Abstract
To determinate self-compatible genotypes for increasing autogamy yielded, the ten sunflower genotypes were sown under four pollination methods i.e., open-, self-, hand- and sib-pollinations in a randomized complete block design replicated thrice at Kafr-El-Hamam Agricultural research Station, Sharkia Governorate, Agricultural Research Center, Egypt during 2018 and 2019 summer seasons. Significant variation existed for different pollination treatments, genotypes and their interactions for all studied traits. Among the treatments, open pollination followed by sibbing one was regarded as the best pollination treatment for head diameter, number of filled seeds per head, percentage of seed setting , kernel to hull ratio, seed mass per plant, seed yield per fed and seed oil content. Autogamy studies revealed that ‘L120’ followed by ‘L92’ and ‘L880’ recorded higher proportion of autogamy and self-compatibility. Preferred improvement of seed mass per plant may be achieved through selecting genotypes having the largest head diameter, bigger number of filled seeds per head, the highest proportion of seed setting and the heaviest seed, kernel and hull mass as proven by high phenotypic and genotypic coefficient of variation and high heritability coupled with high genetic advance (as % of mean) as well as correlation and path analyses at both phenotypic and genotypic levels.
Highlights
Sunflower is a major oilseed crop in the world after soybean and groundnut
The interactions of year with pollination methods and with genotypes had insignificant effect on the performance of all studied traits. This indicated that the pollination methods and tested sunflower genotypes had the same ranks from year to another
This indicated that climatic conditions of two years had the same effect on pollination methods and tested sunflower genotypes, it was ignored in discussion
Summary
Sunflower is a major oilseed crop in the world after soybean and groundnut. Sunflower as cross-pollinated crops, which almost dependent on pollinating insects and wind for increasing seed yield. Only pollinating insects and winds are not sufficient to cause maximum seed yield and quality. The major challenge of plant breeder is to determinate self-compatible genotypes for increasing autogamy or selfing yielded in the absence of pollinating insects. Self-compatible genotypes have higher yields than self-incompatible ones, when bees are not abundant. Cultivating self-compatible genotypes with high yielding ability offer a great opportunity to improve seed yield and oil quality of sunflower
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
