Rategies of rice harvest and postnatal loss from the point of view offarmers: A survey from four significant generating places in Jilin Province. Henan Nongye 2020, two, 80.43. Huang, D.; Yao, L.; Wu, L.P.; Zhu, X.D. Measuring Rice Loss in the course of Harvest in China: Determined by Experiment and Survey in FiveProvinces. J. Nat. DSG Crosslinker Antibody-drug Conjugate/ADC Related Resour. 2018, 33, 1427438.44. Khir, R.; Atungulu, G.; Chao, D.; Pan, Z. Influences of harvester and climate conditions on field loss and milling excellent ofrough rice. Int. J. Agric. Biol. Eng. 2017, ten, 21623.45. Soraya, S.; Shantae, A.W.; Griffiths, G.A. Impacts of storage temperature and rice moisture content on colour qualities ofrice from fields with diverse Santonin site illness management practices. J. Stored Prod. Res. 2018, 78, 897.46. Zhang, L.D.; Li, X.J.; Ren, G.Y.; Xu,D.; Zhang, Z.J.; Zhang, C.F.; Chen, X. High-quality Adjust of Higher Moisture Content Rice UnderDifferent Storage Conditions. J. Chin. Cereals Oils Assoc. 2018, 33, 774.47. Shao, B. Mycotoxin contamination and early prediction of rice. Tea In Fujian 2020, four, 3. 48. Lu, Y. Study on Emergency Measures for Storing High Moisture Paddy and Style of Grain Storage Device. Master’s thesis,Zhejiang A F University, Zhejiang, China, 2018.49. Shen, W.H. Study on Transportable Biohazard Detector for PostHarvested Grain. Master’s thesis, Jilin University, Changchun,China, 2020.50. Wang, Z. Characteristics in the CO2 Developed by Mold Activity along with the Diffusion Law within the Rice in the course of Storage. Master’sthesis, Henan University of Technologies, Zhengzhou, China, 2012.51. Zhang, Q.; Liu, C.H.; Sun, J.K.; Cui, Y.J.; Li, Q.; Jia, F.G.; Zheng, X.Z. Speedy Nondestructive Detection for Molds Colony ofPaddy Rice Based on Close to Infrared Spectroscopy. J. Northeast Agric. Univ.(Engl. Ed.) 2014, 21, 540.52. Liu, X.D. The function of grain drying equipment in grain safe storage. Hunan Agric. Mach. 2014, 41, 13640. 53. Li, K.L.;Tian, F.; Wang, D. Wang Daneng. Comparison of Aflatoxin B1(AFB1)Cumulative Risk of Paddy Rice and Brown Ricewith Distinct Water Activity. J. Chin. Cereals Oils Assoc. 2018, 10, 9803.54. Yu, Y.; Li, W.Y.; Wang, J. Impact of Ray Irradiation Pretreatment on Embryo Structure and Germination Characteristics ofRice Seeds. J. Chin. Cereal Oil Assoc. 2009, 21, 1.55. Zhang, J.J. Pay interest to postharvest technologies of paddy, and strive to minimize the loss to the lowest degree. China Rice2000, 5, 7.56. Zhang, R.D.; Wang, R.L.; Qu, S.L.; Geng, X.Z. The law of heat and moisture transfer and essential parameters of condensationduring storage of paddy with higher water conten. J. Henan Univ. Technol. (Nat. Sci. Ed.) 2020, 41, 949.57. Liu, H.; Zhou, J.X.; Fang, Y. Microorganism and Top quality Modifications During Paddy Storage. J. Chin. Cereals Oils Assoc. 2020, 35,12631.58. Wu, M.L.; Tang, C.Z. Analysis progress on mechanism and influencing things of rice crackle. Cereals Oils Course of action. (Electron.Vers.) 2006, two, 603.59. Li, D.; Mao, Z.H.; Wang, L.J.; Wang, Z.B. Mechanism and inhibition of waist burst in rice. Mach. Cereals Oil Meals Approach. 2000, four,178.60. Li, D.; Mao, Z.H. Microscopic structure of rough rice immediately after sun drying. Trans. Chin. Soc. Agric. Eng. (Trans. CSAE) 2003, 19, 156159.61. Meas, P.; Paterson, A.; Cleland, D.J.; Brinlund, J.E.; Mawson, J.; Hardacre, A.; Rcikman, J.F. Relating Rice Grain High quality toConditions in the course of Sun Drying. Int. J. Meals Eng. 2013, 9, 38591.62. Lu, M.D. Create mechanical drying of rice to cut down sun drying loss. NonState Run. Sci. Technol. Enterp. 2017, 1, 26265. 63. Yuan.