Mating system analysis in Pinus leucodermis Ant.: detection of self-fertilization in natural populations

Morgante, Michèle; Vendramin, G. G.; Olivieri, A. M.

doi:10.1038/hdy.1991.80

Cited by 16 publications

(9 citation statements)

References 30 publications

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“…(1989). This also occurs in other species (Farris & Mitton, 1984;Morgante et al, 1991). Thus, genotype frequencies between generations of adult plants can be more similar than between adult plants and their seedling progenies depending upon the genetically and/or environmentally variable outcrossing rate.…”

Section: Data Inmentioning

confidence: 93%

Non-random mating in a Secale cereale L. (rye) population

et al. 1994

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The mating system in an experimental population of rye (Secale cereale L.) cv. Merced was studied using eight polymorphic isozyme loci as genetic markers and two progeny samples from a large population: 20 emasculated mother plants (obligately cross-pollinating) and 100 non-emasculated mother plants. Merced rye showed a significant frequency of self-fertilization (s 1 -t) in a previous generation, but in the generation under study the outcrossing frequency was not significantly different from t 1. This fact suggests that environmental factors can affect the rate of outcrossing vs. selfing (self-fertilization). In spite of the outcrossing rate of t = 1, the large progenies from emasculated plants (100 seeds per plant) demonstrated that pollination was not completely at random. This represents a violation of the generally accepted mixed-mating model on which most methods used to estimate mating parameters are based. Temporal heterogeneity and the differential ability of gametophytes to fertilize are possible causes of the non-randomness of mating. It is concluded that, although violations of the assumption of the mixed-mating model can bias the estimates, most of the estimated outcrossing values clearly differ from complete outcrossing.

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Section: Data Inmentioning

confidence: 93%

Non-random mating in a Secale cereale L. (rye) population

et al. 1994

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“…However, a certain level of biparental inbreeding is common as shown by differences between the multilocus estimate of outcrossing and the average of the single-locus estimate using progeny arrays (e.g. Pinus sylvestris [10], Pinus attenuata [11], Pinus washoensis [30], Pinus contorta [31], Pinus leucodermis [32]). Low genetic relatedness within a stand is usually caused by selection due to strong inbreeding depression or extensive gene flow [17].…”

Section: Discussionmentioning

confidence: 99%

Selfing and sibship structure in a two-cohort stand of maritime pine (Pinus pinaster Ait.) using nuclear SSR markers

González‐Martínez

Gerber²,

Cervera

et al. 2003

Ann. For. Sci.

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-The genetic relatedness between pairs of trees was analyzed in an adult stand of maritime pine with abundant advanced natural regeneration using three highly polymorphic microsatellites (EP > 90%). Only five possible self-pollinated offspring were found, thus meaning a maximum selfing rate based on dispersed progeny of 3.8%. Likelihood ratios were used to detect sib relationships in both mature trees and natural regeneration. The percentage of half-sib and full-sib links in the adult trees was 19.09% and 1.82%, respectively, thus indicating a low level of genetic relatedness due to sib relationships (» 3%). Similar results were obtained for the natural regeneration but with a higher percentage of full-sibs (2.37%) and a greater family size. A high amount of pollen gene flow from outside the plot is suggested to explain the low genetic relatedness found. Collection of seedlots in this stand seems adequate as a low level of inbreeding is expected.

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“…It has been demonstrated in a previous study (Morgante et at., 1991) that Pinus leucodermis Ant., a conifer with a discontinuous and restricted distribution in southern Europe, is characterized by much higher levels of self-fertilization than those usually found in conifers and that the partial selling results in positive fixation indices in the dormant embryo (zygote) stage, but not in the adult parental trees. The present study was therefore undertaken to determine the stage of elimination of inbreds in seedlings of this species.…”

Section: *Correspondencementioning

confidence: 49%

“…Selfing rates of 28 and 18 per cent (s = 1 -tm) were estimated for the 1985 seed cohort in La Spina and Pollinello populations, respectively (Table 1) (Morgante et a!., 1991) (Franklin, 1970), this relation was not obvious in our samples under the adopted experimental conditions.…”

Section: Resultsmentioning

confidence: 97%

Selection against inbreds in early life-cycle phases in Pinus leucodermis Ant.

et al. 1993

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Conifers are self-compatible hermaphroditic plants which usually show very low levels of selfing and severe inbreeding depression. Positive fixation indices are observed in the seed stage owing to partial selfing but not in the adult stage and selection against inbreds has been frequently invoked to explain this observation. To determine the stage of elimination of inbreds in Pinus leucoderinis Ant., a narrow-ranged and relic species characterized by 18-28 per cent selling rates, fixation indices at isozyme gene loci were estimated in nursery grown individuals at three different juvenile life-cycle phases and in adult parent trees. Two populations with different levels of selfing were studied. In both populations a deficiency of heterozygotes as a result of selfing was observed in dormant and in germinated embryos, while an excess of heterozygotes comparable with that of the adult trees was found in 5-year-old plantlets. Young plantlets of the same two populations grown in the wild also had negative fixation indices confirming that selection takes place in the first years of growth.

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Mating system analysis in Pinus leucodermis Ant.: detection of self-fertilization in natural populations

Cited by 16 publications

References 30 publications

Non-random mating in a Secale cereale L. (rye) population

Non-random mating in a Secale cereale L. (rye) population

Selfing and sibship structure in a two-cohort stand of maritime pine (Pinus pinaster Ait.) using nuclear SSR markers

Selection against inbreds in early life-cycle phases in Pinus leucodermis Ant.

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