Effect of phosphate status on the sorption and desorption properties of some soils of northern India
AIMS: Enormous quantities of phosphate have been applied to world soils, yet we know little about effects of phosphate status on sorption properties. METHODS: We measured sorption and desorption of phosphate on soils from fertilized tea plantations from northern India and compared them with unfertil...
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| Published in | Plant and soil Vol. 378; no. 1-2; pp. 383 - 395 |
|---|---|
| Main Authors | , |
| Format | Journal Article |
| Language | English |
| Published |
Cham
Springer-Verlag
01.05.2014
Springer Springer International Publishing Springer Nature B.V |
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| Abstract | AIMS: Enormous quantities of phosphate have been applied to world soils, yet we know little about effects of phosphate status on sorption properties. METHODS: We measured sorption and desorption of phosphate on soils from fertilized tea plantations from northern India and compared them with unfertilized soils. We also incubated phosphate at high temperature with a previously unfertilized soil and measured the effects. RESULTS: Sorption of phosphate was less marked on soils of high phosphate status whether derived from inherent fertility or fertilizer application. This occurred because high phosphate status made the surface charge on the reacting surfaces more negative. Phosphate status also affected desorption. The higher the phosphate status, the smaller the difference between sorption and desorption curves. This occurred because on soils of high phosphate status the pathways by which adsorbed anions diffuse were saturated and the slow reaction that follows adsorption was stopped. CONCLUSIONS: When low-phosphate soils are first fertilized, it is necessary to supply more phosphate than is removed in produce. However, after long-term phosphate fertilization, it is sufficient to only replace phosphate lost in produce. We need to find how much phosphorus it takes to reach this state and how many of the world’s soils have already reached it. |
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| AbstractList | Aims Enormous quantities of phosphate have been applied to world soils, yet we know little about effects of phosphate status on sorption properties. Methods We measured sorption and desorption of phosphate on soils from fertilized tea plantations from northern India and compared them with unfertilized soils. We also incubated phosphate at high temperature with a previously unfertilized soil and measured the effects. Results Sorption of phosphate was less marked on soils of high phosphate status whether derived from inherent fertility or fertilizer application. This occurred because high phosphate status made the surface charge on the reacting surfaces more negative. Phosphate status also affected desorption. The higher the phosphate status, the smaller the difference between sorption and desorption curves. This occurred because on soils of high phosphate status the pathways by which adsorbed anions diffuse were saturated and the slow reaction that follows adsorption was stopped. Conclusions When low-phosphate soils are first fertilized, it is necessary to supply more phosphate than is removed in produce. However, after long-term phosphate fertilization, it is sufficient to only replace phosphate lost in produce. We need to find how much phosphorus it takes to reach this state and how many of the world's soils have already reached it. Aims Enormous quantities of phosphate have been applied to world soils, yet we know little about effects of phosphate status on sorption properties. Methods We measured sorption and desorption of phosphate on soils from fertilized tea plantations from northern India and compared them with unfertilized soils. We also incubated phosphate at high temperature with a previously unfertilized soil and measured the effects. Results Sorption of phosphate was less marked on soils of high phosphate status whether derived from inherent fertility or fertilizer application. This occurred because high phosphate status made the surface charge on the reacting surfaces more negative. Phosphate status also affected desorption. The higher the phosphate status, the smaller the difference between sorption and desorption curves. This occurred because on soils of high phosphate status the pathways by which adsorbed anions diffuse were saturated and the slow reaction that follows adsorption was stopped. Conclusions When low-phosphate soils are first fertilized, it is necessary to supply more phosphate than is removed in produce. However, after long-term phosphate fertilization, it is sufficient to only replace phosphate lost in produce. We need to find how much phosphorus it takes to reach this state and how many of the world's soils have already reached it. Keywords Phosphate * Adsorption. Sorption * Desorption * Desorption hysteresis * Fertilized soils * Fertilizer strategy * Indian soils * Tea cultivation Enormous quantities of phosphate have been applied to world soils, yet we know little about effects of phosphate status on sorption properties. We measured sorption and desorption of phosphate on soils from fertilized tea plantations from northern India and compared them with unfertilized soils. We also incubated phosphate at high temperature with a previously unfertilized soil and measured the effects. Sorption of phosphate was less marked on soils of high phosphate status whether derived from inherent fertility or fertilizer application. This occurred because high phosphate status made the surface charge on the reacting surfaces more negative. Phosphate status also affected desorption. The higher the phosphate status, the smaller the difference between sorption and desorption curves. This occurred because on soils of high phosphate status the pathways by which adsorbed anions diffuse were saturated and the slow reaction that follows adsorption was stopped. When low-phosphate soils are first fertilized, it is necessary to supply more phosphate than is removed in produce. However, after long-term phosphate fertilization, it is sufficient to only replace phosphate lost in produce. We need to find how much phosphorus it takes to reach this state and how many of the world's soils have already reached it.[PUBLICATION ABSTRACT] Aims Enormous quantities of phosphate have been applied to world soils, yet we know little about effects of phosphate status on sorption properties. Methods We measured sorption and desorption of phosphate on soils from fertilized tea plantations from northern India and compared them with unfertilized soils. We also incubated phosphate at high temperature with a previously unfertilized soil and measured the effects. Results Sorption of phosphate was less marked on soils of high phosphate status whether derived from inherent fertility or fertilizer application. This occurred because high phosphate status made the surface charge on the reacting surfaces more negative. Phosphate status also affected desorption. The higher the phosphate status, the smaller the difference between sorption and desorption curves. This occurred because on soils of high phosphate status the pathways by which adsorbed anions diffuse were saturated and the slow reaction that follows adsorption was stopped. Conclusions When low-phosphate soils are first fertilized, it is necessary to supply more phosphate than is removed in produce. However, after long-term phosphate fertilization, it is sufficient to only replace phosphate lost in produce. We need to find how much phosphorus it takes to reach this state and how many of the world’s soils have already reached it. |
| Audience | Academic |
| Author | Barrow, N. J. Debnath, Abhijit |
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| Keywords | Sorption Adsorption Fertilizer strategy Phosphate Tea cultivation Desorption Desorption hysteresis Indian soils Fertilized soils Phosphates Perennial plant Stimulant plant Properties Dicotyledones Angiospermae North Hysteresis Status Fertilization Soil management Fertilizers Soils Camellia sinensis Geographical division Indian Strategy Phosphorus compound Spermatophyta Soil plant relation Theaceae |
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| Snippet | AIMS: Enormous quantities of phosphate have been applied to world soils, yet we know little about effects of phosphate status on sorption properties. METHODS:... Aims Enormous quantities of phosphate have been applied to world soils, yet we know little about effects of phosphate status on sorption properties. Methods We... Aims Enormous quantities of phosphate have been applied to world soils, yet we know little about effects of phosphate status on sorption properties. Methods We... Enormous quantities of phosphate have been applied to world soils, yet we know little about effects of phosphate status on sorption properties. We measured... Aims: Enormous quantities of phosphate have been applied to world soils, yet we know little about effects of phosphate status on sorption properties. Methods:... |
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| SubjectTerms | Acid soils adsorption Agricultural site preparation Agricultural soils Agronomy. Soil science and plant productions Animal, plant and microbial ecology Anions Biogeochemistry Biological and medical sciences Biomedical and Life Sciences Desorption Ecology Environmental aspects Fertility Fertilizer application Forest soils Fundamental and applied biological sciences. Psychology General agronomy. Plant production High temperature India Life Sciences Phosphates Phosphatic fertilizers phosphorus Plant Physiology Plant Sciences plantations Regular Article Roadside soils Sand soils soil Soil chemistry Soil fertility Soil research Soil salts Soil science Soil Science & Conservation Soil-plant relationships. Soil fertility Soil-plant relationships. Soil fertility. Fertilization. Amendments Soils Sorption Tea temperature |
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| Title | Effect of phosphate status on the sorption and desorption properties of some soils of northern India |
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