A dual isotopic approach using radioactive phosphorus and the isotopic composition of oxygen associated to phosphorus to understand plant reaction to a change in P nutrition

A dual isotopic approach using radioactive phosphorus and the isotopic composition of oxygen associated to phosphorus to understand plant reaction to a change in P nutrition

Abstract Background Changing the phosphorus (P) nutrition leads to changes in plant metabolism. The aim of this study was to investigate how these changes are reflected in the distribution of 33P and the isotopic composition of oxygen associated to P (δ18OP) in different plant parts of soybean (Glyc...

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Main Authors: Verena Pfahler, Federica Tamburini, Stefano M. Bernasconi, Emmanuel Frossard
Format: Article
Language:English
Published: BMC 2017-09-01
Series:Plant Methods
Subjects:
δ18OP of TCA P
33P
Phosphorus
Radioisotopes
Soybeans
Stable isotopes
Online Access:http://link.springer.com/article/10.1186/s13007-017-0227-x
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spelling doaj-47c9557af5ce4d3b9f4b3859a596eb512020-11-25T00:24:59ZengBMCPlant Methods1746-48112017-09-0113111210.1186/s13007-017-0227-xA dual isotopic approach using radioactive phosphorus and the isotopic composition of oxygen associated to phosphorus to understand plant reaction to a change in P nutritionVerena Pfahler0Federica Tamburini1Stefano M. Bernasconi2Emmanuel Frossard3Department of Environmental Systems Science, ETH ZurichDepartment of Environmental Systems Science, ETH ZurichDepartment of Earth Sciences, ETH ZurichDepartment of Environmental Systems Science, ETH ZurichAbstract Background Changing the phosphorus (P) nutrition leads to changes in plant metabolism. The aim of this study was to investigate how these changes are reflected in the distribution of 33P and the isotopic composition of oxygen associated to P (δ18OP) in different plant parts of soybean (Glycine max cv. Toliman). Two P pools were extracted sequentially with 0.3 M trichloroacetic acid (TCA P) and 10 M nitric acid (HNO3; residual P). Results The δ18OP of TCA P in the old leaves of the − P plants (23.8‰) significantly decreased compared to the + P plants (27.4‰). The 33P data point to an enhanced mobilisation of P from residual P in the old leaves of the − P plants compared to the + P plants. Conclusions Omitting P for 10 days lead to a translocation of P from source to sink organs in soybeans. This was accompanied by a significant lowering of the δ18OP of TCA P in the source organs due to the enzymatic hydrolysis of organic P. Combining 33P and δ18OP can provide useful insights in plant responses to P omission at an early stage.http://link.springer.com/article/10.1186/s13007-017-0227-xδ18OP of TCA P33PPhosphorusRadioisotopesSoybeansStable isotopes
collection DOAJ
language English
format Article
sources DOAJ
author Verena Pfahler
Federica Tamburini
Stefano M. Bernasconi
Emmanuel Frossard
spellingShingle Verena Pfahler
Federica Tamburini
Stefano M. Bernasconi
Emmanuel Frossard
A dual isotopic approach using radioactive phosphorus and the isotopic composition of oxygen associated to phosphorus to understand plant reaction to a change in P nutrition
Plant Methods
δ18OP of TCA P
33P
Phosphorus
Radioisotopes
Soybeans
Stable isotopes
author_facet Verena Pfahler
Federica Tamburini
Stefano M. Bernasconi
Emmanuel Frossard
author_sort Verena Pfahler
title A dual isotopic approach using radioactive phosphorus and the isotopic composition of oxygen associated to phosphorus to understand plant reaction to a change in P nutrition
title_short A dual isotopic approach using radioactive phosphorus and the isotopic composition of oxygen associated to phosphorus to understand plant reaction to a change in P nutrition
title_full A dual isotopic approach using radioactive phosphorus and the isotopic composition of oxygen associated to phosphorus to understand plant reaction to a change in P nutrition
title_fullStr A dual isotopic approach using radioactive phosphorus and the isotopic composition of oxygen associated to phosphorus to understand plant reaction to a change in P nutrition
title_full_unstemmed A dual isotopic approach using radioactive phosphorus and the isotopic composition of oxygen associated to phosphorus to understand plant reaction to a change in P nutrition
title_sort dual isotopic approach using radioactive phosphorus and the isotopic composition of oxygen associated to phosphorus to understand plant reaction to a change in p nutrition
publisher BMC
series Plant Methods
issn 1746-4811
publishDate 2017-09-01
description Abstract Background Changing the phosphorus (P) nutrition leads to changes in plant metabolism. The aim of this study was to investigate how these changes are reflected in the distribution of 33P and the isotopic composition of oxygen associated to P (δ18OP) in different plant parts of soybean (Glycine max cv. Toliman). Two P pools were extracted sequentially with 0.3 M trichloroacetic acid (TCA P) and 10 M nitric acid (HNO3; residual P). Results The δ18OP of TCA P in the old leaves of the − P plants (23.8‰) significantly decreased compared to the + P plants (27.4‰). The 33P data point to an enhanced mobilisation of P from residual P in the old leaves of the − P plants compared to the + P plants. Conclusions Omitting P for 10 days lead to a translocation of P from source to sink organs in soybeans. This was accompanied by a significant lowering of the δ18OP of TCA P in the source organs due to the enzymatic hydrolysis of organic P. Combining 33P and δ18OP can provide useful insights in plant responses to P omission at an early stage.
topic δ18OP of TCA P
33P
Phosphorus
Radioisotopes
Soybeans
Stable isotopes
url http://link.springer.com/article/10.1186/s13007-017-0227-x
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