Leaf morphological and genetic divergence in populations of Drimys (Winteraceae) in Chile

The genus Drimys is distributed in Chile from semi-arid zones to sub-Antarctic forests; there are three species of this tree, D. andina, D. confertifolia and D. winteri, the latter with varieties chilensis and winteri. Northern populations are found in small disjunct natural refuges, specifically mountain cloud forests and the bottom of ravines. The size and continuity of populations are greater in the south, where wetter conditions prevail. Morphological differences between populations have been observed, particularly between the northern populations of Fray Jorge and Talinay. This observation, led to the following questions: a) what is the level of morphological and genetic divergence among the populations of Drimys in Chile? and b) do the populations from Fray Jorge/Talinay, currently classified as D. winteri var. chilensis, differ genetically from the other populations of this variety? To answer these questions, we collected leaf samples from 37 populations of all Chilean Drimys, performed leaf morphology analysis and estimated genetic divergence using RAPD markers. We found a high degree of leaf morphological and genetic divergence between the populations of Fray Jorge/Talinay and the other Chilean species of Drimys. The morphological and genetic divergence among varieties of D. winteri was greater than that among the species of Drimys, which may indicate problems with their taxonomic classification.     

Morphology and phylogenetics of Stomatisora,including Stomatisora psychotriicola sp. nov.

The morphology of the type specimen of Stomatisora geophilicola, the only species of the genus Stomatisora (Pucciniales) recognised till now, was restudied. Thin-walled probasidia (teliospores) develop exclusively in substomatal chambers, and mature metabasidia emerge through the stomata and develop suprastomatally. Uredinia are erumpent through the upper epidermis. A new species, S. psychotriicola, parasitizing Psychotria capensis (Rubiaceae) from South Africa, is described and illustrated. Only telia have been found which also develop in stomatal cavities, and, as in the type species, have partly repetitive probasidia and suprastomatal metabasidia that easily detach from fragile stalks. The similarities of telial morphology, as well as the same host family, indicate a close relationship and a generic separation from other rust genera. Molecular data support this interpretation and a possible relationship within a phakopsoroid clade.     

Redescription of Alinema amazonicum (Travassos, 1960) n. comb., a philometrid nematode with unusual morphology

Nematodes (1 male and numerous females) of the Philometridae were collected from the mesentery of 2 species of pimelodid catfishes, Calophysus macropterus and Perrunichthys perruno, from the Amazon River basin (fishmarket in Iquitos, Loreto District) in Peru. A detailed study of their morphology (including scanning electron microscopy) and a reexamination of the type and voucher specimens of Philometra amazonica Travassos, 1960, from Brazilian catfishes confirmed that they belong to this species and that Philometra (Alinema) alii Rasheed, 1963 is its junior synonym. Because of some marked morphological peculiarities of this species (presence of minute peribuccal sclerotized formations, a functional vagina and vulva in gravid female, and structure of the male tail), the validity of an independent genus, Alinema Rasheed, 1963, is confirmed, to which this species is transferred as Alinema amazonicum (Travassos, 1960) n. comb. This is the first record of this parasite from Peru, and P. perruno represents its new host record.     

New species, phylogeny, host-associations and geographic distribution of genus Cryptosporella (Gnomoniaceae, Diaporthales)

The phylogeny of Cryptosporella is revised to include recently discovered species. Eight species new to science are described and two new combinations are proposed, raising the total number of species accepted in Cryptosporella to 19. The species delimitation and phylogeny for Cryptosporella are determined based on analyses of DNA sequences from three genes (β-tubulin, ITS and tef1-α), comparative morphology of sexual structures on their host substrate, and host associations. The inferred phylogeny suggests that Cryptosporella has speciated primarily on Betulaceae with 16 species occurring on hosts in that plant family. The host range of most species seems to be narrow with nine species reported from a single host species or subspecies and seven species occurring on plants within a single host genus. A key to species is provided. The known distribution of Cryptosporella is expanded to mountain cloud forests of the provinces of Chiriquí in Panama and Tucumán in Argentina.     

Caetea, a new genus of Pucciniales on Piptadenia (Fabaceae) from Brazil

A new genus of rust fungi (Basidiomycota, Pucciniales), with species type Caetea itatiaiaensis, was collected on Piptadenia (Fabaceae) at the Parque Nacional do Itatiaia in the Serra da Mantiqueira, states of Rio de Janeiro and Minas Gerais, Brazil. This genus is delimited as (i) three-celled teliospores borne on a single pedicel each with a corresponding apical cell and (ii) apical cells giving rise to distally capitate cysts that overhang the teliospore cells.     

Speciation of Protopolystoma Bychowsky, 1957 (Monogenea: Polystomatidae) in hosts of the genus shape Xenopus (Anura: Pipidae)

The taxonomy, geographical distribution and hostrange of the polystomatid genus ProtopolystomaBychowsky, 1957 are reviewed. P. xenopodis(Price, 1943) and five new species are recognised,which occur in clawed toads ( Xenopus spp.)throughout subsaharan Africa. Of the two clawed toadsubgenera, Xenopus and Silurana, only theformer is infected. Protopolystoma spp. aredifferentiated by morphological variation of the gut,large hamulus and penis armature. P.xenopodis is found in Xenopus laevis subspeciesin South Africa, Transkei, Zimbabwe, DemocraticRepublic of Congo (D.R.C.), Rwanda, Uganda, Kenya andCameroon ( X. l. poweri and X. l.sudanensis are new host records). It also occurs inintroduced populations of X. l. laevis in theUnited States (southern California) and United Kingdom(South Wales). In subsaharan Africa the speciesdisplays significant, but continuous, geographicalvariation of penis spine size between southernpopulations in X. l. laevis and those in morenortherly host subspecies. Data on the natural hostrange of this parasite were complemented by anexperimental study of host-specificity in the southernform. This can produce patent infections in X.l. victorianus and X. gilli, but not X.wittei nor X. (Silurana) tropicalis. P.simplicis n. sp. is endemic to central and eastAfrican areas, infecting X. laevis subspecies ineastern D.R.C., Rwanda, Uganda and western Kenya, X. wittei-like hosts in eastern D.R.C., westernUganda, Rwanda and Burundi, X. vestitus inwestern Uganda and Xenopus sp. at Nairobi,Kenya. P. ramulosus n. sp. occurs in X.fraseri-like toads in eastern D.R.C. (Gabon andCameroon are also possible literature records), and P. fissilis n. sp. is found in X. fraseri-and X. wittei-like species in Cameroon andeastern D.R.C., and in southern Rwanda, respectively. Two Protopolystoma taxa are found in X.muelleri populations now suspected to representdistinct species: P. occidentalis n. sp. occursin X. muelleri (western form) in Ghana, Togo,Nigeria and Cameroon, while P. orientalis n. sp.is found in X. muelleri (eastern form) in SouthAfrica, Zimbabwe and Tanzania. The allopatricallydistributed species P. ramulosus, P.simplicis, P. occidentalis and P.orientalis form a relatively homogenous grouping withsome interspecific morphological overlap. These taxaare distinguished from P. xenopodis by penisspine morphology and from P. fissilis by hamulusroot form and aspects of gut morphology. Unidentified Protopolystoma sp. have been recorded in X. clivii in Ethiopia, X. fraseri aff. inCameroon and Xenopus sp. in Kenya and Tanzania. At some localities, single host species were infectedby two representatives of Protopolystoma. P. fissilis was recorded in eastern D.R.C. with P. ramulosus, with Protopolystoma sp. inCameroon in X. fraseri-like hosts and with P. simplicis in X. wittei-like hosts in Rwanda. P. xenopodis co-occurred with P. simplicisin X. laevis subspecies through central and eastAfrica.     

Speciation in the globeflower fly Chiastocheta spp. (Diptera: Anthomyiidae) in relation to host plant species, biogeography, and morphology

Phylogenetic relationships among the Chiastocheta species (Diptera, Anthomyiidae) were investigated using a 1320-bp mitochondrial DNA fragment including parts of cytochrome oxidase subunits I and II. Larvae of the Chiastocheta genus feed exclusively on Trollius (Ranunculaceae) seeds. Six Chiastocheta species (and two vicariant taxa) coexist on Trollius europaeus in Europe, where they were shown to be the sole pollinator of their host plant. In Asia, several Trollius species are parasitized by Chiastocheta spp., and several other Trollius species are free of Chiastocheta. The plant-insect association is thus obligate in Europe but facultative in Asia. This system therefore provides a unique opportunity to study the evolution of an obligate mutualism between a plant and its seed parasite pollinators and its consequences on insect diversification. Most parsimonious, distance, and maximum likelihood analyses of 16 haplotypes from Europe and 14 from Asia show that European species do not form a monophyletic group. The species relationship indicated by egg morphology is only partly supported by molecular data. Moreover, a strong discrepancy between nucleotide variation and male genitalia morphology variation was found, particularly within and among European species coexisting on a single host plant. Molecular divergence across species ranges from 0 to 4.6%, suggesting a recent origin of the genus and several events of diversification, involving both host shifts and within-host-plant radiation. We discuss alternative evolutionary scenarios that are consistent with molecular data.     

Taxonomic delimitation of <Emphasis Type="Italic">Fulvifomes robiniae</Emphasis> (Hymenochaetales,Basidiomycota) and related species in America: <Emphasis Type="Italic">F. squamosus</Emphasis> sp. nov.

Morphological revision of Fulvifomes robiniae, as well as phylogenetic inferences based on nITS and nLSU markers, indicated that the species has a narrower concept in its morphology and distribution. Other morphologically related taxa arise from this taxonomic approach. Fulvifomes cedrelae is not accepted as a synonym of F. robiniae, and Fulvifomes squamosus sp. nov. is described as new based on Peruvian specimens. Based on morphology, phylogenetic relationships and host distributions, the taxonomic implication for the genus and other related taxa are discussed.     

采自广东大亚湾水域的海链藻属一新种——扇形海链藻

为澄清广东大亚湾水域海链藻属的物种多样性, 研究建立了它的单克隆培养株系。结合光镜和扫描电镜下的形态学特征, 以及基于核糖体大、小亚基序列的分子系统发育分析, 报道了中国海链藻属的1个新种, 即扇形海链藻Thalassiosira flabellata sp. nov. X.H. Guo, Y.Q. Guo & Y. Li。该种以短链状群体或单细胞生活, 壳面具有一圈壳缘支持突、一个中央支持突和一个壳缘唇形突。壳面孔纹束状排列, 是此种的典型特征。此种与帕尔海链藻T. partheneia较为相似, 区别特征如下: 此种的壳面支持突和唇形突均具有外管, 而帕尔海链藻的突起没有外管, 只有内管; 其次, 此种的壳面较平, 而帕尔海链藻的壳面隆起呈鼓状; 第三, 此种的中央支持突具有3个围孔, 而帕尔海链藻具有4—5个围孔。     

Ancient trans-Atlantic flight explains locust biogeography: molecular phylogenetics of Schistocerca

The desert locust (Schistocerca gregaria) has been an important agricultural pest at least since biblical times. Although the ecology, physiology and behaviour of this insect species have been well characterized, its biogeographical origins and evolutionary history are more obscure. Schistocerca gregaria occurs throughout Africa, the Middle East and Western Asia, but all other species in the genus Schistocerca are found in the New World. Because S. gregaria has the capacity for extreme long-distance movement associated with swarming behaviour, dispersal may have played an important role in determining current distribution patterns. Some authors have argued that S. gregaria is the product of an eastward trans-Atlantic dispersal from North America to Africa; others consider it more likely that the New World taxa are the product of westward dispersal from Africa. Here, we present a mitochondrial DNA phylogeny of Schistocerca species that supports the monophyly of New World species (including the Galapagos endemic Halmenus) relative to S. gregaria. In concert with observed patterns of molecular divergence, and in contrast to previous morphological studies, our analysis indicates a single trans-Atlantic flight from Africa to South America, followed by extensive speciation and ecological divergence in the New World.     

The biology and systematics of a new species of Xenopus (Anura: Pipidae) from the highlands of Central Africa

A new species of clawed toad, Xenopus wittei sp. nov. is described from highland areas overlapping the borders of Rwanda, Uganda and Zaire. A comprehensive morphological analysis of the species has been carried out. X. wittei sp. nov. is very closely related to X. vestitus and both have a tetraploid chromosome complement (2 n = 72), the only examples within the genus. Nevertheless, the two species may be distinguished by easily observed features, including head morphology and dorsal body colours and patterns, and are also identified by their karyotypes and mating calls.
Data on distribution, ecology and parasite infection are derived from both museum collections and fieldwork in Central Africa. X. wittei sp. nov. is sympatric in parts of its range with X. vestitus, X. laevis victorianus and X. I. bunyoniensis , with up to three of the taxa sharing the same habitats. The implications of potential species interactions are discussed. Experimental hybridization has confirmed the reproductive isolation of the two tetraploid species. Parasitological studies show that they may be distinguished from one another by host specific species of the nematode Chitwoodchabaudia and from other Xenopus species by the absence of the tapeworm genus Cephalochlamys . Large scale population movements of the Xenopus species have apparently occurred in the Central African highlands during the period of available records. Sympatry observed amongst the present day representatives of Xenopus may have been an important factor in the evolution of these toads since X. wittei sp. nov. and X. vestitus are interpreted as allopolyploids, the products of interspecies hybridization.     

The taxonomic status,host range and geographical distribution of Dollfuschella Vercammen-Grandjean, 1960 (Digenea: Halipeginae) from Xenopus spp. (Anura: Pipidae)

The taxonomy, host range and geographical distribution of halipegine digeneans from Xenopus spp. are reviewed. Dollfuschella Vercammen-Grandjean, 1960 is reinstated from synonymy with Halipegus Looss, 1899 because of the presence of a sinus-sac and weakly developed permanent sinus-organ. Only one representative of the genus, D. rodhaini Vercammen-Grandjean, 1960, is recognised, of which H. rhodesiensis Beverley-Burton, 1963 is considered a synonym. Based on previous literature records this parasite occurs in Xenopus laevis laevis from South Africa and Zimbabwe, X. l. victorianus from Zaire and Uganda, X. l. bunyoniensis from Rwanda, X. wittei from Zaire and Uganda, X. vestitus from Uganda and X. muelleri from Zaire (in some cases host identification has been revised). New host and/or locality records are from X. l. poweri in Zambia, X. l. victorianus in Rwanda, X. l. bunyoniensis in Uganda and X. clivii in Ethiopia. All known hosts belong to a clade characterised by multiples of 2n = 36 chromosomes. There are no records of halipegines from the other major lineage within Xenopus, X. tropicalis-like species with multiples of 2n = 20 chromosomes. This latter group occurs in lowland tropical rain forest from west Africa in contrast to the hosts of D. rodhaini which are found typically in grassland and wooded savanna and in montane forest biotypes. The distribution of D. rodhaini might, therefore, be limited by phylogenetic specificity to the definitive host group or by other ecological factors (e.g., availability of suitable molluscan hosts). Its wide geographical and host range, in common with some other parasite species from the 2n = 36 Xenopus lineage, may result from the lack of ecological or geographical barriers between different definitive host species and subspecies. However, significant geographical variation in egg-size occurs between northern D. rodhaini populations (north of about 15° S) and those from X. l. laevis in southern Africa. This is not considered sufficient for taxonomic recognition but it could reflect the operation of some isolating factor: parasite divergence concurs with evidence that X. l. laevis is evolutionarily relatively distant from the other (more northerly) members of the laevis Rassenkreis.     

The Xenorhabdus nematophila nilABC genes confer the ability of Xenorhabdus spp. to colonize Steinernema carpocapsae nematodes

Members of the Steinernema genus of nematodes are colonized mutualistically by members of the Xenorhabdus genus of bacteria. In nature, Steinernema carpocapsae nematodes are always found in association with Xenorhabdus nematophila bacteria. Thus, this interaction, like many microbe-host associations, appears to be species specific. X. nematophila requires the nilA, nilB, and nilC genes to colonize S. carpocapsae. In this work, we showed that of all the Xenorhabdus species examined, only X. nematophila has the nilA, nilB, and nilC genes. By exposing S. carpocapsae to other Xenorhabdus spp., we established that only X. nematophila is able to colonize S. carpocapsae; therefore, the S. carpocapsae-X. nematophila interaction is species specific. Further, we showed that introduction of the nilA, nilB, and nilC genes into other Xenorhabdus species enables them to colonize the same S. carpocapsae host tissue that is normally colonized by X. nematophila. Finally, sequence analysis supported the idea that the nil genes were horizontally acquired. Our findings indicate that a single genetic locus determines host specificity in this bacteria-animal mutualism and that host range expansion can occur through the acquisition of a small genetic element.     

中国盘霜霉属在菊科植物上的分类单元

本文讨论了菊科植物上盘霜霉属Bremia的分类问题。根据专性寄生菌种的划分,在以形态特征为基础的同时,结合考虑寄生专化性或寄主范围的观点,我们提出菊科植物上Bremia的种的寄主限制在菊科“族”的范围内。对中国的菊科植物上Bremia属的已知种及变种列出了检索表,还报告了一个新种及一新组合,它们是兔苣盘霜霉(B.lagoseridis sp.nov.),寄生于兔苣(Lagoseris sanctae),和蓟盘霜霉(B.cirsii comb.nov.),寄生于蓟属(Cirsium spp.),标本保存于四川农业大学真菌实验室及中国科学院微生物所标本室。     

The rust genus Frommeella revisited: a later synonym of Phragmidium after all

Fromme?lla (Phragmidiaceae, Pucciniales, Basidiomycota), which currently includes two species and is typified by F. tormentillae, causes rust on members of tribe Potentilleae (Rosaceae). The genus has been distinguished from Phragmidium on the basis of having only one germ pore per teliospore cell rather than two or three and by aecial characters. Phylogenetic analyses of both currently accepted Fromme?lla spp. with nLSU rDNA data suggest that Fromme?lla was derived from within a clade representing Phragmidium. Thus Fromme?lla should be considered to be a later generic synonym of Phragmidium. Analyses also indicate that Fromme?lla tormentillae on Potentilla species includes two taxa recognized herein as Phragmidium potentillae-canadensis and P. tormentillae. Fromme?lla mexicana on Potentilla spp. formerly classified in Duchesnea, is distinct from but sister to the other two species. Based on data regarding type specimens that were presented in a study by McCain and Hennen, the new combination Phragmidium mexicanum is proposed as the correct name for this species. Necessary studies of original material were made, and Phragmidium potentillae-canadensis is lectotpyified and epitypified. Although considered and expanded here, further examination of species boundaries and host ranges of the fungi formerly classified in Fromme?lla is warranted.     

Phylogenetic species recognition reveals host-specific lineages among poplar rust fungi

Fungal species belonging to the genus Melampsora (Basidiomycota, Pucciniales) comprise rust pathogens that alternate between Salicaceae and other plant hosts. Species delineation and identification are difficult within this group due to the paucity of observable morphological features. Several Melampsora rusts are highly host-specific and this feature has been used for identification at the species level. However, this criterion is not always reliable since different Melampsora rust species can overlap on one host but specialize on a different one. To date, two different species recognition methods are used to recognize and define species within the Melampsora genus: (i) morphological species recognition, which is based solely on morphological criteria; and (ii) ecological species recognition, which combines morphological criteria with host range to recognize and define species. In order to clarify species recognition within the Melampsora genus, we applied phylogenetic species recognition to Melampsora poplar rusts by conducting molecular phylogenetic analyses on 15 Melampsora taxa using six nuclear and mitochondrial loci. By assessing the genealogical concordance between phylogenies, we identified 12 lineages that evolved independently, corresponding to distinct phylogenetic species. All 12 lineages were concordant with host specialization, but only three belonged to strictly defined morphological species. The estimation of the species tree obtained with Bayesian concordance analysis highlighted a potential co-evolutionary history between Melampsora species and their reciprocal aecial host plants. Within the Melampsora speciation process, aecial host may have had a strong effect on ancestral evolution, whereas telial host specificity seems to have evolved more recently. The morphological characters initially used to define species boundaries in the Melampsora genus are not reflective of the evolutionary and genetic relationships among poplar rusts. In order to construct a more meaningful taxonomy, host specificity must be considered an important criterion for delineating and describing species within the genus Melampsora as previously suggested by ecological species recognition.     

紫苏属植物染色体数目和核型分析

通过对26份紫苏属材料进行染色体数目的观察,并对其1种(包括紫苏和白苏)及2变种材料各一份进行核型分析.结果显示,紫苏属植物染色体数均为2n=40,其核型公式分别为紫苏[P.frutescens(L.)Britton var.frutescens(zi-su)]2n=40=20m(2SAT) 10sm 10st;野生紫苏[P.frutescens var.purpurascens(Hayata)H.W.Li]2n=40=18m 14sm(2SAT) 8st;回回苏[P.frutescens var.crispa(Benth.)Deane ex Bailey]2n=40=10m(2SAT) 14sm 16st;白苏[P.frutescens(L.)Britton var.frutescens(bai-su)]2n=40-24m 12sm(2SAT) 4st.结果表明,紫苏属不同原(变)种植物的染色体数日相同,但在核型上存在一定的差异,其染色体核型为首次报道.     

Natural host range and prevalence of the genus strongwellsea (Zygomycota: entomophthorales) in denmark

The natural occurrence and host range of species of the insect pathogenic fungal genus Strongwellsea [Zygomycota: Entomophthorales] were studied by extensive sampling and examination of adult Diptera [Cyclorrhapha]. The host range for Strongwellsea spp. was significantly enlarged. Three families were documented as new hosts: Muscidae (three species), Calliphoridae (one species), and Sarcophagidae (one species). Further, within the family Anthomyiidae six new host species were recorded and three new host species were documented in the Fanniidae. Strongwellsea castrans was identified as the pathogen in the Anthomyiids, while records from Fanniidae belonged to S. magna. The records of S. magna were the first outside the type locality (California). Primary conidia morphology indicated that muscid and calliphorid species were infected by three undescribed species of Strongwellsea. For the sarcophagid fly, no conidia were encountered, so the Strongwellsea species could not be identified. The tested sampling methods had each different advantages. Sweep netting and diagnosis in situ gave the best opportunity to sample a high number of infected dipterans per time unit spend, while sweep netting followed by incubation in the laboratory was the only method for the documentation of resting spores. The prevalence of S. castrans in the cabbage root fly Delia radicum was obtained by two methods: Samples collected by sweep net and incubated and water trap samples. Water trap captures gave higher prevalences of conidial infections than sweep-net captures. Measured prevalences of Strongwellsea spp. infections are therefore highly dependent on sampling method. The occurrence of resting spores of S. castrans in D. radicum was almost exclusively restricted to females and varied during the season. In samples from 1988 through 1993, no infected females in June contained resting spores, while 43.0% of the S. castrans-infected females from samples in August contained resting spores. During September and October, a decreasing proportion of S. castrans-infected D. radicum contained resting spores. The results document that species from the genus Strongwellsea are common fungal pathogens of adult flies from different families, occasionally with high prevalences. It also appears that the two described species of Strongwellsea, S. castrans and S. magna, have a range of dipterous host species that may always belong to a single family, Anthomyiidae and Fanniidae, respectively. Our data shows also that the host family Muscidae may be exploited by two new species of Strongwellsea. Copyright 1999 Academic Press.     

The structure, reproduction and taxonomy of Vidalia and Osmundaria (Rhodophyta, Rhodomelaceae)

Comprises species occurring mostly in subtidal habitats in tropical, subtropical and warm-temperate areas of the world. An analysis of the type species, V. spiralis (Sonder) Lamouroux ex J. Agardh, a species from Australia, establishes basic characters for distinguishing species in the genus. These characters are (1) branching patterns of thalli, (2) flat blades that may be spiralled on their axis, (3) width of the blade, (4) primary or secondary derivation of sterile and fertile branchlets and (5) position of sterile and fertile branchlets on the thalli. Application of the latter two characters provides an important basic method for separation of species into three major groups. Osmundaria , a genus known only in southern Australia, was studied in relation to Vidalia , and its separation from the Vidalia assemblage is not accepted. Species of Vidalia therefore are transferred to the older genus name, Osmundaria. Two new species, Osmundaria papenfussii and Osmundaria oliveae are described from Natal. Confusion in the usage of the epithet, Vidalia fimbriala Brown ex Turner has been clarified, and Vidalia gregaria Falkenberg, described as an epiphyte on Osmundaria pro/ifera Lamouroux, is revealed to be young branches of the host, Osmundaria prolifera.     

垂头菊柄锈菌新种

本文报告了盘花垂头菊Cremanthodium discoideum Maxim.上的一锈菌新种——垂头菊柄锈菌Puccinia cremanthodii J.Y.Zhuang et S.X.Wei。模式标本采自青海省,保藏在中国科学院微生物研究所真菌标本室。本种主要特征是:冬孢子椭圆形或近倒卵形,两端圆,中部略缢缩,32—48×19—32μm,孢壁肉桂褐色至粟褐色,2—3.5μm厚,连同孔帽约5μm厚,有不规则的网状皱纹,柄达100μm长,易破碎。垂头菊属植物上未曾记载过有锈菌,本种为首次报道。垂头菊属是喜马拉雅和青藏高原的特有属,分布高海拔地带,推测此菌可能为青藏高原所特有。