Isotopic assessment of soil phosphorus fertility and evaluation of rock phosphates as phosphorus sources for plants in subtropical China

L. M. Xiong*, Z. G. Zhou, J. C. Fardeau, G. L. Feng, R. K. Lu

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

5 Scopus citations

Abstract

Soil phosphorus (P) deficiency is a major factor limiting crop productivity in many tropical and subtropical soils. Due to the acidic nature of these soils, rock phosphate (RP)-based P fertilizers that are cheaper than manufactured water-soluble P fertilizers can be an attractive alternative under certain conditions. Assessment of the efficacy of these alternative P fertilizers and a rational management of local P resources for sustainable agricultural production require an understanding of the dynamics of P in the soil-plant system and the interactions of various P sources in soils and monitoring of soil available P levels. The present work was conducted to test the applicability of the 32P isotopic kinetic method to assess the soil P fertility status and evaluate the agronomic effectiveness of local rock phosphates in subtropical China. A series of experiments was carried out in the laboratory, greenhouse and field conditions with the following specific objectives: (a) to evaluate the suitability of this isotopic kinetic method in evaluating soil P fertility in 32 soil samples collected across southern China, (b) to test and further develop chemical extraction methods for routine soil P testing, (c) to monitor the dissolution kinetics of local low to medium grade rock phosphate sources and their effect on soil properties and (d) to evaluate their agronomic effectiveness in greenhouse and field experiments. Since most of the studied soils had very low concentrations of soluble P and high P-fixing capacities, the isotopic kinetic method was found unsuitable for evaluating soil P fertility and to predict plant P uptake. In contrast, the proposed chemical extraction method (NaHCO3-NH4F) predicted very well plant P uptake, suggesting that this extraction method can be routinely used to evaluate soil bioavailable P in similar soils in subtropical China. From the incubation study, it was found that although the local low to medium grade RPs were inferior to the reactive NCPR in increasing soil available P levels, they have the potential to improve soil chemical properties. Field experiments indeed demonstrated that the medium grade Jinxiang RP significantly increased crop yield, suggesting that local low to medium grade RPs could be used as P sources to provide P to plants and also to improve soil chemical properties. Overall, these results provide important information for a rational management of P resources for sustainable agriculture in subtropical China.

Original languageEnglish (US)
Pages (from-to)91-98
Number of pages8
JournalNutrient Cycling in Agroecosystems
Volume63
Issue number1
DOIs
StatePublished - 2002
Externally publishedYes

Bibliographical note

Funding Information:
This work was conducted under IAEA Contract No. 7498 as a part of an FAO/IAEA Co-ordinated Research Project. The authors are grateful to Dr. F. Zapata, Project Officer of the International Atomic Energy Agency for his assistance. Thanks are also extended to Drs. B. Truong for his constructive suggestions and F.J. Sikora for providing the NCPR sample. The Red Soil Ecological Experiment Station of the Chinese Academy of Sciences provided assistance in field experiments.

Keywords

  • Available P
  • Isotope techniques
  • Phosphate fertilizers
  • Rock phosphate
  • Soil P testing

ASJC Scopus subject areas

  • Agronomy and Crop Science
  • Soil Science

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