Determining optimal range of reduction rates for nitrogen fertilization based on responses of vegetable yield and nitrogen losses to reduced nitrogen fertilizer application

Vegetable production is commonly accompanied by high nitrogen fertilizer rates but low nitrogen use efficiency in China. Reduced fertilization has been frequently recommended in existing studies as an efficient measurement to avoid large amount of nutrient loss and subsequent nonpoint source polluti...

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Bibliographic Details
Published in:The Science of the total environment 2024-05, Vol.924, p.171523-171523, Article 171523
Main Authors: Fan, Yinlin, Feng, Qingyu, Huang, Yong, Yang, Nengliang, Fan, Huihui, Li, Boyong, Wang, Xinyan, Yang, Lei, Yen, Haw, Wu, Feng, Chen, Liding
Format: Article
Language:English
Subjects:
Data-integration
meta-analysis
Nitrogen leaching
Sustainable agricultural
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Summary:Vegetable production is commonly accompanied by high nitrogen fertilizer rates but low nitrogen use efficiency in China. Reduced fertilization has been frequently recommended in existing studies as an efficient measurement to avoid large amount of nutrient loss and subsequent nonpoint source pollution. However, the reported responses of vegetable yield and nitrogen losses to reduced fertilization rates varied in a large range, which has resulted into large uncertainties in the potential benefits of those recommended reduction rates. Thus, we constructed the relationship between responses of nitrogen losses and vegetable yield to reduced nitrogen fertilization rates to determine the optimal range of reduction rates for nitrogen fertilization in a proportional form based on data reported in literatures across China's mainland, and evaluated the roles of greenhouse, managing options, and vegetable species on the responses. The relationships were constructed separately for 4 subregions: Northern arid and semiarid, loess plateau regions (NSL), Temperate monsoon zone (TMZ), Southeast monsoon zone (SMZ), Southwest zone (SWZ). The optimal nitrogen fertilizer reduction range for the TMZ, SMZ and SWZ were 51 % to 67 %, 40 % to 66 % and 54 % to 80 %, respectively and no reduction for NSL. Vegetable yields were not be sacrificed when fertilizations were reduced within the optimal ranges. Greenhouse and managing options showed no significant effect on the responses of both vegetable yield and nitrogen losses by the optimal reduction range but vegetable species played a relatively important role on the responses of vegetable yield. This indicated that the optimal reduction rates can be effective on reducing nitrogen loss in both open-field and greenhouse conditions across China's mainland without extra managing options. Therefore, the optimal reduction rates can still serve as a good starting point for making regional plans of nitrogen reduction that help balancing the chasing of high vegetable yield and low nitrogen loss. [Display omitted] •Recommended nitrogen fertilization rates were provided in a proportional form at the regional-scale.•The responses of nitrogen losses and vegetable yield to nitrogen fertilization rates for 4 subregions were clarified.•No vegetable yields were sacrificed by the optimal range of reduction rates for nitrogen fertilization.•This optimal range of reduction rates for nitrogen fertilization is of wide applicability without extra cost and
ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2024.171523