1. Potassium supplying capacity of a red soil from eastern India after forty-two years of continuous cropping and fertilization.
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Das, Debarup, Dwivedi, B.S., Datta, S.P., Datta, S.C., Meena, M.C., Agarwal, B.K., Shahi, D.K., Singh, Muneshwar, Chakraborty, D., and Jaggi, Seema
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RED soils , *FERTILIZATION (Biology) , *POTASSIUM , *CROP yields , *CLAY minerals - Abstract
Abstract Fertilizer use in Indian agriculture is skewed towards nitrogen (N) and phosphorus (P), and farmers generally neglect potassium (K) input ignoring K requirement of crops. We, therefore, studied the long-term effect of imbalanced fertilization (i.e. without K) on K supplying capacity of a kaolinitic red soil (Typic Haplustalf) after 42 years of intensive cultivation. Soil samples (0–15 and 15–30 cm) were collected after the completion of 42 cropping cycles from an on-going long-term fertilizer experiment located at Birsa Agricultural University, Ranchi, India, from six treatments, viz. control (unfertilized), fertilizer N, NP, NPK, 150% NPK (1.5 times of NPK) and NPK + FYM (NPK + farmyard manure), along with adjacent uncultivated land. Soil K pools, clay minerals, quantity-intensity relationship and K release kinetics along with grain yield and K uptake of soybean and wheat were studied. Among the treatments, NP treated soils showed the lowest amounts of labile (K L) and non-exchangeable K (K nex). Equilibrium activity ratio (AR e K) and non-specifically held K (−ΔK 0) were also lowest under NP treatment. The gap between equilibrium exchangeable K (EK 0) and minimum exchangeable K (EK min) was minimum under NP. Cropping and fertilization-induced transformation in clay minerals was noticed wherein continuous neglect of K fertilizer led to a decrease in illite content with a concomitant increase in interstratified minerals. On the other hand, noticeably lower alteration in clay minerals and comparatively less depletion in overall K-supplying capacity of soil were recorded under K addition as compared to imbalanced fertilization (i.e. without K). Soybean showed a significant positive response to K application. The study thus underlined the necessity of adequate K input for the sustenance of soil health, inherent K-supplying capacity and crop productivity. Highlights • We studied long-term effect of cropping with or without K input on soil K-fertility. • Imbalanced fertilization with respect to K caused depletion of soil K pools. • Imbalanced fertilization adversely affected quantity, intensity and K release rate. • Continuous neglect of K addition led to distortion in clay minerals. • Cropping with K addition maintained much better K-supplying capacity of soil. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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