Maize Genomics and Genetics 2025, Vol.16, No.1, 10-19 http://cropscipublisher.com/index.php/mgg 19 Revilla P., Anibas C., and Tracy W., 2021, Sweet corn research around the world 2015-2020, Agronomy, 11(3): 534. https://doi.org/10.3390/AGRONOMY11030534 Sadessa K., Beyene Y., Ifie B., Suresh L., Olsen M., Ogugo V., Wegary D., Tongoona P., Danquah E., Offei S., Prasanna B., and Gowda M., 2022, Identification of genomic regions associated with agronomic and disease resistance traits in a large set of multiple DH populations, Genes, 13(2): 351. https://doi.org/10.3390/genes13020351 Taş T., and Mutlu A., 2021, Morpho-physiological effects of environmental stress on yield and quality of sweet corn varieties (Zeamays L.), PeerJ, 9: e12613. https://doi.org/10.7717/peerj.12613 Uddin M., Akter F., Azam M., Bagum S., Hossain N., Billah M., Biswas P., Hasibuzzaman A., Khaldun A., Alsuhaibani A., Gaber A., and Hossain, A., 2023, Evaluation of inbred maize (Zeamays L.) for tolerance to low phosphorus at the seedling stage, Plants, 12(13): 2520. https://doi.org/10.3390/plants12132520 Wen W., Araus J., Shah T., Cairns, J., Mahuku G., Bänziger M., Torres J., Sánchez C., and Yan J., 2011, Molecular characterization of a diverse maize inbred line collection and its potential utilization for stress tolerance improvement, Crop Science, 51: 2569-2581. https://doi.org/10.2135/CROPSCI2010.08.0465 Yang L., Chi Y., Wang Y., Zeeshan M., and Zhou X., 2021, Gradual application of potassium fertilizer elevated the sugar conversion mechanism and yield of waxy and sweet fresh-eaten maize in the semiarid cold region, Journal of Food Quality, 6611124: 1-11. https://doi.org/10.1155/2021/6611124 Yang X.J., and Li Q., 2024, Influence of agronomic practices on maize protein and starch contents, Field Crop, 7(3): 158-170. https://doi.org/10.5376/fc.2024.07.0016 Ye D., Chen J., Yu Z., Sun Y., Gao W., Wang X., Zhang R., Zaib-Un-Nisa, Su D., and Muneer M., 2023, Optimal plant density improves sweet maize fresh ear yield without compromising grain carbohydrate concentration, Agronomy, 13(11): 2830. https://doi.org/10.3390/agronomy13112830 Zhang Y., Liu P., Zhang X., Zheng Q., Chen M., Ge F., Li Z., Sun W., Guan Z., Liang T., Zheng Y., Tan X., Zou C., Peng H., Pan G., and Shen Y., 2018, Multi-locus genome-wide association study reveals the genetic architecture of stalk lodging resistance-related traits in maize, Frontiers in Plant Science, 9: 611. https://doi.org/10.3389/fpls.2018.00611 Zheng Y., Hou P., Jia X., Zhu L., Zhao Y., Song W., Song W., and Guo J., 2023, Evaluation of the lodging resistance and the selection of identification indexes of maize inbred lines, Food and Energy Security, 12(5): e499. https://doi.org/10.1002/fes3.499
RkJQdWJsaXNoZXIy MjQ4ODYzNA==