F1 hybrid inviability in Eucalyptus: the case of E. ovata × E. globulus

Lopez, Gustavo A; Potts, Brad M.; Tilyard, Paul

doi:10.1046/j.1365-2540.2000.00739.x

Cited by 53 publications

(66 citation statements)

References 26 publications

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“…The phylogenetic relationships between the species affected hybridization success, with intraseries crosses producing more hybrid seedlings than interseries and intersectional crosses. Lopez et al (2000) found that in E. ovata # E. globulus hybrids, there was a significant reduction in hybrid fitness relative to the parents, with not only seedling deformity but also progressive mortality in young trees over time. This means that even though hybrids have been formed here and can be identified at early stages for further development, there is still no guarantee of their longterm survival, let alone horticultural merit.…”

Section: Discussionmentioning

confidence: 98%

“…The long time to flowering can also make the morphological assessment of hybridity in offspring difficult or, at best, a long-term prospect, especially where there are longer-term problems with hybrid fitness and survival (Lopez et al 2000) or where the ratio of male to female parental dominance alternates within the first few years (Bouvet andVigneron 1995, 1996), although predictive parental contribution based on multivariate morphological assessments is possible for some features (Baril et al 1997a(Baril et al , 1997b. The current study found that at least for the seedling stage, the hybrid offspring with E. gillii as the mother were either intermediate or tended to resemble the mother (crosses with E. orbifolia and E. transcontinentalis), whereas nearly all the female E. socialis crosses showed apparent early maternal dominance.…”

Section: Discussionmentioning

confidence: 99%

See 1 more Smart Citation

Interspecific Hybridization within Eucalyptus (Myrtaceae): Subgenus Symphyomyrtus, Sections Bisectae and Adnataria

Delaporte

Conran

Sedgley³

2001

International Journal of Plant Sciences

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The potential for interspecific hybridization within the genus Eucalyptus was investigated through controlled pollination and measurement of seedling leaf morphology. Eucalyptus gillii and E. socialis (subgen. Symphyomyrtus sect. Bisectae ser. Subulatae) were used as the female parents, and pollen was sourced from 16 Eucalyptus species from a number of series within sections Bisectae and Adnataria (subgen. Symphyomyrtus). Thirty-four out of 36 crosses produced seeds; however, the percentage of seeds produced per flower pollinated varied considerably between crosses, as did germination percentage and seedling survival. At 3 mo of age, all surviving seedlings were measured for 15 leaf and stem characters. Multivariate analysis (ordination) of the data from each cross placed the seedlings in relation to their parents, with most crosses intermediate, albeit closer to the maternal parent. Successful hybridization occurred within sect. Bisectae ser. Subulatae and between ser. Subulatae and sect. Bisectae ser. Kruseanae, ser. Levispermae, ser. Curviptera, ser. Erectae and sect. Adnataria ser. Heterophloiae. In contrast, crosses between sect. Bisectae ser. Subulatae and sect. Adnataria ser. Aquilonares and ser. Melliodorae did not produce hybrids. Crosses between closely related species showed a greater degree of success than those between distant crosses, as did those between species with similar flower size.

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Section: Discussionmentioning

confidence: 98%

Section: Discussionmentioning

confidence: 99%

Interspecific Hybridization within Eucalyptus (Myrtaceae): Subgenus Symphyomyrtus, Sections Bisectae and Adnataria

Delaporte

Conran

Sedgley³

2001

International Journal of Plant Sciences

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“…Research has shown that both first-and advanced-generation hybrid breakdowns are common in Eucalyptus (Potts and Dungey 2003; and can be effective barriers to inter-specific gene flow (Potts and Wiltshire 1997). For example, F 1 hybrids between E. ovata and E. globulus, a species closely related to E. nitens, showed poor survival by flowering age, compared with the pure species (Lopez et al 2000b). Furthermore, while these two species overlap in their flowering time, the flowering of their F 1 hybrid does not overlap with either species (Lopez et al 2000a).…”

Section: Discussionmentioning

confidence: 99%

Gene flow between introduced and native Eucalyptus species: exotic hybrids are establishing in the wild

Barbour¹,

Potts²,

Vaillancourt³

2003

Aust. J. Bot.

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Abstract. F 1 hybrids between exotic Eucalyptus nitens plantations and native E. ovata have previously been reported among seedlings grown from open-pollinated seed collected from E. ovata, on the island of Tasmania. Such exotic hybrid seedlings have now been found in the wild adjacent to plantations at three locations. The proportion of exotic hybrids in open-pollinated seed collected from nearby mature E. ovata was 5.5%. This level compares with only 0.4% for natural hybrids between native species at these sites (E. ovata, E. viminalis and E. rodwayi). Detection of hybrids was initially based on their deviant morphology, which was generally intermediate between parental species. This subjective classification was then successfully verified by morphometric and allozyme analyses. Pure E. nitens seedlings (wildlings) were restricted to within 30 m of these plantations, whereas established hybrids were found up to 310 m from the plantations. This pattern of establishment reflects dispersal of exotic seed and pollen respectively. It is likely that the recent expansion of the eucalypt plantation estate in Australia will cause an increase in the frequency of exotic hybrids. However, the long-term impact of such hybridisation is yet to be assessed. B T 0 3 0 1 6 G e n e f l o w b e t w e e n i n t r o d u c e d a n d n a t i v e e u c a l y p t s R . C . B a r b o u r e t a l .

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“…Inbreeding depression is commonly observed in fitness related traits associated with survival, reproduction and growth, and is believed to arise through two main non-mutually exclusive mechanisms: firstly dominance, whereby inbreeding unmasks deleterious recessive or partially recessive alleles; and secondly, whereby inbreeding increases homozygosity at loci exhibiting overdominance (Charlesworth and Charlesworth, 1987;Lande and Schemske, 1985). From an evolutionary and conservation perspective, inbreeding depression is important as it will initially lower population fitness, resulting in a phase where small populations of normally outbred species are more susceptible to ecological or genetic displacement (Ellstrand and Elam, 1993;Lopez et al, 2000). However, such selection may eventually result in the purging of deleterious alleles from populations surviving bottlenecks (Klekowski, 1988).…”

Section: Introductionmentioning

confidence: 99%

“…This is certainly the case in the predominantly Australian genus Eucalyptus where, across the 23 species tested, outcrossing rates in the wild average 74% (Byrne, 2008;Potts and Wiltshire, 1997). The few eucalypt species studied to date have all shown significant inbreeding depression on traits related to fitness, not only following controlled selfing (Griffin and Cotterill, 1988;Hardner and Potts, 1995;Hardner and Tibbits, 1998;Lopez et al, 2000), but also in offspring derived from open-pollinated seed collected from the wild (see previous citations; Hodge et al, 1996;Volker, 2002). However, the limited number of founder parents used in these studies would limit their power for evaluating the effects of inbreeding, particularly on observational variance components.…”

Section: Introductionmentioning

confidence: 99%

Effects of inbreeding on population mean performance and observational variances in Eucalyptus globulus

Silva¹,

Hardner²,

Tilyard³

et al. 2010

Ann. For. Sci.

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Abstract• Mean performance and variances were studied in self (SELF), open pollinated (OP) and unrelated polymix (POL) crosses of common parentage in Eucalyptus globulus.• Inbreeding depression for survival (SURV) and basal area per hectare (BAH) was the highest reported for a SELF eucalypt population, increasing with age to reach 74 and 77%, respectively, over 10 years.• Inbreeding depression in the OP was 36% for SURV and 32% for BAH at age 10 years, and estimates of outcrossing rate from BAH were stable across ages, averaging 0.56. In contrast, OP inbreeding depression for stem diameter (DBH) of survivors decreased with age and few selfs appeared to survive to 10 years.• There was more variation in DBH between and within SELF than POL families, with variance ratios consistent with rare and partially recessive deleterious alleles causing inbreeding depression.• The OP variances were initially more similar to the SELF population but converged to the POL population after 10 years.• It is argued that when outcrossing rates are low, as in the present case, inbreeding depression will be a significant force countering local adaptation in forest trees.

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F1 hybrid inviability in Eucalyptus: the case of E. ovata × E. globulus

Cited by 53 publications

References 26 publications

Interspecific Hybridization within Eucalyptus (Myrtaceae): Subgenus Symphyomyrtus, Sections Bisectae and Adnataria

Interspecific Hybridization within Eucalyptus (Myrtaceae): Subgenus Symphyomyrtus, Sections Bisectae and Adnataria

Gene flow between introduced and native Eucalyptus species: exotic hybrids are establishing in the wild

Effects of inbreeding on population mean performance and observational variances in Eucalyptus globulus

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