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NTIS 바로가기Korean journal of crop science = 韓國作物學會誌, v.64 no.2, 2019년, pp.127 - 136
최영민 (전라북도농업기술원 작물식품과) , 최규환 (전라북도농업기술원 작물식품과) , 신소희 (전라북도농업기술원 작물식품과) , 한현아 (전라북도농업기술원 작물식품과) , 허병수 (전라북도농업기술원 작물식품과) , 권석주 (전라북도농업기술원 작물식품과)
Sweet sorghum (Sorghum bicolor L. Moench), compared to traditional crops, has been evaluated as a useful crop with high adaptability to the environment and various uses, but cultivation has not expanded owing to a lack of related research and information in Korea. This study was conducted to estimat...
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핵심어 | 질문 | 논문에서 추출한 답변 |
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단수수란 무엇인가? | 단수수(Sorghum bicolor L. Moench)는 광 이용 효율이 높은 화본과(Graminae) 일년생 C4 식물로써 생육기간이 4개월 정도로 짧고, 양·수분의 이용 효율이 높아 한계지역에서의 생장이 가능하다(Anten et al., 1995). | |
무상기간을 근거로 단수수를 재배할 수 있는 시기는? | 무상기간(frostless period)을 근거로 파종~수확까지 단수수를 재배할 수 있는 일반적인 시기는 4~10월이며, 10월 이내에 수확하기 위해서는 7월 상순까지는 파종해야 가능하다. 평년 4~7월까지의 기온특성 중 평균기온은 전주가 20°C로 가장 높고, 장수, 임실지역이 각각 17. | |
단수수의 장점은? | , 1995). 특히 생체수량과 당도가 높아(Bian et al., 2006; Carpita & McCann, 2008) 착즙액은 시럽(syrup)으로 이용하거나 당화과정을 거치지 않고 발효와 증류과정을 통해 에탄올 생산이 가능하므로 생산비가 저렴한 장점이 있다(Gibson, 2009; Gnasounou et al., 2005). |
Almodares, A. and S. M. Mostafafi Darany. 2006. Effects of planting date and time of nitrogen application on yield and sugar content of sweet sorghum. J. Environ. Bio. 27(3) : 601-605.
Almodares, A., R. Taheri, and S. Adeli. 2008. Stalk yield and carbohydrate composition of sweet sorghum (Sorghum bicolor L. Moench) cultivars and lines at different growth stages. Mala. J. Applied Biol. 37(1) : 31-36.
Anten, N. P. R., F. Schieving, E. Medina, M. J. A. Werger, and P. Schuffelen. 1995. Optimal leaf area indices in $C_3$ and $C_4$ mono- and dicotyledonous species at low and high nitrogen availability. Physiologia Plantarum 95(4) : 541-550.
Balole, T. V. 2001. Strategies to improve yield and quality of sweet sorghum as a cash crop for small scale farmers in Botswana. PhD. Thesis, University of Pretoria, South Africa.
Bang, J. K., Y. B. Kim, S. S. Nam, S. H. Ahn, and S. J. Suh. 2009. Variation of major characters in sweet sorghum germplasm for bioethanol. J. Kor. Soc. Intern. Agric. 21(3) : 189-192.
Benoit, G. R., A. L. Hatfield, and J. L. Ragland. 1965. The growth and yield of corn. Soil moisture and temperature effects. Agronomy J. 57(2) : 223-226.
Bian, Y. L., S. Yazaki, I. Maiko, and H. W. Caih. 2006. QTLs for sugar content of stalk in sweet sorghum (Sorghum bicolor L. Moench). Agric. Sci. China 5(10) : 736-744.
Carpita, N. C. and M. C. McCann. 2008. Maize and sorghum: genetic resources for bioenergy grasses. Trends Plant Sci. 13(8) : 415-420.
Choi, Y. M., H. A. Han, S. H. Shin, B. S. Heo, K. H. Choi, and S. J. Kwon. 2019. Effect of planting density on growth and yield components of the sweet sorghum cultivar, 'Chorong'. Kor. J. Crop Sci. 64(1) : 40-47.
Clerget, B., H. F. W. Rattunde, S. Dagnoko, and J. Chantereau. 2007. An easy way to assess photoperiod sensitivity in sorghum: Relationships of the vegetative-phase duration and photoperiod sensitivity. J. SAT Agric. Res. 3(1) : 1-3.
Coleman, O. H. and B. A. Belcher. 1952. Some responses of sorgo to short photoperiods and variations in temperature. Agronomy J. 44(1) : 35-39.
Cowley, W. R. and R. A. Smith. 1971. Sweet sorghum as a potential sugar crop in south Texas. Proc. Intern. Soc. Sugar Cane Technol. 14 : 628-633.
Cuevas, H. E., C. Zhou, H. Tang, P. P. Khadke, S. Das, Y. R. Lin, Z. Ge, T. Clemente, H. D. Upadhyaya, C. T. Hash, and A. H. Paterson. 2016. The evolution of photoperiod-insensitive flowering in sorghum, a genomic model for panicoid grasses. Molecular. biol. and Evolution. 33(9) : 2417-2428.
Gibson, S. 2009. Bioenergy crops "Sweet sorghum". Advanta Seeds Ltd. Austrilia. p. 1-7.
Gnasounou, E., A. Dauriat, and C. E. Wyman. 2005. Refining sweet sorghum to ethanol and sugar: economic trade - AFFS in the context of North China. Bioresource Technol. 96 : 985-1002.
Hipp, B. W., W. R. Cowley, C. J. Gerad, and A. B. Smiti. 1970. Influence of solar radiation and date of planting on yield of sweet sorghum. Crop Sci. 10(1) : 91-92.
Hoshikawa, K., S. Nakamura, Y. Goto, M. Tanaka, and T. Kabeya. 1994. Relationships between changes in the heading date and yield-related traits of sweet sorghum (Sorghum bicolor Moench) in the northern area of Japan. Jap. J. Crop Sci. 63(4) : 610-615.
Kim, S. K. 2013. Occurrence pattern of water core at various altitude in 'Fuji' and 'Hongro' apple. Master's Thesis, University of Chonbuk, Republic of Korea.
Kwon, O. S., H. K. Cho, E. B. Cho, and J. S. Roh. 2013. Climate Variables and Rice Productivity: A semi parametric analysis using panel regional data. Kor. J. Agric. Economics 54(3) : 71-94.
Liu, C. and F. Wang. 2008. Sweet sorghum: A promising crop for bioethanol. J. Biotech. 136(S) : 456-456.
Neild, R. E. and J. K. Greig. 1971. An agroclimatic procedure to determine growing seasons for vegetables. Agric. Meteor. 9 : 225-240.
Neild, R. E. and M. W. Seeley. 1977. Growing degree days predictions for corn and sorghum development and some applications to crop production in Nebraska. Historical Research Bulletins of the Nebraska Agricultural Experiment Station 41.
Ozkan, B., and H. Akcaoz, 2002: Impacts of climate factors on yields for selected crops in the southern Turkey, Mitigation and Adaptation Strategies for Global Change 7(4) : 367-380.
Petrini, C., A. Belletti, and F. Salamin. 1993. Accumulation and distribution of dry matter and soluble carbohydrates in two sweet sorghum cultivars; influence of sowing date and harvesting time. Euro. J. Agron. 2 : 185-192.
RDA (Rural Development Administration). 2002. Research trends of climate change and changes in Agricultural Ecosystems. Jeonju, Korea.
RDA (Rural Development Administration). 2016. Standard farming handbook. 'SORGHUM'. Jeonju, Korea.
Shukla, S., T. J. Felderhoff, A. Saballos, and W. Vermerris. 2017. The relationship between plant height and sugar accumulation in the stems of sweet sorghum (Sorghum bicolor L. Moench). Field Crops Res. 203 : 181-191.
Slafer, G. A., D. J. Connor, and G. M. Halloran. 1994. Rate of leaf appearance and final number of leaves in wheat effects of duration and rate of change of photoperiod. Annals of Botany 74(5) : 427-436.
Tao, F. and Z. Zhang. 2010. Adaptation of maize production to climate change in North China Plain: quantify the relative contributions of adaptation options. Euro. J. Agronomy 33(2) : 103-116.
Teetor, V. H., D. V. Duclos, E. T. Wittenberg, K. M. Young, J. Chawhuaymak, M. R. Riley, and D. T. Ray. 2011. Effects of planting date on sugar and ethanol yield of sweet sorghum grown in Arizona. Industrial Crops and Products 34(2) : 1293-1300.
Tsuchihashi, N. and Y. Goto. 2004. Cultivation of sweet sorghum (Sorghum bicolor L. Moench) and determination of its harvest time to make use as the raw material for fermentation, practiced during rainy season in dry land of Indonesia. Plant Production Sci. 7(4) : 442-448.
Wortmann, C. S., A. J. Liska, R. B. Ferguson, D. J. Lyon, R. N. Klein, and I. Dewikat. 2010. Dryland performance of sweet sorghum and grain crops for biofuel in Nebraska. Agronomy J. 102(1) : 319-326.
Yang, W., S. kang, S. Kim, J. S. Choi, and J. H. Park. 2018. Assessment of the safe rice cropping period based on temperature data in different regions of North Korea. Kor. J. Agric. Forest Meteor. 20(2) : 190-204.
Yoshida, S. 1981. Fundamentals of rice crop science. Los Banos, Philippines, IRRI.
Yun, J. I. 2002. Urbanization effect on observed warming in Korea during the recent half century. Kor. J. Agric. Forest Meteor. 4(1) : 58-63.
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