Your search keyword '"pollinisation anémophile"' showing total 2 results

1. Distance-dependent but genetically random mating in a Japanese beech ( Fagus crenata) population.

Author

Inanaga, Michiko, Nakanishi, Atsushi, Torimaru, Takeshi, Nishimura, Naoyuki, and Tomaru, Nobuhiro

Subjects

*BEECH, *PLANT genetics, *MICROSATELLITE repeats, *POLLINATION, *INBREEDING, *TREES, *PLANTS

Abstract

In plant populations, limited seed dispersal may generate the aggregation of related individuals, which is referred to as spatial genetic structure (SGS). If short-distance pollination frequently occurs in populations with SGS, it may lead to frequent mating between related individuals (biparental inbreeding). In this study, we examined patterns of pollen dispersal and inbreeding under such conditions in a population of the wind-pollinated tree species Fagus crenata Blume using microsatellite analyses of adult trees and dispersed seeds. The population showed weak but significant SGS and the pollen dispersal in the population involved a combination of distance-dependent (largely short-range) dispersion at the local scale and long-distance transport. Although SGS and distance-dependent pollination co-occurred, individual inbreeding coefficients for both adults and seeds were almost zero, suggesting that mating generating sound seeds was genetically random with little or no inbreeding, probably because of the weak SGS, long-distance pollen dispersal, and postpollination mechanisms including self-incompatibility and inbreeding depression. The production of sound seeds through genetically random mating may be important for maintaining F. crenata populations because the resulting seedlings may be less affected by inbreeding depression than those resulting from the mating of related individuals. [ABSTRACT FROM AUTHOR]

Published

2014

2. Impacts of forest fragmentation on the reproductive success of white spruce (Picea glauca).

Author

O'Connell, Lisa M., Mosseler, Alex, and Rajora, Om P.

Subjects

*CONIFERS, *GYMNOSPERMS, *INBREEDING, *REPRODUCTION, *BREEDING, *WHITE spruce, *SPRUCE, *POLLINATION, *PLANT fertilization

Abstract

The fragmentation of forests into small, isolated remnants may reduce pollen quantity and quality in natural plant populations. The reproductive success of white spruce (Picea glauca (Moench) Voss) was assessed in a landscape fragmented by agriculture in northern Ontario, Canada. We sampled a total of 23 stands and 104 white spruce trees from three different stand size classes. Each sampled stand was separated by 250–3000 m from the nearest neighbouring stand. Reproductive success, measured as the number of filled seeds per cone, increased with stand size. The total number of seeds per cone, a measure that includes both filled and aborted seeds, also increased with stand size, suggesting that pollen receipt limits the number of seeds in a cone. The proportion of empty seeds (postzygotic abortions) was highest in the two smallest stand size classes, suggesting that inbreeding levels were also highest in these stands. We detected no difference in germination success, seedling growth, and growth of trees up to 10 years from seeds produced by trees from different stand size classes. These results suggest that inbred individuals are largely eliminated during the seed development stage. We estimated that a threshold population size of 180 trees is needed to reduce the negative effects of pollen limitation and inbreeding and maintain seed yields observed in large contiguous stands. [ABSTRACT FROM AUTHOR]

Published

2006