Abstract
Schima superba Gardn. et Champ. is a perennial, evergreen tree valued for its eco-protection and commercial values in China. In this study, we investigate the breeding system, reproductive ecology and pollination biology of S. superba in a seed orchard. The flowers are hermaphrodite and protogynous. The viability of the pollen is inactivated rapidly, and the stigma maintains a high receptivity within the flower lifespan. Flowers typically offer pollen and nectar to visitors. The flowers possess a typical insect pollination syndrome, and three visitors (Apis cerana cerana Fabricius, Protaetia brevitarsis Lewis, and Popillia mutans Newman) are observed on flowers during the study period. The visitation frequency per minute and capability of pollen removal and deposition of A. cerana are significantly higher than P. brevitarsis and P. mutans, although the pollinator efficiency is lower than those shown by the two beetles. Fruit set (28.27%) and seed set (6.57%) percentages resulting from open-pollination are significantly lower than those resulting from cross-pollination (fruit/seed set, 43.73%/11.66%), and the pollen limitation index (L) was 0.34, suggesting that seed production is pollen-limited in the seed orchard. The pollen/ovule ratio (P/O) and outcrossing index (OCI) values are 6686.67 and 4, respectively. The self-incompatibility index (ISI) was estimated to be 0.95. Results from hand-pollination, pollen tube growth experiments and the ISI value show that S. superba is late-acting self-incompatible. The synthetic results indicate that A. cerana is the most efficient pollinator of S. superba, and seed production is frequently limited by pollinators, fruit abortion, and pollen quality.
Highlights
Breeding systems are important and often neglected aspects of reproductive biology; the main research content includes floral characteristics, pollination and mating systems [1]
The floral biology, pollination pattern, and behavior are closely related to reproductive fitness and are subjected to strong selective forces [2]
The breeding system of S. superba is characterized as late-acting self-incompatible
Summary
Breeding systems are important and often neglected aspects of reproductive biology; the main research content includes floral characteristics, pollination and mating systems [1]. The floral biology, pollination pattern, and behavior are closely related to reproductive fitness and are subjected to strong selective forces [2]. The reproductive success of plants is often limited by lack of pollination, mate availability and fecundity and mate limitation [3]. Flower arrangement and reward availability within plants are important factors that influence mating success [4]. The timing of pollen presentation and stigma receptivity at both the individual and population levels may strongly correlate with mate availability, and species with long flowering periods may avoid pollination limitation and reproductive deficit as a consequence of an increased overlap with insect activity [5]. Individuals with hermaphrodite flowers may resort to self-pollination, which leads to maximum seed setting but minimum genetic variation in their offspring [6]
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