Effect of very-acid soil liming, nitrogen and phosphorus fertilisation. Part II. Phosphorus uptake and use by spring barley
Tkaczyk, P.
Acta Scientiarum Polonorum Agricultura 1(2): 57-72
2002
Accession: 004129332
In a pot experiment, very-acid soil liming increased the yield of spring barley Start. The plants grown on acid soil accumulated a greater amount of P in grain, straw and roots than on limed soil. Liming and N and P application enhanced the uptake and use of P by the plants. P uptake was greater from triple superphosphate than from rock phosphate meal.
PDF emailed within 1 workday: $29.90
Related References
Tkaczyk, P. 2002: Effect of very acid soil liming, nitrogen and phosphorus fertilisation. Part I. Mineral fractions and mobile phosphorus forms Acta Scientiarum Polonorum Agricultura 1(2): 43-55Lipinski, W. 1997: Effect of liming and magnesium fertilizers on phosphorus changes in soil and its uptake by spring barley. III. The relation between phosphorus uptake and utilization and the amount of its fractions in soil Annales Universitatis Mariae Curie Skodowska Sectio E, Agricultura 52: 257-268
Lipinski, W. 1997: Effect of liming and magnesium fertilizer on phosphorus changes in soil and its uptake by spring barley. II. Phosphorus uptake and utilization Annales Universitatis Mariae Curie Skodowska Sectio E, Agricultura 52: 245-256
Stepniewski, W.; Labuda, S. 1989: The influence of 10 days' flooding in seven development stages of spring barley on its growth yield and nitrogen phosphorus potassium content and uptake part ii. content and uptake of nitrogen phosphorus and potassium Polish Journal of Soil Science 22(1): 101-109
Lipinski, W. 1997: Effect of liming and magnesium fertilizers on phosphorus changes in soil and its uptake by barley. I. Mineral and mobile phosphorus forms Annales Universitatis Mariae Curie Skodowska Sectio E, Agricultura 52: 233-244
Fan, J.-W.; Du, Y.-L.; Wang, B.-R.; Turner, N.C.; Wang, T.; Abbott, L.K.; Stefanova, K.; Siddique, K.H. M.; Li, F.-M. 2016: Forage yield, soil water depletion, shoot nitrogen and phosphorus uptake and concentration, of young and old stands of alfalfa in response to nitrogen and phosphorus fertilisation in a semiarid environment Field Crops Research 198: 247-257
Von Wieneke, J.; Isermann, K.; Schimansky, C.; Fuerh, F. 1983: Pot test on the utilization of water soluble phosphorus 32 phosphorus 33 fertilizer phosphate on spring barley as a function of the phosphorus placement and phosphorus supply in the soil Landwirtschaftliche Forschung 36(3-4): 327-347
Ellis, F.B.; Howse, K.R. 1980: Effects of cultivation on the distribution of nutrients in the soil and the uptake of nitrogen and phosphorus by spring barley and winter wheat on three soil types Soil and Tillage Research 1(1): 35-46
Hernando, V.; Lombardia, V.; Pardo, M.T. 1970: Phosphorus uptake by wheat m on various spanish soils part 2 relationships between fractions of inorganic soil phosphorus available phosphorus and phosphorus absorbed by plants Anales de Edafologia y Agrobiologia 29(9-10): 673-682
Rebowska, Z.; Kusio, M. 1985: Effect of nitrogen phosphorus potassium fertilization and liming on the content and uptake of micronutrients by spring rape Pamietnik Pulawski 86: 97-114
Von Wieneke, J.; Isermann, K.; Schimansky, C. 1983: Distribution of fertilizer and soil derived phosphate in spring barley as a function of the phosphorus availability in the soil as the level and placement of phosphorus 32 phosphorus 33 labeled fertilizer Landwirtschaftliche Forschung 36(3-4): 348-361
Natr, L.; Apel, P.; Fialova, S. 1983: The effect of phosphorus and nitrogen deficiency on growth of seedlings of spring barley in dependence on irradiance: content of chlorophyll, nitrogen and phosphorus Biologia Plantarum 25(6): 433-439
Natr, L.; Apel, P.; Fialova, S. 1983: The effect of phosphorus and nitrogen deficiency on growth of seedlings of spring barley hordeum vulgare cultivar mirena in dependence on irradiance content of chlorophyll nitrogen and phosphorus Biologia Plantarum 25(6): 433-439
Wieneke, J. 1985: Phosphorus 32 phosphorus 33 uptake and remobilization before and during tillering of spring barley Angewandte Botanik 59(5-6): 393-408
Fujiwara, A.; Ohira, K. 1960: The physiological role of phosphorus in the higher plants : barley. Part 4. Effects of the interrelationship between nitrogen, iron, manganese and phosphorus on the growth and yield of barley. J. Sci. Soil. Tokyo 31: 53-56
Raychaudhuri, S.P. 1972: Reclamation of acid soil and increase of available soil phosphorus and uptake of phosphate by plants by liming Indian Journal of Agricultural Chemistry 5(1): 1-5
Hernando, V.; Lombardia, V.; Pardo, M.T. 1970: Phosphorus uptake by wheat on various Spanish soils. II. Relationships between fractions of soil inorganic phosphorus, available phosphorus and phosphorus uptake by plants An. Edafol. Agrobiol 29: 673-682
Fransson, A.M.; Bergkvist, B.; Tyler, G. 1999: Phosphorus solubility in an acid forest soil as influenced by form of applied phosphorus and liming Scandinavian Journal of Forest Research 14(6): 538-544
Stepniewski, W.; Labuda, S. 1989: The influence of 10 days' flooding in seven development stages of spring barley on its growth yield and nitrogen phosphorus potassium content and uptake part i. growth and yield Polish Journal of Soil Science 22(1): 93-100
Dzaba, D. 1994: Liming, dynamics of phosphorus in the soil and phosphorus nutrition of rice and cassava in the acid soils of the Congo Acta Horticulturae 380: 205-210