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- Title
Soil Nutrient Retention and Yield Effect of Nitrogen, Phosphorus Synergists on Wheat/Maize Rotation in Brown Soil.
- Authors
Cui, Xiumin; Wang, Jiahui; Zhang, Lingfei; Chen, Tangxin; Zhuge, Yuping; Dong, Yuxiu
- Abstract
The aim was to improve the fertilizer utilization efficiency and alleviate environmental pollution risk under a wheat-maize rotation system. Here, the combinations of different nitrogen stabilizers and phosphorus activators were used to reduce nitrogen loss and phosphorus fixation in the field experiment. Compared to the control, the combination of 1.5%HQ + 0.5%DMPP + biochar showed the most significant effect on the retention of alkali-hydrolysable nitrogen (Nah), the highest with an increase of 22.6% at the 0~20 cm layer soil; and the combination of 1.5%HQ + 3.5%DCD + CMFs (compound microbial fertilizers) showed the most significant effect on the maintenance of available phosphorus (Pa), with the highest increase of 41.3%. N, P synergists combined with a basal fertilizer could effectively slow down the transformation from N H 4 + to N O 3 − , and keep N H 4 + at an increase of 7.38%~19.6%. Moreover, the N, P synergists could efficiently lock the available nutrients around the roots, preventing the migration of N O 3 − , N H 4 + , Nah, and Pa to the deeper layers. Especially for N O 3 − , the total accumulation at 0~60 cm decreased by 32.1%, and the activation of Pa was mainly concentrated at 0~40 cm. Under the same nutrient inputs, the combination of 0.3%NBPT + 0.5%DMPP + CMFs obtained the highest wheat yield. The combination of 1.5%HQ + 0.5%DMPP+ biochar gained the highest maize yield. Overall, the application of N, P synergists could increase the effective duration of Nah, Pa, and N H 4 + in the surface soil, and reduce the accumulation of N O 3 − in the 0~60 cm soil layer. The capacity of holding and keeping nutrients from leaching rose obviously; simultaneously, the assimilative capacity of crops for nitrogen and phosphorus increased distinctly, which could lower the eutrophia risks from nitrogen and phosphorus.
- Subjects
NITROGEN; PHOSPHORUS; SOILS; WHEAT; CORN; CROP rotation
- Publication
Agronomy, 2022, Vol 12, Issue 10, pN.PAG
- ISSN
2073-4395
- Publication type
Article
- DOI
10.3390/agronomy12102445