4.7 Article

Quantitative Evaluation of the Crop Yield, Soil-Available Phosphorus, and Total Phosphorus Leaching Caused by Phosphorus Fertilization: A Meta-Analysis

Journal

AGRONOMY-BASEL
Volume 13, Issue 9, Pages -

Publisher

MDPI
DOI: 10.3390/agronomy13092436

Keywords

P leaching; P transformation; P application; inorganic-organic combination fertilizer; cropping system types; fertilization

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By conducting a meta-analysis of relevant literature, we found that reducing phosphorus input and using inorganic-organic combination fertilizer have different effects on crop yields, soil-available phosphorus, and total phosphorus leaching in different agricultural land-use types. Reducing phosphorus input can significantly reduce phosphorus leaching, but also has a certain negative impact on cereal yields; while using inorganic-organic combination fertilizer can significantly increase cereal yields and increase phosphorus leaching within a certain range.
Phosphorus (P) leaching from excessive P application is the primary pathway of P losses in agricultural soils. Different P fertilizer practices have mixed effects on P leaching. We conducted a meta-analysis of the relevant literature regarding the response of crop yields, soil-available P (AP), and total P (TP) leaching to reduced P input (RP) and an inorganic-organic combination fertilizer (NPKM) for different agricultural land-use types. Compared to conventional P application (CP), RP (10 similar to 90% reduction) did not reduce crop yields in vegetable fields (experiments were 1 similar to 4 years) but significantly reduced cereal yields by 4.57%. Compared to chemical fertilizer (NPK), NPKM significantly increased cereal yields by 12.73%. Compared to CP, RP significantly reduced AP at 0 similar to 60 cm in vegetable and cereal fields. The greatest reduction occurred at 20 similar to 40 cm in vegetable fields (40.29%) and 0 similar to 20 cm in cereal fields (34.45%). Compared to NPK, NPKM significantly increased the AP at 0 similar to 60 cm in vegetable fields, with the greatest increase (52.44%) at 20 similar to 40 cm. The AP at 0 similar to 40 cm in cereal fields significantly increased under the NPKM treatment, with the greatest increase at 0 similar to 20 cm (76.72%). Compared to CP, RP significantly decreased TP leaching by 16.02% and 31.50% in vegetable and cereal fields, respectively. Compared to NPK, NPKM significantly increased TP leaching in vegetable fields (30.43%); no significant difference in leaching occurred in cereal fields. P leaching, in response to RP, was influenced by the P amounts applied (34.49%); soil organic matter (14.49%); and TP (12.12%). P leaching in response to NPKM was influenced by multiple factors: rainfall (16.05%); soil organic matter (12.37%); soil bulk density (12.07%); TP (11.65%); pH (11.41%). NPKM was more beneficial for improving yields in cereal fields with low soil fertility and lower P-leaching risks.

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