Phosphorus Desorption from Fe and Al Oxides Mediated by Soil Microorganisms
The capacity of soil microorganisms to desorb phosphorus (P) adsorbed to iron (Fe) and aluminum (Al) oxides was determined by impregnating paper strips with these oxides, adding P in quantities equivalent to the null points, and incubating the strips in Argisol and Latosol samples receiving increasi...
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| Published in: | Communications in Soil Science and Plant Analysis Vol. 46; no. 5; pp. 633 - 640 |
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| Main Authors: | , , |
| Format: | Journal Article |
| Language: | English |
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Taylor & Francis
09-03-2015
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| Abstract | The capacity of soil microorganisms to desorb phosphorus (P) adsorbed to iron (Fe) and aluminum (Al) oxides was determined by impregnating paper strips with these oxides, adding P in quantities equivalent to the null points, and incubating the strips in Argisol and Latosol samples receiving increasing doses of glucose (0 to 10 mg g soil ⁻¹). Glucose stimulated microbial activity and at the end of the incubation period 69 and 41 percent of the added carbon (C) had been released as carbon dioxide (CO ₂) in the Argisol and Latosol. This stimulated activity resulted in increasing P desorption, reaching 66 and 67 percent of the adsorbed P in the Fe strips and 49 and 80 percent in the Al strips for the Argisol and Latosol, respectively. Therefore, microorganisms can desorb P adsorbed to Fe and Al oxides when stimulated by an easily assimilated C source. Fe- and Al-oxide-impregnated paper strips technique provided an adequate method to measure soil P desorption, as mediated by microorganisms. |
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| AbstractList | The capacity of soil microorganisms to desorb phosphorus (P) adsorbed to iron (Fe) and aluminum (Al) oxides was determined by impregnating paper strips with these oxides, adding P in quantities equivalent to the null points, and incubating the strips in Argisol and Latosol samples receiving increasing doses of glucose (0 to 10 mg g soil
−1
). Glucose stimulated microbial activity and at the end of the incubation period 69 and 41 percent of the added carbon (C) had been released as carbon dioxide (CO
2
) in the Argisol and Latosol. This stimulated activity resulted in increasing P desorption, reaching 66 and 67 percent of the adsorbed P in the Fe strips and 49 and 80 percent in the Al strips for the Argisol and Latosol, respectively. Therefore, microorganisms can desorb P adsorbed to Fe and Al oxides when stimulated by an easily assimilated C source. Fe- and Al-oxide-impregnated paper strips technique provided an adequate method to measure soil P desorption, as mediated by microorganisms. The capacity of soil microorganisms to desorb phosphorus (P) adsorbed to iron (Fe) and aluminum (Al) oxides was determined by impregnating paper strips with these oxides, adding P in quantities equivalent to the null points, and incubating the strips in Argisol and Latosol samples receiving increasing doses of glucose (0 to 10 mg g soil super(-1)). Glucose stimulated microbial activity and at the end of the incubation period 69 and 41 percent of the added carbon (C) had been released as carbon dioxide (CO sub(2)) in the Argisol and Latosol. This stimulated activity resulted in increasing P desorption, reaching 66 and 67 percent of the adsorbed P in the Fe strips and 49 and 80 percent in the Al strips for the Argisol and Latosol, respectively. Therefore, microorganisms can desorb P adsorbed to Fe and Al oxides when stimulated by an easily assimilated C source. Fe- and Al-oxide-impregnated paper strips technique provided an adequate method to measure soil P desorption, as mediated by microorganisms. The capacity of soil microorganisms to desorb phosphorus (P) adsorbed to iron (Fe) and aluminum (Al) oxides was determined by impregnating paper strips with these oxides, adding P in quantities equivalent to the null points, and incubating the strips in Argisol and Latosol samples receiving increasing doses of glucose (0 to 10 mg g soil ⁻¹). Glucose stimulated microbial activity and at the end of the incubation period 69 and 41 percent of the added carbon (C) had been released as carbon dioxide (CO ₂) in the Argisol and Latosol. This stimulated activity resulted in increasing P desorption, reaching 66 and 67 percent of the adsorbed P in the Fe strips and 49 and 80 percent in the Al strips for the Argisol and Latosol, respectively. Therefore, microorganisms can desorb P adsorbed to Fe and Al oxides when stimulated by an easily assimilated C source. Fe- and Al-oxide-impregnated paper strips technique provided an adequate method to measure soil P desorption, as mediated by microorganisms. The capacity of soil microorganisms to desorb phosphorus (P) adsorbed to iron (Fe) and aluminum (Al) oxides was determined by impregnating paper strips with these oxides, adding P in quantities equivalent to the null points, and incubating the strips in Argisol and Latosol samples receiving increasing doses of glucose (0 to 10 mg g soil-1). Glucose stimulated microbial activity and at the end of the incubation period 69 and 41 percent of the added carbon (C) had been released as carbon dioxide (CO2) in the Argisol and Latosol. This stimulated activity resulted in increasing P desorption, reaching 66 and 67 percent of the adsorbed P in the Fe strips and 49 and 80 percent in the Al strips for the Argisol and Latosol, respectively. Therefore, microorganisms can desorb P adsorbed to Fe and Al oxides when stimulated by an easily assimilated C source. Fe- and Al-oxide-impregnated paper strips technique provided an adequate method to measure soil P desorption, as mediated by microorganisms. |
| Author | De Araújo, Maria Do Socorro Bezerra De Araújo, Lílian Maria César Sampaio, Everardo Valadares De Sá Barretto |
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| CitedBy_id | crossref_primary_10_1016_j_watres_2016_10_033 crossref_primary_10_1002_ecm_1279 crossref_primary_10_3390_agronomy12051181 |
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| SubjectTerms | aluminum aluminum oxide Brazilian tropical soils carbon carbon dioxide desorption Fe and Al oxide paper strips glucose iron microbial activity phosphorus soil soil microorganisms |
| Title | Phosphorus Desorption from Fe and Al Oxides Mediated by Soil Microorganisms |
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