共查询到20条相似文献,搜索用时 93 毫秒
1.
Inoue Mizuki Michimasa Yamasaki Takehiko Kakutani Yuji Isagi 《Journal of Insect Conservation》2010,14(2):191-198
The genetic diversity of bumblebees can be adversely affected by habitat degradation. An overabundance of deer has altered
the composition and diversity of herbaceous plants in many places of the world, resulting in decreases of herbaceous flowers.
Populations of Bombus diversus may be strongly affected by this degradation of habitat in the Ashiu primary beech forest in Kyoto, Japan. To estimate the
effects of deer browsing on B. diversus populations, we analyzed and compared the genetic diversity of the extant population in Ashiu to museum specimens collected
prior to heavy deer browsing in Ashiu (1980s) and the extant population in Hyonosen primary beech forest in Tottori, Japan,
which has not been as severely degraded by deer. We successfully amplified DNA from ~20-year-old museum specimens and determined
the genetic diversity of B. diversus in Ashiu populations from the 1980s. Results were analyzed for indications of a bottleneck as well as estimates of N
e, allelic richness, rare allelic richness, expected heterozygosity, and the effective number of alleles. Our findings did
not reveal clear evidence of degradation in genetic diversity of the extant Ashiu population compared to the museum specimens
or to the Hyonosen population. Thus, the Ashiu population of B. diversus appears to have maintained a level of genetic diversity during 20 years irrespective of habitat degradation and the levels
have been similar to that of the Hyonosen population. 相似文献
2.
M. Wang G. Lang A. Schreiber 《Journal of Zoological Systematics and Evolutionary Research》2002,40(4):232-236
DNA‐microsatellite polymorphism (four loci) was studied in 56 male roe deer (Capreolus capreolus) from a 900‐ha hunting territory in the Vosges du Nord Mountains (France), culled over 34 years (1956–1990). Changed allele frequencies at two loci within this period, and increased allelic diversity, were traced to a phase of reduced population density and subsequent immigration. Decadic population samples collected within 900‐ha were distinguished by higher genetic variability measures than were certain geographical samples across Central Europe (4–900 km). On average, the decadic cohorts were distinguished by a gene diversity index of GST = 0.0286, and a genetic distance of D = 0.0938, which reflect 54% (GST) and 69% (D) of the respective geographic (350 km) differentiation indices of roe deer in Central Europe. The importance of demography and population ecology effects for microevolution in a large mammal is demonstrated, as is the risk of artefact by composing population samples of deer over several years. Population genetic screening should cover various demes of roe deer from the same general region, and be based on many unlinked polymorphic loci, to minimize the distorting effects of genetic dynamics at the small spatial scale. 相似文献
3.
While population declines can drive the loss of genetic diversity under some circumstances, it has been unclear whether this loss is a general consequence of overharvest in highly abundant marine fishes. We compiled data from 11 049 loci across 140 species and found that allelic richness was lower in overfished populations within 9 of 12 genera and families. A multiple linear regression showed that allelic richness was on average 12% lower (P < 0.0001) in overharvested populations after accounting for the effects of body size, latitude and other factors. Heterozygosity was on average 2% lower (P = 0.030). Simulations confirmed that these patterns are consistent with a recent bottleneck in abundant species and also showed that our analysis likely underestimates the loss of rare alleles by a factor of two or three. This evidence suggests that overharvest drives the decay of genetic diversity across a wide range of marine fishes. Such reductions of genetic diversity in some of the world's most abundant species may lead to a long‐term impact of fishing on their evolutionary potential, particularly if abundance remains low and diversity continues to decay. 相似文献
4.
Erin K. McClelland Tobi J. Ming Amy Tabata Karia H. Kaukinen Terry D. Beacham Ruth E. Withler Kristina M. Miller 《Molecular ecology》2013,22(18):4783-4800
The major histocompatibility complex (MHC), an important component of the vertebrate immune system, provides an important suite of genes to examine the role of genetic diversity at non‐neutral loci for population persistence. We contrasted patterns of diversity at the two classical MHC loci in sockeye salmon (Oncorhynchus nerka), MHC class I (UBA) and MHC class II (DAB), and neutral microsatellite loci across 70 populations spanning the species range from Washington State to Japan. There was no correlation in allelic richness or heterozygosity between MHC loci or between MHC loci and microsatellites. The two unlinked MHC loci may be responding to different selective pressures; the distribution of FST values for the two loci was uncorrelated, and evidence for both balancing and directional selection on alleles and lineages of DAB and UBA was observed in populations throughout the species range but rarely on both loci within a population. These results suggest that fluctuating selection has resulted in the divergence of MHC loci in contemporary populations. 相似文献
5.
Helena Persson Björn Widén Stefan Andersson Linus Svensson 《Plant Systematics and Evolution》2004,244(3-4):157-179
Corylus avellana L. (hazel, Betulaceae) is a long-lived, widespread shrub in Europe, having its northern range margin in Fennoscandia and a postglacial history involving range-expansion from refugial areas in southern Europe. In this study, we tested for a relationship between marginality and low within-population genetic diversity by assessing patterns of variation at 14 putatively neutral allozyme loci (comprising 43 putative alleles) within and between 40 natural populations of C. avellana along a north-south transect in Europe. Geographically marginal populations (central Sweden) showed lower levels of within-population diversity than populations in more central regions, as indicated by significant negative correlations between latitude and the percentage of polymorphic loci (rS=–0.47, P < 0.001), the average number of alleles per locus (rS=–0.65, P < 0.001), the expected heterozygosity (rS=–0.19, P < 0.05), and the proportion of distinguishable genotypes (rS=–0.56, P < 0.001). These patterns, combined with the unusually high between-population component of gene diversity (GST=19.7%) and allelic richness (AST=24%) in the marginal region, can be attributed to historical bottlenecks during the species postglacial range-expansion, but may also reflect a history of genetic drift in the small, isolated populations occupying the marginal region. Information on the spatial distribution of genotypes provide further support for a role of vegetative reproduction (layering) in the structuring of genetic variation within populations. 相似文献
6.
Jose Alexandre Felizola Diniz-Filho Rosane Garcia Collevatti Thannya Nascimento Soares Mariana Pires de Campos Telles 《Genetica》2012,140(4-6):189-195
The analysis of geographical patterns in population divergence has always been a powerful way to infer microevolutionary processes involved in population differentiation, and several approaches have been used to investigate such patterns. Most frequently, multivariate spatial patterns of population differentiation are analyzed by computing pairwise genetic distances or FST (or related statistics, such as ?ST from AMOVA), which are then correlated with geographical distances or landscape features. However, when calculating distances, especially based on presence-absence of alleles in local populations, there would be a confounding effect of allelic richness differences in the population differentiation. Moreover, the relative magnitude of these components and their spatial patterns can help identifying microevolutionary processes driving population differentiation. Here we show how recent methodological advances in ecological community analyses that allows partitioning dissimilarity into turnover (turnover) and richness differences, or nestedness-resultant dissimilarity, can be applied to allelic variation data, using an endemic Cerrado tree (Dipteryx alata) as a case study. Individuals from 15 local populations were genotyped for eight microsatellite loci, and pairwise dissimilarities were computed based on presence-absence of alleles. The turnover of alleles among populations represented 69?% of variation in dissimilarity, but only the richness difference component shows a clear spatial structure, appearing as a westward decrease of allelic richness. We show that decoupling richness difference and turnover components of allelic variation reveals more clearly how similarity among populations reflects geographical patterns in allelic diversity that can be interpreted in respect to historical range expansion in the species. 相似文献
7.
Silver fir presently occurs in many mountainous regions of eastern, western, southern and Central Europe. In order to elucidate the biogeographic history of fir populations in different European areas, the distribution of area-specific alleles at eight enzyme loci and the allele frequency distributions at seven polymorphic enzyme loci were investigated in seed or bud samples from 48 provenances comprising 98 single stands. Due to great genetic divergence among different populations located near the ancient glacial retreats, it was concluded that silver fir survived in five refugia during the last glaciation but migrated from only three refugia to its present natural range. The occurrence of unique alleles in particular fir areas indicated its migratory routes to the north and the existence of a few introgression zones where silver fir from different refugia has met during its expansion. 相似文献
8.
E. CREMER S. LIEPELT F. SEBASTIANI A. BUONAMICI I. M. MICHALCZYK B. ZIEGENHAGEN G. G. VENDRAMIN 《Molecular ecology resources》2006,6(2):374-376
Eleven polymorphic nuclear microsatellite markers for Abies alba Mill. were developed from an enriched genomic library. An average of 5.2 alleles per locus and a mean expected heterozygosity of 0.532 were found in a sample of 24 Abies alba individuals from different populations within Europe. These loci can be used in studies of genetic diversity for parentage analysis and for estimation of gene flow in silver fir populations. Moreover, successful amplifications were obtained for eight other Mediterranean Abies species, suggesting that these loci may be useful for similar applications in other fir species. 相似文献
9.
TINA KYNDT ANNELIES HAEGEMAN SABINE VAN GLABEKE INGE MAERTENS BART VAN DROOGENBROECK ISABEL ROLDN‐RUIZ GODELIEVE GHEYSEN 《Molecular ecology resources》2005,5(3):590-592
Nine polymorphic microsatellite loci were identified in the tropical plant Vasconcellea ×heilbornii and used to estimate allelic diversity in two populations of southern Ecuador. Allelic richness ranged from two to five alleles, observed heterozygosity ranged from 0.150 to 0.947 and expected heterozygosity ranged from 0.186 to 0.701. Most of these markers also amplified microsatellite loci in two other Vasconcellea species (Vasconcellea stipulata and Vasconcellea cundinamarcensis). Hence, these markers will be useful for population genetic analysis and the evaluation of genetic diversity and gene flow in these species. 相似文献
10.
11.
Human activities such as fragmentation and selective logging of forests can threaten population viability by modification
of ecological and genetic processes. Using six microsatellite markers, we examined the effects of forest fragmentation and
local disturbance on the genetic diversity and structure of adult trees (N = 110) and seedlings (N = 110) of Prunus africana in Kakamega Forest, western Kenya. Taking samples of adults and seedlings allowed for study of changes in genetic diversity
and structure between generations. Thereby, adults reflect the pattern before and seedlings after intensive human impact.
Overall, we found 105 different alleles in the six loci examined, 97 in adults and 88 in seedlings. Allelic richness and heterozygosity
were significantly lower in seedlings than in adults. Inbreeding increased from adult tree to seedling populations. Genetic
differentiation of adult trees was low (overall F
ST = 0.032), reflecting large population sizes and extensive gene flow in the past. Genetic differentiation of seedlings was
slightly higher (overall F
ST = 0.044) with all of the 28 pairwise F
ST-values being significantly different from zero. These results suggest that human disturbance in Kakamega Forest has significantly
reduced allelic richness and heterozygosity, increased inbreeding and slightly reduced gene flow in P. africana in the past 80–100 years. 相似文献
12.
Population structure and migration of the Tobacco Blue Mold Pathogen,Peronospora tabacina,into North America and Europe 下载免费PDF全文
Tobacco blue mold, caused by Peronospora tabacina, is an oomycete plant pathogen that causes yearly epidemics in tobacco (Nicotiana tabacum) in the United States and Europe. The genetic structure of P. tabacina was examined to understand genetic diversity, population structure and patterns of migration. Two nuclear loci, Igs2 and Ypt1, and one mitochondrial locus, cox2, were amplified, cloned and sequenced from fifty‐four isolates of P. tabacina from the United States, Central America–Caribbean–Mexico (CCAM), Europe and the Middle East (EULE). Cloned sequences from the three genes showed high genetic variability across all populations. Nucleotide diversity and the population mean mutation parameter per site (Watterson's theta) were higher in EULE and CCAM and lower in U.S. populations. Neutrality tests were significant and the equilibrium model of neutral evolution was rejected, indicating an excess of recent mutations or rare alleles. Hudson's Snn tests were performed to examine population subdivision and gene flow among populations. An isolation‐with‐migration analysis (IM) supported the hypothesis of long‐distance migration of P. tabacina from the Caribbean region, Florida and Texas into other states in the United States. Within the European populations, the model documented migration from North Central Europe into western Europe and Lebanon, and migration from western Europe into Lebanon. The migration patterns observed support historical observations about the first disease introductions and movement in Europe. The models developed are applicable to other aerial dispersed emerging pathogens and document that high‐evolutionary‐risk plant pathogens can move over long distances to cause disease due to their large effective population size, population expansion and dispersal. 相似文献
13.
Oscar J. Rocha Jean‐Yves Meyer David Westcott Ania M. Wieczorek 《Diversity & distributions》2012,18(2):147-157
Aim To explore the potential of genetic processes and mating systems to influence successful plant invasions, we compared genetic diversity of the highly invasive tropical treelet, Miconia calvescens, in nine invasive populations and three native range populations. Specifically, we tested how genetic diversity is partitioned in native and invaded regions, which have different invasion histories (multiple vs. single introductions). Lastly, we infer how levels of inbreeding in different regions impact invasion success. Location Invaded ranges in the Pacific (Hawaii, Tahiti, New Caledonia) and Australia and native range in Costa Rica. Methods Genetic diversity was inferred by analysing variation at nine microsatellite loci in 273 individuals from 13 populations of M. calvescens. Genetic structure was assessed using amova , isolation by distance (IBD) within regions, a Bayesian clustering approach, and principal coordinates analysis. Results Microsatellite analysis revealed that invaded regions exhibit low levels of allelic richness and genetic diversity with few private alleles. To the contrary, in the native range, we observed high levels of allelic richness, high heterozygosity and 78% of all private alleles. Surprisingly, despite evident genetic bottlenecks in all invasive regions, similarly high levels of inbreeding were detected in both invasive and native ranges (FIS: 0.345 and 0.399, respectively). Bayesian clustering analysis showed a lack of geographical structure in the Pacific and evidence of differing invasion histories between the Pacific and Australia. While Pacific populations are derived from a single introduction to the region, multiple introductions have taken place in Australia from different source regions. Main conclusions Multiple introductions have not resulted in increased genetic diversity for M. calvescens invasions. Moreover, similar inbreeding levels between native and invaded ranges suggests that there is no correlation between levels of inbreeding and levels of standing genetic diversity for M. calvescens. Overall, our results show that neither inbreeding nor low genetic diversity is an impediment to invasion success. 相似文献
14.
Elizabeth S. MacAvoy Lorna M. McGibbon James P. Sainsbury Hayley Lawrence Carol A. Wilson Charles H. Daugherty Geoffrey K. Chambers 《Conservation Genetics》2007,8(2):305-318
Tuatara (Sphenodon spp) populations are restricted to 35 offshore islands in the Hauraki Gulf, Bay of Plenty and Cook Strait of New Zealand.
Low levels of genetic variation have previously been revealed by allozyme and mtDNA analyses. In this new study, we show that
six polymorphic microsatellite loci display high levels of genetic variation in 14 populations across the geographic range
of tuatara. These populations are characterised by disjunct allele frequency spectra with high numbers of private alleles.
High F
ST (0.26) values indicate marked population structure and assignment tests allocate 96% of all individuals to their source populations.
These genetic data confirm that islands support genetically distinct populations. Principal component analysis and allelic
sequence data supplied information about genetic relationships between populations. Low numbers of rare alleles and low allelic
richness identified populations with reduced genetic diversity. Little Barrier Island has very low numbers of old tuatara
which have retained some relictual diversity. North Brother Island’s tuatara population is inbred with fixed alleles at 5
of the 6 loci. 相似文献
15.
Sylvain Ursenbacher Caren Alvarez Georg F. J. Armbruster Bruno Baur 《Conservation Genetics》2010,11(4):1265-1271
Understanding patterns of genetic structure is fundamental for developing successful management programmes for isolated populations
of threatened species. Trochulus caelatus is a small terrestrial snail endemic to calcareous rock cliffs in the Northwestern Swiss Jura Mountains. Eight microsatellite
loci were used to assess the effect of habitat isolation on genetic population structure and gene flow among nine populations
occurring on distinct cliffs. We found a high genetic differentiation among populations (mean F
ST = 0.254) indicating that the populations are strongly isolated. Both allelic richness and effective population size were
positively correlated with the size of the cliffs. Our findings support the hypothesis that T. caelatus survived on ice-free cliffs during the Pleistocene glacier advancements from the Alps. Due to the establishment of beech
and pine forest under recent, temperate climate conditions, dispersal between cliffs is no longer possible for rock-dwelling
snails such as T. caelatus. Our results provide basic data for developing a conservation action plan for this endangered gastropod species. 相似文献
16.
Elen Oneal David B. Lowry Kevin M. Wright Zhirui Zhu John H. Willis 《Molecular ecology》2014,23(11):2844-2860
Chromosomal rearrangement polymorphisms are common and increasingly found to be associated with adaptive ecological divergence and speciation. Rearrangements, such as inversions, reduce recombination in heterozygous individuals and thus can protect favourable allelic combinations at linked loci, facilitating their spread in the presence of gene flow. Recently, we identified a chromosomal inversion polymorphism that contributes to ecological adaptation and reproductive isolation between annual and perennial ecotypes of the yellow monkeyflower, Mimulus guttatus. Here we evaluate the population genetic structure of this inverted region in comparison with the collinear regions of the genome across the M. guttatus species complex. We tested whether annual and perennial M. guttatus exhibit different patterns of divergence for loci in the inverted and noninverted regions of the genome. We then evaluated whether there are contrasting climate associations with these genomic regions through redundancy analysis. We found that the inversion exhibits broadly different patterns of divergence among annual and perennial M. guttatus and is associated with environmental variation across population accessions. This study is the first widespread population genetic survey of the diversity of the M. guttatus species complex. Our findings contribute to a greater understanding of morphological, ecological, and genetic evolutionary divergence across this highly diverse group of closely related ecotypes and species. Finally, understanding species relationships among M. guttatus sp. has hitherto been stymied by accumulated evidence of substantial gene flow among populations as well as designated species. Nevertheless, our results shed light on these relationships and provide insight into adaptation in life history traits within the complex. 相似文献
17.
G. G. Vendramin B. Degen † R. J. Petit ‡ M. Anzidei A. Madaghiele B. Ziegenhagen§ 《Molecular ecology》1999,8(7):1117-1126
Based on two polymorphic chloroplast microsatellites that had been previously identified and sequence characterized in the genus Abies, genetic variation was studied in a total of 714 individuals from 17 European silver fir (Abies alba Mill.) populations distributed all over the natural range. We found eight and 18 different length variants at each locus, respectively, which combined into 90 different haplotypes. Genetic distances between most populations were high and significant. There is also evidence for spatial organization of the distribution of haplotypes, as shown by permutation tests, which demonstrate that genetic distances increase with spatial distances. A large heterogeneity in levels of diversity across populations was observed. Furthermore, there is good congruence in the levels of allelic richness of the two loci across populations. The present organization of levels of allelic richness across the range of the species is likely to have been shaped by the distribution of refugia during the last glaciation and the subsequent recolonization processes. 相似文献
18.
Rhododendron decorum is widely distributed shrub in southwest China, and its flower is a favorite food of the local people. To investigate the impacts of harvesting, we genotyped 8 nuclear microsatellite loci in a total of 247 individuals from 10 natural populations and 4 flower-harvesting populations. No significant differences in allelic richness, effective number of alleles, private allelic richness, heterozygosity and effective population size were found among the natural and flower-harvesting populations. Differentiation between the 14 populations is relatively low (FST = 0.107). R. decorum showed high levels of intra-population genetic diversity. AMOVA analysis indicated that over 89% of the variation was contained within the populations, and that only 0.47% of the variation was attributed by human harvesting practices. Cluster analysis revealed two basic clusters related to the plants' geographical locations. Our results indicate that historical flower-harvesting practices do not lead to loss of genetic variation in R. decorum. 相似文献
19.
Retention of agronomically important variation in germplasm core collections: implications for allele mining 总被引:1,自引:0,他引:1
Reeves PA Panella LW Richards CM 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2012,124(6):1155-1171
The primary targets of allele mining efforts are loci of agronomic importance. Agronomic loci typically exhibit patterns of
allelic diversity that are consistent with a history of natural or artificial selection. Natural or artificial selection causes
the distribution of genetic diversity at such loci to deviate substantially from the pattern found at neutral loci. The germplasm
utilized for allele mining should contain maximum allelic variation at loci of interest, in the smallest possible number of
samples. We show that the popular core collection assembly procedure “M” (marker allele richness), which leverages variation at neutral loci, performs worse than random assembly for retaining variation
at a locus of agronomic importance in sugar beet (Beta
vulgaris L. subsp. vulgaris) that is under selection. We present a corrected procedure (“M+”) that outperforms M. An extensive coalescent simulation
was performed to demonstrate more generally the retention of neutral versus selected allelic variation in core subsets assembled
with M+. A negative correlation in level of allelic diversity between neutral and selected loci was observed in 42% of simulated
data sets. When core collection assembly is guided by neutral marker loci, as is the current common practice, enhanced allelic
variation at agronomically important loci should not necessarily be expected. 相似文献
20.
Endangered species worldwide exist in remnant populations, often within fragmented landscapes. Although assessment of genetic
diversity in fragmented habitats is very important for conservation purposes, it is usually impossible to evaluate the amount
of diversity that has actually been lost. Here, we compared population structure and levels of genetic diversity within populations
of spotted suslik Spermophilus suslicus, inhabiting two different parts of the species range characterized by different levels of habitat connectivity. We used microsatellites
to analyze 10 critically endangered populations located at the western part of the range, where suslik habitat have been severely
devastated due to agriculture industrialization. Their genetic composition was compared with four populations from the eastern
part of the range where the species still occupies habitat with reasonable levels of connectivity. In the western region,
we detected extreme population structure (F
ST = 0.20) and levels of genetic diversity (Allelic richness ranged from 1.45 to 3.07) characteristic for highly endangered
populations. Alternatively, in the eastern region we found significantly higher allelic richness (from 5.09 to 5.81) and insignificant
population structure (F
ST = 0.03). As we identified a strong correlation between genetic and geographic distance and a lack of private alleles in the
western region, we conclude that extreme population structure and lower genetic diversity is due to recent habitat loss. Results
from this study provide guidelines for conservation and management of this highly endangered species. 相似文献