Fig. 1. Comparison of plant height of Setaria italica BEAUVOIS genetic resources cultivated in reclaimed land and normal fields in 2016 (first cultivation year).
Fig. 2. Seed yield of Setaria italica BEAUVOIS genetic resources at Saemangeum reclaimed land compared to yield of a standard variety (Samdachal) cultivated in normal field in 2016 (first cultivation year).
Fig. 3. Comparison of plant height of Panicum miliaceum genetic resources grown in reclaimed land and normal field in 2016 (first year of cultivation).
Fig. 4. Yield comparison of Panicum miliaceum genetic resources at Saemangeum reclaimed land with yield of a standard variety (Manhonhcharl) cultivated in normal field in 2016 (first year of cultivation).
Fig. 5. Comparison of plant height of Sorghum bicolor genetic resources cultivate on reclaimed land and normal field cultivation in 2016 (first year of cultivation).
Fig. 6. Yield comparison of Sorghum bicolor genetic resources at Saemangeum reclaimed land and a standard variety (Nampungchrl) cultivated in normal field in 2016 (first year of cultivation).
Fig. 7. Growth status of selected Sorghum bicolor genetic resources at Saemangeum reclaimed land.
Fig. 8. Comparison of harvested ears of selected Sorghum bicolor genetic resources in the second year (2017) cultivated in reclaimed land and normal field.
Fig. 9. Growth response of Kkamansusu, Nampungcharl, and Satangdaejuk to salt treatment.
Fig. 10. Root growth of Kkamansusu, Nampungcharl, and Satangdaejuk in response to salt treatment.
Fig. 11. Growth status of Satangdaejuk in response to salt treatment.
Fig. 12. Change in root weight of Kkamansusu, Nampungcharl, Satangdaejuk, and Gumeunbitzarususu (control) to salt treatment.
Fig. 13. Photosynthetic activity of Kkamansusu, Nampungcharl, and Satangdaejuk in response to salt treatment.
Fig. 14. Comparison of polyphenol content among Kkamansusu, Nampungcharl, and Satangdaejuk cultivated on reclaimed land and normal field.
Fig. 15. Comparison of flavonoid contents in Kkamansusu, Nampungcharl, and Satangdaejuk cultivated on reclaimed land and normal field.
Fig. 16. Comparison of DPPH elimination capacity in Kkamansusu, Nampungcharl, and Satangdaejuk cultivated on reclaimed land and normal field.
Fig. 17. Comparison of α-glucosidase inhibition capacity in Kkamansusu, Nampungcharl, and Satangdaejuk cultivated between reclaimed land and normal field.
Table 1. Genetic resources of Setaria italica BEAUVOIS, Sorghum bicolor, and Panicum miliaceum for the selection of applicable genetic resources for reclaimed land.
Table 2. Chemical properties of reclaimed experiment soil based on experiment duration.
Table 3. Comparison of second year (2017) growth to first year (2016) growth of selected Setaria italica BEAUVOIS genetic resources on reclaimed land and normal field.
Table 4. Comparison of quantity and related factors of selected Setaria italica BEAUVOIS genetic resources in the second year (2017) cultivated on reclaimed land and normal field during the first year (2016).
Table 5. Comparison of growth status of selected Panicum miliaceum genetic resources cultivated in the second year (2017) on reclaimed land and normal field during the first year (2016).
Table 6. Comparison of yield and quantity factors in the second year (2017) of selected Panicum miliaceum genetic resources cultivated in reclaimed land and normal field cultivation during the first year (2016).
Table 7. Comparison of growth status of selected Sorghum bicolor genetic resources in the second year (2017) on reclaimed land and normal field during first year (2016).
Table 8. Comparison of yield and quantity factors of select Panicum miliaceum genetic resources in the second year (2017) cultivated on reclaimed land and normal field during first year (2016).
Table 9. Growth status of selected Sorghum bicolor genetic resources under saline conditions.
참고문헌
- Canadanovic-Brunet J. M., Djilas S. M., Cetkovic G. S. and Tumbas V. T. 2005. Free-radical scavenging activity of wormwood (Artemisia absinthium L.) extracts. J. Sci. Food Agr. 85 : 265-272. https://doi.org/10.1002/jsfa.1950
- Cha J. Y., Kim H. J., Chung C. H., and Cho Y. S. 1999. Antioxidative activities and contents of polyphenolic compound of Cudrania tricuspidata. J. Korean Soc. Food Sci. Nutr. 28 : 1310-1315.
-
Choi, K. C., Jung M. W., Cho N. C., Park H. S., Yoon S. H., Kim J. G., Song C. E., Choi E. M., Kim C. M. and Kim Y. C. 2011. Effect of application of swine slurry on productivity of sorghum
${\times}$ sorghum hybrid and soil environment in reclaimed land. Korean J. Grassl, Forage Sci. 31 : 159-166. https://doi.org/10.5333/KGFS.2011.31.2.159 - Christen Y. 2000. Oxidative stress and Alzheimer disease. Am. J. Clin. Nutr. 71 : 621-629. https://doi.org/10.1093/ajcn/71.2.621s
- Cox M. S. 2001. The lancaster soil test methods as an alternative to the Mehlich 3 soil test methods. Soil Science 166(7) : 484-489. https://doi.org/10.1097/00010694-200107000-00006
- Gee G. W. and J. W. Bauder. 1986. Particle size analysis. In Klute A. (2nd ed.). Methods of soil analysis. Part I. American Society of Agronomy and Soil Science Society of America. Madison. Wisconsin, USA. pp. 383-411.
- Heim K. E., Tagliaferro A. R. and Bobilya D. J. 2002. Flavonoid antioxidants: Chemistry, metabolism, and structure-activity relationships. J. Nutr. Biochem. 13 : 572-584. https://doi.org/10.1016/S0955-2863(02)00208-5
- Jung N. J., Kim J. K. and Park T. S. 2014. Selection of the excellent barnyard millet variety and technical development for their weediness prevention in paddy rice. PJ008457, RDA.
- Kim J. Y., Lee J. Y., Lee W. Y., Yi Y. and Lim Y. Anti-oxidant property and inhibition of melanin synthesis of eight plant extracts Korean J. Microbiol. Biotechnol. 38 : 414-419 (2010).
- Kim S., Ryu J. H., Kim Y. J., Cheong J. H., Lee S. H., Oh Y. Y., Kim Y. D. and Kim J. H. 2016. Influence of soil salinity on the growth response and inorganic nutrient content of a millet cultivar. Krean J. Crop Sci. 61(2) : 113-118. https://doi.org/10.7740/kjcs.2016.61.2.113
- Ko B. S., Kim H. K. and Park S. 2002. Insulin sensitizing and insulin-like effects of water extracts from Kalopanaxpictus NAKA fractions in 3T3 adiopocytes. Korean J. Agri. Chem. Biotech. 45 : 42-46.
- Lee G. B., Hwang S. U., Lee S. H. 2012. Research and development plan for multifactorial utilization of reclaimed land. Soci. Agri. Res. Rec. Lands. 2012(10) : 18-28.
- Lee S. H., Bae H. S., Lee S. H., Oh Y. Y. and Ryu J. H. 2015. The Society of Agricultural Research on Reclaimed Lands. pp. 88-103.
- Lu Y and Foo L. Y. 2000. Antioxidant and radical scavenging activities of polyphenols from apple pomace. Food Chem. 68 : 81-85. https://doi.org/10.1016/S0308-8146(99)00167-3
- NIAST (National Institute of Agricultural Science and Technology)., 2000. Analytical methods of soil and plant. NIAST, Rural Development Administration (RDA), Suwon, Korea.
- NAAS (National Institute of Agricultural Science)., 2010. Methods of soil chemical analysis, Rural Development Administration (RDA), Suwon, Korea.
- Park S., Jun D. W., Park C. H., Jang S. K., Park S. K., Ko B. S., Kim B. J. and Choi S. B. 2004. Hypoglycemic effects of crude extracts of MoutanRadics Cortex. Korean J. Food Sci. 36 : 472-477.
- RDA. 2002. Agriculture of the reclaimed tidal land in Korea. Natl. Inst. Honam Agr.
- RDA. 2015. Development of cultivation techniques for adaptable economic crops on open field and plastic film house in reclaimed tidal land. 99-103.
- RRI. 2007. Development method of the future agriculture complex in reclaimed land. Res. Rpt. Rural Research Institute. pp. 1-400. Korea Rural Community & Agriculture Corporation.
- Shin, J. S., Kim W. H., Lee S. H., Yoon S. H., Chung, E. S. and Lim Y. C. 2004. Comparison of dry matter and feed value of major summer forage crops in the reclaimed tidal land. Korean J. Grassl Sci. 24 : 335-340. https://doi.org/10.5333/KGFS.2004.24.4.335
- Sohn, Y. M. G. Y. Jean, J. D. Song, J. H. Lee, and M. E. Park. 2009. Effect of spatial soil salinity variation on the emergence of soiling and forage crops seeded at the newly reclaimed tidal lands in Korea. Korean J. Soil Sci. Fert. 42 : 172-178.
- Sohn, Y. M., Park J. S., Kim H. T., Lee J. H., Lee G. B., Lee J. J., Shin Y. G., Park M. E., and Hwang Y. S. 2007. Multiple utilization of tidal reclaimed farmland for advanced agriculture. Korea Rural Community & Agriculture Corporation.
- Tsao R. 2010. Chemistry and biochemistry of dietary polyphenols. Nutrients 2: 1231-1246. https://doi.org/10.3390/nu2121231
- Van-Gaal L., Mertens I. and De-Block C. 2006. Mechanisms linking obesity with cardiovascular disease. Nature 444 : 875-880. https://doi.org/10.1038/nature05487
- Williams R. J., Spencer J. P. and Rice-Evans C. 2004. Flavonoids: Antioxidantsor signaling molecules Free Radic. Bio. Med. 36 : 838-849. https://doi.org/10.1016/j.freeradbiomed.2004.01.001
- Yang C. H., Kim s., Baek N. H., Shin P., Cho K. M., Park E. Y., Lee G. H. 2014. Effect of nitrogen fertilization level on Millet (Panicum miliaceum L.) yield and growth in reclaimed land. In proceeding of the 2014 Korean J. Soil Sci. Fert. 175-176.
-
Yang C. H., Lee J. H., Baek N. H., Jeong J. H., Cho K. M., Lee S. B., and Lee G. B. 2012. Incorporation effect of green manure crops on improvement of soil environment on Saemangeum reclaimed land during Sorghum
${\times}$ Sudangrass hybrid cultivation. Korean J. Soil Sci. Fert. 45(5) : 744-748. https://doi.org/10.7745/KJSSF.2012.45.5.744
피인용 문헌
- 시설원예 용수 공급을 위한 지하수 정수 요구도 분석 vol.21, pp.12, 2020, https://doi.org/10.5762/kais.2020.21.12.510