Frontera Biotecnol%u00f3gica | N%u00b0 29 septiembre-diciembre 2024 42ISSN: 2448-8461COMERCAM. (2023). Informe Estad%u00edstico 2023.Contreras-Hernandez, M. G., OchoaMartinez, L. A., Rutiaga-Quinones, J. G., Rocha-Guzman, N. E., LaraCeniceros, T. E., Contreras-Esquivel, J. C., Prado Barragan, L. A., & RutiagaQuinones, O. M. (2018). Effect of ultrasound pre-treatment on the physicochemical composition of Agave durangensis leaves and potential enzyme production. Bioresources Technology, 249, 439-446. https://doi.org/10.1016/j.biortech.2017.10.009 CRT. (2023). Informe Estad%u00edstico 2023. Delgadillo Ru%u00edz, L., Ba%u00f1uelos Valenzuela, R., Esparza Ibarra, E. L., Guti%u00e9rrez Ba%u00f1uelos, H., Cabral Arellano, F. J., & Muro Reyes, A. (2015). Nutrient profile evaluation of agave bagasse as alternative feedstuffs for ruminants. Revista mexicana de ciencias agr%u00edcolas, 6(SPE11), 2099-2103. Escobedo-Garc%u00eda, S., FloresGallegos, A. C., Salas-Tovar, J. A., Gonz%u00e1lez-Herrera, S. M., PalomoLigas, L., Campos-Muzquiz, L. G., & Rodr%u00edguez-Herrera, R. (2023). Agave bagasse cookies as a carbon source for lactic acid bacteria. Environmental Quality Management.https://doi.org/https://doi.org/10.1002/tqem.22051 Escudero-Enriquez, E., Monta%u00f1o, O. D. L., Guido, S. I. M., & Guti%u00e9rrezAntonio, C. (2023). BAGAZO DE AGAVE, LA OTRA CARA (VALIOSA) DE LA PRODUCCI%u00d3N DE TEQUILA. Naturaleza y Tecnolog%u00eda, 10. Estrada-Maya, A., & Weber, B. (2022). Biog%u00e1s y bioetanol a partir de bagazo de agave sometido a explosi%u00f3n de vapor e hidr%u00f3lisis enzim%u00e1tica. Ingenier%u00eda Investigaci%u00f3n y Tecnolog%u00eda, 23(2), 1-10. https://doi.org/10.22201/fi.25940732e.2022.23.2.009 Alarc%u00f3n-Mart%u00ednez, G. A., BuitragoArias, C., Mart%u00ednez-Valerde, R., & Camacho-D%u00edaz, B. H. (2023). Producto de panificaci%u00f3n funcionalizado con fibras de bagazo impregnadas con c%u00farcuma. 3er Congreso Nacional y 1er Congreso Internacional Oaxaca, M%u00e9xico.%u00c1lvarez-Ch%u00e1vez, J., Villamiel, M., Santos-Zea, L., & Ram%u00edrezJim%u00e9nez, A. K. (2021). Agave By-Products: An Overview of Their Nutraceutical Value, Current Applications, and Processing Methods. Polysaccharides, 2(3), 720-743. https://doi.org/10.3390/polysaccharides2030044 Bermudez-Bazan, M., EstarronEspinosa, M., Castillo-Herrera, G. A., Escobedo-Reyes, A., Urias-Silvas, J. E., Lugo-Cervantes, E., & GschaedlerMathis, A. (2024). Agave angustifoliaHaw. Leaves as a Potential Source of Bioactive Compounds: Extraction Optimization and Extract Characterization. Molecules, 29(5). https://doi.org/10.3390/molecules29051137 C%u00e1mara Nacional de la Industria Tequilera. (2020).Carlos-Delgado, A. A. (2022). Desarrollo y evaluaci%u00f3n de un pan funcional tipo muffin a base de residuos de Agave salmianaadicionado con probi%u00f3ticos [Universidad Aut%u00f3noma Agraria Antonio Narro].Chairez-Aquino, J., Enr%u00edquez-delValle, J. R., Ru%u00edz-Luna, J., Campos%u00c1ngeles, G. V., & Mart%u00ednez-Garc%u00eda, R. (2015). Waste Pulp from Agavespp and Corn Leaves used to Growth the Mushroom Pleurotus ostreatus. Revista Mexicana de Agroecosistemas. 2(1), 23-28.Cheikh, R. B., Brahim, S. B., Baklouti, M., & Sassi, B. H. (1999). The agave fibers in composite materials. EcoleNationaled%u2019Ingenieurs de Tunis: Le Belv%u00e9d%u00e8re, Tunis (TUNISIA).Flores-M%u00e9ndez, D. A., Pelayo-Ortiz, C., Mart%u00ednez G%u00f3mez, %u00c1. d. J., Toriz, G., Guatemala-Morales, G. M., & Corona-Gonz%u00e1lez, R. I. (2023). Evaluation of Agave tequilana byproducts for microbial production of hyaluronic acid. Bioresource Technology Reports, 21. https://doi.org/10.1016/j.biteb.2023.101366 Garc%u00eda-Mendoza, A. J. (2007). Los Agaves de M%u00e9xico. Ciencias (87), 14-23. Garcia-Villalba, W. G., RodriguezHerrera, R., Ochoa-Martinez, L. A., Rutiaga-Quinones, O. M., Lopez, M. G., Gallegos-Infante, J. A., BermudezQuinones, G., & Gonzalez-Herrera, S. M. (2023). Comparative study of four extraction methods of fructans (agavins) from Agave durangensis: Heat treatment, ultrasound, microwave and simultaneous ultrasound-microwave. Food Chemistry, 415, 135767. https://doi.org/10.1016/j.foodchem.2023.135767 G%u00f3mez-Guerrero, A. V., ValdezVazquez, I., Caballero-Caballero, M., Chi%u00f1as-Castillo, F., Alav%u00e9z-Ram%u00edrez, R., & Montes-Bernab%u00e9, J. L. (2018). CoDigestion of Agave angustifolia Haw bagasse and vinasses for biogas production from mezcal industry. Revista Mexicana de Ingenier%u00eda Qu%u00edmica, 18(3), 1073-1083. https://doi.org/10.24275/uam/izt/dcbi/revmexingquim/2019v18n3/Gomez Guerra-Medina, C. E., Monta%u00f1ezValdez, O. D., Ley-de-Coss, A., Reyes-Guti%u00e9rrez, J. A., G%u00f3mez-Pe%u00f1a, J. E., Mart%u00ednez-Tinajero, J. J., & PintoRuiz, R. (2015). Alternative sources of fiber in complete diets for sheep in intensive fattening. Quehacer cient%u00edfico en Chiapas, 10(1). Guti%u00e9rrez, L., Aguirre, L., Ort%u00edz, B., Lima, R., Rodr%u00edguez, Z., Gonz%u00e1lez, A., & El%u00edas, A. (2019). Nutritional assessment of bagasse of Agave fourcroydes (henequen) for use in animal feed. Bosques Latitud Cero, 10(1), 29-38. Hern%u00e1ndez-Hern%u00e1ndez, E., Soriano-Corral, F. 2020. Fibra de Agave y Pl%u00e1sticos. Una pareja vers%u00e1til y prometedora para diversas aplicaciones. Nota del 25 Agosto del 2020. https://ciqa.mx/FibraAgavePla.aspxHoz-Zavala, M. E., & Nava-Diguero, P. (2017). Los residuos de agave como factor de corrosi%u00f3n del suelo donde se vierten. Revista de Desarrollo Tecnol%u00f3gico 1(2), 11-24.Huerta-Cardoso, O., DurazoCardenas, I., Longhurst, P., & EncinasOropesa, A. (2022). %u201cFilm-stacking method as an alternative Agave tequilana fibre/PLA composite fabrication%u201d. Materials Today Communications, 31. https://doi.org/10.1016/j.mtcomm.2022.103853 Jim%u00e9nez-Ortega, L. A., Valdez-Baro, O., Bernal-Mill%u00e1n, M. J., Rivera-Salas, M. M., & Heredia-Basilio, J. (2024). Agave Byproducts: As Sources of Phytochemicals with Functional Activities and Their Management for Industrial Applications. Food Byproducts Management and Their Utilization (385-416). Krishnadev, P., Subramanian, K., Janaki-Janavi, G., Ganapathy, S., Lakshmanan, A. (2020). Synthesis and Characterization of Nano-fibrillated Cellulose Derived from Green Agave Americana L. Fiber. BioResources, 15(2), 2442-2458.Langhorst, A., Paxton, W., Bollin, S., Frantz, D., Burkholder, J., Kiziltas, A., & Mielewski, D. (2019). Heat-treated blue agave fiber composites. Composites Part B: Engineering 165, 712-724.Luna-Sol%u00eds, H. A., Ochoa-Martinez, L. A., Gonz%u00e1lez-Herrera, S. M., Rutiaga-Quinones, O. M., & Wong-Paz, J. E. (2024). Extraction of agavins from Agave durangensisleaves: Structural, thermal and techno-functional characterization. Food Bioscience, 57. https://doi.org/https://doi.org/10.1016/j.fbio.2023.103563 M%u00e1rquez-Rangel, I., Cruz, M., Ruiz, H. A., Rodr%u00edguez-Jasso, R. M., Loredo, A., & Belmares, R. (2023). Agave waste as a source of prebiotic polymers: Technological applications in food and their beneficial health effect. Food Bioscience, 56. https://doi.org/10.1016/j.fbio.2023.103102 Mart%u00ednez-Herrera, R.R., Alem%u00e1nHuerta, M.E., Flores-Rodr%u00edguez, P., Almaguer-Cant%u00fa, V., ValenciaV%u00e1zquez, R., Rosas-Flores, W., Medrano-Rold%u00e1n, H., OchoaMart%u00ednez, L.A., & Rutiaga-Qui%u00f1ones, O.M. (2021a). Utilization of Agave durangensis leaves by Bacillus cereus 4N for polyhydroxybutyrate (PHB) biosynthesis. International Journal of Biological Macromolecules. 175. https://doi.org/10.1016/j.ijbiomac.2021.01.167Mart%u00ednez-Herrera, R.E., RutiagaQui%u00f1ones, O. & Alem%u00e1n-Huerta, M.E. (2021b). Integration of Agave plants into the polyhydroxybytyrate (PHB) production: A gift of the Aztecs to the current bioword. Industrial Crops & Products. 174. https://doi.org/10.1016/j.indcrop.2021.114188 Moreno-Anguiano, O., Cloutier, A., Rutiaga-Qui%u00f1ones, J. G., Wehenkel, C., Rosales-Serna, R., Rebolledo, P., Hern%u00e1ndez-Pacheco, C. E., & CarrilloParra, A. (2022). Use of Agave durangensis Bagasse Fibers in the Production of Wood-Based Medium Density Fiberboard (MDF). Forests, 13(2). https://doi.org/10.3390/f13020271 Palomo-Briones, R., L%u00f3pez-Guti%u00e9rrez, I., Islas-Lugo, F., Galindo-Hern%u00e1ndez, K. L., Mungu%u00eda-Aguilar, D., Rinc%u00f3nP%u00e9rez, J. A., Cort%u00e9s-Carmona, M. %u00c1., Alatriste-Mondrag%u00f3n, F., & Razo-Flores, E. (2017). Agave bagasse biorefinery: processing and perspectives. Clean Technologies and Environmental Policy, 20(7), 1423-1441. https://doi.org/10.1007/s10098-017-1421-2 REFERENCIAS