Population genetics of threatened wild plants in Japan

Maki, Masayuki

doi:10.1007/s10265-003-0083-9

Cited by 33 publications

(16 citation statements)

References 48 publications

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“…Genetic variation is nonrandomly distributed among populations and species (Nevo, ), with the distribution of alleles and genotypes over space and time often affected by numerous factors such as breeding system, seed dispersal mechanism, geographical range, life form and natural selection (Hamrick & Godt, ; Hamrick et al ., ; Maki, ; Meloni et al ., ).…”

Section: Discussionmentioning

confidence: 99%

Environmental determinants of genetic diversity inCaragana microphylla(Fabaceae) in northern China

et al. 2016

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The sand‐fixing shrub Caragana microphylla (Fabaceae) is extensively used for vegetation restoration in areas of northern China undergoing desertification. Although the understanding of its genetic variation and related determinants is an important component of plant conservation and ecological restoration in the face of a changing global environment, the relationship between genetic diversity in C. microphylla and climatic factors is unknown. In this study, we assessed population genetic variation in C. microphylla along temperature and humidity gradients in northern China using inter‐simple sequence repeat (ISSR) markers. In general, high levels of genetic diversity were uncovered in the 13 populations studied. The number of polymorphic loci ranged from 14 to 63 and polymorphism percentages ranged from 8.75 to 39.38%. Observed and effective allele numbers were 1.09–1.40 and 1.06–1.30, respectively. Nei's genetic diversity index (h) was calculated as 0.0340–0.1663 and Shannon's diversity index (I) was 0.0502–0.2403. At the species level, h and I were 0.2579 and 0.3965, respectively. Populations from low hydrothermal level areas, experiencing severe desertification and habitat fragmentation, exhibited the greatest genetic diversity. Genetic diversity in C. microphylla was positively correlated with annual temperature range, cold index, mean annual rainfall and hydrothermal synthesis index, whereas a negative association was found with mean annual temperature. Using redundancy analysis, we found that mean annual rainfall and cold index explained 87.8% of observed genetic variation, suggesting that genetic diversity in C. microphylla depends primarily on these two factors. Our data are relevant to the restoration and management of degraded ecosystems in arid and semiarid regions.

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Section: Discussionmentioning

confidence: 99%

Environmental determinants of genetic diversity inCaragana microphylla(Fabaceae) in northern China

et al. 2016

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“…Tests of these hypotheses have been limited by the large scales involved and by difficulties in quantifying the relevant parameters. For example, studies aimed at understanding plant distribution patterns often compare rare vs. common plants for suites of traits that are correlated to their status as rare or common, although most authors readily admit that generalized conditions of rarity or abundance are unlikely to be attributable to any one factor (Watson, 1833;Cruden, 1977;Karron, 1987;Murray et al, 2002;Maki, 2003;Lavergne et al, 2004Lavergne et al, , 2005Shapcott et al, 2005) As a result of these methodological difficulties, a general explanation for range size variation has yet to emerge.…”

Section: Introductionmentioning

confidence: 99%

“…The mating system of a species has also been correlated with the level of genetic diversity maintained in populations and across species (Levin, 1968;Carr & Fenster, 1994;Charlesworth & Charlesworth, 1995;Hamrick & Godt, 1996). Diploid species that self-fertilize tend to reduce the allelic diversity in a population and thus are associated with lower population-level genetic diversity (Hamrick & Godt, 1990;Maki, 2003;Pound et al, 2004). The consequences of mating system on genetic diversity in polyploids are less clear, because the features of selffertilization in diploids that would lead to fixation for alleles do not operate in the same way.…”

Section: Introductionmentioning

confidence: 99%

The biogeography of plant reproduction: potential determinants of species’ range sizes

Lowry¹,

Lester

2006

Journal of Biogeography

113

126

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Aim A major biogeographical hypothesis, the 'niche-breadth' hypothesis, explains species range sizes based on the extent of a species' niche (e.g. diversity of habitats occupied; range of environmental conditions tolerated). An alternative hypothesis explains range sizes using metapopulation theory (e.g. colonization dynamics; dispersal ability). Both niche breadth and colonization ability may be related to plant species' reproductive characteristics. We evaluate both hypotheses by examining the relationship of plant range size to mating system and genomic structure (ploidy status).Location Western North America.Methods Using a data set of 60 taxa in the genus Clarkia (Onagraceae), we use three analytical techniques to examine the effect of reproductive characteristics on range size. We conduct cross-species analyses of present-day taxa to examine both mating system and polyploidy in relation to range size. We also conduct a phylogenetically independent contrasts analysis (using caic software) on the relationship of mating system to range size in diploid species. Third, we compare closely related taxon pairs that differ in mating system as an alternative method to control for phylogeny. ResultsPolyploid species have significantly larger ranges compared with diploid species. When considering only diploid taxa, no significant relationship is found for mating system in both cross-species and phylogenetically independent contrasts analyses. The diploid pairwise analysis, comparing only the range sizes of direct sister taxa with alternative mating systems, does show a relationship, with outcrossing species having larger ranges than self-fertilizing species.Main conclusions We argue that genetic diversity, colonization ability, or a combination of both factors may influence plant species' range sizes. The significant pairwise analysis suggests that both the independent contrast and the cross-species analysis may be confounded by polytomies of species at the terminal nodes of the phylogeny, indicating the importance of comparing the results of multiple analytical techniques. We propose that the range sizes of self-fertilizing species have a bimodal distribution, obscuring the effect of mating system on range size, and that a broader survey of plant taxa will resolve the two modes from that of the outcrossing species. Lastly, polyploid species appear to show significantly larger range sizes than diploid species, irrespective of mating system.

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“…Identifying the factors that determine species' distributions can inform predictions of how ranges will respond to global change (Karron, 1987;Maki, 2003;Lavergne et al, 2005;Jiménez-Valverde et al, 2011). Key factors that are associated with plant range size include abiotic limitations, biotic interactions, and intrinsic species characteristics (e.g., mating system [Lowry and Lester, 2006;Johnson et al, 2014;Grossenbacher et al, 2015], genetic diversity [Karron, 1987;Pound et al, 2004], and functional traits [Walker et al, 1999;Díaz and Cabido, 2001]).…”

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confidence: 99%

Higher ploidy is associated with reduced range breadth in the Potentilleae tribe

Brittingham

Koski

Ashman

2018

American J of Botany

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Population genetics of threatened wild plants in Japan

Cited by 33 publications

References 48 publications

Environmental determinants of genetic diversity inCaragana microphylla(Fabaceae) in northern China

Environmental determinants of genetic diversity inCaragana microphylla(Fabaceae) in northern China

The biogeography of plant reproduction: potential determinants of species’ range sizes

Higher ploidy is associated with reduced range breadth in the Potentilleae tribe

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