Potential N mineralization and availability to maize in black soils in response to soil fertility improvement in Northeast China
Purpose: Understanding the soil nitrogen (N) mineralization potential (N0) and crop N availability during the growing season is essential for improving nitrogen use efficiency (NUE) and preventing over-fertilization, which lead to negative environmental impacts. Methods: Five black soils with different levels of fertility were selected in Northeast China. The N0 and kinetics of these soils were estimated through laboratory experiments at different incubation temperatures (15, 25, and 35 °C). N mineralization dynamics were simulated using field soil temperature according to the incubation results. Moreover, the N uptake dynamics of maize were simulated according to the literature. Results: Compared with the very low-fertility soils, the cumulative mineralized nitrogen increased under all incubation temperatures (15, 25, and 35 °C), by 48–136%, 8–61%, and 24–59%, respectively, in the medium- and high-fertility soils. The highest N0 values (96.90, 115.31, and 121.33 mg/kg at the three different temperatures) were recorded in the very high-fertility soils. The soil N mineralization dynamics and N uptake of maize in the growing season were highly consistent over time, although the soil N supply could not meet the maize growth requirements. The higher the soil fertility, the lower the N fertilizer requirement. Conclusions: Different fertilizer strategies were developed based on the cumulative mineralized N, N uptake by maize, and NUE in soils with different fertility levels. We suggested a reduction of 50–65 kg N/ha in N fertilizer in the two highest fertility soils. This study provided basic data to reduce chemical N fertilizer to improve NUE and reduce negative environmental impacts.
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| Format: | Article/Letter to editor biblioteca |
| Language: | English |
| Subjects: | Black soil zones, Environmental impacts, Nitrogen fertilization, Potentially mineralized nitrogen (N), Soil fertility, |
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dig-wur-nl-wurpubs-5733292024-12-04 Fu, Hai Mei Duan, Ying Hua Zhu, Ping Gao, Hong Jun Xu, Ming Gang Yang, Xiao Mei Article/Letter to editor Journal of Soils and Sediments 21 (2021) ISSN: 1439-0108 Potential N mineralization and availability to maize in black soils in response to soil fertility improvement in Northeast China 2021 Purpose: Understanding the soil nitrogen (N) mineralization potential (N0) and crop N availability during the growing season is essential for improving nitrogen use efficiency (NUE) and preventing over-fertilization, which lead to negative environmental impacts. Methods: Five black soils with different levels of fertility were selected in Northeast China. The N0 and kinetics of these soils were estimated through laboratory experiments at different incubation temperatures (15, 25, and 35 °C). N mineralization dynamics were simulated using field soil temperature according to the incubation results. Moreover, the N uptake dynamics of maize were simulated according to the literature. Results: Compared with the very low-fertility soils, the cumulative mineralized nitrogen increased under all incubation temperatures (15, 25, and 35 °C), by 48–136%, 8–61%, and 24–59%, respectively, in the medium- and high-fertility soils. The highest N0 values (96.90, 115.31, and 121.33 mg/kg at the three different temperatures) were recorded in the very high-fertility soils. The soil N mineralization dynamics and N uptake of maize in the growing season were highly consistent over time, although the soil N supply could not meet the maize growth requirements. The higher the soil fertility, the lower the N fertilizer requirement. Conclusions: Different fertilizer strategies were developed based on the cumulative mineralized N, N uptake by maize, and NUE in soils with different fertility levels. We suggested a reduction of 50–65 kg N/ha in N fertilizer in the two highest fertility soils. This study provided basic data to reduce chemical N fertilizer to improve NUE and reduce negative environmental impacts. en application/pdf https://research.wur.nl/en/publications/potential-n-mineralization-and-availability-to-maize-in-black-soi 10.1007/s11368-020-02794-x https://edepot.wur.nl/535705 Black soil zones Environmental impacts Nitrogen fertilization Potentially mineralized nitrogen (N) Soil fertility Wageningen University & Research |
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Black soil zones Environmental impacts Nitrogen fertilization Potentially mineralized nitrogen (N) Soil fertility Black soil zones Environmental impacts Nitrogen fertilization Potentially mineralized nitrogen (N) Soil fertility |
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Black soil zones Environmental impacts Nitrogen fertilization Potentially mineralized nitrogen (N) Soil fertility Black soil zones Environmental impacts Nitrogen fertilization Potentially mineralized nitrogen (N) Soil fertility Fu, Hai Mei Duan, Ying Hua Zhu, Ping Gao, Hong Jun Xu, Ming Gang Yang, Xiao Mei Potential N mineralization and availability to maize in black soils in response to soil fertility improvement in Northeast China |
| description |
Purpose: Understanding the soil nitrogen (N) mineralization potential (N0) and crop N availability during the growing season is essential for improving nitrogen use efficiency (NUE) and preventing over-fertilization, which lead to negative environmental impacts. Methods: Five black soils with different levels of fertility were selected in Northeast China. The N0 and kinetics of these soils were estimated through laboratory experiments at different incubation temperatures (15, 25, and 35 °C). N mineralization dynamics were simulated using field soil temperature according to the incubation results. Moreover, the N uptake dynamics of maize were simulated according to the literature. Results: Compared with the very low-fertility soils, the cumulative mineralized nitrogen increased under all incubation temperatures (15, 25, and 35 °C), by 48–136%, 8–61%, and 24–59%, respectively, in the medium- and high-fertility soils. The highest N0 values (96.90, 115.31, and 121.33 mg/kg at the three different temperatures) were recorded in the very high-fertility soils. The soil N mineralization dynamics and N uptake of maize in the growing season were highly consistent over time, although the soil N supply could not meet the maize growth requirements. The higher the soil fertility, the lower the N fertilizer requirement. Conclusions: Different fertilizer strategies were developed based on the cumulative mineralized N, N uptake by maize, and NUE in soils with different fertility levels. We suggested a reduction of 50–65 kg N/ha in N fertilizer in the two highest fertility soils. This study provided basic data to reduce chemical N fertilizer to improve NUE and reduce negative environmental impacts. |
| format |
Article/Letter to editor |
| topic_facet |
Black soil zones Environmental impacts Nitrogen fertilization Potentially mineralized nitrogen (N) Soil fertility |
| author |
Fu, Hai Mei Duan, Ying Hua Zhu, Ping Gao, Hong Jun Xu, Ming Gang Yang, Xiao Mei |
| author_facet |
Fu, Hai Mei Duan, Ying Hua Zhu, Ping Gao, Hong Jun Xu, Ming Gang Yang, Xiao Mei |
| author_sort |
Fu, Hai Mei |
| title |
Potential N mineralization and availability to maize in black soils in response to soil fertility improvement in Northeast China |
| title_short |
Potential N mineralization and availability to maize in black soils in response to soil fertility improvement in Northeast China |
| title_full |
Potential N mineralization and availability to maize in black soils in response to soil fertility improvement in Northeast China |
| title_fullStr |
Potential N mineralization and availability to maize in black soils in response to soil fertility improvement in Northeast China |
| title_full_unstemmed |
Potential N mineralization and availability to maize in black soils in response to soil fertility improvement in Northeast China |
| title_sort |
potential n mineralization and availability to maize in black soils in response to soil fertility improvement in northeast china |
| url |
https://research.wur.nl/en/publications/potential-n-mineralization-and-availability-to-maize-in-black-soi |
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