共查询到20条相似文献,搜索用时 31 毫秒
1.
《Biochemical Systematics and Ecology》2006,34(10):725-735
Genetic diversity and genetic differentiation of narrowly endemic Sinocalycanthus chinensis Cheng et S.Y. Chang, an endangered species of China, were analyzed using random amplified polymorphic DNA (RAPD) markers. Totally, 165 stable and clearly scored RAPD bands were achieved from 12 primers. The genetic diversity of S. chinensis was high (P% = 68.84; h = 0.2421 ± 0.1978; I = 0.3615 ± 0.2789), whereas that at the population level was relatively low (P% = 14.49; h = 0.0578 ± 0.0167; I = 0.0843 ± 0.0236). High genetic differentiation among populations was detected based on Shannon's information index (0.7668), Nei's gene diversity (0.7613) and AMOVA (0.8183). This might be explained by its survival in refugia during the last glaciation in southeastern China with origin from a widespread continental progenitor. The 10 populations from different geographical sites could be clustered into two groups. Low gene flow due to mixed mating system and anthropogenic activities likely played important roles in shaping the population genetic structure of the species. 相似文献
2.
S. Henrik Barmentlo Patrick G. Meirmans Sheila H. Luijten Ludwig Triest J. Gerard B. Oostermeijer 《Conservation Genetics》2018,19(3):545-554
Many species suffer from anthropogenic habitat fragmentation. The resulting small and isolated populations are more prone to extinction due to, amongst others, genetic erosion, inbreeding depression and Allee-effects. Genetic rescue can help mitigate such problems, but might result in outbreeding depression. We evaluated offspring fitness after selfing and outcrossing within and among three very small and isolated remnant populations of the heterostylous plant Primula vulgaris. We used greenhouse-grown offspring from these populations to test several fitness components. One population was fixed for the pin-morph, and was outcrossed with another population in the field to obtain seeds. Genetic diversity of parent and offspring populations was studied using microsatellites. Morph and population-specific heterosis, inbreeding and outbreeding depression were observed for fruit and seed set, seed weight and cumulative fitness. Highest fitness was observed in the field-outcrossed F1-population, which also showed outbreeding depression following subsequent between-population (back)crossing. Despite outbreeding depression, fitness was still relatively high. Inbreeding coefficients indicated that the offspring were more inbred than their parent populations. Offspring heterozygosity and inbreeding coefficients correlated with observed fitness. One population is evolving homostyly, showing a thrum morph with an elongated style and high autonomous fruit and seed set. This has important implications for conservation strategies such as genetic rescue, as the mating system will be altered by the introduction of homostyles. 相似文献
3.
Inbreeding is a major component of the mating system in populations of many plants and animals, particularly hermaphroditic species. In flowering plants, inbreeding can occur through self-pollination within flowers (autogamy), self-pollination between flowers on the same plant (geitonogamy), or cross-pollination between closely related individuals (biparental inbreeding). We performed a floral emasculation experiment in 10 populations of Aquilegia canadensis (Ranunculaceae) and used allozyme markers to estimate the relative contribution of each mode of inbreeding to the mating system. We also examined how these modes of inbreeding were influenced by aspects of population structure and floral morphology and display predicted to affect the mating system. All populations engaged in substantial inbreeding. On average, only 25% of seed was produced by outcrossing (range among populations = 9-37%), which correlated positively with both population size (r = +0.61) and density (r = +0.64). Inbreeding occurred through autogamy and biparental inbreeding, and the relative contribution of each was highly variable among populations. Estimates of geitonogamy were not significantly greater than zero in any population. We detected substantial biparental inbreeding (mean = 14% of seeds, range = 4-24%) by estimating apparent selfing in emasculated plants with no opportunity for true selfing. This mode of inbreeding correlated negatively with population size (r = -0.87) and positively with canopy cover (r = +0.90), suggesting that population characteristics that increase outcross pollen transfer reduce biparental inbreeding. Autogamy was the largest component of the mating system in all populations (mean = 58%, range = 37-84%) and, as expected, was lowest in populations with the most herkogamous flowers (r = -0.59). Although autogamy provides reproductive assurance in natural populations of A. canadensis, it discounts ovules from making superior outcrossed seed. Hence, high autogamy in these populations seems disadvantageous, and therefore it is difficult to explain the extensive variation in herkogamy observed both among and especially within populations. 相似文献
4.
The mating system of a plant is the prime determinant of its population genetic structure. However, mating system effects may be modified by postzygotic mechanisms like inbreeding depression. Furthermore, historical as well as contemporary ecological factors and population characteristics, like the location within the species range can contribute to genetic variability. Using microsatellite markers we assessed the population genetic structure of the wind-pollinated Juncus atratus in 16 populations from peripheral and nearly central areas of the distribution range and studied the mating system of the species. In three peripheral populations, outcrossing rates at seeds stage were low (mean t(m) = 5.6%), suggesting a highly autogamous mating system. Despite this fact, on adult stage both individual heterozygosity (mean H(O) = 0.48) and gene diversity (mean H(E) = 0.58) were high even in small populations. Inbreeding coefficients were consistently low among all populations (mean F(IS) = 0.15). Within the three peripheral populations indirect estimates of lifetime inbreeding depression were surprisingly high (delta(eq) = 0.96) and inbreeding depression could be shown to act mostly on early seedling establishment. Similar conditions of autogamy combined with high inbreeding depression are typical for plants with a large lifetime genomic mutation rate that cannot avoid selfing by geitonogamy. However, the results presented here are unexpected for small-statured, herbaceous plants. Substantial genetic differentiation among all populations was found (mean F(ST) = 0.24). An isolation-by-distance pattern was apparent on large scale but not on local scale suggesting that the overall pattern was largely influenced by historical factors, e.g. colonization, whereas locally genetic drift was of greater importance than gene flow. Peripheral populations exhibited lower genetic diversity and higher inbreeding coefficients when compared with subcentral populations. 相似文献
5.
Tiina Talve Kaili Orav Georgi Angelov Silvia Pihu ülle Reier Tatjana Oja 《Folia Geobotanica》2012,47(1):1-15
Genetic diversity is affected by breeding systems, life history traits and the distribution of species. Generally, inbred species with restricted geographic distribution have lower genetic variation compared to common outbreeding plant species. Rhinanthus osiliensis is a narrow endemic growing in calcareous spring fens on the island Saaremaa, Estonia. Presumably the closest congener of R. osiliensis is R. rumelicus, which is widely distributed in Eastern and Central Europe and the Balkan Peninsula. Isozymes were used to describe the mating system, levels of genetic variation and differentiation between the populations of R. osiliensis and R. rumelicus. Genetic diversity was found to be higher in widespread R. rumelicus compared to the endemic R. osiliensis. A significantly higher inbreeding coefficient with a low germination rate indicated substantial autogamy in R. osiliensis, whereas R. rumelicus displayed a mixed mating mode with a moderate inbreeding coefficient and a high germination rate. The low genetic differentiation between R. osiliensis and R. rumelicus confirmed their close affinity and the short evolutionary period of both taxa after the postglacial colonization. Considering the restricted geographic range and inbreeding in populations of R. osiliensis, this species may face a loss of genetic variation in the future. 相似文献
6.
The life of a colony of subterranean termites, such as Coptotermes formosanus Shiraki (Isoptera: Rhinotermitidae), has natural inbreeding and outbreeding cycles. Reproductives of mature colonies can
be replaced by their offspring, which increases the degree of inbreeding in each generation. High degrees of inbreeding may
lead to inbreeding depression. In this study we focused on mechanisms for inbreeding avoidance during swarming that do not
require kin recognition. We investigated genetic differentiation between swarm aggregations (isolation by distance), genetic
diversity within swarm aggregations (multiple colony origin) and genetic differentiation between sexes. Alates were collected
from five swarm aggregations in New Orleans, La. The genetic make-up of each swarm aggregation was then described by microsatellite
genotyping. Alates from the different swarm aggregations were genetically differentiated; however, no isolation by distance
up to at least 1000 m was detected. The dispersal distance of alates was sufficient to guarantee mixing of an average of 13
colonies within swarm aggregations. On average, eleven percent of all possible pairs of alates in each swarm aggregation were
putative full siblings. Genotypic frequencies differed significantly between males and females. This could not be explained
by sex-biased dispersal. We hypothesize sex-biased investment at the colony level to account for this difference. Genetic
differentiation between the sexes and dispersal distances sufficient to promote high genetic diversity within swarm aggregations
each facilitate inbreeding avoidance. These observations are consistent with the results of previous studies demonstrating
that the majority of simple family colonies in Louisiana populations are headed by unrelated and outbred pairs of reproductives.
Received 11 August 2005; revised 5 December 2005; accepted 20 December 2005. 相似文献
7.
群落演替对夏蜡梅种群分布和数量的影响 总被引:1,自引:0,他引:1
对夏蜡梅(Sinocalycanthus chinensis(Cheng et S.Y.Chang)Cheng et S.Y.Chang)所有分布地(浙江临安、天台和安徽绩溪)进行了详细调查,分析夏蜡梅种群面积、密度、结构和群落特征等,并与前人调查结果对比,阐明群落演替对夏蜡梅种群的影响。10余年来,由于国家相关政策的实施(退耕还林、天然林保护以及自然保护区的建立等)以及夏蜡梅分布地林地经营模式的改变,不同夏蜡梅群落呈现发展演替的不同状态,从而对夏蜡梅种群产生了显著影响。从群落类型来看,较为稳定的种群为大明山、西坑、白水坞、捣臼孔种群,种群结构为增长型或稳定型,群落处于乔木或顶级乔木阶段,原生植被保存较好,生境相对稳定,各物种在长期竞争中趋于稳定;直源种群为严重衰退的种群,群落经历了从灌丛阶段向灌乔阶段演化,原来同层次的常绿乔木逐渐形成密集的乔木层,郁闭度高,造成夏蜡梅生长不良甚至死亡,幼苗缺少或数量少,更新困难,此区域的夏蜡梅呈逐渐退化消亡趋势;而溪古坪、龙塘山种群所处群落正是属于这种群落演替的早期阶段,处于衰退过程中种群,不加人工干预也会逐渐退化;而双石边、经过坪等种群虽目前数量多,分布集中,更新良好,但变数最大,一旦人工干扰加剧或消除,则种群结构将快速发生变化,走向消亡的几率极大。该研究结果可为夏蜡梅保护提供科学依据。 相似文献
8.
Rachel B. Spigler J. L. Hamrick Shu-Mei Chang 《Plant Systematics and Evolution》2010,284(3-4):131-140
Understanding how the mating system varies with population size in plant populations is critical for understanding their genetic and demographic fates. We examined how the mating system, characterized by outcrossing rate, biparental inbreeding rate, and inbreeding coefficient, and genetic diversity varied with population size in natural populations of the biennial Sabatia angularis. We found a significant, positive relationship between outcrossing and population size. Selfing was as high as 40% in one small population but was only 7% in the largest population. Despite this pattern, observed heterozygosity did not vary with population size, and we suggest that selection against inbred individuals maintains observed heterozygosity in small populations. Consistent with this hypothesis, we found a trend of lower inbreeding coefficients in the maternal than progeny generation in all of the populations, and half of the populations exhibited significant excesses of adult heterozygosity. Moreover, genetic diversity was not related to population size and was similar across all populations examined. Our results suggest that the consequences of increased selfing for population fitness in S. angularis, a species that experiences significant inbreeding depression, will depend on the relative magnitude and consistency of inbreeding depression and the demographic cost of selection for outcrossed progeny in small populations. 相似文献
9.
Clotilde Gimond Richard Jovelin Shery Han Céline Ferrari Asher D. Cutter Christian Braendle 《Evolution; international journal of organic evolution》2013,67(11):3087-3101
Theory and empirical study produce clear links between mating system evolution and inbreeding depression. The connections between mating systems and outbreeding depression, whereby fitness is reduced in crosses of less related individuals, however, are less well defined. Here we investigate inbreeding and outbreeding depression in self‐fertile androdioecious nematodes, focusing on Caenorhabditis sp. 11. We quantify nucleotide polymorphism for nine nuclear loci for strains throughout its tropical range, and find some evidence of genetic differentiation despite the lowest sequence diversity observed in this genus. Controlled crosses between strains from geographically separated regions show strong outbreeding depression, with reproductive output of F1s reduced by 36% on average. Outbreeding depression is therefore common in self‐fertilizing Caenorhabditis species, each of which evolved androdioecious selfing hermaphroditism independently, but appears strongest in C. sp. 11. Moreover, the poor mating efficiency of androdioecious males extends to C. sp. 11. We propose that self‐fertilization is a key driver of outbreeding depression, but that it need not evolve as a direct result of local adaptation per se. Our verbal model of this process highlights the need for formal theory, and C. sp. 11 provides a convenient system for testing the genetic mechanisms that cause outbreeding depression, negative epistasis, and incipient speciation. 相似文献
10.
Mathias Templin Vicky Huamán Giovana P. Vadillo Thomas Becker Walter Durka Markus Fischer Diethart Matthies 《Biotropica》2011,43(2):183-191
Understory herbs are an essential part of tropical rain forests, but little is known about factors limiting their reproduction. Many of these herbs are clonal, patchily distributed, and produce large floral displays of nectar‐rich 1‐d flowers to attract hummingbird pollinators that may transport pollen over long distances. The aim of this study was to investigate the effects of clonality, cross‐proximity, and patchy distribution on the reproduction of the hummingbird‐pollinated Amazonian herb Heliconia metallica. We experimentally pollinated flowers within populations with self‐pollen and with pollen of different diversity, crossed flowers between populations, and added supplemental pollen to ramets growing solitarily or in conspecific patches. Only flowers pollinated early in the morning produced seeds. Selfed flowers produced seeds, but seed number and mass were strongly reduced, suggesting partial sterility and inbreeding depression after selfing. Because of pollen competition, flowers produced more seeds after crosses with several than with single donor plants. Crosses between populations mostly resulted in lower seed production than those within populations, suggesting outbreeding depression. Ramets in patches produced fewer seeds than solitary ramets and were more pollen‐limited, possibly due to geitonogamy and biparental inbreeding in patches. We conclude that high rates of geitonogamy due to clonality and pollen limitation due to the short receptivity of flowers and patchy distribution constrain the reproduction of this clonal herb. Even in unfragmented rain forests with highly mobile pollinators, outbreeding depression may be a widespread phenomenon in plant reproduction. 相似文献
11.
影响植物自交率进化的选择力量主要体现在两个方面:当外来花粉量不足时,自交可以提高植物的结实率,即雌性适合度(繁殖保障);而如果进行自交的花粉比异交花粉更易获得使胚珠受精的机会,那么自交也可以提高植物的雄性适合度(自动选择优势)。但是,鉴别什么时候是繁殖保障、什么时候是自动选择优势导致了自交的进化却是极其困难的。花粉贴现降低了自交植物通过异交花粉途径获得的适合度,即减弱了自动选择优势,而近交衰退既减少了自动选择优势也减少了繁残给自交者带来的利益。具有不同交配系统的植物种群将具有不同的资源分配对策。理论研究已经说明,自交率增加将减少植物对雄性功能的资源分配比例,但将使繁殖分配加大,而且在一定条件下交配系统在改变甚至可以导致植物生活史发生剧烈变化,即从多年生变为一年生。文献中支持自交减少植物雄性投入的证据有很多,但是对繁殖分配与自交率的关系目前还没有系统的研究,资源分配理论可以解释植物繁育系统的多样性,尤其是能够3说明为什么大多数植物都是雌雄同体的,自交对植物种群遗传结构的影响是减少种群内的遗传变异,增加种群间的遗传分化,长期以来人们一直猜测,自交者可能会丢掉一些长期进化的潜能,目前这个假说得到了一些支持。 相似文献
12.
Geographic isolation interrupted gene flow between populations leading to population differentiation during the long evolutionary period. In this paper, 33 colonies from Damen Island and 100 colonies from adjacent mainland populations, Juxi and Chixi, were analyzed with both mitochondrial tRNAleu-COII sequences and five microsatellite loci. The results showed that Apis cerana cerana population from Damen Island significantly differentiated from its adjacent mainland populations. In addition, Damen Island population showed a lower level of genetic diversity in terms of the number of mitochondrial haplotypes while both island and mainland populations showed a low level of genetic diversity with mutilocus analysis. The divergent small island population A.c. cerana might probably have suffered inbreeding and genetic drift as well as limited gene flow across the strait. Our data provides useful information for management and preservation for the Damen Island population. 相似文献
13.
Delayed selfing has been considered the best-of-both-worlds response to pollinator unpredictability because it can provide reproductive assurance without decreasing outcrossing potential. According to this hypothesis, selfing rates in delayed selfing species should be highly variable in fluctuating pollinator environments. To test this prediction, as well to explore the consequences of delayed selfing on genetic patterns, we compared two sister species that grow in the high Andes of Chile: Schizanthus grahamii that exhibits delayed selfing and Schizanthus hookeri, which is self-compatible but requires pollinators for seed set. We estimated genetic diversity within and among five populations of each species using six shared microsatellites. Our results indicated that selfing rates in S. grahamii (range 0.07–0.81) were significantly more variable than in S. hookeri (range 0–0.26). The highest levels of selfing were found in the populations of S. grahamii located at highest altitudes (r = 0.78) and at northern margin range, where pollinators are probably more scarce. These populations also showed the lowest allelic richness and heterozygosity values. Southern populations of S. grahamii had mixed mating, and showed heterozygosity and diversity values close to those detected for S. hookeri along all the sampled range. Selfing in this species results from geitonogamy, and did not covary with altitude. Schizanthus grahamii showed greater population differentiation than S. hookeri. Overall, our results indicated that selfing rates were widely variable in S. grahamii, with some populations predominantly selfing and others showing mixed mating. This pattern may be associated with the strong fluctuations in pollinator service that typically occur in the high Andes of Chile. 相似文献
14.
Determining the genetic basis of inbreeding depression is important for understanding the
role of selection in the evolution of mixed breeding systems. Here, we investigate how
androdioecy (a breeding system characterized by partial selfing and outcrossing) and
dioecy (characterized by obligatory outcrossing) influence the experimental evolution of
inbreeding depression in Caenorhabditis elegans. We derived inbred lines from
ancestral and evolved populations and found that the dioecious lineages underwent more
extinction than androdioecious lineages. For both breeding systems, however, there was
selection during inbreeding because the diversity patterns of 337 single-nucleotide
polymorphisms (SNPs) among surviving inbred lines deviated from neutral expectations. In
parallel, we also followed the evolution of embryo to adult viability, which revealed
similar starting levels of inbreeding depression in both breeding systems, but also
outbreeding depression. Under androdioecy, diversity at a neutral subset of 134 SNPs
correlated well with the viability trajectories, showing that the population genetic
structure imposed by partial selfing affected the opportunity for different forms of
selection. Our findings suggest that the interplay between the disruptions of coevolved
sets of loci by outcrossing, the efficient purging of deleterious recessive alleles with
selfing and overdominant selection with outcrossing can help explain mixed breeding
systems. 相似文献
15.
Floral features related to the breeding system were studied for 11 species of Hawaiian Bidens. Protandry and male sterility promote outcrossing, while self-compatibility and geitonogamy contribute to inbreeding. The combination of these floral mechanisms results in a mixed mating system in all species studied. Outcrossing rates of 15 populations of these species ranged from 0.43 to 0.88, averaging 0.65. Apparent selling rates of females ranged from 0 to 0.25 in seven gynodioecious populations surveyed, suggesting that there is variation in the level of biparental inbreeding among populations. The presence of females increased the level of outcrossing by an average of 9% in gynodioecious populations. This study indicates that the efficiency of gynodioecy as an outcrossing mechanism largely depends on the current outcrossing rate of hermaphrodites, the frequency of females, and the extent of genetic substructuring in populations. On average, autogamy contributed 4%, geitonogamy contributed 24%, and consanguineous mating contributed 15% to the realized selfing rate (43%) in the hermaphrodites of these species. 相似文献
16.
Genetic variation within and among six natural populations of beach plant Suriana maritima on the Paracel Islands of China was assessed using SSR and chloroplast DNA sequence analysis. The results showed a complete absence of genetic variation between individuals either within or among populations. The cumulative consequences of a founder effect, selfing, and inbreeding may be responsible for the loss of genetic diversity in S. maritima. 相似文献
17.
Edmands S 《Molecular ecology》2007,16(3):463-475
As populations become increasingly fragmented, managers are often faced with the dilemma that intentional hybridization might save a population from inbreeding depression but it might also induce outbreeding depression. While empirical evidence for inbreeding depression is vastly greater than that for outbreeding depression, the available data suggest that risks of outbreeding, particularly in the second generation, are on par with the risks of inbreeding. Predicting the relative risks in any particular situation is complicated by variation among taxa, characters being measured, level of divergence between hybridizing populations, mating history, environmental conditions and the potential for inbreeding and outbreeding effects to be occurring simultaneously. Further work on consequences of interpopulation hybridization is sorely needed with particular emphasis on the taxonomic scope, the duration of fitness problems and the joint effects of inbreeding and outbreeding. Meanwhile, managers can minimize the risks of both inbreeding and outbreeding by using intentional hybridization only for populations clearly suffering from inbreeding depression, maximizing the genetic and adaptive similarity between populations, and testing the effects of hybridization for at least two generations whenever possible. 相似文献
18.
In fragmented landscapes, small populations may be subjected to inbreeding or genetic drift. Gene flow is expected to alleviate
the burden of deleterious mutations in such populations. The beneficial effects of outcrossing may, however, depend on life
history characteristics such as the species’ breeding system. Frequent selfing is expected to purge (sub)lethal alleles and
mitigate inbreeding depression, at least if the load of mildly deleterious mutations has not accumulated through genetic drift
in populations with a small effective size. Gene-inflow from distant source populations can cause outbreeding depression due
to genomic incompatibilities. We tested these predictions using highly fragmented populations of the self-compatible forest
herb Geum urbanum. Assessment of mating system parameters using microsatellite markers inferred high selfing rates (92.5%), confirming the
predominantly self-fertilizing character of the study species. We conducted experimental pollinations with self and outcross
pollen collected from populations at different distances from the target populations. There were no significant signs of inbreeding
depression, even in very small target populations. Except for a minor negative effect on the germination rate for the long-distance
crosses, we found no effects of outbreeding on fitness estimates. 相似文献
19.
In monoecious plants, gametes can be exchanged in three ways: among unrelated genets (outbreeding), with close relatives (inbreeding), or within individuals (geitonogamous selfing). These different mating systems may have consequences for population demography and fitness. The experiment presented herein used artificial crosses to examine the mating system of Chesapeake Bay, Virginia, USA eelgrass (Zostera marina L; Zosteraceae), a bisexual submerged aquatic plant that can outbreed, inbreed, and self. Genetic data indicate severe heterozygosity deficiencies and patchy genotype distribution in these beds, suggesting that plants therein reproduce primarily by vegetative propagation, autogamy, or geitonogamy. To clarify eelgrass reproductive strategies, flowers from three genetically and geographically distinct beds were hand-pollinated in outbred, inbred, and selfed matings. Fertilization success and seed production, life history stages which contribute greatly to the numeric maintenance of populations, were monitored. We found no evidence that inbreeding had negative consequences for seed production. On the contrary, selfed matings produced seeds significantly more frequently than outcrossed matings and produced significantly larger numbers of seeds than either inbred or outbred matings. These results contrast with patterns for eelgrass in other regions but might be expected for similar populations in which pollen limitation or a short reproductive season renders selfing advantageous. 相似文献
20.
Ane?ka Eliá?ová Pavel Trávní?ek Bohumil Mandák Zuzana Münzbergová 《Annals of botany》2014,113(1):159-170