Evaluating the benefits of legacy phosphate

Aims Many soils in the developed world have been fertilized with phosphate for several decades. Appreciable phosphate has accumulated in such soils. This is referred to as “legacy P”. The benefits of legacy P are not widely appreciated. Here, we report the effects of legacy P on buffering capacity a...

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Published in	Plant and soil Vol. 480; no. 1-2; pp. 561 - 570
Main Authors	Barrow, N. J., Roy, Dibakar, Debnath, Abhijit
Format	Journal Article
Language	English
Published	Cham Springer International Publishing 01.11.2022 Springer Springer Nature B.V
Subjects	Accessibility Agriculture Analysis Biomedical and Life Sciences Buffers Desorption Ecology Effectiveness Estimates Evaluation Fertilizers Growth (Plants) High temperature hysteresis Life Sciences Phosphate Phosphates phosphorus fertilizers Plant growth Plant Physiology Plant Sciences Research Article soil Soil Science & Conservation Soil testing Soils Sorption United Kingdom India P desorption Buffering capacity Soil tests Phosphate P sorption Residual value Hysteresis
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Abstract	Aims Many soils in the developed world have been fertilized with phosphate for several decades. Appreciable phosphate has accumulated in such soils. This is referred to as “legacy P”. The benefits of legacy P are not widely appreciated. Here, we report the effects of legacy P on buffering capacity and the consequent effects on the effectiveness of plant growth, and its effects on the continuing reaction between soil and P and the consequent effects in decreasing the decline of P effectiveness with time. Methods We produced five levels of legacy P by incubating the soil with added phosphate at high temperatures for 30 days. We then measured the effect on sorption/desorption and on plant growth in response to further additions of phosphate. Results Legacy P decreased soil buffering capacity, decreased hysteresis of desorption, and increased the amount of P in a similar state to that of the recently sorbed P. There were analogous effects of plant growth; effectiveness of P fertiliser increased; the decline in effectiveness with time decreased; and the amount of soil P accessible to plants increased. We think that soil tests reflect only the amount of soil P accessible to plants. Soil testing services which include estimates of phosphate buffering reflect its decrease and the consequent increase in fertilizer effectiveness. We propose a simple test to reflect the rate of decline in effectiveness with time. Conclusions Managing phosphate applications using soil tests alone underestimates phosphate status and leads to over application of phosphate. It is necessary to also include estimates of the change in phosphate buffering and the change in the rate of decline in effectiveness with time. A simple way to estimate the rate of decline is suggested.
AbstractList	Aims Many soils in the developed world have been fertilized with phosphate for several decades. Appreciable phosphate has accumulated in such soils. This is referred to as “legacy P”. The benefits of legacy P are not widely appreciated. Here, we report the effects of legacy P on buffering capacity and the consequent effects on the effectiveness of plant growth, and its effects on the continuing reaction between soil and P and the consequent effects in decreasing the decline of P effectiveness with time. Methods We produced five levels of legacy P by incubating the soil with added phosphate at high temperatures for 30 days. We then measured the effect on sorption/desorption and on plant growth in response to further additions of phosphate. Results Legacy P decreased soil buffering capacity, decreased hysteresis of desorption, and increased the amount of P in a similar state to that of the recently sorbed P. There were analogous effects of plant growth; effectiveness of P fertiliser increased; the decline in effectiveness with time decreased; and the amount of soil P accessible to plants increased. We think that soil tests reflect only the amount of soil P accessible to plants. Soil testing services which include estimates of phosphate buffering reflect its decrease and the consequent increase in fertilizer effectiveness. We propose a simple test to reflect the rate of decline in effectiveness with time. Conclusions Managing phosphate applications using soil tests alone underestimates phosphate status and leads to over application of phosphate. It is necessary to also include estimates of the change in phosphate buffering and the change in the rate of decline in effectiveness with time. A simple way to estimate the rate of decline is suggested. AIMS: Many soils in the developed world have been fertilized with phosphate for several decades. Appreciable phosphate has accumulated in such soils. This is referred to as “legacy P”. The benefits of legacy P are not widely appreciated. Here, we report the effects of legacy P on buffering capacity and the consequent effects on the effectiveness of plant growth, and its effects on the continuing reaction between soil and P and the consequent effects in decreasing the decline of P effectiveness with time. METHODS: We produced five levels of legacy P by incubating the soil with added phosphate at high temperatures for 30 days. We then measured the effect on sorption/desorption and on plant growth in response to further additions of phosphate. RESULTS: Legacy P decreased soil buffering capacity, decreased hysteresis of desorption, and increased the amount of P in a similar state to that of the recently sorbed P. There were analogous effects of plant growth; effectiveness of P fertiliser increased; the decline in effectiveness with time decreased; and the amount of soil P accessible to plants increased. We think that soil tests reflect only the amount of soil P accessible to plants. Soil testing services which include estimates of phosphate buffering reflect its decrease and the consequent increase in fertilizer effectiveness. We propose a simple test to reflect the rate of decline in effectiveness with time. CONCLUSIONS: Managing phosphate applications using soil tests alone underestimates phosphate status and leads to over application of phosphate. It is necessary to also include estimates of the change in phosphate buffering and the change in the rate of decline in effectiveness with time. A simple way to estimate the rate of decline is suggested. AimsMany soils in the developed world have been fertilized with phosphate for several decades. Appreciable phosphate has accumulated in such soils. This is referred to as “legacy P”. The benefits of legacy P are not widely appreciated. Here, we report the effects of legacy P on buffering capacity and the consequent effects on the effectiveness of plant growth, and its effects on the continuing reaction between soil and P and the consequent effects in decreasing the decline of P effectiveness with time.MethodsWe produced five levels of legacy P by incubating the soil with added phosphate at high temperatures for 30 days. We then measured the effect on sorption/desorption and on plant growth in response to further additions of phosphate.ResultsLegacy P decreased soil buffering capacity, decreased hysteresis of desorption, and increased the amount of P in a similar state to that of the recently sorbed P. There were analogous effects of plant growth; effectiveness of P fertiliser increased; the decline in effectiveness with time decreased; and the amount of soil P accessible to plants increased. We think that soil tests reflect only the amount of soil P accessible to plants. Soil testing services which include estimates of phosphate buffering reflect its decrease and the consequent increase in fertilizer effectiveness. We propose a simple test to reflect the rate of decline in effectiveness with time.ConclusionsManaging phosphate applications using soil tests alone underestimates phosphate status and leads to over application of phosphate. It is necessary to also include estimates of the change in phosphate buffering and the change in the rate of decline in effectiveness with time. A simple way to estimate the rate of decline is suggested.
Audience	Academic
Author	Barrow, N. J. Debnath, Abhijit Roy, Dibakar
Author_xml	– sequence: 1 givenname: N. J. orcidid: 0000-0002-7695-5351 surname: Barrow fullname: Barrow, N. J. email: jim.barrow@uwa.edu.au organization: Faculty of Science, School of Biological Sciences, University of Western Australia – sequence: 2 givenname: Dibakar surname: Roy fullname: Roy, Dibakar organization: Department of Agricultural Chemistry and Soil Science, Bidhan Chandra Krishi Viswavidyalaya – sequence: 3 givenname: Abhijit surname: Debnath fullname: Debnath, Abhijit organization: Department of Agricultural Chemistry and Soil Science, Bidhan Chandra Krishi Viswavidyalaya
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Cites_doi	10.1071/SR98115 10.1111/ejss.12968 10.1111/ejss.13172 10.3390/soilsystems4040074 10.1016/S0003-2670(00)88444-5 10.1071/SR01050 10.1007/s11104-014-2042-8 10.1007/BF01120393 10.1007/s11104-020-046475 10.2136/sssaj2018.03.0115 10.1007/s11104-015-2514-5 10.1111/j.1365-2389.2008.01041.x 10.1016/j.envdev.2013.09.003 10.1038/s41598-020-72302-1 10.1097/00010694-193401000-00003 10.1007/s11104-017-3362-2 10.1071/AR9670601 10.1071/SR06126 10.1007/s11104-020-04476-6 10.1097/00010694-194501000-00006 10.1016/0016-7061(76)90013-6 10.1071/EA9630190
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Snippet	Aims Many soils in the developed world have been fertilized with phosphate for several decades. Appreciable phosphate has accumulated in such soils. This is... Aims Many soils in the developed world have been fertilized with phosphate for several decades. Appreciable phosphate has accumulated in such soils. This is... AimsMany soils in the developed world have been fertilized with phosphate for several decades. Appreciable phosphate has accumulated in such soils. This is... AIMS: Many soils in the developed world have been fertilized with phosphate for several decades. Appreciable phosphate has accumulated in such soils. This is...
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SubjectTerms	Accessibility Agriculture Analysis Biomedical and Life Sciences Buffers Desorption Ecology Effectiveness Estimates Evaluation Fertilizers Growth (Plants) High temperature hysteresis Life Sciences Phosphate Phosphates phosphorus fertilizers Plant growth Plant Physiology Plant Sciences Research Article soil Soil Science & Conservation Soil testing Soils Sorption
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Title	Evaluating the benefits of legacy phosphate
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