共查询到20条相似文献,搜索用时 31 毫秒
1.
Patterns of morphological variation among populations of the widespread annual killifish Nothobranchius orthonotus are independent of genetic divergence and biogeography 下载免费PDF全文
Milan Vrtílek Martin Reichard 《Journal of Zoological Systematics and Evolutionary Research》2016,54(4):289-298
Populations of annual killifish of the genus Nothobranchius occur in patchily distributed temporary pools in the East African savannah. Their fragmented distribution and low dispersal ability result in highly structured genetic clustering of their populations. In this study, we examined body shape variation in a widely distributed species, Nothobranchius orthonotus with known phylogeographic structure. We tested whether genetic divergence of major mitochondrial lineages forming two candidate species is congruent with phenotypic diversification, using linear and geometric morphometry analyses of body shape in 23 wild populations. We also conducted a common‐garden experiment with two wild‐derived populations to control for the effect of local environmental conditions on body shape. We identified different allometric trajectories for different mitochondrial lineages and candidate species in both sexes. However, in a principal components analysis of population‐level body shape, the separation among mitochondrial lineages was incomplete. Higher similarity of mitochondrial lineages belonging to different candidate species than that of same candidate species prevented distinction of the two candidate species on the basis of body shape. Analysis at the individual level demonstrated that N. orthonotus express high intrapopulation variability, with major overlap among individuals from all populations. In conclusion, we suggest that N. orthonotus be considered as a single species with an extensive geographic range, strong population genetic structure and high morphological variability. 相似文献
2.
Gabriella La Manna Nikolina Rako‐Gospi Gianluca Sar Federica Gatti Silvia Bonizzoni Giulia Ceccherelli 《Ecology and evolution》2020,10(4):1971-1987
The studies on the variation of acoustic communication in different species have provided insight that genetics, geographic isolation, and adaptation to ecological and social conditions play important roles in the variability of acoustic signals. The dolphin whistles are communication signals that can vary significantly among and within populations. Although it is known that they are influenced by different environmental and social variables, the factors influencing the variation between populations have received scant attention. In the present study, we investigated the factors associated with the acoustic variability in the whistles of common bottlenose dolphin (Tursiops truncatus), inhabiting two Mediterranean areas (Sardinia and Croatia). We explored which factors, among (a) geographical isolation of populations, (b) different environments in terms of noise and boat presence, and (c) social factors (including group size, behavior, and presence of calves), were associated with whistle characteristics. We first applied a principal component analysis to reduce the number of collinear whistle frequency and temporal characteristics and then generalized linear mixed models on the first two principal components. The study revealed that both geographic distance/isolation and local environment are associated with whistle variations between localities. The prominent differences in the acoustic environments between the two areas, which contributed to the acoustic variability in the first principal component (PC1), were found. The calf's presence and foraging and social behavior were also found to be associated with dolphin whistle variation. The second principal component (PC2) was associated only with locality and group size, showing that longer and more complex tonal sound may facilitate individual recognition and cohesion in social groups. Thus, both social and behavioral context influenced significantly the structure of whistles, and they should be considered when investigating acoustic variability among distant dolphin populations to avoid confounding factors. 相似文献
3.
Morphological divergence of lake and stream Phoxinus of Northern Italy and the Danube basin based on geometric morphometric analysis 总被引:1,自引:0,他引:1 下载免费PDF全文
David Ramler Anja Palandačić Giovanni B. Delmastro Josef Wanzenböck Harald Ahnelt 《Ecology and evolution》2017,7(2):572-584
Minnows of the genus Phoxinus are promising candidates to investigate adaptive divergence, as they inhabit both still and running waters of a variety of altitudes and climatic zones in Europe. We used landmark‐based geometric morphometric methods to quantify the level of morphological variability in Phoxinus populations from streams and lakes of Northern Italy and the Danube basin. We analyzed body shape differences of populations in the dorsal, lateral, and ventral planes, using a large array of landmarks and semilandmarks. As the species identification of Phoxinus on morphological characters is ambiguous, we used two mitochondrial genes to determine the genetic background of the samples and to ensure we are comparing homogenous groups. We have found significant body shape differences between habitats: Minnow populations inhabiting streams had a deeper body and caudal peduncle and more laterally inserted pectoral fins than minnows inhabiting lakes. We have also found significant body shape differences between genetic groups: Italian minnows had deeper bodies, deeper and shorter caudal peduncles, and a shorter and wider gape than both groups from the Danube. Our results show that the morphology of Phoxinus is highly influenced by habitat and that body shape variation between habitats was within the same range as between genetic groups. These morphological differences are possibly linked to different modes of swimming and foraging in the respective habitats and are likely results of phenotypic plasticity. However, differences in shape and interlandmark distances between the groups suggest that some (though few) morphometric characters might be useful for separating Phoxinus species. 相似文献
4.
Repeated evolution of local adaptation in swimming performance: population‐level trade‐offs between burst and endurance swimming in Brachyrhaphis freshwater fish 下载免费PDF全文
Spencer J. Ingley Henry Camarillo Hannah Willis Jerald B. Johnson 《Biological journal of the Linnean Society. Linnean Society of London》2016,119(4):1011-1026
Specialization is fundamentally important in biology because specialized traits allow species to expand into new environments, in turn promoting population differentiation and speciation. Specialization often results in trade‐offs between traits that maximize fitness in one environment but not others. Despite the ubiquity of trade‐offs, we know relatively little about how consistently trade‐offs evolve between populations when multiple sets of populations experience similarly divergent selective regimes. In the present study, we report a case study on Brachyrhaphis fishes from different predation environments. We evaluate apparent within/between population trade‐offs in burst‐speed and endurance at two levels of evolutionary diversification: high‐ and low‐predation populations of Brachyrhaphis rhabdophora, and sister species Brachyrhaphis roseni and Brachyrhaphis terrabensis, which occur in high‐ and low‐predation environments, respectively. Populations of Brachyrhaphis experiencing different predation regimes consistently evolved swimming specializations indicative of a trade‐off between two swimming forms that are likely highly adaptive in the environment in which they occur. We show that populations have become similarly locally adapted at both levels of diversification, suggesting that swimming specialization has evolved rather rapidly and persisted post‐speciation. Our findings provide valuable insight into how local adaptation evolves at different stages of evolutionary divergence. 相似文献
5.
Rapid evolutionary adaptations and phenotypic plasticity have been suggested to be two important, but not mutually exclusive,
mechanisms contributing to the spread of invasive species. Adaptive evolution in invasive plants has been shown to occur at
large spatial scales to different climatic regions, but local adaptation at a smaller scale, e.g. to different habitats within
a region, has rarely been studied. Therefore, we performed a case study on invasive Mahonia populations to investigate whether local adaptation may have contributed to their spread. We hypothesized that the invasion
success of these populations is promoted by adaptive differentiation in response to local environmental conditions, in particular
to the different soils in these habitats. To test this hypothesis, we carried out a reciprocal transplantation experiment
in the field using seedlings from five Mahonia populations in Germany that are representative for the range of habitats invaded, and a greenhouse experiment that specifically
compared the responses to the different soils of these habitats. We found no evidence for local adaptation of invasive Mahonia populations because seedlings from all populations responded similarly to different habitats and soils. In a second greenhouse
experiment we examined genetic variation within populations, but seedlings from different maternal families did not vary in
their responses to soil conditions. We therefore suggest that local adaptation of seedlings does not play a major role for
the invasion success of Mahonia populations and that phenotypic plasticity, instead, could be an important trait in this stage of the life cycle. 相似文献
6.
Host environment and local genetic adaptation determine phenotype in parasitic Rhinanthus angustifolius 下载免费PDF全文
Anneli Jonstrup Mikael Hedrén Stefan Andersson 《Botanical journal of the Linnean Society. Linnean Society of London》2016,180(1):89-103
Plants have a remarkable capacity to adapt to local environmental conditions, which can result in ecotypic differentiation. Patterns of differentiation can, however, also be influenced by the extensive phenotypic plasticity exhibited by many plant species. In this study, we evaluated the distinctness of two putative ecotypes of the parasitic herb Rhinanthus angustifolius. We compared population means of characters commonly used to distinguish between the putative ecotypes after growing individuals of R. angustifolius with a variety of host species in a common garden. Resulting data were also pooled over environments to study how phenotypic plasticity affects the distinctness of ecotypes and individual populations. Except for node number, most of the characters were plastic. The pattern of differentiation was consistent with the existence of two, or possibly three, habitat‐related groups of populations; however, we observed considerable overlap in flowering time and morphological characters after pooling data across host environments. The results show that the complex phenological and morphological variation in R. angustifolius is caused by a combination of genetically determined ecotypic differentiation and plastic responses to the host environment and other factors. © 2015 The Linnean Society of London, Botanical Journal of the Linnean Society, 2016, 180 , 89–103. 相似文献
7.
Genome architecture and diverged selection shaping pattern of genomic differentiation in wild barley
Wenying Zhang Cong Tan Haifei Hu Rui Pan Yuhui Xiao Kai Ouyang Gaofeng Zhou Yong Jia Xiao-Qi Zhang Camilla Beate Hill Penghao Wang Brett Chapman Yong Han Le Xu Yanhao Xu Tefera Angessa Hao Luo Sharon Westcott Darshan Sharma Eviatar Nevo Roberto A. Barrero Matthew I. Bellgard Tianhua He Xiaohai Tian Chengdao Li 《Plant biotechnology journal》2023,21(1):46-62
Divergent selection of populations in contrasting environments leads to functional genomic divergence. However, the genomic architecture underlying heterogeneous genomic differentiation remains poorly understood. Here, we de novo assembled two high-quality wild barley (Hordeum spontaneum K. Koch) genomes and examined genomic differentiation and gene expression patterns under abiotic stress in two populations. These two populations had a shared ancestry and originated in close geographic proximity but experienced different selective pressures due to their contrasting micro-environments. We identified structural variants that may have played significant roles in affecting genes potentially associated with well-differentiated phenotypes such as flowering time and drought response between two wild barley genomes. Among them, a 29-bp insertion into the promoter region formed a cis-regulatory element in the HvWRKY45 gene, which may contribute to enhanced tolerance to drought. A single SNP mutation in the promoter region may influence HvCO5 expression and be putatively linked to local flowering time adaptation. We also revealed significant genomic differentiation between the two populations with ongoing gene flow. Our results indicate that SNPs and small SVs link to genetic differentiation at the gene level through local adaptation and are maintained through divergent selection. In contrast, large chromosome inversions may have shaped the heterogeneous pattern of genomic differentiation along the chromosomes by suppressing chromosome recombination and gene flow. Our research offers novel insights into the genomic basis underlying local adaptation and provides valuable resources for the genetic improvement of cultivated barley. 相似文献
8.
Carlos Henrique dos A. dos Santos Carolina S. de Sá Leitão Maria de N. Paula‐Silva Vera Maria F. Almeida‐Val 《Ecology and evolution》2016,6(12):4203-4213
Red‐bellied piranhas (Pygocentrus nattereri) are widely caught with different intensities throughout the region of Solimões‐Amazonas River by local fishermen. Thus, the management of this resource is performed in the absence of any information on its genetic stock. P. nattereri is a voracious predator and widely distributed in the Neotropical region, and it is found in other regions of American continent. However, information about genetic variability and structure of wild populations of red‐bellied piranha is unavailable. Here, we describe the levels of genetic diversity and genetic structure of red‐bellied piranha populations collected at different locations of Solimões‐Amazonas River system. We collected 234 red‐bellied piranhas and analyzed throughout eight microsatellite markers. We identified high genetic diversity within populations, although the populations of lakes ANA, ARA, and MAR have shown some decrease in their genetic variability, indicating overfishing at these communities. Was identified the existence of two biological populations when the analysis was taken altogether at the lakes of Solimões‐Amazonas River system, with significant genetic differentiation between them. The red‐bellied piranha populations presented limited gene flow between two groups of populations, which were explained by geographical distance between these lakes. However, high level of gene flow was observed between the lakes within of the biological populations. We have identified high divergence between the Catalão subpopulation and all other subpopulations. We suggest the creation of sustainable reserve for lakes near the city of Manaus to better manage and protect this species, whose populations suffer from both extractive and sport fishing. 相似文献
9.
Protein evolution in dynamically managed populations of wheat: adaptive responses to macro-environmental conditions 总被引:4,自引:0,他引:4
J. L. David M. Zivy M. L. Cardin P. Brabant 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》1997,95(5-6):932-941
Dynamic management of genetic resources aims to conserve genetic variability between different populations evolving in contrasting
environments. It is thus of importance to determine whether differences appearing between populations are stochastic or if
they come about from adaptation. Two-dimensional electrophoresis (2DE) was used to study genetic differentiation of 11 wheat
populations evolving since 1984 in a multi-site network covering the major cultivation area of wheat in France. Gels were
scanned and protein-spot intensities were measured through image analysis. As it was not possible to assay each individual,
populations were characterized using pooled extracts from several plants. In the first step, two parents among the 16 parental
lines involved in the initial wheat composite-cross population were exhaustively studied to identify a set of polymorphic
spots against which the entire set of evolved populations could be compared. This analysis confirmed the efficiency of gel
image-processing to determine the composition of pooled extracts. Of the 48 spots used to investigate population differentiation,
15 showed significant differences at the P<0.05 level. Populations that evolved independently at the same location showed similar differentiation, even when their cultivation
methods were different. These results suggest that natural selection acted strongly on the evolution of the populations, and
that responses to selection were determined primarily by macro-environmental conditions.
Received: 10 February 1997 / Accepted: 18 April 1997 相似文献
10.
The dwarf gerbil (Gerbillus nanus) is broadly distributed in Asia, with a range that encompasses altitudinally diverse terrain, including two major mountain ranges. Previous studies have shown this species to be generally varied across its geographic range, both genetically and morphologically. Physical barriers (e.g. mountains) and geographic distance (i.e. isolation by distance [IBD]) are expected to reduce dispersal rates, and consequently could lead to cranial morphological differentiation among populations. Adaptation to local environments is also expected to lead to cranial morphological differentiation among populations. Here, I test these hypotheses by examining variation in cranial shape and size across the geographic distribution of G. nanus using geometric morphometric analysis. Based on a sample of 473 specimens from throughout its distribution, G. nanus populations do not seem to show biologically meaningful variation in cranial shape. Cranial size, on the other hand, did show geographic variation—yet, this variation does not seem to show strong patterns of IBD nor adaptation to local environments, which could indicate that the geographic variation in the cranial size of G. nanus populations may be accounted for by factors unexamined in this study. 相似文献
11.
The role of environment and core‐margin effects on range‐wide phenotypic variation in a montane grasshopper 下载免费PDF全文
V. Noguerales V. García‐Navas P. J. Cordero J. Ortego 《Journal of evolutionary biology》2016,29(11):2129-2142
The integration of genetic information with ecological and phenotypic data constitutes an effective approach to gain insight into the mechanisms determining interpopulation variability and the evolutionary processes underlying local adaptation and incipient speciation. Here, we use the Pyrenean Morales grasshopper (Chorthippus saulcyi moralesi) as study system to (i) analyse the relative role of genetic drift and selection in range‐wide patterns of phenotypic differentiation and (ii) identify the potential selective agents (environment, elevation) responsible for variation. We also test the hypothesis that (iii) the development of dispersal‐related traits is associated with different parameters related to population persistence/turnover, including habitat suitability stability over the last 120 000 years, distance to the species distribution core and population genetic variability. Our results indicate that selection shaped phenotypic differentiation across all the studied morphological traits (body size, forewing length and shape). Subsequent analyses revealed that among‐population differentiation in forewing length was significantly explained by a temperature gradient, suggesting an adaptive response to thermoregulation or flight performance under contrasting temperature regimes. We found support for our hypothesis predicting a positive association between the distance to the species distribution core and the development of dispersal‐related morphology, which suggests an increased dispersal capability in populations located at range edges that, in turn, exhibit lower levels of genetic variability. Overall, our results indicate that range‐wide patterns of phenotypic variation are partially explained by adaptation in response to local environmental conditions and differences in habitat persistence between core and peripheral populations. 相似文献
12.
Understanding how environmental fluctuations affect the stability of populations and communities is complex, for example, because direct effects of environmental variability on populations may be modified and propagated across communities by species interactions. One way to explore and further understand these complexities is via a factorial manipulation of community composition and environmental conditions. Using laboratory based aquatic microcosms we manipulated environmental fluctuation by creating two environments; one with variable light and one with constant light. Within these environments, community composition was manipulated by constructing communities from all possible combinations of three species that vary in their reliance on light for growth (an autotroph: a diatom completely reliant on light, a heterotroph: a Paramecium species not reliant on light, and a mixotroph: a Paramecium species somewhat reliant on light). Community composition was predicted to affect populations and communities by introducing and altering competitive interactions between species and affecting the degree of niche differentiation between species. We found that population stability was predominantly influenced by an interaction between community composition and environmental variability, whereby the effect of environmental variability synergistically combined with effects of community composition to reduce population stability. Covariance of populations was determined by an interaction between community composition and environmental variability, though this did not result from the effect of niche differentiation between species. Species interactions drove correlations between population biomass and the environment which otherwise did not exist. Our results demonstrate the complex and interrelated effects of abiotic and biotic factors on population and community stability, and suggest the need to consider aspects of community composition when predicting the impact of environmental fluctuations. 相似文献
13.
The Mediterranean common shrub Pistacia lentiscus is distributed in a wide range of habitats along the climatic gradient in Israel. We studied the factors that may shape its
morphological, physiological, and genetic differentiation. We examined the phenotypic and molecular genetic variability among
and within the six Israeli populations as correlated with the local environmental conditions. The genetic structure of the
shrub on the island of Cyprus was also examined. Plant morphological parameters correlated significantly with the local environmental
conditions, especially with the annual precipitation and temperature. Gene diversity did not differ significantly among locations,
and, hence, no differentiation among Israeli populations or between populations in Israel and Cyprus was found. The major
part of the molecular variance (69%) was found within the populations, 22% of the variance was found between Israel and Cyprus
and 9% among the populations within the region. Gene flow estimates among all the tested populations were high with no indication
for the isolation by distance. We did not find any pattern of ecologically related genetic differentiation; hence, the morphological
and physiological differences are probably due to phenotypic plasticity. It seems that the ability of P. lentiscus to express the different phenotypes in response to the varying conditions in the Mediterranean region is an adaptive trait
in a species that is characterized by intensive gene flow. 相似文献
14.
Right here,right now: Populations of Actinotus helianthi differ in their early performance traits and interactions 下载免费PDF全文
Nathan J. Emery Murray J. Henwood Catherine A. Offord Glenda M. Wardle 《Austral ecology》2017,42(3):367-378
Populations across the geographical distribution of a species are shaped by different local environments to produce distinctive patterns of variation in plant traits. Among‐population variation is, therefore, important for understanding potential shifts in distributions under changing environments, but is often not included in studies. In particular, critical data on the suitability of local environments for plant traits expressed at different life stages are lacking. To address this we performed two experiments to disentangle the influence of the local environment on multiple plant traits for populations of Actinotus helianthi from across its latitudinal range. A common environment experiment was used to compare early plant traits of germination, early seedling growth and survival for 17 populations of A. helianthi. To examine how biotic interactions vary across populations, we evaluated whether plant traits, including height and number of pseudanthia, influence visitor diversity and abundance, and if insect visitor abundance or diversity was associated with seed set success. We found that populations varied in germination success between 0.2 ± 0.1% and 64.2 ± 2.3%. Seedling growth and early survival varied among populations by as much as a factor of two and 44 respectively. We recorded variation in plant traits across hierarchical spatial scales from the maternal plant to biogeographical regions. The abundance and diversity of insect visitors also varied among populations and seed set was found to be site specific. There was a trend for populations with taller plants and larger floral display sizes to be more frequently visited by pollinators. We also identified a positive linear relationship between the number of visits by flies and seed set success. These results suggest that the local environment has a strong role in directly and indirectly influencing variation in plant traits within populations of A. helianthi, and potentially other perennial species. 相似文献
15.
Populations of invasive species often exhibit a high degree of spatial and temporal variability in abundance and hence their
effects on resident communities. Here, we examine behavioural, genetic and environmental factors that influence variation
in populations of the yellow crazy ant, Anoplolepis gracilipes, on the remote Nukunonu Atoll of Tokelau, Pacific Ocean. Behavioural assays revealed high levels of aggression between two
groups of yellow crazy ants from different islands, and genetic analysis confirmed the presence of two distinct populations
with unique mitochondrial (mt)DNA haplotypes, designated A and D. The two populations likely resulted from two separate invasion
events. The populations exhibited significant differences in abundance of A. gracilipes, with a mean sevenfold difference in relative abundance between the two main haplotypes. The higher density haplotype D population
coexisted with 50% fewer other ant species and altered ant community composition. Vegetation composition was also significantly
different on islands harbouring the two populations. The results suggest genetic differences could play a role in the spatial
and temporal variation in the effect of the yellow crazy ant on a small oceanic atoll. We could not differentiate between
genetic effects and effects of vegetation. However, our results indicate that spatial variability in behaviour and impacts
within populations of invasive species could be in part due to genetic differences, and play a substantial role in influencing
the outcome of biological invasions. 相似文献
16.
A. Moscarelli M. T. Sardina M. Cassandro E. Ciani F. Pilla G. Senczuk B. Portolano S. Mastrangelo 《Animal genetics》2021,52(1):21-31
Identifying genomic regions involved in the differences between breeds can provide information on genes that are under the influence of both artificial and natural selection. The aim of this study was to assess the genetic diversity and differentiation among four different Brown cattle populations (two original vs. two modern populations) and to characterize the distribution of runs of homozygosity (ROH) islands using the Illumina Bovine SNP50 BeadChip genotyping data. After quality control, 34 735 SNPs and 106 animals were retained for the analyses. Larger heterogeneity was highlighted for the original populations. Patterns of genetic differentiation, multidimensional scaling, and the neighboring joining tree distinguished the modern from the original populations. The FST‐outlier identified several genes putatively involved in the genetic differentiation between the two groups, such as stature and growth, behavior, and adaptability to local environments. The ROH islands within both the original and the modern populations overlapped with QTL associated with relevant traits. In modern Brown (Brown Swiss and Italian Brown), ROH islands harbored candidate genes associated with milk production traits, in evident agreement with the artificial selection conducted to improve this trait in these populations. In original Brown (Original Braunvieh and Braunvieh), we identified candidate genes related with fat deposition, confirming that breeding strategies for the original Brown populations aimed to produce dual‐purpose animals. Our study highlighted the presence of several genomic regions that vary between Brown populations, in line with their different breeding histories. 相似文献
17.
Costs and benefits of admixture between foreign genotypes and local populations in the field 下载免费PDF全文
Jun Shi Jasmin Joshi Katja Tielbörger Koen J. F. Verhoeven Mirka Macel 《Ecology and evolution》2018,8(7):3675-3684
Admixture is the hybridization between populations within one species. It can increase plant fitness and population viability by alleviating inbreeding depression and increasing genetic diversity. However, populations are often adapted to their local environments and admixture with distant populations could break down local adaptation by diluting the locally adapted genomes. Thus, admixed genotypes might be selected against and be outcompeted by locally adapted genotypes in the local environments. To investigate the costs and benefits of admixture, we compared the performance of admixed and within‐population F1 and F2 generations of the European plant Lythrum salicaria in a reciprocal transplant experiment at three European field sites over a 2‐year period. Despite strong differences between site and plant populations for most of the measured traits, including herbivory, we found limited evidence for local adaptation. The effects of admixture depended on experimental site and plant population, and were positive for some traits. Plant growth and fruit production of some populations increased in admixed offspring and this was strongest with larger parental distances. These effects were only detected in two of our three sites. Our results show that, in the absence of local adaptation, admixture may boost plant performance, and that this is particularly apparent in stressful environments. We suggest that admixture between foreign and local genotypes can potentially be considered in nature conservation to restore populations and/or increase population viability, especially in small inbred or maladapted populations. 相似文献
18.
Intraspecific trait variability has a fundamental contribution to the overall trait variability. However, little is known
concerning the relative role of local (e.g. disturbances and species interaction) and regional (biogeographical) processes
in generating this intraspecific trait variability. While biogeographical processes enhance plant trait variability between
distant populations, in fire-prone ecosystems, recurrent fires may have a preponderant role in generating variability at a
local scale. We hypothesize that plants respond to the local spatio-temporal heterogeneity generated by fire by having a relatively
large local variability in regeneration traits in such a way that overrides the variability at a broader biogeographical scale.
We test this hypothesis by assessing the intraspecific variability in fire-related regeneration traits of two species (Cistus salviifolius and Lavandula stoechas) growing in fire-prone ecosystems of the Mediterranean Basin. For each species, we selected six populations in two distant
regions, three in the east (Anatolian Peninsula) and three in the west (Iberian Peninsula). For each species and population,
we analysed the following regeneration traits: seed size, seed dormancy and stimulated germination by fire-related cues (heat
and smoke). To evaluate the distribution of the variability in these traits, we decomposed the variability of trait values
at each level, between regions (regional) and between population within region (local), using linear mixed-effect models.
Despite the biogeographical and climatic differences between regions, for the two species, intraspecific variability in regeneration
traits was higher at a local (within regions) than at a regional scale (between regions). Our results suggest that, in Mediterranean
ecosystems, fire is an important source of intraspecific variability in regeneration traits. This supports the prominent role
of fire as an ecological and evolutionary process, producing trait variability and shaping biodiversity in fire-prone ecosystems. 相似文献
19.
K. T. Scribner M. C. Wooten M. H. Smith P. K. Kennedy O. E. Rhodes 《Journal of evolutionary biology》1992,5(2):267-288
Mosquitofish (Gambusia affinis) were collected from 17 reservoirs on three islands in Hawaii, USA. Genetic and life history traits for adult females from these populations were used to evaluate hypotheses concerning short-term evolutionary divergence of populations recently established from a common ancestral source. The effects of founder events and drift on genetic variability and population differentiation were also examined. Significant differences in life history characteristics, allele frequencies, and multi-locus heterozygosities (H) were found among fish populations collected from different reservoirs and between reservoirs classified as stable or fluctuating on the basis of temporal fluctuation in water level. Females from stable reservoirs exhibited greater standard length (35.1 vs 32.8 mm), lower fecundity (11.9 vs 15.2 embryos), lower reproductive allocation (18.2% vs 22.8%), but larger mean embryo size (1.95 vs 1.67 mg) than females from fluctuating reservoirs. Consistency in means among replicates of each reservoir class and concordance in direction and magnitude of differences reported here and results of sampling conducted from these same locations 10 years previously (Stearns, 1983a) suggest that ecological factors intrinsic to these two environments are important in determing population life history traits. Females from stable reservoirs exhibited lower heterozygosity than females from fluctuating reservoirs (0.134 vs 0.158, respectively). Levels and direction od differences in heterozygosity, the high proportion of polymorphic loci and lack of fixation of alternative alleles argue against a purely stochastic explanation for genetic and life history variation among reservoir populations. Levels of genetic variability and interpopulation differentiation were similar to those observed in mainland populations of this species. A high proportion of the genetic diversity was apportioned between populations and within populations due to differences between juveniles and adults. Significant genotypic differences between adult and juvenile age classes suggest that the genetic divergence of local populations may occur over short periods of time. 相似文献
20.
We tested for phenotype-to-habitat associations in brown trout Salmo trutta populations from two ecologically different habitat types; i.e., groundwater and surface-water-fed streams. Additionally, we raised captive offspring from two such populations under standardised conditions to test whether potential phenotypic differentiation would be passed on to offspring. We found analogous differentiation by habitat in multiple wild populations. Some of these morphological differences were at least partially inherited by offspring. We suggest that this could have implications for both scientists and fisheries authorities studying or managing trout populations. 相似文献