Identification of QTL for reproductive success under heat stress conditions through a tomato MAGIC population

Heat stress threatens tomato productivity by reducing pollen viability, fruit set, and consequently, overall yield. While heat-tolerant traits are predominantly found in wild tomatoes, the introgression of heat tolerance into elite cultivars remains challenging due to linkage drag. To address this issue, the World Vegetable Center developed a Multi-parent Advanced Generation Inter-Cross (MAGIC) population, derived from crosses between four heat-tolerant and disease-resistant cultivars. Phenotypic evaluations revealed that fruit number accounted for approximately 57% of reproductive output, making it a critical selection index for heat tolerance. A total of 16,350 SNPs were developed for the MAGIC population, and genome-wide association studies (GWAS) identified 50 QTLs linked to the evaluated traits. Notably, three QTLs on chromosomes 1, 3 and 11 emerged as hubs influencing multiple reproductive traits, underscoring their critical role in heat tolerance. SL4.0CH11_47205149 associated with fruit number was converted into a Kompetitive Allele-Specific PCR (KASP) marker and validated for its significant association with yield. The identification of key QTLs and the prioritization of fruit number as a primary determinant of reproductive success offer valuable insights for targeted breeding strategies. HighlightNumber of fruits is crucial for selecting heat-tolerant tomatoes in open fields. A marker linked to high fruit production helps develop high-yielding tomatoes better suited to withstand climate change.