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Germinación; cebado; hidrocebado; micronutrientes;

Bastow EL, Garcia de la Torre VS, Maclean AE, Green RT, Merlot S, Thomine S y Balk J. 2018. Vacuolar iron stores gated by NRAMP3 and NRAMP4 are the primary source of iron in germinating seeds. Plant Physiology 177(3):1267-1276.

Behera B, Kancheti M, Raza MB, Shiv A, Mangal V, Rathod G, Altaf MA, Kumar A, Aftab T, Kumar R, Tiwari RK, Lal MK, and Singh B. 2023. Mechanistic insight on boron-mediated toxicity in plant vis-a-vis its mitigation strategies: a review. International Journal of Phytoremediation 25(1):9-26.

Camacho-Cristóbal JJ, Rexach J y González-Fontes A. 2008. Boron in plants: deficiency and toxicity. Journal of Integrative Plant Biology 50(10):1247-1255.

Caroca R, Zapata N y Vargas M. 2016. Efecto de la temperatura sobre la germinación de cuatro genotipos de maní (Arachis hypogaea L.). Chilean Journal of Agricultural & Animal Sciences 32(2):94-101.

Culpan E y Gürsoy M. (2023). Effects of different boron doses on germination, seedling growth and relative water content of linseed (Linum usitatissimum L.). Selcuk Journal of Agriculture and Food Sciences 37(2): 389-397.

Dhaliwal SS, Sharma V, Shukla AK, Verma V, Kaur M, Shivay YS, Nisar S, Gaber A, Brestic M, Barek V, Skalicky M, Ondrisik P y Hossain A. 2022. Biofortification—a frontier novel approach to enrich micronutrients in field crops to encounter the nutritional security. Molecules 27(4):1340.

Farooq M, Wahid A y Siddique KHM. 2012. Micronutrient application through seed treatments: a review. Journal of Soil Science and Plant Nutrition 12(1):125-142.

Forti C, Shankar A, Singh A, Balestrazzi A, Prasad V y Macovei A. 2020. Hydropriming and biopriming improve Medicago truncatula seed germination and upregulate DNA repair and antioxidant genes. Genes 11(3):242.

Gajalakshmi R, Chitdeshwari T, Maragatham S y Ravikesavan R. 2022. Seed priming with different levels and sources of zinc on the seed germination and seedling growth of barnyard millet (Echinocola frumentacea). Journal of Applied and Natural Science 14(3):876-884.

Grillet L, Mari S y Schmidt W. (2014). Iron in seeds – loading pathways and subcellular localization. Frontiers in Plant Science 4: 535.

Hu FQ, Jiang SC, Wang Z, Hu K, Xie YM, Zhou L, ... y Du B. (2022). Seed priming with selenium: Effects on germination, seedling growth, biochemical attributes, and grain yield in rice growing under flooding conditions. Plant Direct 6(1): e378.

Ikram N, Ghaffar A, Khan A, Nawaz F y Hussain A. (2025). Optimizing iodine seed priming for enhanced yield and biofortification of tomato. Journal of Soil Science and Plant Nutrition.

Jan AU, Hadi F, Ditta A, Suleman M y Ullah M. 2022. Zinc-induced anti-oxidative defense and osmotic adjustments to enhance drought stress tolerance in sunflower (Helianthus annuus L.). Environmental and Experimental Botany 193:104682.

Jatana BS, Grover S, Ram H y Baath GS. 2024. Seed priming: molecular and physiological mechanisms underlying biotic and abiotic stress tolerance. Agronomy 14(12):2901.

Jisha KC, Vijayakumari K y Puthur JT. (2013). Seed priming for abiotic stress tolerance: an overview. Acta Physiologiae Plantarum 35: 1381-1396.

Kabata-Pendias A. (2012). Trace Elements in Soils and Plants. Fourth Edition. Taylor & Francis Group. CRC Press. 533 pp. U.S.A.

Khaliq A, Aslam F, Matloob A, Hussain S, Geng M, Wahid A y Rehman H. (2015). Seed priming with selenium: Consequences for emergence, seedling growth, and biochemical attributes of rice. Biological Trace Element Research 166: 236-244.

Krzepi?ko A, ?wi?ci?o A y Zych-W??yk I. 2021. The antioxidant properties and biological quality of radish seedlings biofortified with iodine. Agronomy 11(10):2011.

León-Morales Jm, Panamá-Raymundo W, Langarica-Velázquez Ec y García-Morales S. 2019. Selenio y vanadio en la germinación y el crecimiento de plántulas de chile (Capsicum annuum L.) y rábano (Raphanus sativus). Revista Bio Ciencias 6:e425.

Majda C, Khalid D, Aziz A, Rachid B, Badr AS, Lotfi A y Mohamed B. 2019. Nutri-priming as an efficient means to improve the agronomic performance of molybdenum in common bean (Phaseolus vulgaris L.). Science of the Total Environment 661:654-663.

Medrano-Macías J, Leija-Martínez P, González-Morales S, Juárez-Maldonado A y Benavides-Mendoza A. (2016). Use of iodine to biofortify and promote growth and stress tolerance in crops. Frontiers in Plant Science 7: 1146.

Miransari M y Smith DL. 2014. Plant hormones and seed germination. Environmental and Experimental Botany 99:110-121.

Moharana A, Mohanty S, Lenka D, Nayak RK, Jena SN, Satapathy M y Jyothi GBN. 2023. Effect of seed priming and coating with boron and molybdenum on seed physiological quality and seed yield of groundnut (Arachis hypogaea L.). The Pharma Innovation Journal 12(1):1021-1026.

Morales-Hernández LY, Márquez-Quiroz C, Aguilar-Sánchez NC, Alvarado-López CJ, de la Cruz-Lázaro E y Morales-Morales AE. 2024. Selenium treatment enhances the germination and growth of corn seedlings. Revista Bio Ciencias 11:e1618.

Nautiyal PC, Sivasubramaniam K y Dadlani M. (2023). Seed dormancy and regulation of germination. Seed Science and Technology 52: 39-66.

Nciizah AD, Rapetsoa MC, Wakindiki II y Zerizghy MG. 2020. Micronutrient seed priming improves maize (Zea mays) early seedling growth in a micronutrient deficient soil. Heliyon 6(8):e04766.

Okla MK, Akhtar N, Alamri SA, Al-Qahtani SM, Ismail A, Abbas ZK, Al-Ghamdi AA, Qahtan AA, Soufan WH, Alaraidh IA, et al. (2021). Potential importance of molybdenum priming to metabolism and nutritive value of Canavalia spp. sprouts. Plants 10: 2387.

Pandey SN. 2018. Biomolecular functions of micronutrients toward abiotic stress tolerance in plants. En: Hasanuzzaman M, Fujita M, Oku H, Nahar K y Hawrylak-Nowak B (eds.) Plant nutrients and abiotic stress tolerance. Springer Singapur. pp. 153-170.

Paparella S, Araújo SS, Rossi G, Wijayasinghe M, Carbonera D y Balestrazzi A. 2015. Seed priming: state of the art and new perspectives. Plant Cell Reports 34(8):1281-1293.

Prom-u-thai C, Rerkasem B, Yazici A y Cakmak I. (2012). Zinc priming promotes seed germination and seedling vigor of rice. Journal of Plant Nutrition and Soil Science 175(3): 482-488.

Rana MS, Bhantana P, Sun XC, Imran M, Shaaban M, Moussa MG, Saleem MH, Elyamine AM, Binyamin R, Alam M, Afzal J, Khan I, Din IU, Ahmad I, Younas M, Kamran M y Hu CX. 2020. Molybdenum as an essential element for crops: an overview. International Journal of Scientific & Technical Research 24(5):18535-18547.

Rehman AU, Farooq M, Cheema ZA y Wahid A. 2013. Role of boron in leaf elongation and tillering dynamics in fine-grain aromatic rice. Journal of Plant Nutrition 36(1):42-54.

Rehman HU, Farooq M, Hussain M y Basra SM. (2022). Rice seed and seedling priming. In: Modern Techniques of Rice Crop Production. Springer, Singapore, pp. 43-57.

Roschzttardtz H, Gaymard F y Dubos C. (2020). Transcriptional regulation of iron distribution in seeds: A perspective. Frontiers in Plant Science 11: 725.

Singh NB, Singh D y Singh A. 2015. Biological seed priming mitigates the effects of water stress in sunflower seedlings. Physiology and Molecular Biology of Plants 21: 207-214.

Veena M y Puthur JT. (2022). Seed nutripriming with zinc is an apt tool to alleviate malnutrition. Environmental Geochemistry and Health 44(8): 2355-2373.

Wang L, Liu B, Wang Y, Qin Y, Zhou Y y Qian H. 2020. Influence and interaction of iron and lead on seed germination in upland rice. Plant and Soil 455:187-202.