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Fatty acid desaturases (FADs) play a pivotal role in the accumulation of oils in plant seeds. To elucidate the role of FADs in oil accumulation in the seeds of Xanthoceras sorbifolium , this study employed bioinformatics analysis methods to identify and analyze the FAD gene family. A total of 25 XsFAD genes were unevenly distributed across 11 chromosomes. Systematic phylogenetic analysis revealed that the XsFAD gene family is divided into three branches, with each branch exhibiting similar gene structures. The regulatory elements within the XsFAD gene promoter indicate that XsFAD genes are regulated by multiple factors. Quantitative real-time polymerase chain reaction (qRT-PCR) validation revealed a positive correlation between the expression levels of XsFAD genes and the oil content of X. sorbifolium . By conducting phenotypic measurements of the X. sorbifolium fruit and seeds, as well as quantitative analysis of the XsFAD gene expression, it has been preliminarily identified that the Liudong-5 variety may poseess the potential to be developed into a high-yield oil-producing variety, which may be related to the habitat of the X. sorbifolium germplasm and requires further investagation. In summary, this study provides a foundational understanding of the FAD gene family of X. sorbifolium , and the research outcomes will contribute to the theoretical basis for the selection of high-yielding oil varieties of X. sorbifolium in the Xinjiang region, as well as further genetic breeding and cultivation system studies.

Rocky slopes lack the necessary conditions for plant growth, i.e., soil and water, making vegetation recovery difficult and necessitating artificial soil conditions for vegetation establishment. Water-retaining agents are essential functional substances for constructing artificial soil on rocky slopes. In this study, the effect of water-retaining agents on the growth of artificial vegetation and soil nutrient loss was investigated by setting different application rates of water-retaining agents (10 g/m2, 20 g/m2, 30 g/m2, 40 g/m2, and 50 g/m2). Artificially simulated rocky slope conditions were achieved using the guest soil spraying technology after hanging the net, which provided support for the application of the water-retaining agent. Results showed that the contents of extractable nitrogen (EN), extractable phosphorus (EP), and extractable potassium (EK) in the soil, the number of plant individuals per unit area, plant height, and ground diameter of the water-retaining agent treatment were significantly higher than those of the control group (set up with no water retention as the control group, hereafter “CK”). By contrast, the nutrient content in the runoff fluid was significantly lower than that of CK. The application of the water-retaining agent significantly enhanced the soil’s ability to retain water and fertilizer, thus improving the growing environment and plant growth. Under the conditions of this experiment, the application rate of a 40 g/m2 water-retaining agent is reasonable from the perspectives of economic cost, soil nutrients, and plant growth.