Pollinator-mediated self-pollination and reproductive assurance in an isolated tree of Magnolia grandiflora L.

Abstract

Abstract Background The ability to produce seeds when pollinators or potential mates are scarce is one of the principal advantages of self-pollination in flowering plants. However, the role of pollinators mediating self-pollination to ensure seed set when pollen or potential mates are limited has received less attention. This study examined the reproductive consequences and involvement of pollinators in assuring seed set in an isolated tree of Magnolia grandiflora, a predominantly outcrossing species. Methods We tested various aspects of reproduction such as flower density, floral rewards, stigma receptivity, pollinator abundance and behaviour, fruit set and seed set, in two successive reproductive years (2015–2016). Results Flowers of M. grandiflora possess a suite of traits facilitating pollinator-mediated self-pollination (PMS), although the chances of autonomous self-pollination are reduced due to herkogamy, spatial separation of anther and stigma. The mean pollen production/flower was 5,152,289 ± 285,094 with a pollen-to-ovule ratio of 39430 ± 164. We found a significant positive correlation between number of visits and seed production for bees (r = 0.5099, p = 0.0007) and beetles (r = 0.7159, p = 0.00001), indicating these are effective at PMS. There was a significant negative correlation for thrips (r = – 0.3206, p = 0.044) and no correlation for flies or spiders. The percent fruit set was 100% and the seed set per ovule ranged between 19 and 20%. Conclusions PMS will guarantee reproductive assurance and mitigate the effect of reduced mates or pollen limitation which is expected to increase the fecundity and establishment of individual trees in geographically isolated locations.