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NTIS 바로가기한국농림기상학회지 = Korean Journal of Agricultural and Forest Meteorology, v.22 no.4, 2020년, pp.268 - 278
김진희 ((재)국가농림기상센터) , 윤은정 ((재)국가농림기상센터) , 김대준 ((재)국가농림기상센터) , 강대균 ((재)국가농림기상센터) , 서보훈 (서울대학교 식물생산과학부) , 심교문 (농촌진흥청 국립농업과학원)
Flowering time has been put forward due to the recent abnormally warm winter, which often caused damages of flower buds by late frosts persistently. In the present study, cumulative chill unit and cumulative heat unit of Niitaka pear, which are required for releasing the endogenous dormancy and for ...
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Cesaraccio, C., D. Spano, R. L. Snyder, and P. Duce, 2004: Chilling and forcing model to predict bud-burst of crop and forest species. Agricultural and Forest Meteorology 126, 1-13.
Chandler, W. H., M. H. Kimball, G. L. Philp, W. P. Tufts, and G. P. Weldon, 1937: Chilling requirements for opening of buds on deciduous orchard trees and some other plants in California. Univ. Calif. Agr. Expt. Sta. Bull., 611.
Chuine, I., P. Cour, and D. D. Rousseau, 1999: Selecting models to predict the timing of flowering of temperate trees: implications for tree phenology modelling. Plant, Cell & Environment 22(1), 1-13.
Erez, A., 1994: Means to compensate for insufficient chilling to improve bloom and leafing. Dormancy and the related Problems of Deciduous Fruit Trees 395, 81-96.
Guo, L., J. Dai, M. Wang, J. Xu, and E. Luedeling, 2015: Responses of spring phenology in temperate zone trees to climate warming: a case study of apricot flowering in China. Agricultural and Forest Meteorology 201, 1-7.
Han, J. H., K. S. Cho, J. J. Choi, H. S. Hwang, C. G. Kim, and T. C. Kim, 2010: Estimation of changes in full bloom date of 'Niitaka' pear tree with global warming. Horticultural Science & Technology, 28(6), 937-941.
Kim, J. H., S. O. Kim, U. Chung, K. H. Hwang, J. B. Kim, I. K. Yoon, and J. I. Yun, 2009a: Geospatial assessment of frost and freeze risk in 'Changhowon Hwangdo' peach (Prunus perica) trees as affected by the projected winter warming in South Korea: II. Freezing risk index based on dormancy depth as a proxy for physiological tolerance to freezing temperature. Korean Journal of Agricultural and Forest Meteorology 11(4), 213-220. (in Korean with English abstract)
Kwon, E. Y., G. C. Song, and J. I. Yun, 2005: Prediction of dormancy release and bud burst in Korean grapevine cultivars using daily temperature data. Korean Journal of Agricultural and Forest Meteorology 7(3), 185-191.
Legave, J. M., Y. Guedon, G. Malagi, A. El Yaacoubi, and M. Bonhomme, 2015: Differentiated responses of apple tree floral phenology to global warming in contrasting climatic regions. Frontiers in Plant Science 6, 1054.
Muller, M., and P. Braun, 2007: Development of phenological models over time-a review. In: VIII International Symposium on Modelling in Fruit Research and Orchard Management 803, 111-116.
Sugiura, T., 1999: Prediction of full bloom date of pear using air temperature. Agriculture and Horticulture 54(10), 146-149.
Sugiura T., and H. Honjo, 1997: The effects of temperature on endodormancy completion in Japanese pear (Pyrus pyrifolia Nakai) and modeling the relationship. Journal of Agricultural Meteorology 53(4), 285-290.
농촌진흥청 과수 생육.품질관리시스템: https://fruit.nihhs.go.kr
농업기술연구소, 1990: 주요과수재배지역의 기후특성. 농촌진흥청, p157-158.
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