최소 단어 이상 선택하여야 합니다.
최대 10 단어까지만 선택 가능합니다.
다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기시설원예ㆍ식물공장 = Protected horticulture and plant factory, v.26 no.1, 2017년, pp.43 - 48
This experiment was conducted to test the suitability of various organic materials in order to reduce the use dependence of peatmoss as a soil pH regulator and to examine the effect of soil organic matter supply. A 2-year old northern-highbush blueberry (Vaccinium corymbosum L.) 'Duke' plants were p...
* AI 자동 식별 결과로 적합하지 않은 문장이 있을 수 있으니, 이용에 유의하시기 바랍니다.
핵심어 | 질문 | 논문에서 추출한 답변 |
---|---|---|
중성 및 약산성 토양을 블루베리 재배에 적합한 토양 pH로 낮추는 방법은? | 토양 pH가 높을 경우 생육이 부진하게 되므로(Brown and Draper, 1980; Haynes and Swift, 1986; Holmes, 1960) 개원 전에 예정지 토양을 분석하여 중성(pH 7.0) 이상이거나 약산성일 때에는 가을에 미리 유황분을 살포하여 밭을 갈아준 후 이듬해 봄에 식재해야 한다(Scott et al., 1973; Spiers, 1982). | |
블루베리의 정상적인 생육을 위한 토양 pH조건은? | 그러나 우리나라는 재배역사가 짧고 개원부터 수확까지 체계적인 기술이 확립되어 있지 않아 정식 후 실패하는 사례가 종종 발생되고 있다. 특히 대표적인 산성식물로 다른 작물에 비해 까다로운 토양조건을 요구하는데, 토양 pH는 4.0∼5.5(Eck and Childers, 1989; Hallet al., 1964), 유기물 함량은 3% 이상(Haynes and Swift, 1985; Korcak, 1989; Westwood, 1993) 되어야 정상적인 생육이 이루어진다. | |
피트모스와 소나무잎, 왕겨, 톱밥 등 유기물을 혼합처리 했을 때, 유기물 조성에 따라 생육 시기별 토양수분 햠량은 어떻게 나타나는가? | 5로 피트모스단용, 피트모스+소나무잎 처리에서 낮게 유지되었다. 유기물 조성에 따른 생육 시기별 토양수분 함량은 피트모스+소나무잎>피트모스단용> 피트모스+톱밥>피트모스+왕겨 순으로 높게 나타났다. 생육은 피트모스 단용과 피트모스+소나무잎 처리에서 양호하였고 꽃눈수가 많아 초기 수량이 많았다. |
Ancu, I.M., P. Mladin, and S. Ancu. 2010. The planting substrate effects on some growth characteristics of seven blueberry cultivars. Bul. Univ. Agr. Sci. Veterinary Medicine Cluj-Napoca Hort. 67:91-95.
Argo, W.R. 1998. Roots medium chemical properties. Hort Technology. 8:481-490.
Bach, E.M., S.G. Baer, C.K. Meyer, and J. Six. 2010. Soil texture affects soil microbial and structural recovery during grassland restoration. Soil Biol. Biochem. 43:2182-2191.
Beardsell, D.V., D.G. Nichols, and D.L. Jones. 1979. Physical properties of nursery potting-mixtures. Scientia Horticulturae. 11:1-8.
Benoit, G.R., W.J. Grant, A.A. Ismail, and D.E. Yarborough. 1983. Effect of soil moisture on the potential and actual yield of lowbush blueberries. Can J. Plant Sci. 64:683-689.
Brown, J.C. and A.D. Draper. 1980. Differential response of blueberry(Vaccinium) progenies to pH and subsequent use of iron. J. Amer. Soc. Hort. Sci. 105:20-24.
Cain, J.C. 1952. A comparison of ammonium and nitrate nitrogen for blueberries. Proc. Amer. Soc. Hort. Sci. 59:161-166.
Chau, J.F., A.C. Bagtzoglou, and M.R. Willing. 2011. The effect of soil texture on richness and diversity of bacterial communities. Environ. Forensics. 12:333-341.
Eck, P. and N.F. Childers. 1989. Blueberry culture. 4th ed. Rutgers University Press. New Brunswick, London.
Eck, P., R.E. Gough, I.V. Hall, and J.M. Spiers. 1990. Blueberry management. p. 273-301. In: G.J. Galletta and D.G. Himelrick (eds.). Small fruit crop management. Prentice Hall, Englewood Cliffs, New Jersey.
Gough, R. 1980. Root distribution of Coville and Laterblue highbush blueberry under sawdust mulch. J. Am. Soc. Hort. Sci. 105:576-578.
Grajkowski, J., I. Ochman, and Z. Mulinski. 2007. Firmness and antioxidant Capacity of highbush blueberry(Vaccinium corymbosum L.) Grown on. Three types of organic bed. Vegetable Crops Res. Bul. 66:155-159.
Hall, I.V., L.E. Aalders, and L.R. Townsend. 1964. Nitrogen uptake in blueberry fields. Can. J. Plant Sci. 44:30-36.
Haman, D.Z., A.G. Smajstrla, R.T. Pritchard, and P.M. Lyreme. 1997. Response of young blueberry plants to irrigation in Florida. HortScience 32:1194-1196.
Hamm, D.Z., A.G. Smajstrla, and P.M. Lyrene. 1988. Effects of irrigation and ground cover on growth of blueberry. Proc. Fla. State Hort. Soc. 101:235-238.
Hassink, J., L.A. Bouwman, K.B.Z. Wart, J. Bloem, and L. Brussaard. 1993. Relationships between soil texture, physical protection of organic matter, soil biota, and C and N mineralization in grassland soils. Geoderma. 57:105-128.
Haynes, R.J. and R.S. Swift. 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. 84:201-212.
Haynes, R.J. and R.S. Swift. 1986. Effect of soil amendments and sawdust mulching on growth, yield and leaf nutrient content of highbush blueberry plants. Sci. Hort. 29:229-238.
Holmes, R.S. 1960. Effect of phosphorus and pH on iron chlorosis of the blueberry in water culture. Soil Sci. 90:374-379.
Iancu, M., I. Ancu, P. Mladin, S. Ancu, G. Mladin, and V. Chitu. 2008. Influence of the planting substrate on blueberry growth and yield. Bulletin UASVM, Hort. 65:308-313.
Korcak, R.F. 1988. Nutrition of blueberry and other calcifuges. Hort. Rev. 10:183-227.
Korcak, R.F. 1989. Variation nutrient requirements of blueberries and other calcifuges. HortScience 24:573-578.
Li, Y., T. Xuedong, W. Lin, and Z. Zhang. 2004. Effect of organic material on soil properties, plant growth, leaf photosynthesis, nutrient uptake and mycorrhizal infection of blueberries. Acta Hort. 715:375-380.
Mamedov, A.L., S. Beckmann, C. Huang, and G.J. Levy. 2007. Aggregate stability as affected by polyacrylamide molecular weight, soil texture, and water quality. Soil Sci. Soc. Am. J. 71:1909-1918.
Merhaut, D.J. and R.L. Darnell. 1995. Ammonium and nitrate accumulation in containerized southern highbush blueberry plants. HortScience 30:1378-1381.
Poonnachit, U. and R. Darnell. 2004. Effect of ammonium and nitrate on ferric chelate reductase and nitrate reductase in Vaccinium species. Ann. Bot. 93:399-405.
Rural Development Administration (RDA). 2000. Analysis of soil and plant. NIAST, Suwon.
Rural Development Administration (RDA). 2002. Standard analysis of substrate. NIAST, Suwon.
Scott, D.H., A.D. Draper, and Darow, G.M. 1973. Commercial blueberry growing. USDA, Washington, DC.
Spiers, J.M. 1982. Fertilization, incorporated organic matter and early growth of rabbiteye blueberries. J. Amer. Soc. Hort. Sci. 107:1054-1058.
Spiers, J.M. 1986. Root distribution of 'Tifblue' rabbiteye blueberry as influenced by irrigation, incorporated peatmoss, and mulch. J. Amer. Soc. Hort. Sci. 111:877-880.
Starast, M., K. Karp, and T. Paal. 2002. The effect of using different mulches and growth substrates on half-highbush blueberry(Vaccinium corymbosum $\times$ V. angustifolium) cultivars 'Northblue' and 'Northcountry'. Acta Hort. 574:281-286.
Starast, M., K. Karp, E. Vool, U. Moor, T. Tonutare, and T. Paal. 2007. Chaemical composition and quality of cultivated and natural blueberry fruit in Estonia. Vegetable Crops. Res. Bul. 66:143-153.
Tisdall, J.M. and J.M. Oades. 1982. Organic matter and waterstable aggregates in soils. J. Soil Sci. 33:141-163.
Townsend, L.R. 1966. Effect of ammonium and nitrate nitrogen on the growth of the lowbush blueberry. Can. J. Plant. Sci. 46:209-210.
Westwood, M.N. 1993. Temperate-zone pomology. Timber Press, Portland, OR, USA. p. 100-101.
White, L.D. 2006. The effect of pre-plant incorporation with sawdust, sawdust mulch, and nitrogen fertilizer rate on soil properties and nitrogen uptake and growth of 'Elliot' highbush blueberry. Mater Diss, Oregon State Unic., 1-63.
Xie, Z.S. and X.C. Wu. 2009. Studies on substrates for blueberry cultivation. Acta Hort. 810:513-520.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.