ISSN:
1573-0867
Keywords:
dry matter yield
;
fertilizer efficiency factor (C)
;
maximum buffer capacity (MBC)
;
maximum obtainable yield (MOY)
;
modified Mitscherlich yield equation
;
solution P concentration
Source:
Springer Online Journal Archives 1860-2000
Topics:
Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition
Notes:
Abstract The phosphate sorption isotherms are needed to explain differential plant responses to P fertilization in soils. Laboratory and greenhouse experiments investigated the use of phosphorus sorption isotherms in relation to P fertilizer requirement of wheat in ten benchmark soils of Punjab, India. The modified Mitscherlich Equation (3) was used to describe plant response observed in different soils. Maximum obtainable yield (MOY) ranged from 11.6 g pot−1 in Gurdaspur (I) sandy clay loam to 7.0 g pot−1 in Nabha sandy clay loam. Response to P applied @ 25 mg P kg−1 soil was maximum (77%) in Bathinda sand and minimum in Chuharpur clay loam (33%). The response curvature varied from 3.74 × 10−2 in Nabha sandy clay loam to 4.43 × 10−2 in Kanjli sandy loam. The soil solution P required to produce optimum yield (90% MOY) varied from 1.61 µg ml−1 in Bathinda sand to 0.10 µg ml−1 in Sadhugarh clay. Dry matter yield obtained at 0.2 µg ml−1 solution P concentration ranged from 55% in Bathinda sand to 85% of MOY in Gurdaspur (II) clay loam. At the same solution P concentration (0.1 µg P ml−1), dry matter yield was 91% in Sadhugarh clay, 80% in Gurdaspur (II) clay loam and, 43% of MOY in Bathinda sand and eventually coincided with the decreasing maximum buffer capacity (MBC) in these soils. At the same level of sorbed P (100 mg P kg−1 soil) the yield was observed to be inversely proportional to MBC. The study, therefore, concludes that, soils should be grouped according to their P sorption characteristics and MBC before using critical soil solution P as a criterion for obtaining optimum yields.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1007/BF01991541
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