International Journal of Horticulture, 2017, Vol.7, No. 31, 288-298
298
Bergman E.L., Ken worthy A.L., Bass S.T., and Benne E.J., 1960, Growth of Concord grapes in sand culture as related to various levels of essential nutrient
elements, Proc. Amer. Soc. Hort. Sci., 75: 329-40
Cook J.A., and Lider L.A., 1964, Mineral composition of blooming grape petiole in relation to rootstock- scion variety behaviour,
Proc. Amer. Soc. Hort. Sci.
,
84:243-254
Downton W.J., 1977, Influence of rootstock on the accumulation of chloride, sodium and potassium in grapevines,
Austral. J. Agr. Res
., 28:879-889
Duxbury J.M., Smith M.S., and Doran J.W., 1989, Soil organic matter as a source and sink of plant nutrients,
In
D.C. Coeman, J.M. Oades and G. Uehara, Eds.
Dynamics of soil Organic Matter in Tropical Ecosystem
,
Pp.33-67, University of Hawaii Press, USA
Emmer F.H., 1959, Chemical analysis of tissue as a means of determining nutrient requirements of deciduous fruit plants, Proc. Amer. Soc. Hort. Sci., 73:
521-547
Fageria V.D., 2001, Nutrient interactions in crop plants, Journal of Plant nutrition, 24(8):1269-1290
Fisarakis I., Nikolaou N., Tsikalas P., Therios I., and Stavrakas D., 2005, Effect of Salinity and Rootstock on Concentration of Potassium, Calcium, Magnesium,
Phosphorus, and Nitrate–Nitrogen in Thompson Seedless Grapevine, Journal of Plant Nutrition, 27(12):2117-2134
Greenland D.J., and Nye P.H., 1959, Increases in the carbon and nitrogen contents of tropical soils under natural forests, Journal Soil Science, 10: 284-299
Gupta R.K., Chhabra R., and Abrol I.P., 1981, The relationship between pH and exchangeable sodium in a sodic soil, Soil Sci., 131: 215-219
Huffaker R.C., and Wallace A., 1959, Sodium absorption by different plant species at different potash levels, Soil Sci., 87: 130-134
Jackson M.L., 1958, Soil Chemical Analysis, Prentice-Hall, Englewood Cliffs, New Jersey
Jenkinson D.S., 1990, The turnover of organic carbon and nitrogen in the soil. Philosophical Transactions of the Royal Society B, 329: 361-368
Kalbhor J.N., Shelke T.S., Mungare T.S., and Shikhamany S.D., 2017, An approach to determine the preferential absorption of nutrients by different varieties
and rootstocks of grape through vineyard surveys, Green Farming, 8(4):901-906
Marco Antonio, Dalbó Enio Schuck , Clori Basso, 2011, Influence of rootstock on nutrient content in Grape Petioles, Rev. Bras. Frutic., Jaboticabal- SP, 33(3):
941-947
Russell E.W., 1961, Soil conditions and plant growth, 9th edition, Longmans, London, 688pp
Shikhamany S.D., and Sharma J., 2008, Interaction of sodium and potassium and potassium use efficiency in Thompson Seedless grape, Acta Hort., 785:
373-377
Smith R.L., and Wallace A., 1956, Cation exchange capacity of roots and its relation to calcium and potassium contents of plants, Soil Sci., 81: 97-109
Sumner M.E., and Yamada T., 2002, Farming with acidity, Communications in Soil Science and Plant Analysis, 33:2467-2496
Truog E., 1946, The liming of soils, Science in Farming, USDA year book, 1941-47. pp. 566-576
US Salinity Laboratory Staff, 1954, Diagnosis and Improvement of Saline Alkali Soils, Agriculture Handbook No.60, USDA, Washington, DC, USA
Wada S.I., and Weerasooriya D.J., 1990, Sodium-calcium, calcium-potassium and potassium-sodium exchange equilibria on a montmorillonitic soil, Soil Sci.,
Plant Nutr. 36 : 451-459
Wilkinson S.R., Grunes D.L., and Sumner M.E., 1999, Nutrient Interactions in Soil and Plant Nutrition., In Handbook of Soil Science; Sumner, M.E., Ed.; CRC
Press: Boca Raton, FL, 89-112
