Investigations on the Identification of Long Term Input of Phosphorus from Organic Sources by Standard Soil P Analysis

Investigations on the Identification of Long Term Input of Phosphorus from Organic Sources by Standard Soil P Analysis

175 soil samples from pot and field experiments with different types of organic (farmyard manure, meat and bone meal, bone meal) and mineral fertilization were used to evaluate the potential of a method to estimate relative shares of soluble organic P in water, CAL, Olsen and AR extracts/digest, ba...

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Main Authors: Raghad Shwiekh, Sylvia Kratz, Judith Schick, Ewald Schnug
Format: Article
Language:deu
Published: Eugen Ulmer KG 2015-02-01
Series:Journal für Kulturpflanzen
Subjects:
Soluble organic phosphorus
soil P extraction methods
soil test P
manure
organic fertilization
mineral fertilization
Online Access:https://ojs.openagrar.de/index.php/Kulturpflanzenjournal/article/view/12571
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spelling doaj-a820fd0f63fd4062ad610a1fba233c892020-11-25T02:19:04ZdeuEugen Ulmer KGJournal für Kulturpflanzen1867-09111867-09382015-02-01672Investigations on the Identification of Long Term Input of Phosphorus from Organic Sources by Standard Soil P AnalysisRaghad Shwiekh0Sylvia Kratz1Judith Schick2Ewald Schnug3Julius Kühn-Institut, Federal Research Centre for Cultivated Plants, Institute for Crop and Soil Science, Braunschweig, GermanyJulius Kühn-Institut, Federal Research Centre for Cultivated Plants, Institute for Crop and Soil Science, Braunschweig, GermanyJulius Kühn-Institut, Federal Research Centre for Cultivated Plants, Institute for Crop and Soil Science, Braunschweig, GermanyJulius Kühn-Institut, Federal Research Centre for Cultivated Plants, Institute for Crop and Soil Science, Braunschweig, Germany 175 soil samples from pot and field experiments with different types of organic (farmyard manure, meat and bone meal, bone meal) and mineral fertilization were used to evaluate the potential of a method to estimate relative shares of soluble organic P in water, CAL, Olsen and AR extracts/digest, based on the combination of two analytical methods (colorimetry and ICP-OES). The main aim of the study was to investigate if long-term fertilization with organic P sources is reflected by an increased share of extractable (or dissolved) organic P in the soil. The applied method worked well to estimate the relative share of organic P dissolved in water, CAL, Olsen and AR extracts. The estimated share of dissolved organic P decreased in the order P-CAL ≥ P-Olsen > P-water ≥ P-AR. However, long-term organic fertilization was not reflected in a higher share of soluble organic P than mineral fer­tilization. On the contrary, in some cases, organically fertilized plots displayed even higher shares of inorganic P (soluble in CAL) than minerally fertilized plots. Obviously, the received organic P was not enriched in the soluble organic substance of the soil, but was either transferred quickly into inorganic P forms by microbial soil processes stimulated by the large addition of organic matter from MBM/manure, or it was turned into stable organic P compounds which were not solubilized by the tested extractants. Neither the role of soil pH, nor that of organic carbon with regard to influencing relatives shares or organic P or, rather, the turnover of soluble organic into insoluble organic or into inorganic P in agricultural soils, could be clarified within this study and thus warrants further research. DOI: 10.5073/JfK.2015.02.01, https://doi.org/10.5073/JfK.2015.02.01 https://ojs.openagrar.de/index.php/Kulturpflanzenjournal/article/view/12571Soluble organic phosphorussoil P extraction methodssoil test Pmanureorganic fertilizationmineral fertilization
collection DOAJ
language deu
format Article
sources DOAJ
author Raghad Shwiekh
Sylvia Kratz
Judith Schick
Ewald Schnug
spellingShingle Raghad Shwiekh
Sylvia Kratz
Judith Schick
Ewald Schnug
Investigations on the Identification of Long Term Input of Phosphorus from Organic Sources by Standard Soil P Analysis
Journal für Kulturpflanzen
Soluble organic phosphorus
soil P extraction methods
soil test P
manure
organic fertilization
mineral fertilization
author_facet Raghad Shwiekh
Sylvia Kratz
Judith Schick
Ewald Schnug
author_sort Raghad Shwiekh
title Investigations on the Identification of Long Term Input of Phosphorus from Organic Sources by Standard Soil P Analysis
title_short Investigations on the Identification of Long Term Input of Phosphorus from Organic Sources by Standard Soil P Analysis
title_full Investigations on the Identification of Long Term Input of Phosphorus from Organic Sources by Standard Soil P Analysis
title_fullStr Investigations on the Identification of Long Term Input of Phosphorus from Organic Sources by Standard Soil P Analysis
title_full_unstemmed Investigations on the Identification of Long Term Input of Phosphorus from Organic Sources by Standard Soil P Analysis
title_sort investigations on the identification of long term input of phosphorus from organic sources by standard soil p analysis
publisher Eugen Ulmer KG
series Journal für Kulturpflanzen
issn 1867-0911
1867-0938
publishDate 2015-02-01
description 175 soil samples from pot and field experiments with different types of organic (farmyard manure, meat and bone meal, bone meal) and mineral fertilization were used to evaluate the potential of a method to estimate relative shares of soluble organic P in water, CAL, Olsen and AR extracts/digest, based on the combination of two analytical methods (colorimetry and ICP-OES). The main aim of the study was to investigate if long-term fertilization with organic P sources is reflected by an increased share of extractable (or dissolved) organic P in the soil. The applied method worked well to estimate the relative share of organic P dissolved in water, CAL, Olsen and AR extracts. The estimated share of dissolved organic P decreased in the order P-CAL ≥ P-Olsen > P-water ≥ P-AR. However, long-term organic fertilization was not reflected in a higher share of soluble organic P than mineral fer­tilization. On the contrary, in some cases, organically fertilized plots displayed even higher shares of inorganic P (soluble in CAL) than minerally fertilized plots. Obviously, the received organic P was not enriched in the soluble organic substance of the soil, but was either transferred quickly into inorganic P forms by microbial soil processes stimulated by the large addition of organic matter from MBM/manure, or it was turned into stable organic P compounds which were not solubilized by the tested extractants. Neither the role of soil pH, nor that of organic carbon with regard to influencing relatives shares or organic P or, rather, the turnover of soluble organic into insoluble organic or into inorganic P in agricultural soils, could be clarified within this study and thus warrants further research. DOI: 10.5073/JfK.2015.02.01, https://doi.org/10.5073/JfK.2015.02.01
topic Soluble organic phosphorus
soil P extraction methods
soil test P
manure
organic fertilization
mineral fertilization
url https://ojs.openagrar.de/index.php/Kulturpflanzenjournal/article/view/12571
work_keys_str_mv AT raghadshwiekh investigationsontheidentificationoflongterminputofphosphorusfromorganicsourcesbystandardsoilpanalysis
AT sylviakratz investigationsontheidentificationoflongterminputofphosphorusfromorganicsourcesbystandardsoilpanalysis
AT judithschick investigationsontheidentificationoflongterminputofphosphorusfromorganicsourcesbystandardsoilpanalysis
AT ewaldschnug investigationsontheidentificationoflongterminputofphosphorusfromorganicsourcesbystandardsoilpanalysis
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