43 citations as recorded by crossref.

1. Root-zone fertilization improves crop yields and minimizes nitrogen loss in summer maize in China C. Jiang et al.
2. Optimizing wheat production and reducing environmental impacts through scientist–farmer engagement: Lessons from the North China Plain W. Jiang et al.
3. Applications of land surface model to economic and environmental-friendly optimization of nitrogen fertilization and irrigation F. Wang et al.
4. Evaluating the effects of formulated nano-NPK slow release fertilizer composite on the performance and yield of maize, kale and capsicum K. Rop et al.
5. Spring Wheat–Summer Maize Annual Crop System Grain Yield and Nitrogen Utilization Response to Nitrogen Application Rate in the Thermal–Resource–Limited Region of the North China Plain M. Liu et al.
6. The application of nano−clinoptilolite based nitrogen fertilizer mixed with urea promotes nitrogen balance and enhances economic and ecological benefits in paddy fields Y. Sun et al.
7. Concurrent Response of Greenhouse Soil NO3− Concentration and N2O Emissions to Nitrogen and Irrigation Management in China: A Meta-Analysis G. Wang et al.
8. Optimal Nitrogen Practice in Winter Wheat-Summer Maize Rotation Affecting the Fates of 15N-Labeled Fertilizer H. Liang et al.
9. Optimizing the nitrogen application rate for maize and wheat based on yield and environment on the Northern China Plain Y. Zhang et al.
10. The optimum nitrogen fertilizer rate for maize in the US Midwest is increasing M. Baum et al.
11. Soil Organic Carbon Variability in Tropical Cropping Systems: Interactions With Texture, pH, Macronutrients, and Organic Matter R. Solórzano et al.
12. Environmental and societal costs of maize production decrease by addressing the uncertainty in nitrogen rate recommendations F. Palmero et al.
13. Analisis Sebaran Konsentrasi Gas H2S dan NH3 serta Dampaknya terhadap Masyarakat di sekitar TPA Batu Layang Kota Pontianak A. Chairiah et al.
14. Appropriate farming practices of summer maize in the North China Plain: Reducing nitrogen use to promote sustainable agricultural development B. Liu et al.
15. Optimal lime rates for soil acidity mitigation: impacts of crop choice and nitrogen fertiliser in Western Australia S. Kalkhoran et al.
16. Nitrous Oxide Emission and Grain Yield in Chinese Winter Wheat–Summer Maize Rotation: A Meta-Analysis C. Yao et al.
17. Effect of organic amendments on yield-scaled N2O emissions from winter wheat-summer maize cropping systems in Northwest China F. Lv et al.
18. The environmental and socioeconomic benefits of optimized fertilization for greenhouse vegetables M. Zhang et al.
19. Development of a critical nitrogen dilution curve based on leaf dry matter for summer maize B. Zhao et al.
20. Agricultural nitrogen flow in a reservoir watershed and its implications for water pollution mitigation R. Xu et al.
21. Optimized Nitrogen Fertilizer Rate Can Increase Yield and Nitrogen Use Efficiency for Open-Field Chinese Cabbage in Southwest China H. Cao et al.
22. Evaluating and improving APSIM's capacity in simulating long-term corn yield response to nitrogen in continuous- and rotated-corn systems M. Baum et al.
23. Closing the nitrogen use efficiency gap and reducing the environmental impact of wheat-maize cropping on smallholder farms in the Guanzhong Plain, Northwest China F. LÜ et al.
24. Improving the growth, lodging and yield of different density-resistance maize by optimising planting density and nitrogen fertilisation Y. Zhao et al.
25. Strategies for nitrogen management to mitigate nitrous oxide and ammonia emissions from maize field while maintaining yields in China: findings from a field experiment and a national meta‐analysis J. Zheng et al.
26. Managing nitrogen for sustainable wheat production H. Ying et al.
27. Nitrogen fertilization affects maize grain yield through regulating nitrogen uptake, radiation and water use efficiency, photosynthesis and root distribution W. Su et al.
28. Integrated assessment of agronomic, environmental and ecosystem economic benefits of blending use of controlled-release and common urea in wheat production L. Zhang et al.
29. Optimizing irrigation and nitrogen requirements for maize through empirical modeling in semi-arid environment I. Ahmad et al.
30. Response of Crops to Conservation Tillage and Nitrogen Fertilization under Different Agroecological Conditions I. Jug et al.
31. Zizania aquatica–duck ecosystem with recycled biogas slurry maintained crop yield G. Wang et al.
32. Effects of Nitrogen Rates and Time of Application on Yield of Maize: Rainfall Variability Influenced Time of N Application Z. Abebe & H. Feyisa
33. Optimal Nitrogen Application Rates of One-Time Root Zone Fertilization and the Effect of Reducing Nitrogen Application on Summer Maize C. Jiang et al.
34. Integrated N management improves nitrogen use efficiency and economics in a winter wheat–summer maize multiple-cropping system H. Liang et al.
35. The distinctive level of interaction between carbon and nitrogen metabolisms in the leaves of submerged macrophytes plays a key role in ammonium detoxification S. Muthui et al.
36. Deep ploughing in the summer fallow season and optimizing nitrogen rate can increase yield, water, and nitrogen efficiencies of rain-fed winter wheat in the Loess Plateau region of China R. Zhang et al.
37. Response of maize yield and nitrogen recovery efficiency to nitrogen fertilizer application in field with various soil fertility H. Zou et al.
38. High-performance nitrogen-polymer fertilizer: Synthesis, characterization, and application in sustainable agriculture R. Tiwari et al.
39. Calculating socially optimal nitrogen (N) fertilization rates for sustainable N management in China Y. Yin et al.
40. Benefits and Trade-Offs of Tillage Management in China: A Meta-Analysis Y. Wang et al.
41. Optimizing N applications increases maize yield and reduces environmental costs in a 12-year wheat-maize system S. Shen et al.
42. Effect of soil acidification on the growth and nitrogen use efficiency of maize in Ultisols X. Pan et al.
43. Limiting Factors of Agronomic Characteristics for Maize Through Nutrient Omission Techniques E. Afrida & K. Tampubolon