Your search keyword '"Gnaphalieae"' showing total 200 results

1. Characterization of the complete chloroplast genome of medicinal species Duhaldea nervosa (Asteroideae, Asteraceae) and its phylogenetic analysis

Author

Xing, Zhimei, Ma, Mingxue, Xu, Liuwei, Kang, Wei, Zhou, Shufan, Wang, Yuefei, Abdullah, and Tian, Xiaoxuan

Published

2025

2. Phylogeny, biogeography, and character evolution of Anaphalis (Gnaphalieae, Asteraceae).

Author

Xue-Min Xu, He Xu, Zheng Yang, Zhen Wei, Jun-Yu Gu, Dan-Hui Liu, Quan-Ru Liu, and Shi-Xin Zhu

Subjects

BIOLOGICAL classification, BIOGEOGRAPHY, RIBOSOMAL DNA, PHYLOGENY, NUCLEAR DNA, ASTERACEAE

Abstract

The HAP clade, mainly including Helichrysum Mill, Anaphalis DC., and Pseudognaphalium Kirp., is a major component of tribe Gnaphalieae (Asteraceae). In this clade, Anaphalis represents the largest genus of Asian Gnaphalieae. The intergeneric relationships among Anaphalis and its related genera and the infrageneric taxonomy of this genus are complex and remain controversial. However, there are few studies that have focused on these issues. Herein, based on the current most comprehensive sampling of the HAP clade, especially Anaphalis, we conducted phylogenetic analyses using chloroplast (cp) genome and nuclear ribosomal DNA (nrDNA) to evaluate the relationships within HAP clade, test the monophyly of Anaphalis, and examine the infrageneric taxonomy of this genus. Meanwhile, the morphological characters were verified to determine the circumscription and infrageneric taxonomy system of Anaphalis. Additionally, the biogeographical history, diversification processes, and evolution of crucial morphological characters were estimated and inferred. Our phylogenetic analyses suggested that Anaphalis is polyphyletic because it nested with Helichrysum and Pseudognaphalium. Two and four main clades of Anaphalis were identified in cp genome and nrDNA trees, respectively. Compared with nrDNA trees, the cp genome trees were more effective for phylogenetic resolution. After comprehensively analyzing morphological and phylogenetic evidence, it was concluded that the achene surface ornamentation and leaf base showed less homoplasy and supported the two Anaphalis lineages that were inferred from cp genome. Our biogeographical analyses based on cp genome indicated that HAP clade underwent rapid diversification from late Miocene to Pliocene. The two Anaphalis lineages appeared to have originated in Africa, then spread to Western and Southern Asia, and subsequently moved into Southwestern China forming a diversity center. The dispersal patterns of the two Anaphalis lineages were different. One dispersed around the world, except in Africa and South America. The other one dispersed to Eastern and Southeastern Asia from the ancestral origin region. [ABSTRACT FROM AUTHOR]

Published

2024

3. Rediscovery of endangered species Laphangium luteoalbum (Asteraceae) in Lithuania

Author

Zigmantas Gudžinskas and Laurynas Taura

Subjects

annual plant, conservation, gnaphalieae, habitats, iucn, threats, wind-dispersal, Biology (General), QH301-705.5, Microbiology, QR1-502

Abstract

Laphangium luteoalbum (Asteraceae) is a widely distributed species native to Eurasia; however, it is rare or endangered in some regions of Europe and included into the lists of protected species. In Lithuania, Laphangium luteoalbum was recorded in the southern part of the country, mainly along the banks of the Nemunas River in the 20th century. In contrast, it was found only in the 19th century in the western part of the country. During the research in Curonian Spit National Park (Neringa, western Lithuania), a relatively large species population was found in the transition zone between the dune grassland and wet dune slack habitats. The total population in 2020 consisted of about 500 individuals distributed over an area of about 310 m2. We assume that the seeds of this wind-dispersed plant may have been transferred from other regions of Europe by the wind. However, it cannot be excluded that the plants found are descendants of populations previously recorded in the country. The species is most threatened by the loss of wet, open sandy habitats due to eutrophication of water bodies and subsequent changes in bank vegetation. Laphangium luteoalbum was classified as data deficient (DD) in the last assessment according to the IUCN criteria. Still, a reassessment based on the current data indicates that the species should be considered critically endangered (CR) in Lithuania.

Published

2022

4. The complete chloroplast genome sequence of Anaphalis margaritacea var. yedoensis (Asteraceae) and phylogenetic relationships within Gnaphalieae

Author

Taishi Hoson, Takuro Ito, and Masayuki Maki

Subjects

adaptation, complete chloroplast genome, gnaphalieae, pebbled river banks, phylogeny, Genetics, QH426-470

Abstract

Anaphalis margaritacea var. yedoensis is a perennial herb adapted to the severe environment of pebbled river banks, where it is frequently found. In this study, we determined the complete chloroplast genome of A. margaritacea var. yedoensis and uncovered its phylogenetic relationships with other members of Gnaphalieae. The total chloroplast genome size of A. margaritaceae var. yedoensis is 153,231 bp, with a large single-copy region (LSC) of 84,981 bp, a small single-copy region (SSC) of 18,481 bp and a pair of inverted repeat (IR) regions of 24,885 bp. A total of 136 genes were annotated, including 39 tRNA genes, 8 rRNA genes, and 89 protein-coding genes. Phylogenetic analysis showed that A. margaritacea var. yedoensis and another Anaphalis species, A. sinica, do not form a monophyletic group, supporting previous phylogenetic studies using some specific regions of cpDNA that showed the genus Anaphalis is non-monophyletic.

Published

2022

5. Rediscovery of endangered species Laphangium luteoalbum (Asteraceae) in Lithuania.

Author

Gudžinskas, Zigmantas and Taura, Laurynas

Subjects

ENDANGERED species, ASTERACEAE, EUTROPHICATION, HABITATS

Abstract

Laphangium luteoalbum (Asteraceae) is a widely distributed species native to Eurasia; however, it is rare or endangered in some regions of Europe and included into the lists of protected species. In Lithuania, Laphangium luteoalbum was recorded in the southern part of the country, mainly along the banks of the Nemunas River in the 20th century. In contrast, it was found only in the 19th century in the western part of the country. During the research in Curonian Spit National Park (Neringa, western Lithuania), a relatively large species population was found in the transition zone between the dune grassland and wet dune slack habitats. The total population in 2020 consisted of about 500 individuals distributed over an area of about 310 m². We assume that the seeds of this wind-dispersed plant may have been transferred from other regions of Europe by the wind. However, it cannot be excluded that the plants found are descendants of populations previously recorded in the country. The species is most threatened by the loss of wet, open sandy habitats due to eutrophication of water bodies and subsequent changes in bank vegetation. Laphangium luteoalbum was classified as data deficient (DD) in the last assessment according to the IUCN criteria. Still, a reassessment based on the current data indicates that the species should be considered critically endangered (CR) in Lithuania. [ABSTRACT FROM AUTHOR]

Published

2022

6. Three New Species of Mniodes A. Gray (Gnaphaliinae, Gnaphalieae, Asteraceae) from Bolivia and Peru and Nomenclatural Changes in the Lucilia-Group.

Author

Quipuscoa Silvestre, Victor and Dillon, Michael O.

Subjects

*ASTERACEAE, *SPECIES, *NUCLEOTIDE sequence, *CENTAUREA, *SAUSSUREA

Abstract

Recent studies within the Neotropical members of the Gnaphaliinae (Gnaphalieae, Asteraceae), especially those utilizing DNA sequences, have served to refine putative generic boundaries and clarify internal classification within the subtribe. In preparation of a monographic treatment built upon DNA investigations, we describe here one new species from Bolivia, M. beckii Quip. & M.O. Dillon, sp. nov., and two from Peru, M. montesinosii Quip. & M.O. Dillon, sp. nov., and M. zapatae Quip. & M.O. Dillon, sp. nov. Further, we resurrect a valid name proposed by Weddell (1954), Merope caespititia Wedd., and provide a new combination, Mniodes caespititia (Wedd.) Quip. & M.O.Dillon, comb. nov. A diagnostic key to Mniodes species from Bolivia and Peru is presented. [ABSTRACT FROM AUTHOR]

Published

2020

7. Plastid genomes provide insights into the phylogeny and chloroplast evolution of the paper daisy tribe Gnaphalieae (Asteraceae).

Author

Lao, Xiao-Lin, Meng, Ying, Wu, Jue, Wen, Jun, and Nie, Ze-Long

Abstract

• The basic structural characteristics of chloroplast genomes of Gnaphalieae were analyzed and compared. • The chloroplast genome size is much reduced for the FLAG clade, but relatively expanded for the others. • Insertion-deletion in intergenic regions are attributed to be the main factor to genome size variances in Gnaphalieae. Chloroplast genomes, as an essential source of phylogenetic information, are increasingly utilized in the evolutionary study of angiosperms. Gnaphalieae is a medium-sized tribe of the sunflower family of Asteraceae, with about 2,100 species in 178 genera distributed in temperate habitats worldwide. There has been considerable progress in our understanding of their phylogenetic evolution using both nuclear and chloroplast sequences, but no focus on chloroplast genomic data. In this study, we performed sequencing, assembly, and annotation of 16 representative chloroplast genomes from all the major lineages of Gnaphalieae. Our results showed that the plastomes exhibited a typical circular tetrad structure with similar genomic structure gene content. But there were differences in genome size, SSRs, and codon usage within the tribe. Phylogenetic analysis revealed Relhania clade is the earliest diverged lineages with the Lasiopogon clade and the Gnaphalium s.s. clade diverged subsequently. The core group includes FLAG clade sister to the HAP and Australasian group. Compared with the outgroup species, chloroplast genome size of the FLAG clade is much reduced whereas those of Australasian, HAP, Gnaphalium s.s., Lasiopogon and Relhania clades are relatively expanded. Insertions and deletions in the intergenic regions associated with repetitive sequence variations are supposed to be the main factor leading to length variations in the chloroplast genomes of Gnaphalieae. The comparative analyses of chloroplast genomes would provide useful implications into understanding the taxonomic and evolutionary history of Gnaphalieae. [ABSTRACT FROM AUTHOR]

Published

2024

8. The complete chloroplast genome sequence of Anaphalis margaritacea var. yedoensis (Asteraceae) and phylogenetic relationships within Gnaphalieae.

Author

Hoson, Taishi, Ito, Takuro, and Maki, Masayuki

Subjects

CHLOROPLAST DNA, WHOLE genome sequencing, GENOME size, RIPARIAN areas, ASTERACEAE

Abstract

Anaphalis margaritacea var. yedoensis is a perennial herb adapted to the severe environment of pebbled river banks, where it is frequently found. In this study, we determined the complete chloroplast genome of A. margaritacea var. yedoensis and uncovered its phylogenetic relationships with other members of Gnaphalieae. The total chloroplast genome size of A. margaritaceae var. yedoensis is 153,231 bp, with a large single-copy region (LSC) of 84,981 bp, a small single-copy region (SSC) of 18,481 bp and a pair of inverted repeat (IR) regions of 24,885 bp. A total of 136 genes were annotated, including 39 tRNA genes, 8 rRNA genes, and 89 protein-coding genes. Phylogenetic analysis showed that A. margaritacea var. yedoensis and another Anaphalis species, A. sinica, do not form a monophyletic group, supporting previous phylogenetic studies using some specific regions of cpDNA that showed the genus Anaphalis is non-monophyletic. [ABSTRACT FROM AUTHOR]

Published

2022

9. Quasiantennaria (Asteraceae, Gnaphalieae), a new genus from the central Andes.

Author

Bayer, Randall J. and Dillon, Michael O.

Abstract

Quasiantennaria R. J. Bayer & M. O. Dillon, a new genus from the central Andes distributed from Peru to Bolivia, is described and illustrated. It is characterized among Andean Gnaphalieae by its dioecious or polygamo-dioecious breeding system, cespitose, perennial herbs, basal rosulate leaves, capitulescences scapose, cymose-corymbose. It most closely resembles Antennaria Gaertn., a typically northern hemispheric genus; however, it differs in its achenial trichomes and relationships suggested by DNA sequence data. [ABSTRACT FROM AUTHOR]

Published

2019

10. Does arbuscular mycorrhiza favor invasion of some Asteraceae tribes?

Author

Marina Nikolaevna Mandryk-Litvinkovich, Sofia Valeryevna Sokornova, and Daniil Mikhailovich Malygin

Subjects

Arbuscular mycorrhiza, biology, Senecio inaequidens, Gnaphalieae, Anthemideae, fungi, Botany, Astereae, food and beverages, Cichorieae, Senecioneae, biology.organism_classification, Solidago canadensis

Abstract

Invasive species, including more than three dozen Asteraceae, such as Solidago canadensis, Leucanthemum vulgare, Senecio inaequidens etc, pose serious threat to ecosystem health. Arbuscular mycorrhizal symbiosis is a key factor for distribution of invasive species of some Asteraceae tribes, including Astereae, Anthemideae, Senecioneae, Gnaphalieae, Cardueae, and Cichorieae. The formation of invasion-friendly plant communities has occurred through increasing nutrient and water availability, hormonal regulation, production of bioactive compounds, and mycorrhiza-induced resistance of host plants. Native species are displaced through the influence on soil microbiota, mycorrhizal and nutrient status of neighboring plants, and several other parameters. Allelopathic influences and symbiotic interactions with bacteria and other fungi can inhibit these processes. Understanding the mycorrhizal status of invasive weeds, in our opinion, is a necessary condition for their successful control.

Published

2021

11. The complete chloroplast genome of Helichrysum italicum (Roth) G. Don (Asteraceae)

Author

Matjaž Hladnik, Alenka Baruca Arbeiter, Tea Knap, Jernej Jakše, and Dunja Bandelj

Subjects

chloroplast genome, helichrysum italicum, immortelle, phylogeny, gnaphalieae, Genetics, QH426-470

Abstract

The aromatic plant immortelle contains valuable bioactive molecules and a unique fragrance. These key factors contribute to its attractiveness and implementation in agricultural ecosystems as well as applications in the pharmaceutical and cosmetic industries. In this study, we have characterized the complete chloroplast genome sequence of Helichrysum italicum subsp. italicum from the North Adriatic region. The total genome size was 152,431 bp in length, containing 85 protein-coding genes, 36 transfer RNA genes, 8 ribosomal RNA genes, and 2 partial genes (ycf1 and rps19). Based on the available chloroplast genomes from Gnaphalieae tribe, the closest relationship was identified with Anaphalis sinica.

Published

2019

12. Comparative plastome analysis of Blumea , with implications for genome evolution and phylogeny of Asteroideae

Author

Parviz Heidari, Abdullah, Ibrar Ahmed, Péter Poczai, Furrukh Mehmood, Abdur Rahim, Botany, and Embryophylo

Subjects

DYNAMICS, 0106 biological sciences, CHLOROPLAST GENOMES, ORGANIZATION, Asteraceae, SEQUENCE, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, Gnaphalieae, Anthemideae, oligonucleotide repeat, QH540-549.5, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, Nature and Landscape Conservation, Asteroideae, 0303 health sciences, Ecology, biology, TRANSFER-RNA GENES, 1184 Genetics, developmental biology, physiology, barcode, LEVEL PHYLOGENY, DNA, Calenduleae, Senecioneae, 15. Life on land, 11831 Plant biology, plastome, biology.organism_classification, ALIGNMENT, Inuleae, Evolutionary biology, polymorphic loci, Blumea, 1181 Ecology, evolutionary biology, MATERNAL INHERITANCE, Astereae

Abstract

The genus Blumea (Asteroideae, Asteraceae) comprises about 100 species, including herbs, shrubs, and small trees. Previous studies have been unable to resolve taxonomic issues and the phylogeny of the genus Blumea due to the low polymorphism of molecular markers. Therefore, suitable polymorphic regions need to be identified. Here, we de novo assembled plastomes of the three Blumea species B. oxyodonta, B. tenella, and B. balsamifera and compared them with 26 other species of Asteroideae after correction of annotations. These species have quadripartite plastomes with similar gene content, genome organization, and inverted repeat contraction and expansion comprising 113 genes, including 80 protein‐coding, 29 transfer RNA, and 4 ribosomal RNA genes. The comparative analysis of codon usage, amino acid frequency, microsatellite repeats, oligonucleotide repeats, and transition and transversion substitutions has revealed high resemblance among the newly assembled species of Blumea. We identified 10 highly polymorphic regions with nucleotide diversity above 0.02, including rps16‐trnQ, ycf1, ndhF‐rpl32, petN‐psbM, and rpl32‐trnL, and they may be suitable for the development of robust, authentic, and cost‐effective markers for barcoding and inference of the phylogeny of the genus Blumea. Among these highly polymorphic regions, five regions also co‐occurred with oligonucleotide repeats and support use of repeats as a proxy for the identification of polymorphic loci. The phylogenetic analysis revealed a close relationship between Blumea and Pluchea within the tribe Inuleae. At tribe level, our phylogeny supports a sister relationship between Astereae and Anthemideae rooted as Gnaphalieae, Calenduleae, and Senecioneae. These results are contradictory to recent studies which reported a sister relationship between “Senecioneae and Anthemideae” and “Astereae and Gnaphalieae” or a sister relationship between Astereae and Gnaphalieae rooted as Calenduleae, Anthemideae, and then Senecioneae using nuclear genome sequences. The conflicting phylogenetic signals observed at the tribal level between plastidt and nuclear genome data require further investigation.

Published

2021

13. New combinations in Belloa J. Rémy and new diagnoses for Andean Lucilia Cass. and Mniodes (A.Gray) Benth. (Gnaphalieae, Asteraceae).

Author

Dillon, Michael O.

Subjects

*ASTERACEAE, *NUCLEOTIDE sequence, *PLANT species

Abstract

Changes in the generic boundaries, as suggested by DNA sequence data, have altered concepts of Andean Asteraceae, specifically Belloa J. Rémy, Lucilia Cass., and Mniodes (A.Gray) Benth. (Gnaphalieae, Asteraceae). Over the past 30 years, numerous changes in classification and the resulting transfers have generated confusion. This paper provides a short history of these changes and current information for these genera as they exist in Andean South America. Further, other transfers are provided as suggested by results of sequence analysis data and newly proposed generic concepts: Belloa eriophora (J. Rémy) M. O. Dillon, comb. nov., and Belloa nivea (Phil.) M. O. Dillon, comb. nov. Changes in the diagnosis of Mniodes necessitates the following transfers: Mniodes argentea (Wedd.) M. O. Dillon, comb. nov., M. spathulifolia (Sagást. & M. O. Dillon) M. O. Dillon, comb. nov. and M. turneri (Sagást. & M. O. Dillon) M. O. Dillon, comb. nov. [ABSTRACT FROM AUTHOR]

Published

2018

14. Phylogenomics of the hyperdiverse daisy tribes: Anthemideae, Astereae, Calenduleae, Gnaphalieae, and Senecioneae

Author

Jennifer R. Mandel, Linda E. Watson, and Carolina M. Siniscalchi

Subjects

0106 biological sciences, biology, Lineage (evolution), food and beverages, Plant Science, Calenduleae, Senecioneae, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Gnaphalieae, Evolutionary biology, Asteroideae, Anthemideae, Phylogenomics, Astereae, Ecology, Evolution, Behavior and Systematics, 010606 plant biology & botany

Abstract

Asteraceae account for 10% of all flowering plant species, and 35%–40% of these are in five closely related tribes that total over 10 000 species. These tribes include Anthemideae, Astereae, Calenduleae, Gnaphalieae, and Senecioneae, which form one of two enormous clades within Subfamily Asteroideae. We took a phylogenomics approach to resolve evolutionary relationships among these five tribes. We sampled the nuclear and plastid genomes via HybSeq target enrichment and genome skimming, and recovered 74 plastid genes and nearly 1000 nuclear loci, known as Conserved Orthologous Sequences. We tested for conflicting support in both data sets and used network analyses to assess patterns of reticulation to explain the early evolutionary history of this lineage, which has experienced whole‐genome duplications and rapid radiations. We found concordance and conflicting support in both data sets and documented four ancient hybridization events. Due to the timing of the early radiation of this five‐tribe lineage, shortly before the Eocene–Oligocene extinction event (34 MYA), early lineages were likely lost, obscuring some details of their early evolutionary history.

Published

2020

15. Phylogenomics Resolves the Relationships within Antennaria (Asteraceae, Gnaphalieae) and Yields New Insights into its Morphological Character Evolution and Biogeography

Author

Ramhari Thapa, Jennifer R. Mandel, and Randall J. Bayer

Subjects

0106 biological sciences, 0301 basic medicine, Character evolution, biology, Range (biology), Plant Science, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Coalescent theory, 03 medical and health sciences, Monophyly, 030104 developmental biology, Holarctic, Gnaphalieae, Evolutionary biology, Genus, Genetics, Antennaria, Ecology, Evolution, Behavior and Systematics

Abstract

There is an erratum for this article at: https://doi.org/10.1600/036364420X15959578652451 Abstract—Antennaria are dioecious perennial herbs distributed mainly in the Holarctic Region, with their major center of diversity in the Rocky Mountains of Western North America. The genus comprises 33 known sexual diploid/tetraploid species and at least five polyploid agamic complexes which mostly reproduce by forming asexual seeds. We performed a phylogenetic reconstruction of the 31 sexually-reproducing Antennaria species using a novel target enrichment method that employs custom capture probes designed to work across Asteraceae. Both concatenated and coalescent-based analyses of DNA sequence data from hundreds of nuclear loci recovered Antennaria as a monophyletic group except for the long-disputed species, Antennaria linearifolia, which was recovered outside of the genus. Antennaria was further resolved into three distinct, major lineages. Analysis of ancestral state reconstruction of 12 taxonomically important morphological characters elucidated patterns of character evolution throughout the genus. Estimations of ancestral geographic ranges and molecular dating analyses demonstrated the Rocky Mountain region, including the Vancouverian Province, as the center of origin for the genus Antennaria, around 5.8 MYA. Subsequent dispersals of Antennaria into the Arctic and Appalachian provinces, Canadian provinces, and Eurasia took place roughly 3.2 MYA, 2.4 MYA, and 1.6 MYA, respectively. Biogeographical stochastic mapping indicated that 51.4% of biogeographical events were based on within-area speciation. The remaining 48.6% of the events were divided into two types of dispersals: 1) range expansion dispersals (anagenic, 37%), and 2) founder/jump dispersals (cladogenic, 11.6%). Our results provide a framework for future evolutionary studies of Antennaria, including speciation, origin(s) of polyploidy, and agamospermy in the genus.

Published

2020

16. Achyranthemum N.G.Bergh, a new genus segregated from Syncarpha DC. (Asteraceae, Gnaphalieae)

Author

Nicola G. Bergh and John C. Manning

Subjects

0106 biological sciences, Indumentum, Lineage (evolution), Plant Science, Biology, biology.organism_classification, Syncarpha, 01 natural sciences, 0104 chemical sciences, 010404 medicinal & biomolecular chemistry, Taxon, Synonym (taxonomy), Genus, Gnaphalieae, Botany, Helichrysum, 010606 plant biology & botany

Abstract

The genus Syncarpha from the Cape region of South Africa has been shown to comprise two separate lineages based on phylogenetic analysis of plastid and nuclear DNA sequence data. The lineage that does not house the type of Syncarpha corresponds to the ‘Helichrysum paniculatum group’ of species. Here we erect a new genus, Achyranthemum, to house these species, make the necessary nomenclatural changes, and present a taxonomic revision with key, descriptions and distribution maps based on verified records. Achyranthemum comprises seven species confined to the Cape Floristic Region and with the highest concentration of species in the Port Elizabeth region. Species are distinguished by leaf shape and orientation, leaf and peduncle indumentum, colour of the involucral bracts, and capitulum arrangement, as well as other features including differences in edaphic habitat. Nomenclatural and taxonomic investigations indicate that Syncarpha chlorochrysum is a synonym of Syncarpha mucronatum, and that there are two species present in the taxon currently known as Syncarpha argentea.

Published

2019

17. Clarification of the confusion surrounding the generic name Bryomorphe Harv. (Asteraceae: Gnaphalieae), and the new genus Muscosomorphe J.C.Manning

Author

John C. Manning and Rafaël Govaerts

Subjects

biology, Plant Science, Asteraceae, biology.organism_classification, Geography, Synonym (taxonomy), Genus, Gnaphalieae, Botany, Dolichothrix, Taxonomy (biology), Bryomorphe, Nomenclature, Ecology, Evolution, Behavior and Systematics

Abstract

The monotypic genus Bryomorphe Harv. is found to be homotypic with Klenzea lycopodioides Sch.Bip., which is considered to be a later synonym of Dolichothrix ericoides (Lam.) Hilliard & Burtt, and Bryomorphe is thus a synonym of Dolichothrix. The new genus Muscosomorphe J.C.Manning is proposed to accommodate the species previously included in Bryomorphe as B. aretioides (Turcz) Druce, along with the new combination M. aretioides (Turcz) J.C.Manning.

Published

2021

18. Recent assembly of the global herbaceous flora: evidence from the paper daisies (Asteraceae: Gnaphalieae).

Author

Nie, Ze‐Long, Funk, Vicki A., Meng, Ying, Deng, Tao, Sun, Hang, and Wen, Jun

Subjects

*DAISIES, *HERBACEOUS plants, *PLANT communities, *PHYTOGEOGRAPHY, *ECOSYSTEMS

Abstract

The global flora is thought to contain a large proportion of herbs, and understanding the general spatiotemporal processes that shaped the global distribution of these communities is one of the most difficult issues in biogeography., We explored patterns of world-wide biogeography in a species-rich herbaceous group, the paper daisy tribe Gnaphalieae (Asteraceae), based on the hitherto largest taxon sampling, a total of 835 terminal accessions representing 80% of the genera, and encompassing the global geographic range of the tribe, with nuclear internal transcribed spacer (ITS) and external transcribed spacer (ETS) sequences., Biogeographic analyses indicate that Gnaphalieae originated in southern Africa during the Oligocene, followed by repeated migrations into the rest of Africa and the Mediterranean region, with subsequent entries into other continents during various periods starting in the Miocene., Expansions in the late Miocene to Pliocene appear to have been the driving force that shaped the global distribution of the tribe as forests were progressively broken up by the mid-continent aridification and savannas and grasslands expanded into the interior of the major continents. This pattern of recent colonizations may explain the world-wide distribution of many other organisms in open ecosystems and it is highlighted here as an emerging pattern in the evolution of the global flora. [ABSTRACT FROM AUTHOR]

Published

2016

19. The genus Amphiglossa (Gnaphalieae, Relhaniinae, Asteraceae) in southern Africa

Author

M. Koekemoer

Subjects

Amphiglossa DC., Asteraceae, comb, nov., Gnaphalieae, Pterothrix DC., Relhaniinae, southern Africa, sp. nov., taxonomy, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

It is proposed that the generic concept of Amphiglossa DC. be broadened to include the genus Pterothrix DC. The two gen­era were previously separated on the presence or absence of ray florets. A thorough study of various characters showed that the type of florets was overemphasised in the past and that the pappus and cypselas provide sufficient evidence to unite the two genera The genus consists of 11 species of which Amphiglossa celans Koekemoer. A. grisea Koekemoer, A. rudolphii Koekemoer and A. susannae Koekemoer are newly described A key to the species as well as detailed descriptions and distribution maps are provided. Photographs are included for each species and key characters for the genus are also illustrated.

Published

1999

20. Pseudogenization of trnT-GGU in chloroplast genomes of the plant family Asteraceae

Author

Furrukh Mehmood, Abdullah, Ibrar Ahmed, Péter Poczai, and Parviz Heidari

Subjects

0106 biological sciences, 0303 health sciences, Gene rearrangement, Biology, Asteraceae, biology.organism_classification, 01 natural sciences, Genome, Cichorioideae, 03 medical and health sciences, Gnaphalieae, Evolutionary biology, Asteroideae, Indel, Gene, 030304 developmental biology, 010606 plant biology & botany

Abstract

The chloroplast genome evolves through the course of evolution. Various types of mutational events are found within the chloroplast genome, including insertions-deletions (InDels), substitutions, inversions, gene rearrangement, and pseudogenization of genes. The pseudogenization of the trnT-GGU gene was previously reported in the Cryptomeria japonica (Cupressaceae), Pelargonium x hortorum (Geraniaceae), and in the two species of the tribe Gnaphalieae (Asteroideae, Asteraceae). Here, we performed a broad analysis of the trnT-GGU gene among the species of twelve subfamilies of Asteraceae and found pseudogenization of this gene is not limited to the two species of Gnaphalieae or the tribe Gnaphalieae. We report for the first time that this gene is pseudo in the species of three subfamilies of Asteraceae, including Gymnarrhenoideae, Cichorioideae and Asteroideae. The analyses of the species of 78 genera of Asteroideae revealed that this pseudogenization event is linked to the insertion within the 5′ acceptor stem and not linked to the habit, habitat, and geographical distribution of the plant.

Published

2021

21. Conspectus of Helichrysum Mill. sect. Stoechadina (DC.) Gren. & Godr.(Asteraceae, Gnaphalieae)

Subjects

Helichrysum, Gnaphalieae, Nomenclature, Nomenclatura, Mediterranean region, Regió mediterrània

Published

2021

22. Conspectus of Helichrysum Mill. sect. Stoechadina (DC.) Gren. & Godr.(Asteraceae, Gnaphalieae)

Author

Galbany-Casals, Mercè, Sáez, Llorenç, and Benedí, Carles

Subjects

Helichrysum, Gnaphalieae, Nomenclature, Nomenclatura, Mediterranean region, Regió mediterrània

Abstract

A conspectus of Helichrysum sect. Stoechadina (DC.) Gren. & Godr. is provided. Eight species and five subspecies are recognized. For each accepted taxa all synonyms found in the literature are listed, based on the study of the protologues, the type material, and numerous herbarium specimens comprising the whole distribution area and the variability of each species. Notes on the distribution area are provided. Four names are lectotypified, and references to previous lecotypifications are also presented. Es presenta un conspectus de Helichrysum sect. Stoechadina (DC.) Gren. & Godr. Es reconeixen vuit espècies i cinc subespècies. Per cada taxó acceptat es relacionen tots el sinònims trobats a la bibliografia, a partir de l'estudi dels protòlegs, el material tipus i els nombrosos exemplars d'herbari que comprenen tota l'àrea de distribució i la variabilitat de cada espècie. S'aporten notes sobre l'àrea de distribució. Quatre noms han estat lectotipificats y es presenten també referencies sobre lectotipificacions prèvies.

Published

2021

23. Characterisation of SSR markers for New Zealand Craspedia and their application in Kahurangi National Park.

Author

Breitwieser, I, Ford, KA, and Smissen, RD

Subjects

*GENETIC markers in plants, *GENETIC polymorphisms in plants, *RNA sequencing, *PLANT species, *MOUNTAIN plants

Abstract

Twelve polymorphic simple sequence repeat markers were developed from transcribed sequences generated by RNA-seq. These were then used to assess relationships among selected putative species ofCraspediain Kahurangi National Park, New Zealand, including three putative species in sympatry at Mt Arthur; plants from two putative species from the nearby Mt Mytton; and plants from the Marino Mountains, where at least four putative species have been listed. We confirmed that two of the putative species present on Mt Arthur are also present on Mt Mytton, but identified anotherCraspediathere that was previously not recognised as being distinct. At the Marino Mountains the situation appears more complex. One putative species there is clearly distinct from all other plants sampled. However, the remainder of the Marino Mountains plants could not be assigned to genetic groups consistent with the putative species, nor could we clearly relate them to the putative species from Mt Arthur or Mt Mytton. [ABSTRACT FROM AUTHOR]

Published

2015

24. Tres nuevas especies de Mniodes A. Gray (Gnaphaliinae, Gnaphalieae, Asteraceae) de Bolivia y Perú y cambios nomenclaturales en el grupo Lucilia

Author

Quipuscoa Silvestre, Victor and Dillon, Michael O.

Subjects

Mniodes, Andean flora, Gnaphalieae, Bolivia, comb. nov, Peru, sp. nov, Asteraceae

Abstract

Recent studies within the Neotropical members of the Gnaphaliinae (Gnaphalieae, Asteraceae), especially those utilizing DNA sequences, have served to refine putative generic boundaries and clarify internal classification within the subtribe. In preparation of a monographic treatment built upon DNA investigations, we describe here one new species from Bolivia, M. beckii Quip. & M.O. Dillon, sp. nov., and two from Peru, M. montesinosii Quip. & M.O. Dillon, sp. nov., and M. zapatae Quip. & M.O. Dillon, sp. nov. Further, we resurrect a valid name proposed by Weddell (1954), Merope caespititia Wedd., and provide a new combination, Mniodes caespititia (Wedd.) Quip. & M.O.Dillon, comb. nov. A diagnostic key to Mniodes species from Bolivia and Peru is presented. Resumen Estudios recientes dentro de los miembros neotropicales de Gnaphaliinae (Gnaphalieae, Asteraceae), especialmente aquellos que utilizan secuencias de ADN, han servido para refinar los límites genéricos putativos y aclarar la clasificación dentro de la subtribu. En preparación de un tratamiento monográfico basado en investigaciones de ADN, describimos una nueva especie de Bolivia, Mniodes beckii Quip. & M.O. Dillon, sp. nov. y dos especies de Perú, M. montesinosii Quip. & M.O. Dillon, sp. nov. y M. zapatae Quip. & M.O. Dillon, sp. nov. Además, restablecemos un nombre válido propuesto por Weddell (1954), Merope caespititia Wedd., y proporcionamos una nueva combinación, Mniodes caespititia (Wedd.) Quip. & M.O. Dillon, sp. nov. Se presenta también, una clave de diagnóstico para las especies de Mniodes de Bolivia y Perú.

Published

2020

25. Erosive processes after tectonic uplift stimulate vicariant and adaptive speciation: evolution in an Afrotemperate-endemic paper daisy genus.

Author

Bentley, Joanne, Verboom, G. Anthony, and Bergh, Nicola G.

Subjects

*HABITATS, *PLANT populations, *VICARIANCE, *GENETIC speciation

Abstract

Background The role of tectonic uplift in stimulating speciation in South Africa's only alpine zone, the Drakensberg, has not been explicitly examined. Tectonic processes may influence speciation both through the creation of novel habitats and by physically isolating plant populations. We use the Afrotemperate endemic daisy genus Macowania to explore the timing and mode (geographic versus adaptive) of speciation in this region. Between sister species pairs we expect high morphological divergence where speciation has happened in sympatry (adaptive) while with geographic (vicariant) speciation we may expect to find less morphological divergence and a greater degree of allopatry. A dated molecular phylogenetic hypothesis for Macowania elucidates species' relationships and is used to address the potential impact of uplift on diversification. Morphological divergence of a small sample of reproductive and vegetative characters, used as a proxy for adaptive divergence, is measured against species' range distributions to estimate mode of speciation across two subclades in the genus. Results The Macowania crown age is consistent with the hypothesis of post-uplift diversification, and we find evidence for both vicariant and adaptive speciation between the two subclades within Macowania. Both subclades exhibit strong signals of range allopatry, suggesting that geographic isolation was important in speciation. One subclade, associated with dry, rocky environments at high altitudes, shows very little morphological and ecological differentiation but high range allopatry. The other subclade occupies a greater variety of habitats and exhibits far greater morphological differentiation, but contains species with overlapping distribution ranges. Conclusions Species in Macowania are likely to have diversified in response to tectonic uplift, and we invoke uplift and uplift-mediated erosion as the main drivers of speciation. The greater relative morphological divergence in sympatric species of Macowania indicates that speciation in the non-sympatric taxa may not have required obvious adaptive differences, implying that simple geographic isolation was the driving force for speciation ('neutral speciation'). [ABSTRACT FROM AUTHOR]

Published

2014

26. Three new species of Metalasia (Asteraceae–Gnaphalieae) from the Western Cape and an updated key to the genus

Author

Bengtson, A., Anderberg, A.A., and Karis, P.O.

Subjects

*ASTERACEAE, *PLANT species, *PLANT morphology, *PLANT ecology, *ANGIOSPERMS

Abstract

Abstract: Three new species of Metalasia from the Western Cape of South Africa are described; Metalasia tristis A.Bengtson & P.O.Karis, a small shrublet from the Groot Winterhoek Mountains, and Metalasia formosa A.Bengtson & P.O.Karis and Metalasia eburnea A.Bengtson & P.O.Karis both found in the Langeberg Mountains. The morphology and relationships of the three new species are discussed, and an updated key to the genus is provided. [Copyright &y& Elsevier]

Published

2013

27. Caffeoyl-D-Glucaric Acid Derivatives in the Genus Gnaphalium (Asteraceae: Gnaphalieae).

Author

Cicek, Serhat Sezai, Untersulzner, Christa, Schwaiger, Stefan, and Zidorn, Christian

Subjects

*ASTERACEAE, *CHEMOTAXONOMY, *BOTANICAL chemistry, *BIOACTIVE compounds, *PHENOLIC acids, *PLANT extracts, *PHARMACEUTICAL research

Abstract

A chemosystematic survey was carried out to specify whether leontopodic acid and leontopodic acid B, two unique caffeoyl-D-glucaric acid derivatives, recently identified in the emblematic alpine edelweiss (Leontopodium alpinum Cass.) are also found in members of the genus Gnaphalium from the Alps. Gnaphalium is closely related to Leontopodium and both genera are assigned to the Gnaphaliinae subtribe (Asteraceae, Gnaphalieae). In all investigated Gnaphalium species, G. hoppeanum W.D.J.Koch, G. norvergicum Gunnerus, G. supinum L., G. sylvaticum L., and G. uliginosum L., both leontopodic acid and leontopodic acid B were detected. Moreover, a number of related compounds were detected by HPLC/MS and their assumed structures are discussed. The chemosystematic data reported here are of interest to explore new sources for the biologically active compounds leontopodic acid and leontopodic acid B and they also hint to the occurrence of novel caffeoyl-D-glucaric acid derivatives in Gnaphalium not detected in Leontopodium, yet. [ABSTRACT FROM AUTHOR]

Published

2012

28. Inclusion of the Cape genus Anisothrix in the Namibian-centred genus Pentatrichia (Asteraceae, Gnaphalieae) based on a molecular phylogenetic analysis

Author

Klaassen, E.S. and Bergh, N.G.

Subjects

*CLADISTIC analysis, *NUCLEOTIDE sequence, *MOLECULAR evolution, *HYPOTHESIS, *ANIMAL morphology, *BOTANICAL research

Abstract

Abstract: A phylogenetic analysis of the small genus Pentatrichia, containing three species endemic to South Africa and Namibia, was undertaken using nuclear (ITS and 3′ ETS) and chloroplast (trnT–trnL) DNA sequence data. Generic circumscription was examined via the inclusion of appropriate outgroup taxa (Anisothrix and Athrixia). A fully-resolved phylogenetic hypothesis found all Pentatrichia species and subspecies to be reciprocally monophyletic based on three sampled specimens of each taxon. A well-supported sister relationship between the radiate P. rehmii subsp. avasmontana and non-radiate P. rehmii subsp. rehmii confirmed the results of a previous morphometric study. Pentatrichia was found to be non-monophyletic with the exclusion of Anisothrix kuntzei and A. integra, which were placed as a subclade within Pentatrichia, and sister to the type species P. petrosa. Morphological synapomorphies supporting the inclusion of Anisothrix with Pentatrichia are discussed, as well as the evolution of capitulum structure in the group. Anisothrix is synonymised with Pentatrichia and two new combinations were made. The expanded morphological concept of the genus Pentatrichia is presented with a key to all five species. [Copyright &y& Elsevier]

Published

2012

29. PHYLOGENY AND GENERIC DELIMITATION OF THE METALASIA CLADE (ASTERACEAE-GNAPHALIEAE).

Author

Bengtson, Annika, Anderberg, Arne A., and Karis, Per Ola

Subjects

*ASTERACEAE, *CLADISTIC analysis of plants, *PLANT molecular phylogenetics, *PLANT genetics, *CHLOROPLASTS, *NUCLEOTIDE sequence, *PLANT species

Abstract

The Metalasia clade, which consists of the genus Metalasia and a number of much smaller satellite genera, is a South African group in the tribe Gnaphalieae (Asteraceae). This study scrutinizes the phylogenetic relationships of the Metalasia clade by means of chloroplast (trnL-trnF, psbA-trnH) and nuclear (external transcribed spacer , internal transcribed spacer) sequence data. The Metalasia clade is confirmed to be a monophyletic group, and the phylogenetic positions of the included genera are determined. The genus Metalasia may be monophyletic if the monotypic Planea is included, but the node has very poor support and further studies are needed. The Metalasia species fall into two well-supported groups, distinguishing the members of Karis's Metalasia densa group from the others. Lachnospermum is shown to be monophyletic and is placed as a possible sister group to Metalasia. Phaenocoma is placed as sister to the branch consisting of Metalasia and Lachnospermum. Calotesta, Hydroidea, and Atrichantha form a clade, with the monotypic Dolichothrix as their sister group. [ABSTRACT FROM AUTHOR]

Published

2011

30. Phylogeny of the "Ifloga clade" (Asteraceae, Gnaphalieae), a lineage occurring disjointly in the Northern and Southern Hemisphere, and inclusion of Trichogyne in synonymy with Ifloga.

Author

Bergh, Nicola C., Trisos, Christopher H., and Verboom, George A.

Subjects

ASTERACEAE, BIOLOGICAL evolution, PHYLOGENY, BIOLOGY, NUCLEOTIDE sequence

Abstract

Ifloga and Trichogyne constitute a small but biologically interesting lineage within the tribe Gnaphalieae (Asteraceae). Species are distributed mainly in the semi-arid parts of southern Africa, but there is a disjunction to the Saharo-Sindian region where three species occur. Due partly to an unusual capitulum structure, the phylogenetic position of the group has been little understood. In addition, the monophyly of the genera has not been assessed using phylogenetic methods. A species-level phylogenetic hypothesis is presented, based on one nuclear and two chloroplast DNA regions, analysed with parsimony and Bayesian methods. Ifloga+Trichogyne constitute the "Ifloga clade" that forms one of the early-diverging lineages within Gnaphalieae. These lineages constitute a basal grade with many poorly supported nodes, precluding robust hypotheses of relationships amongst the lineages. A sister lineage to the Ifloga clade could thus not be identified, although it diverges amongst taxa formerly united in subtribe Relhaniinae. Although this subtribe is now known to be non-monophyletic, members of the Ifloga clade share with former members of Relhaniinae a previously overlooked set of leaf characters. The genus Trichogyne is monophyletic, but Ifloga is paraphyletic with respect to Trichogyne. To retain generic monophyly, all species are here transferred to the genus Ifloga. Although two of the Northern-Hemisphere species were not included in the analysis, morphological characters suggest that the three species from this region are monophyletic, in which case the Saharo-Sindian distribution is the result of a single dispersal northwards from Southern Africa. A new combination and an updated key to the species are presented. [ABSTRACT FROM AUTHOR]

Published

2011

31. ANOMALOUS CAPITULUM STRUCTURE AND MONOECY MAY CONFER FLEXIBILITY IN SEX ALLOCATION AND LIFE HISTORY EVOLUTION IN THE IFLOGA LINEAGE OF PAPER DAISIES (COMPOSITAE: GNAPHALIEAE).

Author

BERGH, NICOLA G. and VERBOOM, G. ANTHONY

Subjects

*BOTANICAL research, *ANNUALS (Plants), *PERENNIALS, *SEX allocation, *SEX ratio among plants

Abstract

* Premise of the study: Evolutionary significance of the Compositae capitulum and variation in its structure is poorly understood, although it may permit flexibility in sexual expression. Optimal sex ratio differs with life-history and reproductive strategy. We explore how the genus Ifloga and related members of southern African Gnaphalieae achieved different sex ratios, and the associations of these ratios with annual and perennial life history. * Methods: Sex allocation was measured using the male to female ratio (M/F), a novel approximator of the pollen to ovule ratio (P/O). Life-history (annuality/perenniality), capitulum structure, capitular sexual system, and M/F were reconstructed on time-proportional phylogenies. Trait associations were examined using phylogenetically independent contrasts (PICs). * Key results: Annual taxa have strongly female-biased capitula, as measured by M/F, and either gynomonoecious or monoecious sexual systems, while perennials have equal or male-biased capitula that are hermaphroditic or monoecious. These results are largely supported by PIC analysis. Different sexual systems afford differing flexibility in sex allocation, with hermaphrodites having the least, and monoecious taxa the greatest, range in M/F. Within Ifloga, the anomalous capitulum evolved in an annual, gynomonoecious ancestor, followed by two independent gains of monoecy. Two subsequent gains of perenniality occurred within a monoecious sublineage. * Conclusions: Different life histories have divergent sex allocation optima and are strongly associated with different sexual systems in gnaphalioid daisies. An anomalous capitulum structure in Ifloga may have facilitated the evolution of monoecy, which in turn may be linked to the evolution of life-history diversity in the genus. Key words: annual; capitulum; Gnaphalieae; gynomonoecy; Ifloga; life-history evolution; monoecy; perennial; sex allocation; sex ratio; sexual system. [ABSTRACT FROM AUTHOR]

Published

2011

32. A nomenclatural treatment for Logfia Cass. and Filago L. (Asteraceae) as newly circumscribed: Typification of several names.

Author

Andrés-Sánchez, Santiago, Galbany-Casals, Mercè, Rico, Enrique, and Martinez-Ortega, M. Montserrat

Subjects

FILAGO, ASTERACEAE, EPITOPES, TAXONOMY, NAMES

Abstract

A complete nomenclatural treatment of the genera Filago L. and Logfia Cass. is provided, as well as a list of the species included in each genus and subgenus, as they have been newly circumscribed. Nomenclatural types for eleven validly published species names are designated, which correspond to (1) the types of names of widely used and long-established genera or subgenera, (2) the names of species that have been chosen as types of the names of newly described or newly delimited subgenera, or (3) recently proposed new combinations at the specific level. In total, one subgeneric name is typified and eleven lectotypes, five epitypes and one neotype are chosen. Among those, a previous attempted typification of F. pygmaea L. is shown to be inadmissible and a new lectotype is chosen and an epitype is selected to support interpretation of a previously designated lectotype. The need to conserve the name F. vulgaris to preserve current usage is documented. [ABSTRACT FROM AUTHOR]

Published

2011

33. A test of reproductive isolation among three sympatric putative species of Craspedia (Asteraceae: Gnaphalieae) at Mt Arthur in New Zealand.

Author

Breitwieser, I, Ford, KA, and Smissen, RD

Subjects

*GENETIC polymorphisms, *PLANT morphology, *PLANT genetic engineering, *PLANT species

Abstract

Three morphologically distinct forms of Craspedia grow together in a small area of Mt Arthur (New Zealand) where they appear to remain distinct. Amplified fragment length polymorphism (AFLP) was investigated at the site. Although sample sizes were small, the results indicate that these three distinct forms are reproductively isolated from each other. Further, the level of polymorphism within each suggests that they are not composed of clones or highly selfing lineages. Amplified fragment length polymorphism provides a powerful tool for examining gene flow and reproductive isolation in sympatric Craspedia populations. These results also suggest that it may be possible to recognize reproductively isolated forms as species within the New Zealand radiation of Craspedia. However, taxonomic changes are considered premature at this time. [ABSTRACT FROM AUTHOR]

Published

2010

34. A light, scanning electron, and transmission electron microscopic study of pollen wall architecture in the subtribe Gnaphaliinae (Gnaphalieae, Asteraceae).

Author

Coutinho, Antonio Pereira and Dinis, Augusto M.

Subjects

*POLLEN, *TRANSMISSION electron microscopy, *TRIBES, *PLANT species, *SPINES (Botany)

Abstract

To better understand relationships within the Asteroideae, the pollen morphology and exine structure of 10 genera and 15 species of Gnaphaliinae were investigated using light, scanning electron, and transmission electron microscopy. All taxa have a Gnaphalioid pattern of exine with an evidently rough foot layer. The tectal complex consists of three main layers that differ in morphology and thickness: a tectum, a median columellar layer, and an internal interlaced sub-columellar layer. The apertural system consists of an ectoaperture, a mesoaperture, and an endoaperture, which intersect, respectively, the tectal complex, the foot layer and the upper part of the endexine, and the inner part of the endexine. On the basis of pollen characteristics, especially those of the spines, all the species examined may be gathered into two groups, one including Helichrysum foetidum, H. italicum, Plecostachys serpyllifolia, and Pseudognaphalium luteo-album and the other including the other 11 species of Gnaphaliinae now investigated. In addition, because Gnaphalieae has been proposed as sister group to several tribes and clades of Asteroideae, a comparison was made between exine pattern in the Gnaphalieae and that in its putatively related tribes. On the basis of previous phylogenetic studies and our present pollen data we suggest that either Astereae, Astereae-Anthemideae clade, or Heliantheae s.l.-Anthemideae clade are the best candidates for the sister taxon/sister group of Gnaphalieae. [ABSTRACT FROM AUTHOR]

Published

2009

35. Hybridization beyond the F1 generation between the New Zealand endemic everlastings Anaphalioides bellidioides and Ewartia sinclairii (Asteraceae, Gnaphalieae).

Author

McKenzie, R. J., Ward, J. M., and Breitwieser, I.

Subjects

*SPECIES hybridization, *ASTERACEAE, *SEED pods, *POLLINATION, *PLANT fertilization

Abstract

The Raoulia alliance is remarkable for the occurrence of rare wild hybrids between five of its six genera. In this study, the potential for hybridization beyond the F1 generation between Anaphalioides bellidioides and Ewartia sinclairii was investigated. Three putative hybrids were raised from open-pollinated seeds collected from a site where wild A. bellidioides, E. sinclairii and their intergeneric hybrids occur. Multivariate analysis of morphological data strongly indicated that two of the seed-raised hybrids were backcrosses to A. bellidioides; the paternal parent of the third plant, raised from a seed collected from a wild hybrid, was equivocal. Artificial crosses and evaluation of seed germinability demonstrated that wild A. bellidioides × E. sinclairii are partially fertile and capable of giving rise to viable backcrosses and advanced-generation hybrids. Possible reasons for the apparent rarity of wild hybrids between A. bellidioides and E. sinclairii are discussed briefly. [ABSTRACT FROM AUTHOR]

Published

2008

36. Species relationships and genetic variation in the New Zealand endemic Leucogenes (Asteraceae: Gnaphalieae).

Author

Smissen, R. D. and Breitwieser, I.

Subjects

*ASTERACEAE, *PLANT genetics, *NUCLEOTIDE sequence, *GENETIC polymorphisms, *POLYPLOIDY

Abstract

AFLP profiles, nuclear ITS sequences, and chloroplast psbA-trnH intergenic spacer sequences for representative samples of the New Zealand edelweiss species Leucogenes grandiceps, L. leontopodium, L. neglecta, and L. tarahaoa were examined. Analysis of AFLP profiles from a small number of populations strongly groups samples of each species, and in turn samples of diploid (2n = 2x = 28) L. leontopodium and tetraploid (2n = 4x = 56) L. neglecta cluster together, consistent with a derivation of the latter from the former by autopolyploidy. However, octoploid (2n = 8x = 112) L. tarahaoa does not cluster closely with either L. neglecta or L. leontopodium, indicating this species has an independent origin. Analyses of chloroplast DNA sequences show that although the majority of Leucogenes samples share similar chloroplast sequences not sampled from other species of New Zealand Gnaphalieae, a single accession of L. grandiceps and North island populations of L. leontopodium share chloroplast sequences more similar to other species of New Zealand Gnaphalieae. ITS sequence variation is more complex, with sequences sampled from Leucogenes not constituting a monophyletic group, and striking intraspecific variation detected within L. grandiceps. [ABSTRACT FROM AUTHOR]

Published

2008

37. Phylogeny and evolution of achenial trichomes in the Lucilia ‐group (Asteraceae: Gnaphalieae) and their systematic significance

Author

Federico Luebert, Katharina Wilke, Andrés Moreira-Muñoz, and Michael O. Dillon

Subjects

0106 biological sciences, 0301 basic medicine, biology, European community, Plant Science, Asteraceae, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Lucilia, Trichome, 03 medical and health sciences, 030104 developmental biology, Gnaphalieae, Phylogenetics, Botany, Ecology, Evolution, Behavior and Systematics

Abstract

The Gnaphalieae (Asteraceae) are a cosmopolitan tribe with around 185 genera and 2000 species. The New World is one of the centers of diversity of the tribe with 24 genera and over 100 species, most of which form a clade called the Lucilia-group with 21

Published

2017

38. First record of Helichrysum foetidum (L.) Moench. (Asteraceae, Gnaphalieae) for South America

Author

Laísa Barcelos, Gustavo Heiden, Laísa Barcelos, and GUSTAVO HEIDEN, CPACT.

Subjects

0106 biological sciences, Ecology, QH301-705.5, Gnaphaliinae, 010604 marine biology & hydrobiology, Helichrysum foetidum, Alien species, Pampas, Biology, Asteraceae, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Rio Grande do Sul, Gnaphalieae, Botany, Biology (General), Brazil, Ecology, Evolution, Behavior and Systematics

Abstract

We provide the first record of Helichrysum foetidum (Asteraceae, Gnaphalieae) for South America, based on newcollections made in the state of Rio Grande do Sul, southern Brazil. This species is native from Africa and cultivatedin Europe, where it is used as an ornamental or medicinal herb. Helichrysum foetidum is recognized by the discolorous leaves with adaxial surface dark green, tomentose and abaxial surface grey, lanose tomentose margins, large headsorganized in a corymbiform capitulescence and bright yellow bracts and flowers. Description, a map of distribution inSouth America and images of the collected specimens are provided.

Published

2017

39. Genetic diversity in the New Zealand endemic species Helichrysum lanceolatum (Asteraceae: Gnaphalieae).

Author

Smissen, R. D., Breitwieser, I., and Ward, J. M.

Subjects

*PLANT genetics, *PLANT species diversity, *ASTERACEAE, *HELICHRYSUM

Abstract

Helichrysum lanceolatum is a widespread and variable New Zealand species that has been regarded as a species complex. A survey of genetic variation in Helichrysum lanceolatum using AFLP, nrDNA ITS sequence, and cpDNA psbA--trnH sequences is presented. No evidence to support segregate taxa at any rank was found. Geographic structure in genetic diversity is weak and consistent with a model of increasing genetic isolation with distance. [ABSTRACT FROM AUTHOR]

Published

2006

40. Spines vs. microspines: an overview of the sculpture exine in selected basal and derived Asteraceae with focus on Asteroideae

Author

María Cristina Tellería

Subjects

0106 biological sciences, Otras Ciencias Biológicas, Pollen Size, Eupatorieae, Plant Science, Asteraceae, Spines, 010603 evolutionary biology, 01 natural sciences, Ciencias Biológicas, purl.org/becyt/ford/1 [https], Heliantheae, Species Specificity, Gnaphalieae, Botany, purl.org/becyt/ford/1.6 [https], Coreopsideae, Phylogeny, Microspines, biology, Barnadesioideae, biology.organism_classification, Mutisioideae, Asteroideae, Microscopy, Electron, Scanning, Astereae, Pollen, CIENCIAS NATURALES Y EXACTAS, 010606 plant biology & botany

Abstract

This study presents a detailed examination of the echinate and microechinate sculpturing in relation to the size of pollen grains in 31 selected species of Asteraceae belonging to the subfamilies Barnadesioideae, Mutisioideae, Carduoideae and Asteroideae. The aims were to recognize sculpturing patterns, under LM and SEM, within large and small pollen of both basal and derived species and to explore the features that could have taxonomic value to apply in palynological disciplines. The detailed examination of the exine surface showed both the relevance and limits of sculptural patterns for taxonomy. Under LM, the microechinate sculpture gave little taxonomic information, whereas in the echinate sculpture, three exine types and two subtypes were recognized. Type I included microechinate exine, which is commonly present in large pollen grains of the basal lineages. Types II (subtypes IIa and IIb) and III included echinate and smaller pollen grains. In these types, spines were always regularly arranged and, were characterized by the length, shape, tip, perforations and distribution. Type IIa included more or less conical spines usually with a distended base, less than 4 µm in length, present in species of different tribes like Astereae, Eupatorieae, Helenieae, Gnaphalieae, Senecioideae and Heliantheae to a lesser extent. Type IIb includes slender spines with narrower bases, longer than 4 µm, present in species of Coreopsideae, Heliantheae, Tageteae and Eupatorieae to a lesser extent. Type III included spines with swollen base, blunt tip and perforations over their entire surface. This type was present in only one of the basal species—Carduus thoermeri—and in one species of the derived tribe Helenieae, Gaillardia megapotamica. Probably, this is due to evolutionary convergence. Fil: Tellería, María Cristina. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina. Universidad Nacional de La Plata. Facultad de Ciencias Naturales y Museo. Laboratorio de Sistemática y Biología Evolutiva; Argentina

Published

2017

41. A reassessment of tribal affinities of Cratystylis and Haegiela (Asteraceae) based on three chloroplast DNA sequences.

Author

Bayer, R.J. and Cross, E.W.

Subjects

ASTERACEAE, NUCLEIC acids, NUCLEOTIDE sequence, CHLOROPLASTS, DNA

Abstract

The tribal affinities of Cratystylis and Haegiela were assessed using three chloroplast DNA sequences, the trnL/F spacer, the trnL intron and the matK coding region. The outgroup was represented by two species of the subfamily Barnadesioideae, whereas one to seven genera (45 species including Cratystylis and Haegiela) of the tribes of the Asteroideae [Anthemideae (6 genera), Astereae (7), Calenduleae (2), Gnaphalieae (7), Heliantheae s.l. (5), Inuleae s.str. (3), Plucheeae (3), Senecioneae (4)] and Cichorioideae, [Arctotideae (1), Cardueae (2), Lactuceae (2), Liabeae (1), Mutisieae (1) and Vernonieae (1)] comprise the ingroup. Phylogenetic analysis indicates that Cratystylis has strong support as a member of the tribe Plucheeae, whereas Haegiela is a member of Gnaphalieae. At some point in their taxonomic history, both genera have been placed in these tribes and there are good morphological and chemical characters that justify these placements. The monotypic Haegiela was once included in Epaltes (Plucheeae) and this study has confirmed the need for the separation of the two genera. The genus Cratystylis appears to be monophyletic. [ABSTRACT FROM AUTHOR]

Published

2003

42. Systematics of Libinhania, a new endemic genus of Gnaphalieae (Asteraceae) from the Socotra archipelago (Yemen), inferred from plastid, low-copy nuclear and nuclear ribosomal DNA loci

Author

Rob D. Smissen, Mercè Galbany-Casals, Antony Miller, Katharina Rabe, Christoph Oberprieler, Norbert Kilian, and Ronny Sommerer

Subjects

0106 biological sciences, biology, Phylogenetic tree, Plant Science, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Maximum parsimony, External transcribed spacer, Monophyly, Sister group, Gnaphalieae, Evolutionary biology, Botany, Internal transcribed spacer, Clade, Ecology, Evolution, Behavior and Systematics, 010606 plant biology & botany

Abstract

The Socotra archipelago off the Horn of Africa shelters morphologically diverse endemic species of Asteraceae tribe Gnaphalieae, eight species placed in Helichrysum and five newly discovered. We reconstructed their phylogenetic relationships, analysing nuclear ribosomal DNA (nrDNA) internal transcribed spacer and external transcribed spacer, three plastid DNA and two low-copy nuclear DNA loci with Bayesian inference and maximum parsimony. The plastid DNA and nrDNA trees resolve the endemic helichrysoids as a monophyletic group and agree in that they are not members of Helichrysum or even part of the Helichrysum-Anaphalis-Pseudognaphalium clade, but disagree as to their sister group. In the nrDNA tree, they are nested in the Filago-Leontopodium-Antennaria-Gamochaeta (FLAG) clade, whereas in the plastid DNA tree they are sister to Syncarpha mucronata. The endemic helichrysoids possess two divergent copies of each of the nDNA low-copy markers, similar to those previously found for the FLAG clade. This suggests an ancient allopolyploid origin, with the putative ancestors among the ancestors of Gnaphalium or relatives and of S. mucronata or relatives. The reconstruction of ancestral states of morphological characters suggested hypotheses on the origin and evolution of the morphological diversity of the endemic helichrysoids. We conclude a taxonomic treatment with a key to, and descriptions for, the 13 species accommodated in a new genus, Libinhania.

Published

2017

43. Revisión taxonómica del género Gamochaeta Wedd. (Gnaphalieae, Asteraceae) en Chile

Author

Néstor D. Bayón, María A. Migoya, Mélica Muñoz-Schick, Carlos M. Baeza, Luciana Salomón, and Susana E. Freire

Subjects

Compositae, Otras Ciencias Biológicas, Biología, Synonyms, Plant Science, Horticulture, Gamochaeta, synonyms, Ciencias Biológicas, purl.org/becyt/ford/1 [https], taxonomy, Gnaphalieae, Botany, purl.org/becyt/ford/1.6 [https], Endemism, Taxonomy, Ecology, biology, South America, Asteraceae, biology.organism_classification, Lectotypification, lectotypification, endemism, Taxonomy (biology), CIENCIAS NATURALES Y EXACTAS

Abstract

Twenty four species of Gamochaeta (Gnaphalieae, Asteraceae), G. aliena, G. alpina, G. americana, G. andina, G. axillaris, G. chamissonis, G. depilata, G. deserticola, G. falcata, G. filaginea, G. humilis, G. longipedicellata, G. neuquensis, G. nivalis, G. oligantha, G. procumbens, G. ramosa, G. serpyllifolia, G. simplicicaulis, G. spiciformis, G. stachydifolia, G. subfalcata, G. valparadisea, and G. villarroelii, are formally monographed with morphological descriptions, illustrations, geographic distribution and habitat, distribution maps, phenology, lists of representative specimens examined, and a comprehensive identification key for every species. A new name Gamochaeta ramosa S.E. Freire, N. Bayón & C.M. Baeza for Gnaphalium ramosum Phil. (1864) non Lam. (1779) nec Sch. Bip. (1845), is proposed. The following taxa are newly synonymized: Gamochaeta foliosa with G. spiciformis; G. monticola with G. oligantha; Gnaphalium petraeum with Gamochaeta andina; G. suffruticosa with G. chamissonis; Gnaphalium bellidifolium, Gamochaeta berteroana with G. filaginea; and Gnaphalium agreste with Gamochaeta stachydifolia. Lectotypes are newly designated for Gnaphalium andinum, G. berteroanum, G. suffruticosum, and G. villarroelii., Este trabajo comprende la revisión de 24 especies de Gamochaeta para Chile, G. aliena, G. alpina, G. americana, G. andina, G. axillaris, G. chamissonis, G. depilata, G. deserticola, G. falcata, G. filaginea, G. humilis, G. longipedicellata, G. neuquensis, G. nivalis, G. oligantha, G. procumbens, G. ramosa, G. serpyllifolia, G. simplicicaulis, G. spiciformis, G. stachydifolia, G. subfalcata, G. valparadisea y G. villarroelii. Se incluye una clave para identificarlas y para cada una de las especies se brinda descripción, ilustración, fenología, distribución geográfica y hábitat, mapa de distribución, material adicional examinado y afinidades taxonómicas. Sobre la base del estudio de los materiales tipo, se establecen los siguientes nuevos sinónimos: Gamochaeta foliosa con G. spiciformis; G. monticola con G. oligantha; Gnaphalium petraeum con Gamochaeta andina; G. suffruticosa con G. chamissonis; Gnaphalium bellidifolium, Gamochaeta berteroana con G. filaginea; Gnaphalium agreste con Gamochaeta stachydifolia; y se propone el nuevo nombre Gamochaeta ramosa S.E. Freire, N. Bayón & C.M. Baeza parar Gnaphalium ramosum Phil. (1864) non Lam. (1779) nec Sch. Bip. (1845). Se designan lectotipos para las siguientes especies: Gnaphalium andinum, G. berteroanum, G. suffruticosum y G. villarroelii., Facultad de Ciencias Agrarias y Forestales

Published

2016

44. Comparative pappus micromorphology of edelweiss (Leontopodium, Gnaphalieae, Asteraceae) with implications for taxonomy, ecology and evolution

Author

Tod F. Stuessy, Volker Wissemann, J. Sebastian Stille, W. Bernhard Dickoré, Birgit Gemeinholzer, and Michael Jaeger

Subjects

0106 biological sciences, 0301 basic medicine, Leontopodium, biology, Pappus, Plant Science, Asteraceae, EDELWEISS, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, 030104 developmental biology, Gnaphalieae, Botany, Biological dispersal, Taxonomy (biology), Evolutionary ecology, Ecology, Evolution, Behavior and Systematics

Abstract

We analysed pappus characters in 31 of the c. 34 accepted Leontopodium spp. (edelweiss). Micromorphological pappus character states were useful for discriminating between individual species and intrageneric groups. The pappus differs in number, length, breadth, surface structure, colour and the tips of the bristles. Several features characterize single species, for example a unique fan-like tip that is only found in L. franchetii. Leontopodium section Nobilia is supported by unusual pappus characters. Experimental evidence shows that the pappus of Leontopodium, previously thought to be caducous, is well suited for wind dispersal of the fruit. One clear trend is that species growing in sparsely vegetated, high-altitude regions often have more numerous and longer pappus bristles, particularly on the female flowers.

Published

2016

45. Asteraceae da Ecorregião Raso da Catarina, Bahia, Brasil

Author

Vivian Oliveira Amorim and Hortensia Pousada Bautista

Subjects

0106 biological sciences, Compositae, semiarido, caatinga, Plant Science, Horticulture, 010603 evolutionary biology, 01 natural sciences, Heliantheae, Gnaphalieae, lcsh:Botany, florística, Botany, lcsh:QH301-705.5, semiarid, Tageteae, floristic, biology, Ecology, Senecioneae, biology.organism_classification, lcsh:QK1-989, Lepidaploa, lcsh:Biology (General), Astereae, Cichorieae, Pectis, 010606 plant biology & botany

Abstract

Resumo No Brasil são referidas para Asteraceae 2.065 espécies distribuídas em 278 gêneros, sendo a terceira maior família das angiospermas no país. O Raso da Catarina é uma das ecorregiões do domínio Caatinga, caracterizada pelo clima quente e seco e uma caatinga arbustiva densa. O objetivo do presente estudo foi realizar o levantamento florístico de Asteraceae da Ecorregião Raso da Catarina, discutir o ambiente de ocorrência e apresentar uma chave de identificação para as espécies. Foram realizadas 17 expedições mensais a campo no período de abril/2012 a agosto/2013 e análise das coleções dos herbários: ALCB, BAH, CEPEC, HRB, HUEFS e HUNEB. A família foi representada por 52 espécies, 41 gêneros e 14 tribos. Em ordem de riqueza, representam a diversidade local de Asteraceae as tribos: Vernonieae (11 spp.), Heliantheae (10 spp.), Eupatorieae (9 spp.), Tageteae (5 spp.), Astereae (4 spp.), Senecioneae (3 spp.), Gnaphalieae e Millerieae (2 spp.) cada, Cichorieae, Coriopsideae, Gochnatieae, Inuleae, Nassauvieae e Neurolaene (1 spp.) cada. Os gêneros mais representativos foram Lepidaploa, Pectis e Trichogonia, com três espécies cada. Sete espécies são endêmicas de Caatinga. O hábito herbáceo é predominante e as espécies encontradas ocorrem principalmente na caatinga aberta. Abstract The Asteraceae represent the third largest family of flowering plants in Brazil comprising 2.070 species distributed in 280 genera. Raso da Catarina is an ecoregion in the Caatinga domain characterized by warm and dry climate and a schruby xeric vegetation. The current study aims (1) to survey the Asteraceae flora in Raso da Catarina; (2) to discuss environmental occurrence and (3) to provide an identification key. Samples were collected during 17 monthly expeditions from April/2012 to August/2013 and analyzed in the following herbaria collections: ALCB, BAH, CEPEC, HRB, HUEFS and HUNEB. The family was represented in the region by 52 species, 42 genera and 14 tribes. In order of richness, the local diversity of Asteraceae is presented by the tribes: Vernonieae (11 spp.), Heliantheae (10 spp.), Eupatorieae (9 spp.), Tageteae (5 spp.), Astereae (4 spp.), Senecioneae (3 spp.), Gnaphalieae, and Millerieae (2 spp.), Cichorieae, Coriopsideae, Gochnatieae, Inuleae, Nassauvieae e Neurolaene (1 spp.) each. The most representative genera were Lepidaploa, Pectis and Trichogonia, with three species each. Seven species are endemic to Caatinga. The herbaceous habit is predominant among the species, which occurs mainly in less schruby open caatinga.

Published

2016

46. Quasiantennaria (Asteraceae, Gnaphalieae), un nuevo género de los Andes centrales

Author

Michael O. Dillon and Randall J. Bayer

Subjects

Andean flora, Gnaphalieae, Bolivia, Perú, Geography, flora andina, Peru, new genus, General Medicine, Asteraceae, nuevo género

Abstract

Quasiantennaria R. J. Bayer & M. O. Dillon, a new genus from the central Andes distributed from Peru to Bolivia, is described and illustrated. It is characterized among Andean Gnaphalieae by its dioecious or polygamo-dioecious breeding system, cespitose, perennial herbs, basal rosulate leaves, capitulescences scapose, cymose-corymbose. It most closely resembles Antennaria Gaertn., a typically northern hemispheric genus; however, it differs in its achenial trichomes and relationships suggested by DNA sequence data Quasiantennaria R. J. Bayer & M. O. Dillon, un nuevo género de los Andes centrales con distribución en Perú y Bolivia, se describe e ilustra para Perú. Se caracteriza entre las Gnaphalieae andinas por su sistema de reproducción dioico o polígamo-dioico, cespitosa, hierbas perennes, hojas basales en roseta, capitulescencias escaposas, cimoso-corimbosas. Es muy cercano a Antennaria Gaertn., un género típicamente del hemisferio norte; sin embargo, difiere en los tricomas de los aquenios y las relaciones filogenéticas sugeridas por datos de secuencia de ADN

Published

2019

47. Simple Sequence Repeat Markers for Filago subgen. Filago (Gnaphalieae: Asteraceae) and cross-amplification in three other subgenera

Author

Gutiérrez‐Larruscain, David, Malvar Ferreras, Teresa, Martínez‐Ortega, M. Montserrat, Rico, Enrique, and Andrés‐Sánchez, Santiago

Subjects

0106 biological sciences, 0301 basic medicine, Population, Locus (genetics), Plant Science, Asteraceae, 010603 evolutionary biology, 01 natural sciences, Filago, 03 medical and health sciences, 2417.14 Genética Vegetal, Gnaphalieae, Primer Notes, Genetic variation, education, Microsatellites, Ecology, Evolution, Behavior and Systematics, education.field_of_study, Evax, biology, Phylogenetic tree, Primer Note, biology.organism_classification, 030104 developmental biology, Evolutionary biology, Microsatellite, Subgenus

Abstract

[EN]Premise of the Study Microsatellite primers were developed for the first time in the genus Filago (Gnaphalieae: Asteraceae). These markers will facilitate low‐scale phylogenetic, phylogeographic, and population genetic studies within the genus Filago. Methods and Results Ten pairs of polymorphic microsatellite primers (as well as five pairs of monomorphic primers) were identified and optimized on two species of Filago (F. gaditana and F. carpetana) using a microsatellite‐enrichment library method and 454 GS‐FLX technique. The polymorphic primers amplified tri‐ to hexanucleotide repeats and showed one to six alleles per locus for both species. Transferability was performed in 29 samples corresponding to nine representative species of Filago. Conclusions The results indicate the utility of the newly developed markers, which will be useful to delve into the phylogenetic relationships among the taxa within Filago. These microsatellites will enable studies of phylogeographic, reproductive, and genetic variation.

Published

2018

48. Amphiglossa foliosa (Asteraceae: Gnaphalieae, Relhaniinae), a new species from southern Namaqualand, South Africa.

Author

Manning, J.C. and Helme, N.A.

Subjects

*ASTERACEAE, *PLANT species, *ANGIOSPERMS, *TAXONOMY, *COASTAL ecology

Abstract

Abstract: Amphiglossa foliosa J.C.Manning & N.A. Helme is a new species endemic to the greater Knersvlakte between Nuwerus and Klawer in Western Cape. It is diagnosed by its sprawling, laxly leafy stems with relatively large, oblanceolate leaves 8–15×(2–) 3–7mm, thinly tomentose bracts, the inner with dark, wine-red apical appendages, and the relatively numerous florets, 9 to 12 per capitulum. It is most likely to be confused with Amphiglossa celans from coastal Namaqualand between Garies and Kotzesrus, which shares the strongly bicoloured involucres but has distinctive, wiry, strongly flexuose branches with divaricately spreading flowering branchlets, linear or narrowly elliptic leaves mostly 3–8×1.5mm, densely tomentose involucres with the outer bracts joined together by matted hairs, and 5 florets per capitulum. [Copyright &y& Elsevier]

Published

2014

49. The complete chloroplast genome of Helichrysum italicum (Roth) G. Don (Asteraceae).

Author

Hladnik, Matjaž, Baruca Arbeiter, Alenka, Knap, Tea, Jakše, Jernej, and Bandelj, Dunja

Subjects

CHLOROPLAST DNA, TRANSFER RNA, RIBOSOMAL RNA, ASTERACEAE, GENOME size, AROMATIC plants

Abstract

The aromatic plant immortelle contains valuable bioactive molecules and a unique fragrance. These key factors contribute to its attractiveness and implementation in agricultural ecosystems as well as applications in the pharmaceutical and cosmetic industries. In this study, we have characterized the complete chloroplast genome sequence of Helichrysum italicum subsp. italicum from the North Adriatic region. The total genome size was 152,431 bp in length, containing 85 protein-coding genes, 36 transfer RNA genes, 8 ribosomal RNA genes, and 2 partial genes (ycf1 and rps19). Based on the available chloroplast genomes from Gnaphalieae tribe, the closest relationship was identified with Anaphalis sinica. [ABSTRACT FROM AUTHOR]

Published

2019

50. DNA sequence analysis confirms the identity of the intergeneric hybridArgyrotegium mackayi × Leucogenes leontopodium(Asteraceae: Gnaphalieae)

Author

Josephine M. Ward, Rob D. Smissen, Ilse Breitwieser, and Michael J. Thorsen

Subjects

Leontopodium, food.ingredient, biology, Sequence analysis, Plant Science, Asteraceae, biology.organism_classification, DNA sequencing, food, Gnaphalieae, Botany, Internal transcribed spacer, Ecology, Evolution, Behavior and Systematics, Hybrid, Leucogenes

Abstract

DNA sequencing of the nuclear internal transcribed spacer (ITS) and plastid trnK intron confirms that wild intergeneric hybrids between Argyrotegium mackayi and Leucogenes leontopodium occur in the Tararua Range of the North Island of New Zealand. Both parent species belong to the tribe Gnaphalieae (Asteraceae), already known in New Zealand for numerous intergeneric hybrid combinations. However, an Argyrotegium × Leucogenes hybrid is an especially wide cross within this group. In keeping with the presumed breeding biology of the two parent species, plastid DNA sequences indicate A. mackayi as the maternal parent of the sequenced sample.

Published

2015