Improving phosphorus availability to rice through silicon management in paddy soils: A review of the role of silicate-solubilizing bacteria

Rice needs a lot of phosphorus (P) to grow, but much of the P fertilizers applied to paddy soils becomes unavailable to the plants. Silicon (Si) amendments can increase P availability to rice. Si is widely available in soils as insoluble silicates, but only the soluble form, monosilicic acid, can be...

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Published in	Rhizosphere Vol. 27; p. 100749
Main Authors	Etesami, Hassan, Schaller, Jörg
Format	Journal Article
Language	English
Published	Elsevier B.V 01.09.2023
Subjects	Biofertilizer fertilizer application Microbial weathering nonpoint source pollution paddies Paddy soils Phosphorus phosphorus fertilizers rhizosphere rice Silicate-solubilizing bacteria silicon water solubility Biofertilizer Silicate-solubilizing bacteria Phosphorus Microbial weathering Paddy soils
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Abstract	Rice needs a lot of phosphorus (P) to grow, but much of the P fertilizers applied to paddy soils becomes unavailable to the plants. Silicon (Si) amendments can increase P availability to rice. Si is widely available in soils as insoluble silicates, but only the soluble form, monosilicic acid, can be absorbed by plants. Water-soluble Si fertilizers are effective but expensive. Using silicate-solubilizing bacteria (SSB) can help solubilize Si and improve P availability by a cheaper way. This paper reviews Si's role in improving P availability to rice, focusing on SSB's capacity to increase Si availability in soils. This knowledge can help reduce chemical P fertilizer use, P accumulation in paddy soils, and environmental risks from non-point source pollution.
AbstractList	Rice needs a lot of phosphorus (P) to grow, but much of the P fertilizers applied to paddy soils becomes unavailable to the plants. Silicon (Si) amendments can increase P availability to rice. Si is widely available in soils as insoluble silicates, but only the soluble form, monosilicic acid, can be absorbed by plants. Water-soluble Si fertilizers are effective but expensive. Using silicate-solubilizing bacteria (SSB) can help solubilize Si and improve P availability by a cheaper way. This paper reviews Si's role in improving P availability to rice, focusing on SSB's capacity to increase Si availability in soils. This knowledge can help reduce chemical P fertilizer use, P accumulation in paddy soils, and environmental risks from non-point source pollution.
ArticleNumber	100749
Author	Schaller, Jörg Etesami, Hassan
Author_xml	– sequence: 1 givenname: Hassan surname: Etesami fullname: Etesami, Hassan email: hassanetesami@ut.ac.ir organization: Department of Soil Science, University of Tehran, Tehran, Iran – sequence: 2 givenname: Jörg surname: Schaller fullname: Schaller, Jörg organization: Silicon Biogeochemistry” Working Group, Leibniz Centre for Agricultural Landscape Research (ZALF), 15374, Müncheberg, Germany
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Snippet	Rice needs a lot of phosphorus (P) to grow, but much of the P fertilizers applied to paddy soils becomes unavailable to the plants. Silicon (Si) amendments can...
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SubjectTerms	Biofertilizer fertilizer application Microbial weathering nonpoint source pollution paddies Paddy soils Phosphorus phosphorus fertilizers rhizosphere rice Silicate-solubilizing bacteria silicon water solubility
Title	Improving phosphorus availability to rice through silicon management in paddy soils: A review of the role of silicate-solubilizing bacteria
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