Soil phosphorus availability and rice phosphorus uptake in paddy fields under various agronomic practices

Agronomic practices affect soil phosphorus (P) availability, P uptake by plants, and subsequently the efficiency of P use. A field experiment was carried out to investigate the effects of various agronomic practices (straw incorporation, paddy water management, nitrogen (N) fertilizer dose, manure a...

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Bibliographic Details
Published in:Pedosphere 2021-02, Vol.31 (1), p.103-115
Main Authors: JIANG, Bingshen, SHEN, Jianlin, SUN, Minghong, HU, Yajun, JIANG, Wenqian, WANG, Juan, LI, Yong, WU, Jinshui
Format: Article
Language:English
Subjects:
Agricultural practices
Agrochemicals
Agronomy
Availability
biochar
Biomass
Cereal crops
Charcoal
Cropping systems
Drainage water
Efficiency
Environmental risk
Fertilizer application
Fertilizers
Flooding
Incorporation
manure fertilizer
Manures
Microorganisms
Nitrogen
Nonpoint source pollution
nutrient management
Organic carbon
Organic soils
P use efficiency
paddy soil
Phosphorus
Pig manure
Point source pollution
Pollution sources
Rice
Rice fields
Soil pollution
Soils
Straw
straw incorporation
Water management
Water pollution
water regime
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Summary:Agronomic practices affect soil phosphorus (P) availability, P uptake by plants, and subsequently the efficiency of P use. A field experiment was carried out to investigate the effects of various agronomic practices (straw incorporation, paddy water management, nitrogen (N) fertilizer dose, manure application, and biochar addition) on soil P availability (e.g., soil total P (STP), soil available P (SAP), soil microbial biomass P (SMBP), and rice P uptake as well as P use efficiency (PUE)) over four cropping seasons in a rice-rice cropping system, in subtropical central China. Compared to the non-straw treatment (control, using full dose of chemical N fertilizer), straw incorporation increased SAP and SMBP by 9.3%–18.5% and 15.5%–35.4%, respectively; substituting half the chemical N fertilizer dose with pig manure and the biochar application increased STP, SAP, and SMBP by 10.5%–48.3%, 30.2%–236.0%, and 19.8%–72.4%, respectively, mainly owing to increased soil P and organic carbon inputs; adding a half dose of N and no N input (reduced N treatments) increased STP and SAP by 2.6%–7.5% and 19.8%–33.7%, respectively, due to decreased soil P outputs. Thus, soil P availability was greatly affected by soil P input and use. The continuous flooding water regime without straw addition significantly decreased SMBP by 11.4% compared to corresponding treatments under a mid-season drainage water regime. Total P uptake by rice grains and straws at the harvest stage increased under straw incorporation and under pig manure application, but decreased under the reduced N treatments and under biochar application at a rate of 48 t ha–1, compared to the control. Rice P uptake was significantly positively correlated with rice biomass, and both were positively correlated with N fertilizer application rates, SAP, SMBP, and STP. Phosphorus use efficiency generally increased under straw incorporation but decreased under the reduced N treatments and under the manure application (with excessive P input), compared to the control. These results showed that straw incorporation can be used to increase soil P availability and PUE while decreasing the use of chemical P fertilizers. When substituting chemical fertilizers with pig manure, excess P inputs should be avoided in order to reduce P accumulation in the soil as well as the environmental risks from non-point source pollution.
ISSN:1002-0160
2210-5107
DOI:10.1016/S1002-0160(20)60053-4