Cortinarius barcoding database of Western Siberia and adjacent areas

出現紀錄
最新版本 published by Yugra State University Biological Collection (YSU BC) on 七月 9, 2026 Yugra State University Biological Collection (YSU BC)

下載最新版本的 Darwin Core Archive (DwC-A) 資源,或資源詮釋資料的 EML 或 RTF 文字檔。

DwC-A資料集 下載 624 紀錄 在 English 中 (126 KB) - 更新頻率: 有可能更新,但不確知何時
元數據EML檔 下載 在 English 中 (22 KB)
元數據RTF文字檔 下載 在 English 中 (20 KB)

說明

The dataset presents a comprehensive DNA barcode sequence collection for the fungal genus Cortinarius (webcaps) from Western Siberia and adjacent regions of Russia. It includes specimen occurrences paired with curated, quality-controlled ITS nucleotide sequences. Cortinarius is a hyperdiverse genus of ectomycorrhizal fungi crucial for boreal and temperate forest ecosystems. This study addresses the significant gap in molecular data for this region, providing a foundational resource for research in fungal taxonomy, phylogenetics, biogeography, and ecology. The dataset integrates collection metadata (geography, habitat, collectors), molecular data (raw and processed sequences), and morphological data (photographs, descriptions). Specimens are deposited in the Biological Collection of Yugra State University (YSU). The database includes 624 sequenced specimens, representing 213 species, with many sequences (106 specimens) showing high affinity to type specimens and others flagged as potentially novel taxa for further study.

資料紀錄

此資源出現紀錄的資料已發佈為達爾文核心集檔案(DwC-A),其以一或多組資料表構成分享生物多樣性資料的標準格式。 核心資料表包含 624 筆紀錄。

亦存在 1 筆延伸集的資料表。延伸集中的紀錄補充核心集中紀錄的額外資訊。 每個延伸集資料表中資料筆數顯示如下。

Occurrence (核心)
624
dnaDerivedData 
624

此 IPT 存放資料以提供資料儲存庫服務。資料與資源的詮釋資料可由「下載」單元下載。「版本」表格列出此資源的其它公開版本,以便利追蹤其隨時間的變更。

版本

以下的表格只顯示可公開存取資源的已發布版本。

如何引用

研究者應依照以下指示引用此資源。:

Filippova N, Zvyagina E, Bulyonkova T, Rudykina E, Ageev D, Gashkov S, Agafonova N, Vayshlya O (2026). Cortinarius barcoding database of Western Siberia and adjacent areas. Version 1.25. Yugra State University Biological Collection (YSU BC). Occurrence dataset. http://ipt.ugrasu.ru:8080/resource?r=cortdb&v=1.25

權利

研究者應尊重以下權利聲明。:

此資料的發布者及權利單位為 Yugra State University Biological Collection (YSU BC)。 This work is licensed under a Creative Commons Attribution (CC-BY 4.0) License.

GBIF 註冊

此資源已向GBIF註冊,並指定以下之GBIF UUID: e1c0913a-49b2-4d39-8dde-d840e93ffbb3。  Yugra State University Biological Collection (YSU BC) 發佈此資源,並經由Participant Node Managers Committee同意向GBIF註冊成為資料發佈者。

關鍵字

Occurrence

聯絡資訊

Nina Filippova
  • 元數據提供者
  • 出處
  • 連絡人
researcher
Yugra State University
Khanty-Mansiysk
RU
Elena Zvyagina
  • 出處
researcher
Ygra State University
RU
Tatiana Bulyonkova
  • 出處
researcher
Yugra State University
RU
Elena Rudykina
  • 出處
researcher
Yugra State University
RU
Dmitry Ageev
  • 出處
Independent researcher
Грибы Сибири
RU
Sergei Gashkov
  • 出處
researcher
Tomsk State University
Tomsk
RU
Nadezhda Agafonova
  • 出處
researcher
Tomsk State University
Tomsk
RU
Olga Vayshlya
  • 出處
researcher
Tomsk State University
Tomsk
RU

地理涵蓋範圍

The sequenced specimens were collected primarily in the Khanty-Mansi Autonomous Okrug (63%) and Novosibirsk Oblast (32%), with a small number from four other regions of Western Siberia. The samples were obtained from 31 localities (standardized to a 5 km radius), with 85% concentrated in just six key sites: the vicinity of Ugut village (22%), Novosibirsk city (16%), Shapsha village (15%), Mukhrino research station (12%), Karakansky Bor (12%), and Yugansky Nature Reserve (9%).

界定座標範圍 緯度南界 經度西界 [44.007, 33.089], 緯度北界 經度東界 [74.059, 145.701]

時間涵蓋範圍

起始日期 / 結束日期 1989-09-15 / 2024-12-04

計畫資料

無相關描述

計畫名稱 Grant from the Foundation for Scientific and Technological Development of Yugra
辨識碼 Mycorrhiza No. 2024-514-04
經費來源 Grant from the Foundation for Scientific and Technological Development of Yugra (Agreement No. 2024-514-04): «Development of Mycorrhizal Preparations to Improve Tree Species Survival Rates for Bioremediation and Climate Project Implementation»

取樣方法

The collection comprises approximately 2,500 specimens of Cortinarius s.l., with about 1,000 selected for sequencing. The work involving collection consolidation, DNA extraction, and sequence generation spanned three years.

研究範圍 The samples for sequencing were obtained from several personal mycological collections in Western Siberia. All specimens were deposited in the Biological Collection of Yugra State University (YSU), where they underwent cataloging and subsequent molecular-genetic processing.

方法步驟描述:

  1. Fresh material was collected and described according to the standard methods used in fungal taxonomy (Clémençon et al. 2004). Fresh collections were photographed and described in the field. Morphological descriptions of fruitbodies were  based on the examination of fresh and dried material. A standard set of reagents (5% KOH, 1% Congo Red solution, Melzer’s reagent), and a Zeiss AxioStar microscope with a digital camera AxioCam ERc5s and Zeiss AxioVision 4.8.2 software were used for the study and documentation of microstructures. The specimen data were stored in the Specify 7 collection database, organized into dedicated tables for samples, collection events, personnel, DNA extracts, associated images (Fig. 2), morphological descriptions, and related measurement files.
  2. The PCR was made using the TransDirect® Plant Tissue PCR Kit without DNA extraction. PCR reactions were performed in 20 μL of reaction mixtures containing 4 μL of ScreenMix (Evrogen), 0.2 μL of each PCR primer, 14 μL of deionized H2O, and 1.6 μL of template DNA. For amplification of the ITS region the primers ITS1 F (Gardes, Bruns, 1993) and ITS4 (White et al., 1990) were used. PCR cycle parameters were as follows: initial denaturation for 5 min at 95˚C, 30 cycles (denaturation for 20 sec at 95˚C, primers annealing for 30 sec at 54˚C, extend DNA for 60 sec at 72˚C), final extension for 7 min at 72˚C. PCR and sequence reaction products were purified using ExSPure (SkyGen), CleanMag DNA (Evrogen) and Dynabeads™ Sequencing Clean Up kits. Sequencing was performed with BrilliantDye™ Terminator (v3.1) Cycle Sequencing kit (NimaGen) using Applied Biosystems® Sanger Sequencing 3500 Series Genetic Analyzer. The obtained sequences underwent manual quality assessment. For sequences failing quality thresholds, re-sequencing was performed (either forward or reverse direction, as needed).
  3. Raw sequences were processed with strict quality thresholds (minimum length: 50 bp, average quality: Q ≥ 20, end quality: ≥15). A sliding window approach (5 bp) was used to determine reliable sequence boundaries. Sequences were trimmed at positions where average quality dropped below threshold values. Forward and reverse sequences were aligned using the Needleman-Wunsch algorithm (parameters: match=2, mismatch=-3, gap_open=-5, gap_extend=-2). Contigs were assembled with ≥20 bp overlap, with conflicting positions resolved by prioritizing forward-read nucleotides. For single-read samples (forward or reverse only), truncated sequences were retained. The problematic sequences were processed manually. For each sequence, the following metrics were computed to estimate resulted sequence quality: length and count of ambiguous bases (N), percentage of N bases, composite quality score: *(length × 0.4) - (%N × 0.6)*, classified as: failed, low, medium, good, or excellent.  
  4. The taxonomic assignment of sequences was performed through analysis with massBLASTer (BLAST+ 2.13.0) on the PlutoF platform using the UNITE (fungi) and INCD (fungi) databases with the 'Similar sequences (fast)' algorithm parameters. The exported BLAST results were incorporated into the original sequence table for further analysis. Several new fields were created in the dataset: a 'Taxon' field for recording the best taxonomic match (best hit), an 'other taxa' field containing all remaining species-level taxonomic assignments from the BLAST results for each sequence, and fields for quantitative BLAST parameters including percentage similarity and other relevant metrics.
  5. The selection of best hits followed strict criteria. Only matches identified to species level with proper binomial nomenclature were considered, while entries containing markers like sp., cf., or aff. were excluded from consideration. The primary selection priority was given to type specimens (is_type = True) using NCBI database of type specimens. When multiple species-level matches existed, the secondary selection criterion was the highest BLAST Score among the qualifying matches. This approach ensured the most reliable taxonomic assignments while maintaining traceability of all potential matches and their respective alignment quality metrics. The complete set of BLAST parameters used in this analysis is documented for reproducibility purposes (Suppl. material 1).
  6. The resulting annotated table contains several key components: the original sequence data, filtered best hits meeting the established criteria, all alternative species-level matches, and comprehensive alignment statistics (Table 1, Suppl. material 2). This structure facilitates both the immediate taxonomic interpretation and potential future re-evaluation of sequence assignments. The methodology emphasizes scientific rigor through its transparent selection hierarchy and preservation of all relevant matching data. Quantitative metrics from the BLAST alignments remain available for assessing match confidence and performing subsequent quality control analyses.
  7. For subsequent submission to GenBank, SRA, and GBIF databases, we employed taxon names based on automated classification complemented by perentage identity. Alternatively, sequences showing 76-97% similarity to reference entries could be assigned to genus level only. Low percentage identity flags potentially novel taxa that may require further phylogenetic investigation and formal description through focused studies of specific taxonomic groups.

收藏資料

蒐藏名稱 Fungarium of Yugra State University
蒐藏編號 YSU-F
上層採集品識別碼 YSU
蒐藏名稱 Fungarium of Elena Zvyagina of Yugra State University
蒐藏編號 YSU-EZ
上層採集品識別碼 YSU
標本保存方法 Dried

引用文獻

  1. Filippova NV, Bulyonkova TM, Zvyagina EA, Ageev DV, Rudykina EA. 2025. Cortinarius barcoding database of Western Siberia and adjacent areas. Biodiversity Data Journal 14: e196734, https://doi.org/10.3897/BDJ.14.e196734 https://doi.org/10.3897/BDJ.14.e196734
  2. Filippova, N. (2025). Analysis code and source data for the article (Filippova NV, Bulyonkova TM, Zvyagina EA, Ageev DV, Rudykina EA «Cortinarius barcoding database of Western Siberia and adjacent areas»). Zenodo. https://doi.org/10.5281/zenodo.17598843 https://doi.org/10.5281/zenodo.17598843

額外的詮釋資料

目的 This dataset was published to serve as the primary data source for a dedicated data paper to be published in the Biodiversity Data Journal. The data paper will provide a comprehensive description of the sampling methodologies, laboratory protocols, bioinformatic processing, and detailed analysis of the taxonomic and geographic coverage of this Cortinarius barcoding database. The immediate goal of this dataset publication is to make the occurrence and genetic data freely accessible and citable, ensuring its long-term preservation and utility for the scientific community in line with the FAIR principles.
替代的識別碼 e1c0913a-49b2-4d39-8dde-d840e93ffbb3
http://ipt.ugrasu.ru:8080/resource?r=cortdb