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Agronomical evaluation of phosphate fertilizer as a nutrient source of phosphorus for crops: Isotopic procedure (1990)

Morel, C. ; Fardeau, J. -C.

Springer

Nutrient cycling in agroecosystems 24 (1990), S. 115-122

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ISSN: 1573-0867

Keywords: 32P ; plant P uptake ; relative agronomic effectiveness ; DAP ; rock phosphate ; phospal

Source: Springer Online Journal Archives 1860-2000

Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

Notes: Abstract The agronomic effectiveness of P fertilizers, as sources of phosphorus for crops, was evaluated using the quantities, Pf, of phosphorus taken up byLolium perenne grown on 14 soils during greenhouse experiments in pot cultures. The Pf quantities were determined using32P-labelled fertilizers. Data were analysed using a new concept: the Isotopic Relative Agronomic Effectiveness (IRAE). The IRAE value was defined as the ratio of the Pf quantity, taken up by a crop, of a tested fertilizer over the Pf quantity, taken up by a crop, of a fertilizer used as standard. In our experiments diammonium phosphate (DAP) was used as standard P fertilizer and two rock phosphates, the North Carolina rock phosphate (NCPR) and a calcium-iron-aluminium phosphate (Phospal), were tested. As a linear relationship between Pf(NCPR) quantities and Pf(DAP) quantities was obtained, with r2 = 0.95, when the application rates increased from 15 mgP (kg soil)−1 to 200 mgP (kg soil)−1, it is conciuded that IRAE values for a given fertilizer, other than the standard fertilizer, could be determined with a single rate of application. As regards soil pH in the range 4.7 to 8.2 the IRAENCPR is related to soil pH by a curvilinear relationship: log IRAENCPR = −(0.44) pH + 4.05 with r2 = 0.89. The average of IRAEphospal values was 0.15 with a standard error = 7% irrespective of soil pH. Then a logarithmic relationship was obtained between IRAE values of the two tested fertilizers and their water P-solubility determined at the soil pH where they were applied.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01073230

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Phosphorus status and cycling in native savanna and improved pastures on an acid low-P Colombian Oxisol (1999)

Oberson, A. ; Friesen, D.K. ; Tiessen, H. ; [et al.]

Springer

Nutrient cycling in agroecosystems 55 (1999), S. 77-88

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ISSN: 1573-0867

Keywords: acid low-P soils ; improved pastures ; P budget ; P cycling ; soil P fertility

Source: Springer Online Journal Archives 1860-2000

Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

Notes: Abstract On acid low-phosphorus (P) Colombian Oxisols, improved pastures with acid-soil-tolerant grass and legume varieties have increased beef production by a factor of 10 to 15 with only modest P fertilizer inputs. This indicates that the efficiency of P fertilization could be greater than is commonly expected on such strongly P-sorbing soils. To understand the effect of improved pastures on P cycling and availability, we estimated P budgets, and characterized soil P by sequential fractionation, isotopic exchange and biological activity measurements on soil samples from unfertilized native savanna, and fertilized improved grass-only (Brachiaria decumbens cv. Basilisk) and grass-legume (B. decumbens + Pueraria phaseoloides, Kudzu) pastures established in 1978 on a medium-textured isohyperthermic, tropeptic haplustox. Comparison of calculated P budgets, based on inputs and exports, with total soil P contents showed that fertilization, as part of the improved pasture management, had resulted in a measurable increase of total P in the surface 0–20 cm soil layer of nearly 30 mg kg-1 or about 20% over the savanna level. Sequential soil P fractionation of different seasonal samplings indicated that grass-legume maintained higher organic and available inorganic P levels with less temporal variation than the two other types. The linkage of organic P and available P was also reflected in soil biological activity. Estimates of P in microbial biomass and phosphatase activity were significantly higher in grass-legume than grass-only and savanna. The improvement in soil P availability, as measured by solution P concentration, P sorption and exchangeable P, was much greater in grass-legume than in grass-only. With comparable fertilizer inputs and greater product exports, improved P availability in grass-legume cannot be due to differences in budgets but can be attributed to changes in the overall biological activity in the soil-plant system caused by the presence of legumes in the vegetation cover. Total C, organic P content and macrofaunal activity were all significantly higher in grass-legume soils. Greater turnover of organic litter in grass-legume may provide for steadier organic P inputs and, therefore, higher P cycling and availability.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1009813008445

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