Journal of the Indian Society of Soil Science
Year : 2019, Volume : 67, Issue : 3
First page : ( 321) Last page : ( 328)
Print ISSN : 0019-638X. Online ISSN : 0974-0228.
Article DOI : 10.5958/0974-0228.2019.00035.5

Spatial Variation of Potassium Quantity/Intensity Relationships and Buffering Capacity of Some Entisols of the Himalayan Floodplain

Singh N.K., Banik G.C.*, Ghosh A.¹

Department of Soil Science and Agricultural Chemistry, Faculty of Agriculture, Uttar Banga Krishi Viswavidyalaya, Pundibari, Cooch Behar, 736165, West Bengal

¹Present address: Department of Agricultural Statistics, RRS, Terai Zone, Uttar Banga Krishi Viswavidyalaya, Pundibari, Cooch Behar, 736165, West Bengal

*Corresponding author (Email: gcbanik79@yahoo.co.in)

Online published on 31 January, 2020.

Abstract

Exchangeable soil potassium (K) determined by NH4OAc may not always be a reliable indicator of K availability to crops. In that case, K quantity/intensity (Q/I) relationship could be used to predict its availability in soils. This relationship was used to estimate the K supplying capacity in six surface (0–20 cm) and sub-surface (20–40 cm) soils of Entisols at six different blocks of Cooch Behar district, India situated at Himalayan floodplain. The soils were mostly sandy loam in texture and acidic in pH (5.20 to 6.49). The organic carbon (OC), cation exchange capacity (CEC), clay content and available K were lower in the sub-surface layers (20–40 cm). The plant available K was positively correlated with OC (r = 0.764**, n = 12), clay (r = 0.824**, n = 12) and CEC (r = 0.742**, n = 12). The values of activity ratio of K at equilibrium (AR^Ke) in soils varied from 5.3×10⁴ to 15.2×10⁴ in the surface and 3.3×10⁴ to 9.2×10⁴ in the sub-surface layers. The AR^Ke value was positively correlated with exchangeable K. The total labile pool of K varied with the variation in soil exchangeable K (r = 0.586, n = 12), CEC (r = 0.745**, n = 12) and clay content (r = 0.866**, n = 12). The potential buffering capacity (PBC^K) was also much dependent on clay (r = 0.702*, n = 12), OC (r = 0.853**, n = 12) and CEC (r = 0.773**, n = 12) of soil. The lower PBC^K values suggest the frequent requirement of K-fertilization for increased crop productivity.

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Keywords

Labile potassium, potential buffering capacity, Entisol, free energy change, quantity/intensity of potassium.

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