References
- Loquats. Raw. https://fdc.nal.usda.gov/fdc-app.html#/food-details/169908/nutrients (accessed December, 2021).
- Zhou, C. H.; Xu, C. J.; Sun, C. D.; Li, X.; Chen, K. S. Carotenoids in White- and Red-Fleshed Loquat Fruits. J. Agric. Food Chem. 2007, 55, 7822–7830.
- Top Sugarcane Producing Countries. https://www.worldatlas.com/articles/top-sugarcane-producing-countries.html (accessed December, 2021).
- Li, Y. R.; Yang, L. T. Sugarcane Agriculture and Sugar Industry in China. Sugar Tech. 2015, 17, 1–8. DOI: https://doi.org/10.1007/s12355-014-0342-1.
- Jin, P.; Wang, H.; Tan, Z.; Xuan, Z.; Dahar, G. Y.; Li, Q. X.; Miao, W.; Liu, W. Antifungal Mechanism of Bacillomycin D from Bacillus Velezensis HN-2 against Colletotrichum Gloeosporioides Penz. Pestic. Biochem. Physiol. 2020, 163, 102–107.
- Hoy, J. W.; Hollier, C. A. Effect of Brown Rust on Yield of Sugarcane in Louisiana. Plant. Dis. 2009, 93, 1171–1174. DOI: https://doi.org/10.1094/PDIS-93-11-1171.
- Strickland, T. C.; Potter, T. L.; Joo, H. Tebuconazole Dissipation and Metabolism in Tifton Loamy Sand during Laboratory Incubation. Pest. Manag. Sci. 2004, 60, 703–709.
- China Pesticide Information Network. http://www.chinapesticide.org.cn/yxcftozw.jhtml (accessed May, 2022).
- Koch, G.; Ruaro, L.; Calegario, R. F.; Bespalhok Filho, J. C.; Daros, E.; Oliveira, R. A. D.; Duarte, H. D. Control of Orange Rust and Brown Rust of Sugarcane with Systemic Fungicides. Sugar Tech. 2021, 23, 606–614. DOI: https://doi.org/10.1007/s12355-020-00939-3.
- Long, Y. H.; Liu, Y. Y.; Wu, X. M.; Hu, A. L.; Zhang, C.; Wang, W.; Li, R. Y. Preliminary Investigation of the Fungal Diseases on Sugarcane in Guizhou and Screening of Fungicides against Cercospora Longipes. Plant. Protection. 2015, 41, 186–190.
- Hu, M. L.; Jiang, M. J.; Wang, P.; Mei, S. R.; Lin, Y. F.; Hu, X. Z.; Shi, Y.; Lu, B.; Dai, K. Selective Solid-Phase Extraction of Tebuconazole in Biological and Environmental Samples Using Molecularly Imprinted Polymers. Anal. Bioanal. Chem. 2007, 387, 1007–1016.
- Sharma, K. K.; Tripathy, V.; Rao, C. S.; Bhushan, V. S.; Reddy, K. N.; Jyot, G.; Sahoo, S. K.; Singh, B.; Mandal, K.; Banerjee, H.; et al. Persistence, Dissipation, and Risk Assessment of a Combination Formulation of Trifloxystrobin and Tebuconazole Fungicides in/on Tomato. Regul. Toxicol. Pharmacol. 2019, 108, 104471.
- Dong, B. Z.; Yang, Y. P.; Pang, N. N.; Hu, J. Y. Residue Dissipation and Risk Assessment of Tebuconazole, Thiophanatemethyl and Its Metabolite in Table Grape by Liquid Chromatography-tandemMass Spectrometry. Food Chem. 2018, 260, 66–72. DOI: https://doi.org/10.1016/j.foodchem.2018.03.062.
- Matadha, N. Y.; Mohapatra, S.; Siddamallaiah, L. Distribution of Fluopyram and Tebuconazole in Pomegranate Tissues and Their Risk Assessment. Food Chem. 2021, 358, 129909. DOI: https://doi.org/10.1016/j.foodchem.2021.129909.
- You, X.; Li, Y.; Wang, X.; Xu, J.; Zheng, X.; Sui, C. Residue Analysis and Risk Assessment of Tebuconazole in Jujube (Ziziphus Jujuba Mill). Biomed. Chromatogr. 2017, 31, e3917. DOI: https://doi.org/10.1002/bmc.3917.
- Luo, X.; Qin, X.; Liu, Z.; Chen, D.; Yu, W.; Zhang, K.; Hu, D. Determination, Residue and Risk Assessment of Trifloxystrobin, TrifloxystrobinAcid and Tebuconazole in Chinese Rice Consumption. Biomed. Chromatogr. 2020, 34, e4694.
- Abdallah, O. I.; Alrasheed, A. M.; Al-Mundarij, A. A.; Omar, A. F.; Alhewairini, S. S.; Al-Jamhan, K. A. Levels of Residues and Dietary Risk Assessment of the Fungicides Myclobutanil, Penconazole, Tebuconazole, and Triadimenol in Squash. Biomed. Chromatogr. 2021, 35, e5126.
- Mohapatra, S.; Siddamallaiah, L.; Buddidathi, R.; Matadha, N. Y. Dissipation Kinetics and Risk Assessment of Fluopyram and Tebuconazole in Mango (Mangifera indica). Int. J. Environ. An. Ch. 2018, 98, 229–246. DOI: https://doi.org/10.1080/03067319.2018.1445244.
- Patel, B. V.; Chawla, S.; Gor, H.; Upadhyay, P.; Parmar, K. D.; Patel, A. R.; Shah, P. G. Residue Decline and Risk Assessment of Fluopyram + Tebuconazole (400SC) in/on Onion (Allium cepa). Environ. Sci. Pollut. Res. 2016, 23, 20871–20881. DOI: https://doi.org/10.1007/s11356-016-7331-8.
- Wang, Y.; Wang, C.; Gao, J.; Liu, C.; Cui, L.; Li, A. Dissipation, Residues, and Safety Evaluation of Trifloxystrobin and Tebuconazole on Ginseng and Soil. Environ Monit Assess. 2015, 187, 344.
- Ministry of Agriculture of the People's Republic of China, Guideline for the Testing of Pesticide Residue in Crops (NY/T 788-2018); China Agriculture Press: Beijing, 2018.
- European Commision. Analytical Quality Control and Method Validation Procedures for Pesticide Residues Analysis in Food and Feed. 2021. https://www.eurl-pesticides.eu/userfiles/file/EurlALL/SANTE_11312_2021.pdf.
- Shi, L. H.; Zhao, S.; Gui, T.; Xu, J.; Wang, F.; Zhang, Y. P.; Hu, Y. Degradation Dynamics, Residues and Risk Assessment of Dufulin Enantiomers in Corn Plants and Corn by LC/MS/MS. J. Environ. Sci. Health B. 2018, 53, 761–769.
- Yu, J. Z.; Xu, Z. L.; Zhang, C. P.; Chen, L. Z.; Hu, X. Q.; Yu, R. X.; Zhao, X. P. Residue Behavior and Risk Assessment of Validamycin a in Grape under Field Conditions. J. Environ. Sci. Health B. 2021, 56, 587–593.
- Yu, Y. R.; Wang, S. Y.; Zhang, Q. T.; Yang, Y.; Chen, Y.; Liu, X. W.; Feng, C. W.; Hu, D. Y.; Lu, P. Dissipation, Residues, and Risk Assessment of Imidacloprid in Zizania Latifolia and Purple Sweet Potato under Field Conditions Using LC-MS/MS. J. Environ. Sci. Health B. 2019, 54, 89–97. DOI: https://doi.org/10.1080/03601234.2018.1531661.
- http://www.fao.org/fileadmin/templates/agphome/documents/Pests_Pesticides/JMPR/Report2017/5.35_TEBUCONAZOLE__189_.pdf.