FBIP: Population genetics and morphological dataset for Helichrysum taxonomic Group 4

データ レコード

この オカレンス（観察データと標本) リソース内のデータは、1 つまたは複数のデータ テーブルとして生物多様性データを共有するための標準化された形式であるダーウィン コア アーカイブ (DwC-A) として公開されています。 コア データ テーブルには、346 レコードが含まれています。

この IPT はデータをアーカイブし、データ リポジトリとして機能します。データとリソースのメタデータは、 ダウンロード セクションからダウンロードできます。 バージョン テーブルから公開可能な他のバージョンを閲覧でき、リソースに加えられた変更を知ることができます。

ダウンロード

DwC-A形式のリソース データまたは EML / RTF 形式のリソース メタデータの最新バージョンをダウンロード：

バージョン

次の表は、公にアクセス可能な公開バージョンのリソースのみ表示しています。

引用方法

研究者はこの研究内容を以下のように引用する必要があります。:

Goodman-Cron G (2019): FBIP: Population genetics and morphological dataset for Helichrysum taxonomic Group 4. v1.0. South African National Biodiversity Institute. Dataset/Occurrence. http://ipt.sanbi.org.za/iptsanbi/resource?r=fbip&v=1.0

権利

研究者は権利に関する下記ステートメントを尊重する必要があります。:

パブリッシャーとライセンス保持者権利者は South African National Biodiversity Institute。 This work is licensed under a Creative Commons Attribution (CC-BY) 4.0 License.

GBIF登録

このリソースをはGBIF と登録されており GBIF UUID: 3fd87f77-1da0-44c7-b5e7-5c33103ca18cが割り当てられています。   South African Biodiversity Information Facility によって承認されたデータ パブリッシャーとして GBIF に登録されているSouth African National Biodiversity Institute が、このリソースをパブリッシュしました。

キーワード

polyploidy; population genetics; everlasting daisy; morphometrics; Specimen

連絡先

地理的範囲

South Africa (Mpumalanga, KwaZulu Natal, Eastern Cape, Western Cape)

生物分類学的範囲

All everlasting daisies identified to genus level

時間的範囲

プロジェクトデータ

Morphological and molecular data to delineate possible speciation events and gene flow among species

プロジェクトに携わる要員:

収集方法

Survey and loans of specimens

Method step description:

1. Field collections: (on-going) Collections of individuals from populations of Helichrysum Group 4 species across South Africa are currently underway with appropriate permits. Previous work was used to identify target populations where ploidy-level has been established 1,2,3. PRECIS data was used to identify additional populations. Population locality information is collected with a hand-held GPS unit, and leaf tissue samples are collected for DNA analyses (vouchers will be deposited at J and the appropriate provincial herbarium). Currently, ~100 individuals have been collected all of the six provinces where Group 4 species occur. The investigators K. Glennon (co-) and G. Cron (PI) are conducting field collections and collections will be completed by March 2014. Ploidy-level determination: (on-going) Ploidy-level of collected populations for all species will be determined using chromosome squash (karyotype) protocols previously established in the lab and complemented with DNA content quantification using a flow cytometer (available at the Wits Medical School), whereby nuclei are stained and quantified via fluorescence. DNA content is a fast and reliable method to establish ploidy level in plants4,5. K. Glennon will carry out flow cytometry analyses and is starting to optimize the protocol. This work will be completed by June 2014. Phylogenetics and population genetics: (on-going) Molecular data will be used to examine relationships among currently named species and to identify potential new species. We will generate DNA barcode data and use these sequences to estimate relationships and investigate cryptic species. Amplified fragment length polymorphism (AFLP) profiles will also be generated using a modified protocol6 to obtain additional genome-wide markers for species identification. Further, microsatellite primers will be developed for H. odoratissimum using available protocols7 to estimate gene flow among populations and calculate genetic diversity estimates, both of which are important measures for determining extinction risks due to global change. Currently, AFLP profiles are being generated, and preliminary data suggest that there are at least four useful polymorphic primer pairs for this project. An additional two primer pairs have been identified to include in the dataset. These data will be analysed according to recently published protocols8. AFLP and microsatellite data will be collected by K. Glennon and nuclear and plastid sequence data by G. Cron (including other EMR species of Helichrysum). Phylogenetic analyses will be performed in collaboration with Dr. Nicola Bergh (Compton Herbarium, Kirstenbosch) on larger data sets of Helichrysum, including as many EMR species as possible. Given that some pilot data are already collected, we expect these data to be collected and analysed by September 2014. Morphological Measurements & Population Abundance: Floral trait measurements will be recorded following established protocols9. The height and width of the synflorescences of the capitula and the diameter of the capitula will be measured. In addition, the number of florets in the capitula will be counted, and determine whether the capitula are homogamous or heterogamous. Further, the height of the stems with capitula will be recorded, as this trait has been shown to vary between ploidies in other species (e.g. North American Heuchera grossulariifolia). In addition, vegetative traits (pubescence of leaves, stem thickness, leaf shape, odour) will be recorded to examine differences among populations and between ploidies. Representatives of floral visitors will be collected, identified and quantified at each selected population per Segraves and Thompson (1999). Permits for the collection of insects will be obtained from provincial authorities. K. Glennon will conduct measurements of plants in the field with the assistance of a postgraduate student. Measurement data will be completed by October 2014. In addition, population abundance will be estimated at each selected population. These data will indicate the prevalence of different ploidy-levels and species across different provinces, as well as in the EMR. Chemical analyses of H. odoratissimum: In collaboration with Prof. Alvaro Viljoen of Tshwane University of Technology, K. Glennon and a postgraduate (M.Sc.) student (should funds become available) will assess the presence and quantity of biochemical compounds among ploidy-levels with H. odoratissimum. A variety of biochemical compounds are present in Helichrysum species that are known to be important for medicinal purposes10. Previous work has shown that secondary chemistry can vary between ploidies11. Chemical compounds will be extracted from fresh tissue and analyzed using mass spectrometry and gas chromatography for volatile oils (e.g. flavonoids and terpenes) content. The presence and quantity of each volatile will be compared between ploidy-levels using appropriate statistical tests to determine whether compounds statistically significantly differ between ploidies. Quantifying and comparing chemical compounds between ploidies will be beneficial for those who use this plant for medical purposes. Chemical analyses are expected to be completed by August 2014.

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