Evolution and controls of organic phosphorus based on 31P nuclear magnetic resonance spectroscopy along a 2-million-year tropical soil chronosequence in northern Hainan Island, China
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引用次数: 0
Abstract
Purpose
The turnover of organic phosphorus (Po) may be an important way to maintain P supply for plant growth under the phosphorus (P) deficiency in highly weathered tropical soils. However, there is limited information on Po change pattern and how abiotic and biotic factors influence Po transformation in tropical region. Thus, this study was aimed to the characteristics and controls of Po transformation towards the advanced stage of tropical soil evolution.
Methods
A well-establish tropical soil chronosequence (0.09, 0.146, 0.64, 1.12, 1.81, and 2.30 million years) derived from basalt in northern Hainan Island, China, was selected and the Po compounds in all soils determined by solution 31P nuclear magnetic resonance spectroscopy.
Results
Phosphate monoester showed a rapid increase in the earlier stage of pedogenesis (< 0.15 million year), thereafter declined to the minimum in the 1.12-million-year site and fluctuated in older soils. Meanwhile, the proportion of labile Po (including phosphate diester and its degradation products) increased continuously across the chronosequence, suggesting that long-term tropical soil evolution promoted labile Po accumulation that was vital to maintain P supply in highly weathered and P-deficient soil. Redundancy analysis revealed that Po transformation was jointly affected by soil total nitrogen, total organic carbon, phytase, and amorphous iron, accounting for 37.5% (p < 0.01), 29.5% (p < 0.01), 20.7% (p < 0.05), and 14.8% (p < 0.05) of explanation in the variations of Po compounds, respectively.
Conclusion
Our study has supplemented the blank of Po transformation during tropical soil evolution over a 2.30-million-year time scale and emphasizes the important role of soil C, N in regulating Po changes.
期刊介绍:
The Journal of Soils and Sediments (JSS) is devoted to soils and sediments; it deals with contaminated, intact and disturbed soils and sediments. JSS explores both the common aspects and the differences between these two environmental compartments. Inter-linkages at the catchment scale and with the Earth’s system (inter-compartment) are an important topic in JSS. The range of research coverage includes the effects of disturbances and contamination; research, strategies and technologies for prediction, prevention, and protection; identification and characterization; treatment, remediation and reuse; risk assessment and management; creation and implementation of quality standards; international regulation and legislation.
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