Changes of oxygen isotope values of soil P pools associated with changes in soil pH

Field data about the effect of soil pH on phosphorus (P) cycling is limited. A promising tool to study P cycling under field conditions is the 18 O: 16 O ratio of phosphate (δ 18 O P ). In this study we investigate whether the δ 18 O P can be used to elucidate the effect of soil pH on P cycling in g...

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Bibliographic Details
Published in:Scientific reports 2020-02, Vol.10 (1), p.2065-2065, Article 2065
Main Authors: Pfahler, Verena, Macdonald, Andy, Mead, Andrew, Smith, Andrew C., Tamburini, Federica, Blackwell, Martin S. A., Granger, Steven J.
Format: Article
Language:English
Subjects:
704/158/2466
704/47/4112
Archives & records
Enzymes
Equilibrium
Fertilization
Grasslands
Humanities and Social Sciences
Laboratories
Microorganisms
multidisciplinary
Oxygen isotopes
pH effects
Phosphatase
Phosphorus
Science
Science (multidisciplinary)
Soil management
Soil pH
Soils
Sustainable agriculture
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Summary:Field data about the effect of soil pH on phosphorus (P) cycling is limited. A promising tool to study P cycling under field conditions is the 18 O: 16 O ratio of phosphate (δ 18 O P ). In this study we investigate whether the δ 18 O P can be used to elucidate the effect of soil pH on P cycling in grasslands. Soils and plants were sampled from different fertilisation and lime treatments of the Park Grass long term experiment at Rothamsted Research, UK. The soils were sequentially extracted to isolate different soil P pools, including available P and corresponding δ 18 O P values were determined. We did not observe changes in plant δ 18 O P value, but soil P δ 18 O P values changed, and lower δ 18 O P values were associated with higher soil pH values. At sites where P was not limiting, available P δ 18 O P increased by up to 3‰ when lime was applied. We show that the δ 18 O P method is a useful tool to investigate the effect of pH on soil P cycling under field conditions as it highlights that different soil processes must govern P availability as pH shifts. The next challenge is now to identify these underlying processes, enabling better management of soil P at different pH.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-020-59103-2