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1.
We present V.PhyloMaker, a freely available package for R designed to generate phylogenies for vascular plants. The mega‐tree implemented in V.PhyloMaker (i.e. GBOTB.extended.tre), which was derived from two recently published mega‐trees and includes 74 533 species and all families of extant vascular plants, is the largest dated phylogeny for vascular plants. V.PhyloMaker can generate phylogenies for very large species lists (the largest species list that we tested included 314 686 species). V.PhyloMaker generates phylogenies at a fast speed, much faster than other phylogeny‐generating packages. Our tests of V.PhyloMaker show that generating a phylogeny for 60 000 species requires less than six hours. V.PhyloMaker includes an approach to attach genera or species to their close relatives in a phylogeny. We provide a simple example in this paper to show how to use V.PhyloMaker to generate phylogenies. 相似文献
2.
Craig Guyer Joseph B. Slowinski 《Evolution; international journal of organic evolution》1995,49(6):1294-1295
3.
Premal Shah Benjamin M. Fitzpatrick James A. Fordyce 《Evolution; international journal of organic evolution》2013,67(2):368-377
Phylogenetic hypotheses are frequently used to examine variation in rates of diversification across the history of a group. Patterns of diversification‐rate variation can be used to infer underlying ecological and evolutionary processes responsible for patterns of cladogenesis. Most existing methods examine rate variation through time. Methods for examining differences in diversification among groups are more limited. Here, we present a new method, parametric rate comparison (PRC), that explicitly compares diversification rates among lineages in a tree using a variety of standard statistical distributions. PRC can identify subclades of the tree where diversification rates are at variance with the remainder of the tree. A randomization test can be used to evaluate how often such variance would appear by chance alone. The method also allows for comparison of diversification rate among a priori defined groups. Further, the application of the PRC method is not restricted to monophyletic groups. We examined the performance of PRC using simulated data, which showed that PRC has acceptable false‐positive rates and statistical power to detect rate variation. We apply the PRC method to the well‐studied radiation of North American Plethodon salamanders, and support the inference that the large‐bodied Plethodon glutinosus clade has a higher historical rate of diversification compared to other Plethodon salamanders. 相似文献
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Craig Guyer Joseph B. Slowinski 《Evolution; international journal of organic evolution》1993,47(1):253-263
The idea that some organisms possess adaptive features that make them more likely to speciate and/or less likely to go extinct than closely related groups, suggests that large phylogenetic trees should be unbalanced (more species should occur in the group possessing the adaptive features than in the sister group lacking such features). Several methods have been used to document this type of adaptive radiation. One problem with these attempts is that evolutionary biologists may overlook balanced phylogenies while focusing on a few impressively unbalanced ones. To overcome this potential bias, we sampled published large phylogenies without regard to tree shape. These were used to test whether or not such trees are consistently unbalanced. We used recently developed null models to demonstrate that the shapes of large phylogenetic trees: 1) are similar among angiosperms, insects, and tetrapods; 2) differ from those expected due to random selection of a phylogeny from the pool of all trees of similar size; and 3) are significantly more unbalanced than expected if species diverge at random, therefore, conforming to one prediction of adaptive radiation. This represents an important first step in documenting whether adaptive radiation has been a general feature of evolution. 相似文献
6.
石松类和蕨类植物是维管植物的第二大类群, 其起源可追溯到4亿年前。在被子植物出现之前, 石松类和蕨类植物在古地球生态系统中占主导地位, 其重要性一直延续到现在。自20世纪40年代开始, 中国石松类和蕨类植物研究就令世界瞩目, 尤其是2017年第19届国际植物学大会在中国深圳召开后的5年时间里, 中国石松类和蕨类植物研究更是面向世界、走向国际, 研究更为广泛的科学问题, 在物种多样性、保护、系统演化和生态适应性等方面取得了一系列重要研究进展。2017-2022年, 多个中国研究团队利用多组学数据构建了世界石松类和蕨类植物科级水平的生命之树并提出了关键性状孢子囊环带演化的新模式; 解决了石松类和蕨类植物中目级、科级、属级和种级众多关键的系统分类学等问题, 发表了106个新分类群; 开展了大量的植物区系调查和研究, 出版了6部中国石松类和蕨类植物多样性专著和1部世界性专著; 对65种国家重点保护的石松类和蕨类植物进行了迁地保护, 同时实现了桫椤科、水蕨属(Ceratopteris)、观音座莲属(Angiopteris)和鹿角蕨(Platycerium wallichii)等重点保护类群的孢子繁殖; 在系统发育框架下, 研究了石松类和蕨类植物的生态修复功能和生态适应性演化。通过对2017-2022年研究成果的总结和思考, 本文对未来石松类和蕨类植物的发展提出以下建议: (1)提高中国寡型科属以及世界性大科大属的关注力度; (2)加强西藏、四川等薄弱地区石松类和蕨类植物的调查研究, 并结合新技术, 如DNA条形码等以提高区系调查中物种鉴别的效率和准确性; (3)运用多学科交叉的研究方法厘清各科、属、种间系统关系的同时, 还应加强系统和生态适应性演化之间的协同研究; (4)关注石松类和蕨类植物系统位置作为陆生维管植物演化起点的共性科学问题; (5)加强石松类和蕨类植物系统分类学与生态学、植物化学、保护生物学等学科间交叉合作研究。 相似文献
7.
Endemic radiations provide splendid opportunities for studies in evolutionary biology. Species flocks in ancient lakes, such as in Tanganyika, Malawi or Baikal, have featured prominently in evolutionary biology, viewing these “evolutionary theatres” as hotspots of diversification. However, following a century of neglect, the endemic evolution of limnic cerithioidean gastropods in the two central lake systems on the Indonesian island of Sulawesi (i.e. Lake Poso and the lakes of the Malili system, e.g. Danau Matano, Mahalona and Towuti) also provide instructive model cases for the study of speciation mechanisms, adaptive radiation and annidation (i.e. niche exploitation). We here discuss the evolutionary and taxonomic implications of the lacustrine species flocks in Tylomelania from these lakes in Sulawesi as an exceptional endemic assemblage of morphologically distinct viviparous pachychilid gastropods. This first comprehensive compilation of data on both ancient lake systems, Poso and Malili, offers a new perspective on ecological differentiation in this radiation. Presented here within the framework of the theory of evolutionary ecology it provides a research program for acquiring a synthetical perspective that includes morphology, molecular genetics, ecology and biogeography. In this context, it will be possible to compare the species flocks of these truly “Darwinian snails” on Sulawesi with the long enigmatic, so-called thalassoid (i.e. marine-like) gastropod radiation in East African’s Lake Tanganyika. 相似文献
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Luke J Harmon Jonathan B Losos T Jonathan Davies Rosemary G Gillespie John L Gittleman W Bryan Jennings Kenneth H Kozak Mark A McPeek Franck Moreno‐Roark Thomas J Near Andy Purvis Robert E Ricklefs Dolph Schluter James A Schulte II Ole Seehausen Brian L Sidlauskas Omar Torres‐Carvajal Jason T Weir Arne Ø Mooers 《Evolution; international journal of organic evolution》2010,64(8):2385-2396
George Gaylord Simpson famously postulated that much of life's diversity originated as adaptive radiations—more or less simultaneous divergences of numerous lines from a single ancestral adaptive type. However, identifying adaptive radiations has proven difficult due to a lack of broad‐scale comparative datasets. Here, we use phylogenetic comparative data on body size and shape in a diversity of animal clades to test a key model of adaptive radiation, in which initially rapid morphological evolution is followed by relative stasis. We compared the fit of this model to both single selective peak and random walk models. We found little support for the early‐burst model of adaptive radiation, whereas both other models, particularly that of selective peaks, were commonly supported. In addition, we found that the net rate of morphological evolution varied inversely with clade age. The youngest clades appear to evolve most rapidly because long‐term change typically does not attain the amount of divergence predicted from rates measured over short time scales. Across our entire analysis, the dominant pattern was one of constraints shaping evolution continually through time rather than rapid evolution followed by stasis. We suggest that the classical model of adaptive radiation, where morphological evolution is initially rapid and slows through time, may be rare in comparative data. 相似文献
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Dolph Schluter Trevor Price Arne
. Mooers Donald Ludwig 《Evolution; international journal of organic evolution》1997,51(6):1699-1711
Theories of ecological diversification make predictions about the timing and ordering of character state changes through history. These theories are testable by “reconstructing” ancestor states using phylogenetic trees and measurements of contemporary species. Here we use maximum likelihood to estimate and evaluate the accuracy of ancestor reconstructions. We present likelihoods of discrete ancestor states and derive probability distributions for continuous ancestral traits. The methods are applied to several examples: diets of ancestral Darwin's finches; origin of inquilinism in gall wasps; microhabitat partitioning and body size evolution in scrubwrens; digestive enzyme evolution in artiodactyl mammals; origin of a sexually selected male trait, the sword, in platies and swordtails; and evolution of specialization in Anolis lizards. When changes between discrete character states are rare, the maximum-likelihood results are similar to parsimony estimates. In this case the accuracy of estimates is often high, with the exception of some nodes deep in the tree. If change is frequent then reconstructions are highly uncertain, especially of distant ancestors. Ancestor states for continuous traits are typically highly uncertain. We conclude that measures of uncertainty are useful and should always be provided, despite simplistic assumptions about the probabilistic models that underlie them. If uncertainty is too high, reconstruction should be abandoned in favor of approaches that fit different models of trait evolution to species data and phylogenetic trees, taking into account the range of ancestor states permitted by the data. 相似文献
10.
Alexander Skeels Marcel Cardillo 《Evolution; international journal of organic evolution》2019,73(7):1392-1410
Mediterranean‐type ecosystems (MTEs) contain exceptional plant diversity. Explanations for this diversity are usually classed as either “equilibrium,” with elevated MTE diversity resulting from greater ecological carrying capacities, or “non‐equilibrium,” with MTEs having a greater accumulation of diversity over time than other types of ecosystems. These models have typically been considered as mutually exclusive. Here, we present a trait‐based explanatory framework that incorporates both equilibrium and non‐equilibrium dynamics. Using a large continental Australian plant radiation (Hakea) as a case study, we identify traits associated with niche partitioning in coexisting species (α‐traits) and with environmental filtering (β‐traits), and reconstruct the mode and relative timing of diversification of these traits. Our results point to a radiation with an early non‐equilibrium phase marked by divergence of β‐traits as Hakea diversified exponentially and expanded from the southwest Australian MTE into biomes across the Australian continent. This was followed from seven million years ago by an equilibrium phase, marked by diversification of α‐traits and a slowdown in lineage diversification as MTE‐niches became saturated. These results suggest that processes consistent with both equilibrium and non‐equilibrium models have been important during different stages of the radiation of Hakea, and together they provide a richer explanation of present‐day diversity patterns. 相似文献
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von Rintelen K von Rintelen T Glaubrecht M 《Molecular phylogenetics and evolution》2007,45(3):1033-1041
Ancient Lake Poso on the Indonesian island Sulawesi hosts a highly diverse endemic fauna, including a small species flock of atyid Caridina shrimps, which are characterized by conspicuous colour patterns. We used a mtDNA based molecular phylogeny to test the assumption of a monophyletic origin and intralacustrine radiation of the species flock and to assess the species specificity of some colour morphs. Our data reveal a rapid radiation of Caridina in the entire Poso drainage system, but provide no strong evidence for a monophyletic radiation of the lake species. Nevertheless each lacustrine species shows a varying degree of substrate or trophic specialization, usually considered a hallmark of adaptive radiation. Two distinct colour forms previously attributed to a single species, C. ensifera, lack distinguishing qualitative morphological characters, but are shown to be two different species. In contrast, morphologically rather distinct lake species lacking specific colour patterns may be hybridizing with riverine taxa. These results suggest that colour may play a similar role in species recognition and possibly speciation in ancient lake Caridina as hypothesized, e.g. for some African cichlids. 相似文献
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Abstract: A conserved coding region of the mitochondrial nad5 gene (1098–1107 bp of protein coding sequence) was amplified from 30 pteridophytes (26 ferns and 4 fern allies). A group II intron sequence conserved in all ferns except the eu-sporangiate genus Ophioglossum is also present in the whisk fern Psilotum nudum and the lycopod Huperzia selogo , but absent from the horsetails ( Equisetum ), the seed plants and the bryo-phytes. Phylogenetic trees constructed with different methods consistently suggest several monophyletic units. The conserved group II intron sequence provides valuable additional phylogenetic information. Leptosporangiate ferns are monophyletic with Osmunda as the basal-most branching genus followed by Trichomanes, Matonia and Lygodium . These genera are set distantly apart from other leptosporangiate ferns, including the tree and water ferns, which branch in close proximity. Species of Polypodiaceae, Dryopteridaceae, Thelypteridaceae, Aspleniaceae and Blechnaceae appear in a monophyletic crown group of derived leptosporangiate ferns with Dryopteridaceae as a paraphyletic taxon. Placement of Psilotum in a class of its own receives no support from the mitochondrial sequences, which rather suggest its inclusion among eusporangiate ferns (Ophioglossales). RNA editing is required to correct the genetic information of the nad5 gene in all species investigated and includes the removal of stop codons from the reading frames. The influence of RNA editing on phylogenetic tree construction is investigated and discussed. 相似文献
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Cibois A Slikas B Schulenberg TS Pasquet E 《Evolution; international journal of organic evolution》2001,55(6):1198-1206
The bird fauna of Madagascar includes a high proportion of endemic species, particularly among passerine birds (Aves: Passeriformes). The endemic genera of Malagasy songbirds are not allied obviously with any African or Asiatic taxa, and their affinities have been debated since the birds first were described. We used mitochondrial sequence data to estimate the relationships of 13 species of endemic Malagasy songbirds, 17 additional songbird species, and one species of suboscine passerine. In our optimal trees, nine of the 13 Malagasy species form a clade. although these birds currently are classified in three different families. In all optimal trees, the sister to this endemic clade is a group of Old World warblers including both African and Malagasy birds. The endemic Malagasy songbird clade rivals other island radiations, including the vangas of Madagascar and the finches of the Galapagos, in ecological diversity. 相似文献
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JD Kennedy JT Weir DM Hooper DT Tietze J Martens TD Price 《Evolution; international journal of organic evolution》2012,66(8):2599-2613
Within regions, differences in the number of species among clades must be explained by clade age, net diversification rate, or immigration. We examine these alternatives by assessing historical causes of the low diversity of a bird parvorder in the Himalayas (the core Corvoidea, 57 species present), relative to its more species rich sister clade (the Passerida, ~400 species present), which together comprise the oscine passerines within this region. The core Corvoidea contain ecologically diverse species spanning a large range of body sizes and elevations. Despite this diversity, on the basis of ecological, morphological, and phylogenetic information, we infer that the best explanation for the low number of species within the Himalayan core Corvoidea is one in which ecology limits diversification and/or immigration. Within the core Corvoidea, body size is correlated with elevation: large species are found at high elevations, and small species at lower elevations. This contrasts with the presence of many small-bodied species spanning all elevations in the Passerida and many large bodied species at low elevations in the other orders of birds (the nonpasserines). Cladogenetic events leading to ecological differences between species in body size and shape mostly occurred millions of years ago, and the rate of evolutionary change has declined toward the present. Elevational distributions have been evolutionarily more labile, but are also associated with ancient cladogenetic events. We suggest the core Corvoidea occupy a restricted volume of ecological space in competition with other bird species, and this has limited in situ diversification and/or immigration. 相似文献
16.
Christopher H. Martin 《Evolution; international journal of organic evolution》2013,67(7):2114-2123
Models predict that sympatric speciation depends on restrictive parameter ranges, such as sufficiently strong disruptive selection and assortative mating, but compelling examples in nature have rarely been used to test these predictions. I measured the strength of assortative mating within a species complex of Tilapia in Lake Ejagham, Cameroon, a celebrated example of incipient sympatric adaptive radiation. This species complex is in the earliest stages of speciation: morphological and ecological divergence are incomplete, species differ primarily in breeding coloration, and introgression is common. I captured 27 mated pairs in situ and measured the diet, color, size, and morphology of each individual. I found strong assortative mating by color, size, head depth, and dietary source of benthic or pelagic prey along two independent dimensions of assortment. Thus, Ejagham Tilapia showed strong assortative mating most conducive to sympatric speciation. Nonetheless, in contrast to a morphologically bimodal Sarotherodon cichlid species pair in the lake, Ejagham Tilapia show more limited progress toward speciation, likely due to insufficient strength of disruptive selection on morphology estimated in a previous study (γ = 0.16). This supports the predicted dependence of sympatric speciation on strong assortment and strong disruptive selection by examining a potentially stalled example in nature. 相似文献
17.
Dong-Liu Huang;Wei Xiang;Hui Liu;Shi-Dan Zhu; 《Physiologia plantarum》2024,176(2):e14253
Ferns are primitive vascular plants with diverse morphologies and structures. Plant anatomical traits and their linkages can reflect adaptation to the environment; however, these remain are still poorly understood in ferns. The main objective of this study was to explore whether there was structural coordination among and within organs in fern species. We measured 16 hydraulically related anatomical traits of pinnae, petioles, and roots of 24 representative fern species from the tropical and subtropical forest understory and analyzed trait correlation networks. In addition, we examined phylogenetic signals for the anatomical traits and analyzed co-evolutionary relationships. These results indicated that stomatal density and all petiole anatomical traits exhibited significant phylogenetic signals. Evolutionary correlations were observed between the tracheid diameter and wall thickness of the petiole and between the water transport capacity of the petiole and stomatal density. Conversely, anatomical traits of roots (e.g., root diameter) showed no phylogenetic signals and were not significantly correlated with those of the pinnae and petioles, indicating a lack of structural coordination between the below- and above-ground organs. Unlike angiosperms, vein density is unrelated to stomatal density or pinna thickness in ferns. As root diameter decreased, the cortex-to-stele diameter ratio decreased significantly (enhanced water absorption) in angiosperms but remained unchanged in ferns. These differences lead to different responses of ferns to climate change and improve our knowledge of the water adaptation strategies of ferns. 相似文献
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Nicolai M. Nürk H. Peter Linder Renske E. Onstein Matthew J. Larcombe Colin E. Hughes Laura Pieiro Fernndez Philipp M. Schlüter Luis Valente Carl Beierkuhnlein Vanessa Cutts Michael J. Donoghue Erika J. Edwards Richard Field Suzette G. A. Flantua Steven I. Higgins Anke Jentsch Sigrid Liede‐Schumann Michael D. Pirie 《Ecology and evolution》2020,10(12):6163-6182
Understanding how and why rates of evolutionary diversification vary is a key issue in evolutionary biology, ecology, and biogeography. Evolutionary rates are the net result of interacting processes summarized under concepts such as adaptive radiation and evolutionary stasis. Here, we review the central concepts in the evolutionary diversification literature and synthesize these into a simple, general framework for studying rates of diversification and quantifying their underlying dynamics, which can be applied across clades and regions, and across spatial and temporal scales. Our framework describes the diversification rate (d) as a function of the abiotic environment (a), the biotic environment (b), and clade‐specific phenotypes or traits (c); thus, d ~ a,b,c. We refer to the four components (a–d) and their interactions collectively as the “Evolutionary Arena.” We outline analytical approaches to this framework and present a case study on conifers, for which we parameterize the general model. We also discuss three conceptual examples: the Lupinus radiation in the Andes in the context of emerging ecological opportunity and fluctuating connectivity due to climatic oscillations; oceanic island radiations in the context of island formation and erosion; and biotically driven radiations of the Mediterranean orchid genus Ophrys. The results of the conifer case study are consistent with the long‐standing scenario that low competition and high rates of niche evolution promote diversification. The conceptual examples illustrate how using the synthetic Evolutionary Arena framework helps to identify and structure future directions for research on evolutionary radiations. In this way, the Evolutionary Arena framework promotes a more general understanding of variation in evolutionary rates by making quantitative results comparable between case studies, thereby allowing new syntheses of evolutionary and ecological processes to emerge. 相似文献
20.
Burns KJ Hackett SJ Klein NK 《Evolution; international journal of organic evolution》2002,56(6):1240-1252
Despite the importance of Darwin's finches to the development of evolutionary theory, the origin of the group has only recently been examined using a rigorous, phylogenetic methodology that includes many potential outgroups. Knowing the evolutionary relationships of Darwin's finches to other birds is important for understanding the context from which this adaptive radiation arose. Here we show that analysis of mitochondrial DNA sequence data from the cytochrome b gene confirm that Darwin's finches are monophyletic. In addition, many taxa previously proposed as the sister taxon to Darwin's finches can be excluded as their closest living relative. Darwin's finches are part of a well-supported monophyletic group of species, all of which build a domed nest. All but two of the non-Darwin's finches included in this clade occur on Caribbean islands and most are Caribbean endemics. These close relatives of Darwin's finches show a diversity of bill types and feeding behaviors similar to that observed among Darwin's finches themselves. Recent studies have shown that adaptive evolution in Darwin's finches occurred relatively quickly. Our data show that among the relatives of Darwin's finches, the evolution of bill diversity was also rapid and extensive. 相似文献