PLoS ONE (Jan 2015)

Mixed Mating System Are Regulated by Fecundity in Shorea curtisii (Dipterocarpaceae) as Revealed by Comparison under Different Pollen Limited Conditions.

  • Naoki Tani,
  • Yoshihiko Tsumura,
  • Keita Fukasawa,
  • Tomoyuki Kado,
  • Yuriko Taguchi,
  • Soon Leong Lee,
  • Chai Ting Lee,
  • Norwati Muhammad,
  • Kaoru Niiyama,
  • Tatsuya Otani,
  • Tsutomu Yagihashi,
  • Hiroyuki Tanouchi,
  • Azizi Ripin,
  • Abdul Rahman Kassim

DOI
https://doi.org/10.1371/journal.pone.0123445
Journal volume & issue
Vol. 10, no. 5
p. e0123445

Abstract

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The maintenance of mixed mating was studied in Shorea curtisii, a dominant and widely distributed dipterocarp species in Southeast Asia. Paternity and hierarchical Bayesian analyses were used to estimate the parameters of pollen dispersal kernel, male fecundity and self-pollen affinity. We hypothesized that partial self incompatibility and/or inbreeding depression reduce the number of selfed seeds if the mother trees receive sufficient pollen, whereas reproductive assurance increases the numbers of selfed seeds under low amounts of pollen. Comparison of estimated parameters of self-pollen affinity between high density undisturbed and low density selectively logged forests indicated that self-pollen was selectively excluded from mating in the former, probably due to partial self incompatibility or inbreeding depression until seed maturation. By estimating the self-pollen affinity of each mother tree in both forests, mother trees with higher amount of self-pollen indicated significance of self-pollen affinity with negative estimated value. The exclusion of self-fertilization and/or inbreeding depression during seed maturation occurred in the mother trees with large female fecundity, whereas reproductive assurance increased self-fertilization in the mother trees with lower female fecundity.