the WT. The intensity of gene expression was analyzed and compared between the wild type and mutant lines using a microarray. Among the most significantly affected pathways, α-linolenic acid metabolism and linoleic acid metabolism (in lipid metabolism), fructose and mannose metabolism and glycolysis-gluconeogenesis (in carbohydrate metabolism), cysteine and methionine metabolism (in amino acid metabolism), and carbon fixation (in the energy metabolism of photosynthetic organisms) showed changes in gene expression levels under salt stress. These results further our understanding of the effects of salt stress in rice and may aid in the development of salt-tolerant rice cultivars.
        5.
        2010.04 KCI 등재 서비스 종료(열람 제한)
        This study was carried out to confirm the effects of climate change to growth, yield and quality of rice by the global warming. By the study of Korea Meteorology Administration, the temperature of Korea increased 0.95℃ during last 34 years and the width of temperature increase be on an increasing trend gradually. As temperature increases, rice is faced with critical change such as growth duration shortening, heading acceleration, yield decrease and quality deterioration. So, we studied the rice growth and yield change by the temperature increase. To confirm the effects of temperature increase, rice cultivars such as early maturing Unkwangbyeo, medium maturing Hwayoungbyeo and late maturing Nampyeongbyeo were transplanted on 1, 15, 30 of June inner transparent vinyl house which was treated by different temperature. The increased mean temperature were 1.4℃~3.5℃, respectively, compared to outer field. The growth duration from transplanting to heading were shortened by the temperature increase. In June 1 transplanting, especially the growth duration of early maturing Unkwangbyeo was shortened greatly by temperature increase. As temperature increases, rice yield decreased in most cases. In 1.4℃ temperature increase, rice yield of June 15 transplanting were higher than those of other transplanting, but in 2.1℃ or more temperature increase, the rice yield of June 30 transplanting were similar or more than those of other transplanting.
        7.
        1998.02 KCI 등재 서비스 종료(열람 제한)
        The influence of elevated CO2 and temperature on growth parameters, biomass production and its partitioning of rice (Oryza sativa L.cv. Chukwangbyeo) were investigated in the three experiments (1991-1993). Rice plants were grown from transplanting to harvest at either ambient(350ppm) or elevated CO2 concentrations (690 or 650ppm) in combination with either four or seven temperature regimes ranging form ambient temperature (AT) to AT plus 3℃.From transplanting to panicle initiation, crop growth rate (CGR) was enhanced by up to 27% with elevated CO2 , primarily due to an an increase in leaf area index. although net assimilatiion rate was also greater at elevated CO2. The effect of elevated CO2 varied with temperature. During the reproductive phase, CGR declined linearly with increased temperature, and was greater at elevated CO2 . Elevated CO2 increased final crop biomass and panicle weight 30% respectively at AT(27.6℃ : 1991) . However, there was no significant effect of elevated CO2 on panicle weight at AT plus 3℃, where severe spikelet sterility occurred. There was no significant effect of elevated CO2 on panicle weight at AT plus 3℃, where severe spikelet sterility occurred. There was also no effect of CO2 on biomass pratitioning into vegetative and reproductive organs (harvest index)) at AT, although higher temperature could affect that by inducing spikelet sterility. These results suggest that elevated CO2 could enhance rice producivity througth promoted growth and biomass production , but its positive effects may be less at higher temperatures.