[1]

Ren W. 2017. The research progress and prospects of high yield and high efficiency nitrogen application for hybrid rice. Journal of Plant Nutrition and Fertilizers 23:1505−13

[2]

Jiang P, Huang M, Ibrahim M, Zeng Y, Xia B, et al. 2011. Effects of "Sanding" cultivation method on nutrient uptake and nitrogen use efficiency in double cropping super rice. Acta Agronomica Sinica 37:2194−207

[3]

Wu H, Liu D, Zhong M, Wang Y. 2019. Effects of water management and potash application on grain yield and lodging resistance of rice. Crops127−33

[4]

Ling Q. 2010. heory and Technology of Rice Precise and Quantitative Cultivation. Hybrid Rice 25:27−34

doi: 10.16267/j.cnki.1005-3956.2010.s1.066
[5]

Li B, Boiarkina I, Yu W, Huang H M, Munir T, et al. 2019. Phosphorous recovery through struvite crystallization: Challenges for future design. Science of the Total Environment 648:1244−56

doi: 10.1016/j.scitotenv.2018.07.166
[6]

Pederi YA, Cheporniuk HS. 2015. Unmanned Aerial Vehicles and new technological methods of monitoring and crop protection in precision agriculture. IEEE International Conference Actual Problems of Unmanned Aerial Vehicles Developments (APUAVD), Kyiv, UKraine, 2015. pp. 298−301. New York: IEEE http://doi.org/10.1109/APUAVD.2015.7346625

[7]

Liu C, Li Y, Song J, Ma T, Wang M, et al. 2017. Performance analysis and experiment on fertilizer spreader with centrifugal swing disk based on EDEM. Transactions of the Chinese Society of Agricultural Engineering 33:32−39

[8]

Lei X, Li M, Zhang L, Ren W. 2018. Design and experiment of horizontal pneumatic screw combination adjustable quantitative fertilizer feeding device for granular fertilizer. Transactions of the Chinese Society of Agricultural Engineering 34:9−18

[9]

Song C, Zhou Z, Luo X, Jiang R, Lan Y, et al. 2018. Review of agricultural materials broadcasting application on unmanned helicopter. Journal of Agricultural Mechanization Research 40:1−9

doi: 10.13427/j.cnki.njyi.2018.09.001
[10]

Wang J, Gao G, Weng W, Wang J, Yan D, et al. 2018. Design and Experiment of Key Components of Side Deep Fertilization Device for Paddy Field. Transactions of the Chinese Society for Agricultural Machinery 49:92−104

doi: 10.6041/j.issn.1000-1298.2018.06.011
[11]

Walker GM, Moursy HEMN, Holland CR, Ahmad MN. 2003. Effect of process parameters on the crush strength of granular fertiliser. Powder Technology 132:81−84

doi: 10.1016/S0032-5910(03)00039-1
[12]

Lu J, Liu C, Sui B, Wang H, Liu S, et al. 2019. Study on the nitrogen release rate and fertility effect of large round granular fertilizer. Journal of Maize Sciences 27:148−54

doi: 10.13597/j.cnki.maize.science.20190323
[13]

Xue B, Huang H, Mao M, Liu E. 2017. An investigation of the effect of ammonium sulfate addition on compound fertilizer granulation. Particuology 31:54−58

doi: 10.1016/j.partic.2016.04.004
[14]

Hämäläinen JP, Aho MJ. 1995. Effect of fuel composition on the conversion of volatile solid fuel-N to N2O and NO. Fuel 74:1922−24

doi: 10.1016/0016-2361(95)80030-L
[15]

Shen Y, Lin H, Gao W, Li M. 2020. The effects of humic acid urea and polyaspartic acid urea on reducing nitrogen loss compared with urea. Journal of the Science of Food and Agriculture 100:4425−32

doi: 10.1002/jsfa.10482
[16]

Du Z, Yang H, Wang S, Xu L, Wang B, et al. 2011. Advance of homologous polypeptides polyaspartic acids for agriculture. Chinese Journal of Tropical Crops 32:2381−84

[17]

Deng F, Wang L, Ren W, Mei X. 2014. Enhancing nitrogen utilization and soil nitrogen balance in paddy fields by optimizing nitrogen management and using polyaspartic acid urea. Field Crops Research 169:30−38

doi: 10.1016/j.fcr.2014.08.015
[18]

Deng F, Wang L, Ren W, Mei X, Li S. 2015. Optimized nitrogen managements and polyaspartic acid urea improved dry matter production and yield of indica hybrid rice. Soil and Tillage Research 145:1−9

doi: 10.1016/j.still.2014.08.004
[19]

Lü S, Feng C, Gao C, Wang X, Xu X, et al. 2016. Multifunctional environmental smart fertilizer based on L-aspartic acid for sustained nutrient release. Journal of Agricultural and Food Chemistry 64:4965−74

doi: 10.1021/acs.jafc.6b01133
[20]

Xu B, Long Y, Feng X, Zhu X, Sai N, et al. 2021. GABA signalling modulates stomatal opening to enhance plant water use efficiency and drought resilience. Nature Communications 12:1952

doi: 10.1038/s41467-021-21694-3
[21]

Sastry K, Fuerstenau D W. 1973. Mechanisms of agglomerate growth in green pelletization. Powder Technology 7:97−105

doi: 10.1016/0032-5910(73)80012-9
[22]

Iveson SM, Litster JD. 1998. Growth regime map for liquid-bound granules. Aiche Journal 44:1510−18

doi: 10.1002/aic.690440705
[23]

Liang Z, Cheng S, Wu L. 1999. Study on mechanism of interaction between weathered coal based humic acid and Ca(H2PO4)2. Journal of Fuel Chemistry and Technology 27:176−81

[24]

Liu X, Liao J, Song H, Yang Y, Guan C, et al. 2019. A biochar-based route for environmentally friendly controlled release of nitrogen: Urea-loaded biochar and bentonite composite. Scientific Reports 9:9548

doi: 10.1038/s41598-019-46065-3
[25]

Luo W, Qian L, Liu W, Zhang X, Wang Q, et al. 2021. A potential Mg-enriched biochar fertilizer: Excellent slow-release performance and release mechanism of nutrients. Science of the Total Environment 768:144454

doi: 10.1016/j.scitotenv.2020.144454
[26]

Cerri BC, Borelli LM, Stelutti IM, Soares MR, da Silva MA. 2020. Evaluation of new environmental friendly particulate soil fertilizers based on agroindustry wastes biopolymers and sugarcane vinasse. Waste Management 108:144−53

doi: 10.1016/j.wasman.2020.04.038
[27]

Tang H. 1992. Spectral identification of organic compounds. Beijing: Peking University Press

[28]

Shen Y, Jiao S, Ma Z, Lin H, Gao W, et al. 2020. Humic acid-modified bentonite composite material enhances urea-nitrogen use efficiency. Chemosphere 255:126976

doi: 10.1016/j.chemosphere.2020.126976
[29]

Baird R, da Silva RC, Degryse F, Mclaughlin MJ. 2019. A column perfusion test to assess the kinetics of nutrient release by soluble, sparingly soluble and coated granular fertilizers. Journal of Plant Nutrition and Soil Science 182:763−71

doi: 10.1002/jpln.201800666
[30]

Mohan SV, Rao NC, Karthikeyan J. 2002. Adsorptive removal of direct azo dye from aqueous phase onto coal based sorbents: a kinetic and mechanistic study. Journal of Hazardous Materials 90:189−204

doi: 10.1016/S0304-3894(01)00348-X
[31]

Fei Y, Zhao D, Cao Y, Huot H, Tang Y, et al. 2019. Phosphorous retention and release by sludge-derived hydrochar for potential use as a soil amendment. Journal of Environmental Quality 48:502−9

doi: 10.2134/jeq2018.09.0328
[32]

Zhou W, Yang Z, Wang T, Fu Y, Chen Y, et al. 2019. Environmental Compensation Effect and Synergistic Mechanism of Optimized Nitrogen Management Increasing Nitrogen Use Efficiency in Indica Hybrid Rice. Frontiers in Plant Science 10:245

doi: 10.3389/fpls.2019.00245
[33]

Zhou W, Lv T, Chen Y, Westby AP, Ren W. 2014. Soil physicochemical and biological properties of paddy upland rotation: a review. The Scientific World Journal 2014:856352−8

doi: 10.1155/2014/856352
[34]

Xing X, Ma X, Chen L, Li H, Wen Z, et al. 2020. Experimental Study on Physical Characteristics of Granular Fertilizer. Journal of Agricultural Mechanization Research 42:125−30

doi: 10.13427/j.cnki.njyi.2020.09.022
[35]

Song C, Zang Y, Zhou Z, Luo X, Zhao L, et al. 2020. Test and comprehensive evaluation for the performance of UAV-based fertilizer spreaders. IEEE Access 8:202153−63

doi: 10.1109/ACCESS.2020.3034593
[36]

Ren W, Wu Z, Li M, Lei X, Zhu S, et al. 2021. Design and Experiment of UAV Fertilization Spreader System for Rice. Transactions of the Chinese Society for Agricultural Machinery 52:88−98

[37]

Grift TE, Walker JT, Gardisser DR. 2000. Spread pattern analysis tool (SPAT): II. Examples of aircraft pattern analysis. Transactions of the ASAE 43:1351−64

doi: 10.13031/2013.3032
[38]

Fang C, Zhang T, Li P, Jiang R, Wu S, et al. 2015. Phosphorus recovery from biogas fermentation liquid by Ca-Mg loaded biochar. Journal of Environmental Sciences 29:106−14

doi: 10.1016/j.jes.2014.08.019
[39]

State Administration for Market Regulation, SAC. 2020. Compound fertilizer: GB/T 15063-2020. China https://openstd.samr.gov.cn/bzgk/gb/newGbInfo?hcno=317AEC1CBE702998D63BCB0791DDC0D4

[40]

Wang T, Chen H, Zhou W, Chen Y, Fu Y, et al. 2022. Garlic-rice system increases net economic benefits and reduces greenhouse gas emission intensity. Agriculture, Ecosystems & Environment 326:107778

doi: 10.1016/j.agee.2021.107778