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Scope of Natural Sources of Potassium in Sustainable Agriculture

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Scope of Natural Sources of Potassium in Sustainable Agriculture. / Basak, B. B.; Sarkar, Binoy.
Adaptive Soil Management : From Theory to Practices. ed. / Amitava Rakshit; Purushothaman Chirakuzhyil Abhilash. Singapore: Springer Singapore, 2017. p. 247-259.

Research output: Contribution in Book/Report/Proceedings - With ISBN/ISSNChapter (peer-reviewed)peer-review

Harvard

Basak, BB & Sarkar, B 2017, Scope of Natural Sources of Potassium in Sustainable Agriculture. in A Rakshit & PC Abhilash (eds), Adaptive Soil Management : From Theory to Practices. Springer Singapore, Singapore, pp. 247-259. https://doi.org/10.1007/978-981-10-3638-5_12

APA

Basak, B. B., & Sarkar, B. (2017). Scope of Natural Sources of Potassium in Sustainable Agriculture. In A. Rakshit, & P. C. Abhilash (Eds.), Adaptive Soil Management : From Theory to Practices (pp. 247-259). Springer Singapore. https://doi.org/10.1007/978-981-10-3638-5_12

Vancouver

Basak BB, Sarkar B. Scope of Natural Sources of Potassium in Sustainable Agriculture. In Rakshit A, Abhilash PC, editors, Adaptive Soil Management : From Theory to Practices. Singapore: Springer Singapore. 2017. p. 247-259 doi: 10.1007/978-981-10-3638-5_12

Author

Basak, B. B. ; Sarkar, Binoy. / Scope of Natural Sources of Potassium in Sustainable Agriculture. Adaptive Soil Management : From Theory to Practices. editor / Amitava Rakshit ; Purushothaman Chirakuzhyil Abhilash. Singapore : Springer Singapore, 2017. pp. 247-259

Bibtex

@inbook{c9c120e3d6b54249b81a1e6402d5d308,
title = "Scope of Natural Sources of Potassium in Sustainable Agriculture",
abstract = "Modern intensive agriculture leads to significant decline in soil K status due to crop removal without compensating through K fertilizer. Most of the K ores suitable for commercial K fertilizer production are distributed in few countries in the northern hemisphere (Canada, Russia, Belarus and Germany). India is completely dependent on foreign countries since its whole consumption of K fertilizer is imported. So, self-sufficiency in commercial K fertilizer is a major issue in developing countries like India. In this context, alternative sources of K have a promising future in the developing countries where commercial K fertilizers are imported for crop production. There are some low-grade but indigenous resources of K-bearing minerals which can be exploited as an alternative of the expensive imported K fertilizers. Direct application of these indigenous K minerals as well as bio-activation through potassium solubilizing microorganisms could be a quite promising K source. In this chapter, we have discussed the scope of naturally occurring K minerals (low-grade K minerals, silicate minerals and greensand) and indigenous sources of K (crop residue, manures, wood ash and seaweed) as well as K biofertilizer as a potential substitute of commercial K fertilizer for sustainable agriculture in the developing countries.",
keywords = "Potassium fertilizer, Natural deposits, Silicate minerals, Crop residues, Composts, Seaweeds, Microorganisms, Sustainable farming",
author = "Basak, {B. B.} and Binoy Sarkar",
year = "2017",
doi = "10.1007/978-981-10-3638-5_12",
language = "English",
isbn = "9789811036378",
pages = "247--259",
editor = "Amitava Rakshit and Abhilash, {Purushothaman Chirakuzhyil}",
booktitle = "Adaptive Soil Management",
publisher = "Springer Singapore",

}

RIS

TY - CHAP

T1 - Scope of Natural Sources of Potassium in Sustainable Agriculture

AU - Basak, B. B.

AU - Sarkar, Binoy

PY - 2017

Y1 - 2017

N2 - Modern intensive agriculture leads to significant decline in soil K status due to crop removal without compensating through K fertilizer. Most of the K ores suitable for commercial K fertilizer production are distributed in few countries in the northern hemisphere (Canada, Russia, Belarus and Germany). India is completely dependent on foreign countries since its whole consumption of K fertilizer is imported. So, self-sufficiency in commercial K fertilizer is a major issue in developing countries like India. In this context, alternative sources of K have a promising future in the developing countries where commercial K fertilizers are imported for crop production. There are some low-grade but indigenous resources of K-bearing minerals which can be exploited as an alternative of the expensive imported K fertilizers. Direct application of these indigenous K minerals as well as bio-activation through potassium solubilizing microorganisms could be a quite promising K source. In this chapter, we have discussed the scope of naturally occurring K minerals (low-grade K minerals, silicate minerals and greensand) and indigenous sources of K (crop residue, manures, wood ash and seaweed) as well as K biofertilizer as a potential substitute of commercial K fertilizer for sustainable agriculture in the developing countries.

AB - Modern intensive agriculture leads to significant decline in soil K status due to crop removal without compensating through K fertilizer. Most of the K ores suitable for commercial K fertilizer production are distributed in few countries in the northern hemisphere (Canada, Russia, Belarus and Germany). India is completely dependent on foreign countries since its whole consumption of K fertilizer is imported. So, self-sufficiency in commercial K fertilizer is a major issue in developing countries like India. In this context, alternative sources of K have a promising future in the developing countries where commercial K fertilizers are imported for crop production. There are some low-grade but indigenous resources of K-bearing minerals which can be exploited as an alternative of the expensive imported K fertilizers. Direct application of these indigenous K minerals as well as bio-activation through potassium solubilizing microorganisms could be a quite promising K source. In this chapter, we have discussed the scope of naturally occurring K minerals (low-grade K minerals, silicate minerals and greensand) and indigenous sources of K (crop residue, manures, wood ash and seaweed) as well as K biofertilizer as a potential substitute of commercial K fertilizer for sustainable agriculture in the developing countries.

KW - Potassium fertilizer

KW - Natural deposits

KW - Silicate minerals

KW - Crop residues

KW - Composts

KW - Seaweeds

KW - Microorganisms

KW - Sustainable farming

U2 - 10.1007/978-981-10-3638-5_12

DO - 10.1007/978-981-10-3638-5_12

M3 - Chapter (peer-reviewed)

SN - 9789811036378

SP - 247

EP - 259

BT - Adaptive Soil Management

A2 - Rakshit, Amitava

A2 - Abhilash, Purushothaman Chirakuzhyil

PB - Springer Singapore

CY - Singapore

ER -