Variation in allele frequencies in the outcross pollen pool of Eucalyptus regnans F. Muell. throughout a flowering season (original) (raw)
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Pollen flow in Eucalyptus grandis determined by paternity analysis using microsatellite markers
Tree Genetics & Genomes, 2007
Gene flow by pollen dispersal from forestry plantations containing introduced species, provenances or selected elite breeding material may impact on local native forest by changing the genetic diversity, introducing new genes or gene combinations, or causing the extinction of rare genotypes in adjacent native forest areas. Patterns of pollen flow can be used to assess the risk of genetic pollution of native forest areas from nearby plantations. Pollen flow in an artificial population of Eucalyptus grandis was estimated using molecular markers and paternity analysis. Microsatellite genotyping was used to identify pollen parents of progeny arrays from six mother trees. Of 329 progeny analysed, 178 (54%) were assigned to pollen parents within the population. Pollen parents located within the population were between 0-192 m from the respective mother trees, with an average pollination distance of 57.96 m. Pollination of mother trees was outcrossed, not by nearest neighbours, and displayed a preference for inter-provenance matings within the population. Progeny that could not be assigned pollen parents within the population (46%) were assumed to have resulted from pollen immigration from external sources. These pollen flow parameters provide useful information about the dynamics of pollen movement within E. grandis populations and may be used in risk assessment of gene flow from plantations to adjacent areas of native forest.
Low capsule and seed set is a major factor limiting seed production in Eucalyptus globulus seed orchards. Controlled pollination studies showed that the reproductive success (number of seeds produced per flower pollinated) was primarily determined by the female. We aimed to identify the factors contributing to the differences in reproductive success between female genotypes in terms of the physical and anatomical properties of the flower. We studied pairs of genotypes of high and low reproductive success from each of three races (Furneaux Group, Strzelecki Ranges and Western Otways) growing in a seed orchard. Controlled pollinations were performed on six females and along with flower physical measurements, pollen tube growth and seed set were assessed. Overall tree reproductive success was positively correlated with flower size, ovule numbers, style size, cross-sectional area of conductive tissue within the style (all of which were intercorrelated) and the proportion of pollen tubes reaching the bottom of the style. Significant positive correlations of reproductive success and flower physical properties between different ramets of the same genotypes across seasons suggests a genetic basis to the variation observed. The majority of pollen tube attrition occurred within the first millimetre of the cut style and appeared to be associated with differences in style physiology. When examined as pairs within races the difference in reproductive success for the Western Otways pair was simply explained by differences in flower size and the number of ovules per flower. Physical features did not differ significantly for the Strzelecki Ranges pair, but the proportion of pollen tubes reaching the bottom of the style was lower in the less reproductively successful genotype, suggesting an endogenous physiological constraint to pollen tube growth. The difference in reproductive success between the females from the Furneaux Group was associated with a combination of these factors.
Conservation Genetics, 2008
Pollen dispersal was investigated in five remnant populations of Eucalyptus wandoo, a dominant insect-pollinated tree in the fragmented agricultural region of southern Western Australia. Paternity analysis using six microsatellite loci identified a pollen source for 45% of seedlings, and the remainder were assumed to have arisen from pollen sources outside the stands. Outcrossing was variable, ranging from 52 to 89%, and long distance pollen dispersal was observed in all populations with up to 65% of pollen sourced from outside the populations over distances of at least 1 km. Modelling dispersal functions for pollination events within the two larger populations showed little difference between the four two-parameter models tested and indicated a fat-tailed dispersal curve. Similarity of direct and indirect historical estimates of gene flow indicates maintenance of gene flow at levels experienced prior to fragmentation. The study revealed extensive long distance pollen dispersal in remnant patches of trees within a fragmented agricultural landscape in the southern temperate region and highlighted the role of remnant patches in maintaining genetic connectivity at the landscape scale.
Scientific Reports
Reproductive synchronicity within a seed orchard facilitates gene exchange and reduces self-fertilisation. Here we assessed key flowering traits, biomass and foliar 1,8-cineole concentrations of Eucalyptus loxophleba (subsp. lissophloia and gratiae) in an open-pollinated seed orchard. Monthly flowering observations were made on 1142 trees from 60 families and nine provenances across 2 years. The percentage of trees flowering in both years was similar at 87%. There were differences between provenances and families within provenances for flowering traits, biomass and 1,8-cineole and interactions between provenances and year for flowering traits. Heritability of start and end flowering, and 1,8-cineole were high to moderate ($$\hat{h}^{2}$$ h ^ 2 = 0.75–0.45) and duration of flowering, propensity to flower and biomass estimates were moderate to low ($$\hat{h}^{2}$$ h ^ 2 = 0.31–0.10). Genetic and phenotypic correlations between flowering traits were high (rg = 0.96–0.63 and rp = 0.93...
Pollen management and controlled pollination in Eucalyptus urophylla
Journal of Natural and Agricultural Sciences, 2021
The genus Eucalyptus has shown great potential for the establishment of commercial forest plantations, it is one of the most widely planted worldwide, it is planted in different regions of the planet, which indicates its ability to adapt to various environmental conditions. Eucalyptus urophylla is a species of this genus that adapts to tropical and subtropical regions, in suitable sites it can achieve high growth rates. It is one of the species with the most research in breeding programs in the world, mainly due to its capacity to hybridize naturally, since it generates populations with high genetic diversity, coupled with its ability to reproduce asexually. In Mexico, the breeding programs for Eucalyptus urophylla are in the initial phase, although plantations are already managed under clonal silviculture, controlled crossing are just beginning, so pollen management and crossing techniques are the most important activities in these programs. Since there is currently no information ...
Temporal pollen pattern in temperate trees: expedience or fate?
Oikos, 2012
European forests are populated with a variety of wind-pollinated tree species. Their pollen productivity and spatio-temporal pattern are largely unknown. Long-term data (17 years) collected at 22 sites across Austria were presented and the pollen production of 12 tree genera was analysed. We ranked the tree genera according to their pollen productivity taking actual tree abundances of the Austrian Forestry Inventory into account. The productivity varied strongly among tree genera with a maximum for Betula. Pollen production in Larix, Abies and Picea amounted to approximately 1/20, while in increasing order Salix, Quercus, Alnus, Populus and Fraxinus produced approximately 1/3 to 1/4 of the respective Betula estimate. In general, pollen quantity in broadleaves was higher than in conifers. We analysed the temporal pollen production pattern by means of hierarchical cluster analysis and identified three major groups: [(Fagus, Larix, Picea, Abies), (Alnus, Betula, Fraxinus)], [Carpinus], [Populus, Salix, Pinus, Quercus]. Distance matrices based on life-history traits as well as molecular phylogeny were also constructed; they correlated significantly with each other by means of Mantel-tests. However, there was no significant relationship between the distances on temporal pollen production with the other matrices. Intermittent or idiosyncratic pollen production was studied by means of deviation from expected means, skewness and spindle diagrams. We proposed that Fagus, Carpinus, Larix, Picea and Abies belong to 'masting pollen producers', while the remaining genera idiosyncratically produced pollen over the monitored period. Moreover we correlated the distance matrix of pollen production for each tree genus at each sampling site with respective 'ecological distance matrices' based on aerial and altitudinal distance among sites. Significant correlations were detected for tree genera (Fagus, Larix, Picea) which were also prone to pollen masting, thus indicating a Moran effect.
Genetic control of flowering time in Eucalyptus globulus ssp. globulus
Tree Genetics & Genomes, 2011
Understanding the factors affecting variation in phenology within a species is important as flowering time constitutes one of the major barriers to gene flow. We studied the genetic and environmental control of flower initiation and anthesis time in E. globulus ssp. globulus. For 5 years, flower initiation and anthesis were monitored in a seed orchard containing clones of 63 genotypes from four different regions of the species' natural distribution. Anthesis occurred over a long period each year, spanning as much as 9 months in 2008. This variation was under strong genetic control with little genotype by year interaction (broad-sense heritability, Ĥ 2 =0.78±0.04). There were highly significant differences among regions; anthesis occurred earlier for Furneaux and Tasmania than Strzelecki and Otways each year. Surprisingly though, there was little variation in flower initiation time between regions and genotypes, and this was under weak genetic control (Ĥ 2 = 0.06±0.05). The average anthesis time in the orchard varied from year to year, and there was evidence that heat sum was a major driver of this environmental variation. Anthesis time is controlled by both genetic and environmental factors, with the responses to each being predictable to some extent, and unrelated to the timing of flower initiation.
Heredity, 2012
The study of the dispersal capability of a species can provide essential information for the management and conservation of its genetic variability. Comparison of gene flow rates among populations characterized by different management and evolutionary histories allows one to decipher the role of factors such as isolation and tree density on gene movements. We used two paternity analysis approaches and different strategies to handle the possible presence of genotyping errors to obtain robust estimates of pollen flow in four European beech (Fagus sylvatica L.) populations from Austria and France. In each country one of the two plots is located in an unmanaged forest; the other plots are managed with a shelterwood system and inside a colonization area (in Austria and France, respectively). The two paternity analysis approaches provided almost identical estimates of gene flow. In general, we found high pollen immigration (B75% of pollen from outside), with the exception of the plot from a highly isolated forest remnant (B50%). In the two unmanaged plots, the average within-population pollen dispersal distances (from 80 to 184 m) were higher than previously estimated for beech. From the comparison between the Austrian managed and unmanaged plots, that are only 500 m apart, we found no evidence that either gene flow or reproductive success distributions were significantly altered by forest management. The investigated phenotypic traits (crown area, height, diameter and flowering phenology) were not significantly related with male reproductive success. Shelterwood seems to have an effect on the distribution of within-population pollen dispersal distances. In the managed plot, pollen dispersal distances were shorter, possibly because adult tree density is three-fold (163 versus 57 trees per hectare) with respect to the unmanaged one.
Long-distance pollen flow and tolerance to selfing in a neotropical tree species
Molecular Ecology, 2004
Outcrossing rates, pollen dispersal and male mating success were assessed in Dicorynia guianensis Amshoff, a neotropical tree endemic to the Guiana shield. All adult trees within a continuous area of 40 ha (n = 157) were mapped, and were genotyped with six microsatellite loci. In addition, progenies were genotyped from 22 mature trees. At the population level, the species was mostly outcrossing (t m = 0.89) but there was marked variation among individuals. One tree exhibited mixed mating, confirming earlier results obtained with isozymes that D. guianensis can tolerate selfing. A Bayesian extension of the fractional paternity method was used for paternity analysis, and was compared with the neighbourhood method used widely for forest trees. Both methods indicated that pollen dispersal was only weakly related to distance between trees within the study area, and that the majority (62%) of pollen came from outside the study stand. Using maximum likelihood, male potential population size was estimated to be 1119, corresponding to a neighbourhood size of 560 hectares. Male mating success was, however, related to the diameter of the stem and to flowering intensity assessed visually. The mating behaviour of D. guianensis is a combination of long-distance pollen flow and occasional selfing. The species can still reproduce when it is extremely rare, either by selfing or by dispersing pollen at long distances. These results, together with the observation that male mating success was correlated with the size of the trees, could be implemented in management procedures aiming at regenerating the species.