Phosphite: a novel P fertilizer for weed management and pathogen control

Summary The availability of orthophosphate (Pi) is a key determinant of crop productivity because its accessibility to plants is poor due to its conversion to unavailable forms. Weed's competition for this essential macronutrient further reduces its bio‐availability. To compensate for the low P...

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Veröffentlicht in:	Plant biotechnology journal 2017-12, Vol.15 (12), p.1493-1508
Hauptverfasser:	Achary, V. Mohan M., Ram, Babu, Manna, Mrinalini, Datta, Dipanwita, Bhatt, Arun, Reddy, Malireddy K., Agrawal, Pawan K.
Format:	Artikel
Sprache:	eng
Schlagworte:	Agricultural economics Agricultural management Agriculture Agriculture - methods Agrochemicals Bioavailability Biocides Biological Transport Crop production Eutrophication Fertilization Fertilizers Fungicides, Industrial - pharmacology Genetic Engineering Herbicides Herbicides - chemistry Herbicides - pharmacology Industrial engineering Manufacturing engineering Orthophosphate orthophosphates pathogen management Pathogens phosphate fertilizer Phosphates - metabolism phosphite dehydrogenase Phosphites - pharmacokinetics Phosphorus - metabolism phosphorus fertilizers phosphorus use efficiency Plant Cells - metabolism Plants (botany) Plants - genetics Plants - metabolism Plants - microbiology Plants, Genetically Modified Production costs Review Soil degradation stimulant Weed control Weed Control - methods weedicide Weeds
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container_issue	12
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container_title	Plant biotechnology journal
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creator	Achary, V. Mohan M. Ram, Babu Manna, Mrinalini Datta, Dipanwita Bhatt, Arun Reddy, Malireddy K. Agrawal, Pawan K.
description	Summary The availability of orthophosphate (Pi) is a key determinant of crop productivity because its accessibility to plants is poor due to its conversion to unavailable forms. Weed's competition for this essential macronutrient further reduces its bio‐availability. To compensate for the low Pi use efficiency and address the weed hazard, excess Pi fertilizers and herbicides are routinely applied, resulting in increased production costs, soil degradation and eutrophication. These outcomes necessitate the identification of a suitable alternate technology that can address the problems associated with the overuse of Pi‐based fertilizers and herbicides in agriculture. The present review focuses on phosphite (Phi) as a novel molecule for its utility as a fertilizer, herbicide, biostimulant and biocide in modern agriculture. The use of Phi‐based fertilization will help to reduce the consumption of Pi fertilizers and facilitate weed and pathogen control using the same molecule, thereby providing significant advantages over current orthophosphate‐based fertilization.
doi_str_mv	10.1111/pbi.12803
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The present review focuses on phosphite (Phi) as a novel molecule for its utility as a fertilizer, herbicide, biostimulant and biocide in modern agriculture. 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These outcomes necessitate the identification of a suitable alternate technology that can address the problems associated with the overuse of Pi‐based fertilizers and herbicides in agriculture. The present review focuses on phosphite (Phi) as a novel molecule for its utility as a fertilizer, herbicide, biostimulant and biocide in modern agriculture. 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subjects	Agricultural economics Agricultural management Agriculture Agriculture - methods Agrochemicals Bioavailability Biocides Biological Transport Crop production Eutrophication Fertilization Fertilizers Fungicides, Industrial - pharmacology Genetic Engineering Herbicides Herbicides - chemistry Herbicides - pharmacology Industrial engineering Manufacturing engineering Orthophosphate orthophosphates pathogen management Pathogens phosphate fertilizer Phosphates - metabolism phosphite dehydrogenase Phosphites - pharmacokinetics Phosphorus - metabolism phosphorus fertilizers phosphorus use efficiency Plant Cells - metabolism Plants (botany) Plants - genetics Plants - metabolism Plants - microbiology Plants, Genetically Modified Production costs Review Soil degradation stimulant Weed control Weed Control - methods weedicide Weeds
title	Phosphite: a novel P fertilizer for weed management and pathogen control
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