Effect of Meteorological Factors on Evapotranspiration Change of Cnidium officinale Makino |
Seo, Young-Jin
(Bonghwa Herbal Crop Research Institute)
Nam, Hyo-Hoon (Bonghwa Herbal Crop Research Institute) Jang, Won-Cheol (Bonghwa Herbal Crop Research Institute) Kim, Jong-Soo (Organic Agriculture Research Institute) Lee, Bu-Yong (Department of Environmental Science, Catholic University of Daegu) |
1 | Kwon, H. J., J. H. Lee, Y. K. Lee, J. W. Lee, S. W. Jung, and J. Kim, 2009: Seasonal variations of evapotranspiration observed in a mixed forest in the Seolmacheon catchment. Korean Journal of Agricultural and Forest Meteorology 11(1), 39-47. DOI |
2 | Lee, B. Y., and S. Haginoya, 2011: The latent heat exchange on the ground. Journal of the Environmental Sciences 20(8), 1061-1068. DOI |
3 | Lee, B. Y., S. K. Yang, K. H. Kwon, and J. B. Kim, 2012: The effect of evapotranspiration by altitude and observation of lysimeter. Journal of the Environmental Sciences 21(6), 749-755. DOI |
4 | Lee, G. S., S. W. Kim, S. Y. Hamm, and K. H. Lee, 2016: Computation of actual evapotranspiration using drone based remotely sensed information; preliminary test for a drought index. Journal of Environmental Science International 25(12), 1653-1660. DOI |
5 | Lee, J. H., H. S. Choi, M. S. Chung, and M. S. Lee, 2002: Volatile flavor components and free radical scavenging activity of Cnidium officinale. Korean Journal of Food Science and Technology 34, 330-338. |
6 | Lim, Y. J., K. Y. Byun, T. Y. Lee, and J. Kim, 2010: Evaluation of evapotranspiration estimation using Korea Land Data Assimilation system. Korean Journal of Agricultural and Forest Meteorology 12(4), 298-306. DOI |
7 | Marek, H. T., A. D. Schneider, T. A. Howell, and L. L. Ebeling, 1988: Design and construction of large weighing monolithic lysimeter. American Society of Agricultural and Biological Engineers 31(2), 477-484. DOI |
8 | Martin, E. C., A. S. De Oliveira, A. D. Folta, E. J. Pegilow, and D. C. Slack, 2001: Development and testing of a small weighable lysimeter system to assess water use by shallow rooted crops. American Society of Agricultural and Biological Engineers 44(1), 71-78. DOI |
9 | Oh, Y. J., H. R. Seo, Y. M. Choi, and D. S. Jung, 2010: Evaluation of antioxidant activity of the extracts from the aerial parts of Cnidium officinale Makino. Korean Journal of Medicinal Crop Science 18(6), 373-378. |
10 | MAFRA (Ministry of Agriculture, Food and Rural Affairs), 2017: 2016 an actual output of crop for a special purpose : Annual Production Data of Medicinal Crops 86-91, Sejong, Ministry of Agriculture, Food and Rural Affairs |
11 | Schrader, F., W. Durner, J. Fank, S. Gebler, T. Putz, and M. Hannes, 2013: Estimating precipitation and actual evapotranspiration from precision lysimeter measurements. Procedia Environmental Science 19(12), 543-552. DOI |
12 | Park, Y. M., 2011: Leaf temperature characteristics being affected by light regime. Journal of the Environmental Sciences 20(12), 1599-1605. DOI |
13 | Peters, A., T. Nehls, H. Schonsky, and G. Wessolek, 2014: Seperating precipitation and evapotranspiration from noise-a new filter routine for high resolution lysimeter data. Hydrology and Earth System Science 18, 1189-1198. DOI |
14 | Rana, G., and N. Katerji, 2000: Measurement and estimation of actual evapotranspiration in the field under Mediterranean climate: a review. European Journal of Agronomy 13(2), 125-153. DOI |
15 | Steiner, J. L., T. A. Howell, and A. D. Schneider, 1989: lysimetric evaluation of daily potential evapotranspiration models for grain sorghum. Agronomy Journal 83(1), 240-247. DOI |
16 | Tyagi, N. K., D. K. Sharma, and S. K. Luthra, 2000: Determination of evapotranspiration and crop coefficients of rice and sunflower with lysimeter. Agricultural Water Management 45(1), 41-54. DOI |
17 | Yang, G. J., R. L. Pu, C. J. Zhao, and X. Z. Xue, 2014: Estimating high spatiotemporal resolution evapotranspiration over a winter wheat field using an IKONOS image based compcomplem relationship and lysimeter observations. Agricultural Water Management 133, 34-43. DOI |
18 | Yun, S. K., S. O. Hur, S. H. Kim, S. J. Park, J. B. Kim, and I. M. Choi, 2009: Prediction of evapotranspiration from grape vein in Suwon with the FAO Penman-Monteith equation. Korean Journal of Agricultural and Forest Meteorology 11(3), 111-117. DOI |
19 | Yi, E. J., 2004: Control of citrus blue mold and chili pepper anthracnose by ligustilide and antifungal compound from Cnidium officinale Makino. Master Thesis, Seoul National University, Seoul. |
20 | Yoo, B. H., K. J. Lee, B. W. Lee, and K. S. Kim, 2017: Production and analysis of digital climate maps of evapotranspiration using gridded climate scenario data in Koran Peninsula. Korean Journal of Agricultural and Forest Meteorology 19(2), 62-72. DOI |
21 | Hong, J. K., H. J. Kwon, J. H. Lim, Y. H. Byun, J. Lee, and J. Kim, 2009: Standardization of KoFlux eddy covariance data processing. Korean Journal of Agricultural and Forest Meteorology 11(1), 19-26. DOI |
22 | Al-Kaisi, M., L. J. Brun, and J. W. Enz, 1989: Transpiration and evapotranspiration from maize as related to leaf area index. Agricultural and Forest Meteorology 48, 111-116. DOI |
23 | Bakhtiari, B., N. Ghahreman, A. M. Liaghat, and G. Hoogenboom, 2011: Evaluation of reference evapotranspiration models for a semiarid environment using lysimeter measurements. Journal of Agricultural Science Technology 13, 223-237. |
24 | Colaizzi, P. D., S. R. Evett, T. A. Howell, and J. A. Tolk, 2006: Composition of five models to scale daily evapotranspiration from one time of day measurements. American Society of Agricultural and Biological Engineers 49(5), 1409-1417. |
25 | Han, J. S., and B. Y. Lee, 2005: Measurement and analysis of free water evaporation at Haenam paddy field. Korean Journal of Agricultural and Forest Meteorology 7(1), 91-97. |
26 | Hatfield, J. L., R. J. Reginato, and S. B. Idso, 1984: Evaluation of canopy temperature- evapotranspiration models over various crops. Agricultural and Forest Meteorology 32, 41-53. DOI |
27 | Kim, J. M., D. Son, P. Lee, K. J. Lee, H. Kim, and S. Y. Kim, 2003: Ethyl acetate soluble fraction of Cnidium officinale Makino inhibits neuronal cell death by reduction of excessive nitric oxide production in liopolysaccaride-treated rat hippocampal slice cultures and microglia cells. Journal of Pharmacological Science 92, 74-78. DOI |
28 | Kwon, H. J., S. B. Park, M. S. Kang, J. I. Yoo, and R. Yuan, and J. Kim, 2007: Quality control and assurance of eddy covariance data at two KoFlux sited. Korean Journal of Agricultural and Forest Meteorology 9(4), 260-267. DOI |