Arid
DOI10.1016/j.still.2024.106130
Zeolite application coupled with film mulched drip irrigation enhances crop yield with less N 2 O emissions in peanut field
Zheng, Junlin; Luo, Xiulan; Wang, Ruimin; Yu, Haiqiu; Xia, Guimin; Elbeltagi, Ahmed; Chi, Daocai
通讯作者Yu, HQ
来源期刊SOIL & TILLAGE RESEARCH
ISSN0167-1987
EISSN1879-3444
出版年2024
卷号241
英文摘要Zeolite has been previously reported to increase nitrogen (N) use efficiency in lowland paddy fields. However, few results are available regarding its effect on N 2 O emissions from upland field, especially with mulched drip irrigation. In present study, two-year peanut field experiments were conducted utilizing a split -plot design to assess the impact of zeolite application and irrigation regimes on plant dry weight and N accumulation, soil inorganic N content, peanut yield, N 2 O emissions, and soil physicochemical properties. Different irrigation regimes (MD, mulched drip irrigation; RF, rain -fed) as well as zeolite application rates (0 t ha - 1 (Z 0 , control), 5 t ha - 1 (Z 5 ), and 10 t ha - 1 (Z 10 )) were applied. Results showed that the MD treatment increased plant dry weight, N accumulation, soil NH 4 + -N, NO 3 - -N content and mean soil temperature compared to the RF control. Furthermore, cumulative N 2 O emissions and peanut yield were raised by 24.3% and 15.8%, respectively, with the MD treatment. The increased peanut yield by mulched drip irrigation might be resulted from the promoted soil inorganic N, soil temperature, and plant N accumulation. Regardless of irrigation, zeolite addition increased dry weight and N accumulation during all measured stages except seedling, mean soil NH 4 + -N, NO 3 - -N content, mean soil pH, and peanut yield. In contrast, cumulative N 2 O emissions were decreased compared to the non-zeolite control. Moreover, findings showed that Z 10 performed better in increasing peanut yield by 12.7% and decreasing N 2 O emissions by 35.7% than Z 5 . Increasing soil inorganic N content with zeolite addition contributed to improve plant N accumulation and promote dry weight and peanut yield. Furthermore, the reduction of N 2 O emissions by zeolite was related to improved soil inorganic N and pH. Though MD increased N 2 O emissions, the MDZ 10 treatment had 20.6% of cumulative N 2 O emissions lower than the conventional practice (RFZ 0 ), indicating that zeolite application alleviated the adverse effect of mulched drip irrigation on N 2 O emissions. It was concluded that zeolite dose at 10 t ha - 1 coupled with mulched drip irrigation gave a high peanut yield with less N 2 O emissions. Our findings could be adopted in arid areas to enhance peanut production and mitigate environmental risk induced by N 2 O emissions.
英文关键词zeolite mulched drip irrigation N 2 O emissions peanut yield
类型Article
语种英语
收录类别SCI-E
WOS记录号WOS:001232851500001
WOS关键词NITROUS-OXIDE ; CLINOPTILOLITE ZEOLITE ; GREENHOUSE-GAS ; USE EFFICIENCY ; GRAIN-YIELD ; WATER-USE ; SOIL ; RICE ; STRAW ; UREA
WOS类目Soil Science
WOS研究方向Agriculture
资源类型期刊论文
条目标识符http://119.78.100.177/qdio/handle/2XILL650/405652
推荐引用方式
GB/T 7714
Zheng, Junlin,Luo, Xiulan,Wang, Ruimin,et al. Zeolite application coupled with film mulched drip irrigation enhances crop yield with less N 2 O emissions in peanut field[J],2024,241.
APA Zheng, Junlin.,Luo, Xiulan.,Wang, Ruimin.,Yu, Haiqiu.,Xia, Guimin.,...&Chi, Daocai.(2024).Zeolite application coupled with film mulched drip irrigation enhances crop yield with less N 2 O emissions in peanut field.SOIL & TILLAGE RESEARCH,241.
MLA Zheng, Junlin,et al."Zeolite application coupled with film mulched drip irrigation enhances crop yield with less N 2 O emissions in peanut field".SOIL & TILLAGE RESEARCH 241(2024).
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