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NTIS 바로가기한국환경농학회지 = Korean journal of environmental agriculture, v.36 no.3, 2017년, pp.161 - 168
곽용범 (농촌진흥청 국립원예특작과학원 남해출장소) , 채원병 (농촌진흥청 국외농업기술과) , 이목희 (농촌진흥청 국립원예특작과학원 남해출장소) , 정해원 (농촌진흥청 국립원예특작과학원 남해출장소) , 이한철 (농촌진흥청 국립원예특작과학원 남해출장소) , 김진국 (국립경상대학교 농업생명과학대학 원예학과) , 김홍림 (농촌진흥청 국립원예특작과학원 남해출장소)
BACKGROUND: Rabbiteye blueberry(Vaccinium ashei Reade) has low nutrient uptake efficiency due to its shallow and fibrous root system without root hairs. This study was carried out to establish an efficient nutrient application standard by investigating the effect of nitrogen fertigation on the growt...
핵심어 | 질문 | 논문에서 추출한 답변 |
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산성토양을 위한 조건은? | 블루베리는 다른 과수보다 양분 요구량이 낮지만, 일정 범위에서는 시비량과 생장량이 같은 경향을 가진다다(Williamson and miller, 2009; Vargas and Bryla, 2015). 또한 산성토 양에서 자라는 특성으로 질산태 질소보다는 암모니아태 질소를 주 질소형태로 이용하며(Bhat, 1983; Klein and Spieler, 1987; Merwin and Stiles, 1994; Claussen and Lenz, 1999), 토양 pH에 따라 5.5이상이면 유안을, 5.0하에서는 요소를 적용하고 있다(Hartz et al., 2005). | |
블루베리 재배 품종군은 어떻게 구분되는가? | 국내 블루베리 재배 품종군은 크게 북부형(Vaccinium corymbosum L) ( 과 남부형 V. corymbosum hybrid) 하이부쉬 그리고 래빗아이(V. ashei Reade) 블루베리로 구분할수 있다. 이들 블루베리는 세근이 없는 뿌리구조와 배수가 좋은 산성토양에서 잘 자란다는 공통적 특성을 가지고 있다 (Gough, 1993; Retamales and Hancock, 2012). | |
블루베리의 공통적 특성은? | ashei Reade) 블루베리로 구분할수 있다. 이들 블루베리는 세근이 없는 뿌리구조와 배수가 좋은 산성토양에서 잘 자란다는 공통적 특성을 가지고 있다 (Gough, 1993; Retamales and Hancock, 2012). 이와 같은 이유로 국내외 블루베리 농가들은 과원 조성 시 pH조정과 함께 배수성을 강화하기 위하여 사토 또는 사양토와 같은 배수가 좋은 토성을 선정하거나, 유기물을 혼합하여 물리성을 개선하는 예정지관리를 수행한다(Gough, 1993). |
Austin, M. E., & Bondari, K. (1988). Fertilizer rate and hedging intensity influences on the yield and fruit size of rabbiteye blueberry cultivar Tifblue. Fertilizer Research, 18(3), 233-243.
Ballinger, W. E., & Kushman, L. J. (1996). Factors affecting the mineral-element content of leaves and fruit of Wolcott blueberries. Proceedings of the American Society for Horticultural Science, 88, 325-330.
Banados, M. P., Strik, B. C., Bryla, D. R., & Righetti, T. L. (2012). Response of highbush blueberry to nitrogen fertilizer during field establishment, I: accumulation and allocation of fertilizer nitrogen and biomass. HortScience, 47(5), 648-655.
Barnes, J. S., Nguyen, H. P., Shen, S., & Schug, K. A. (2009). General method for extraction of blueberry anthocyanins and identification using high performance liquid chromatography-electrospray ionization-ion traptime of flight-mass spectrometry. Journal of Chromatography A, 1216(23), 4728-4735.
Bhat, K. K. S. (1983). Nutrient inflows into apple roots. Plant and Soil, 71(1-3), 371-380.
Black, B. L., & Zimmerman, R. H. (2002). Mixtures of coal ash and compost as substrates for highbush blueberry. Journal of the American Society for Horticultural Science, 127(5), 869-877.
Bryla, D. R., & Machado, R. M. (2011). Comparative effects of nitrogen fertigation and granular fertilizer application on growth and availability of soil nitrogen during establishment of highbush blueberry. Frontiers in Plant Science, 2, 46-53.
Bryla, D. R., Shireman, A. D., & Machado, R. M. (2008). Effects of method and level of nitrogen fertilizer application on soil pH, electrical conductivity, and availability of ammonium and nitrate in blueberry. In VI International Symposium on Mineral Nutrition of Fruit Crops, 868, 95-102.
Coakley, S. M., Scherm, H., & Chakraborty, S. (1999). Climate change and plant disease management. Annual Review of Phytopathology, 37(1), 399-426.
Connor, A. M., Luby, J. J., & Tong, C. B. S. (2002). Variability in antioxidant activity in blueberry and correlations among different antioxidant activity assays. Journal of the American Society for Horticultural Science, 127(2), 238-244.
Cooley, D. R., Gamble, J. W., & Autio, W. R. (1997). Summer pruning as a method for reducing flyspeck disease on apple fruit. Plant Disease, 81(10), 1123-1126.
Cummings, G. A. (1978). Plant and soil effects of fertilizer and lime applied to highbush blueberries. Journal of the American Society for Horticultural Science, 103, 302-305.
Darnell, R. L. (1991). Photoperiod, carbon partitioning and reproductive development in rabbiteye blueberry. Journal of the American Society for Horticultural Science, 116(5), 856-860.
Ehret, D. L., Frey, B., Forge, T., Helmer, T., Bryla, D. R., & Zebarth, B. J. (2014). Effects of nitrogen rate and application method on early production and fruit quality in highbush blueberry. Canadian Journal of Plant Science, 94(7), 1165-1179.
Finn, C. E., & Warmund, M. R. (1996). Fertigation vs. surface application of nitrogen during blueberry plant establishment. In VI International Symposium on Vaccinium Culture, 446, 397-402.
Glonek, J., & Komosa, A. (2004). The effect of fertigation on the nutrient status and yield of highbush blueberry cv. Bluecrop. In VIII International Symposium on Vaccinium Culture, 715, 371-374.
Gough, R. E. (1993). The highbush blueberry and its management. Food Products Press, New York, USA.
Hagin, J., & Lowengart, A. (1996). Fertigation for minimizing environmental pollution by fertilizers. In Fertilizers and Environment, 23-25.
Hall, I. V., Craig, D. L., & Aalders, L. E. (1963). The effect of photoperiod on the growth the flowering of the highbush blueberry(Vaccinium corymbosum L.). Proceedings of the American Society for Horticultural Science, 82, 260-263.
Harmsen, K., & Moraghan, J. T. (1988). A comparison of the isotope recovery and difference methods for determining nitrogen fertilizer efficiency. Plant and Soil, 105(1), 55-67.
Hartl, W., & Erhart, E. (2005). Crop nitrogen recovery and soil nitrogen dynamics in a 10-year field experiment with biowaste compost. Journal of Plant Nutrition and Soil Science, 168(6), 781-788.
Hartz, T. K., Johnstone, P. R., Francis, D. M., & Miyao, E. M. (2005). Processing tomato yield and fruit quality improved with potassium fertigation. HortScience, 40(6), 1862-1867.
Haynes, R. J., & Swift, R. S. (1985). Effects of soil acidification on the chemical extractability of Fe, Mn, Zn and Cu and their uptake by highbush blueberry plants. Plant and Soil, 84(2), 201-212.
Holzapfel, E. A., Hepp, R. F., & Marino, M. A. (2004). Effect of irrigation on fruit production in blueberry. Agricultural Water Management, 67(3), 173-184.
Hoover, E., Luby, J., Rosen, C., & Propsom, F. (1999). Blueberries for Home Landscapes, College of Agricultural, Food, and Environmental Sciences, Regents of the University of Minnesota, 1-2.
Kang, B. K., Kim, H. J., Lee, K. J., Kim, J. J., & Hong, S. D. (2001). Salt movement of soils by runoff in greenhouse area. Korean Journal of Environmental Agriculture, 20(2), 112-115.
Kavoosi, M. (2007). Effects of zeolite application on rice yield, nitrogen recovery, and nitrogen use efficiency. Communications in Soil Science and Plant Analysis, 38(1-2), 69-76.
Kim, H. L., Kim, H. D., Kim, J. G., Kwack, Y. B., & Choi, Y. H. (2010). Effect of organic substrates mixture ratio on 2-year-old highbush blueberry growth and soil chemical properties. Korean Journal of Soil Science and Fertilizer, 43(6), 858-863.
Kim, H. L., Lim, J. H., Sohn, B. K., & Kim, Y. J. (2003). Chemical properties of cut-flower rose-growing soils in plastic film houses. Korean Journal of Soil Science and Fertilizer, 36(3), 113-118.
Klein, I., & Spieler, G. (1987). Fertigation of apples with nitrate or ammonium nitrogen under drip irrigation. II. Nutrient distribution in the soil 1. Communications in Soil Science and Plant Analysis, 18(3), 323-339.
Korcak, R. F. (1989). Variation in nutrient requirements of blueberries and other calcifuges. HortScience, 24, 573-578.
Kozinski, B. (2004). Influence of mulching and nitrogen fertilization rate on growth and yield of highbush blueberry. In VIII International Symposium on Vaccinium Culture, 715, 231-236.
Li, J., Zhang, J., & Ren, L. (2003). Water and nitrogen distribution as affected by fertigation of ammonium nitrate from a point source. Irrigation Science, 22(1), 19-30.
Merwin, I. A., & Stiles, W. C. (1994). Orchard groundcover management impacts on apple tree growth and yield, and nutrient availability and uptake. Journal of the American Society for Horticultural Science, 119(2), 209-215.
Patten, K., Neuendorff, E., Nimr, G., Haby, V., &Wright, G. (1988). Cultural practices to reduce salinity/sodium damage of rabbiteye blueberry bushs (Vaccinium ashei Reade). In IV International Symposiumon Vaccinium Culture, 241, 207-212.
Rao, A. C. S., Smith, J. L., Parr, J. F., & Papendick, R. I. (1992). Considerations in estimating nitrogen recovery efficiency by the difference and isotopic dilution methods. Nutrient Cycling in Agroecosystems, 33(3), 209-217.
Retamales, J. B., Hanson, E. J., & Bukovac, M. J. (1997). GA3 as a flowering inhibitor in blueberries. In International Symposium on Growth and Development of Fruit Crops, 527, 147-152.
Retamales, J. B., & Hanson, E. J. (1989). Fate of 15Nlabeled urea applied to mature highbush blueberries. Journal of the American Society for Horticultural Science, 114, 920-923.
Retamales, J. B., & Hancock, J. F. (2012). Blueberries Cabi, 21, 107-214.
Spiers, J. M. (1983). Influence of N, K, and Na concentration on growth and leaf element content of 'Tifblue' rabbiteye blueberry. HortScience, 18(2), 223-224.
Strik, B. C. (2008). Growing blueberries in your home garden, Oregon State University, 1-7.
Takeda, F., Krewer, G., Andrews, E. L., Mullinix, B., & Peterson, D. L. (2008). Assessment of the V45 blueberry harvester on rabbiteye blueberry and southern highbush blueberry pruned to V-shaped canopy. HortTechnology, 18(1), 130-138.
Thomas, C. S., Marois, J. J., & English, J. T. (1988). The effects of wind speed, temperature, and relative humidity on development of aerial mycelium and conidia of Botrytis cinerea on grape. Phytopathology, 78(3), 260-265.
Throop, A. T. & Hanson, E. J. (1997). Effect of application date on absorption of 15nitrogen by highbush blueberry. Journal of the American Society for Horticultural Science, 122(3), 422-426.
Vargas, O. L., & Bryla, D. R. (2015). Growth and fruit production of highbush blueberry fertilized with ammonium sulfate and urea applied by fertigation or as granular fertilizer. HortScience, 50(3), 479-485.
Wilber, W. L., & Williamson, J. G. (2008). Effects of fertilizer rate on growth and fruiting of containerized southern highbush blueberry. HortScience, 43(1), 143-145.
Williamson, J. G., & Miller, E. P. (2009). Effects of fertilizer rate and form on vegetative growth and yield of southern highbush blueberry in pine bark culture. HortTechnology, 19(1), 152-157.
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