Vascular plants from European Russia in the CSBG SB RAS Digital herbarium

最新版本 由 Central Siberian Botanical Garden SB RAS 發佈於 Apr 23, 2021 Central Siberian Botanical Garden SB RAS

The Central Siberian Botanical Garden of the Siberian Branch of the Russian Academy of Sciences (CSBG SB RAS) is the largest botanical institution in the Asian part of Russia. Founded in 1946 CSBG SB RAS, is historically a consortium of two herbarium collections with their own acronyms (NS and NSK) and registration in the Index Herbariorum. At present the NS+NSK collections comprising about 800 000 herbarium specimens of vascular plants, mosses, lichens and fungi gathered in Siberia, the European part of Russia, the rest of Europe, Russian Far East, the rest of Asia and America (Kovtonyuk, Han, Gatilova, 2018). This is the third largest collection in Russia after the LE and MW collections.

The first herbarium collection at the CSBG SB RAS was organized in 1944 on the basis of herbarium sheets transferred from the Medical and Biological Institute (Novosibirsk). In 1978 Herbarium collection named after M.G. Popov was transferred from Irkutsk to CSBG SB RAS. The consortium of two herbarium collections NS+NSK keeps about 680,000 specimens of vascular plants.

At the end of 2017 the USU-Herbarium research group was organized in CSBG SB RAS for herbarium management and herbarium digitization. Our purpose is to provide open online access to the CSBG SB RAS Digital herbarium collections as a data worldwide resource for the study of biodiversity.

The dataset from the European part of Russia consists of 5384 records of digitized herbarium specimens of vascular plants collected from 19th century to present. For each specimen, the species name, locality, collection date, collector, ecology and revision label are recorded. More than 94% of the records have coordinates that fall within area of European Russia west of Ural Mountains.

Data Records

The data in this 出現紀錄 resource has been published as a Darwin Core Archive (DwC-A), which is a standardized format for sharing biodiversity data as a set of one or more data tables. The core data table contains 5,378 records. 1 extension data tables also exist. An extension record supplies extra information about a core record. The number of records in each extension data table is illustrated below.

  • Occurrence (核心)
    5378
  • Multimedia 
    5378

This IPT archives the data and thus serves as the data repository. The data and resource metadata are available for download in the downloads section. The versions table lists other versions of the resource that have been made publicly available and allows tracking changes made to the resource over time.

下載

下載最新版本的Darwin Core Archive (DwC-A)資源,或資源元數據的EML或RTF文字檔。

DwC-A資料集 下載 5,378 紀錄 在 English 中 (594 KB) - Update frequency: 有可能更新,但不確知何時
元數據EML檔 下載 在 English 中 (47 KB)
元數據RTF文字檔 下載 在 English 中 (21 KB)

版本

The table below shows only published versions of the resource that are publicly accessible.

如何引用

研究者應依照以下指示引用此資源。:

Kovtonyuk N, Han I, Gatilova E (2020): Vascular plants from European Russia in the CSBG SB RAS Digital herbarium. v1.9. Central Siberian Botanical Garden SB RAS. Dataset/Occurrence. http://www.csbg.nsc.ru:8080/ipt/resource?r=euvrus&v=1.9

Rights

研究者應尊重以下權利聲明。:

The publisher and rights holder of this work is Central Siberian Botanical Garden SB RAS. To the extent possible under law, the publisher has waived all rights to these data and has dedicated them to the Public Domain (CC0 1.0). Users may copy, modify, distribute and use the work, including for commercial purposes, without restriction.

GBIF 註冊

此資源已向GBIF註冊,並指定以下之GBIF UUID: 85f9137e-8aec-4e0b-9ed6-0af4dbe491e8。  Central Siberian Botanical Garden SB RAS 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; Specimen

聯絡資訊

資源建立者:

Nataliya Kovtonyuk
Senior researcher
Central Siberian Botanical Garden SB RAS Zolotodolinskaya str. 101 630090 Novosibirsk Novosibirskaya Oblast' RU
https://csbg-nsk.ru/kovtonyuk_nk
Irina Han
main engineer
Central Siberian Botanical Garden SB RAS Zolotodolinskaya str. 101 630090 Novosibirsk Novosibirskaya Oblast' RU
https://csbg-nsk.ru/unu_herbarium
Evgeniya Gatilova
main specialist
Central Siberian Botanical Garden SB RAS Zolotodolinskaya str. 101 630090 Novosibirsk Novosibirskaya Oblast' RU
https://csbg-nsk.ru/unu_herbarium

可回覆此資源相關問題者:

Nataliya Kovtonyuk
Senior researcher
Central Siberian Botanical Garden SB RAS Zolotodolinskaya str. 101 630090 Novosibirsk Novosibirskaya Oblast' RU
https://csbg-nsk.ru/kovtonyuk_nk
Irina Han
main engineer
Central Siberian Botanical Garden SB RAS Zolotodolinskaya str. 101 630090 Novosibirsk Novosibirskaya Oblast' RU
https://csbg-nsk.ru/unu_herbarium

元數據填寫者:

Nataliya Kovtonyuk
senior researcher
Central Siberian Botanical garden SB RAS Zolotodolinskaya str. 101 630090 Novosibirsk Novosibirskaya Oblast' RU
https://csbg-nsk.ru/kovtonyuk_nk
Irina Han
main engineer
Central Siberian Botanical garden SB RAS Zolotodolinskaya str. 101 630090 Novosibirsk Novosibirskaya Oblast' RU
https://csbg-nsk.ru/unu_herbarium

與此資源的相關者:

作者
Nataliya Kovtonyuk
Senior researcher
Central Siberian Botanical Garden SB RAS Zolotodolinskaya str. 101 630090 Novosibirsk Novosibirskaya Oblast' RU
https://csbg-nsk.ru/kovtonyuk_nk
作者
Irina Han
main engineer
Central Siberian Botanical Garden SB RAS Zolotodolinskaya str. 101 630090 Novosibirsk Novosibirskaya Oblast' RU
https://csbg-nsk.ru/unu_herbarium
作者
Evgeniya Gatilova
Main specialist
Central Siberian Botanical Garden SB RAS Zolotodolinskaya str. 101 630090 Novosibirsk Novosibirskaya Oblast' RU
http://csbg-nsk.ru/unu_herbarium

地理涵蓋範圍

Territory of this dataset covers all regions of European part of Russia west of the Ural Mountains. The largest number of samples collected from the Moscow Oblast and Moscow (865), Murmansk Oblast (833), Leningrad Oblast with Saint Petersburg (628), Volgograd Oblast (354) and Pskov Oblast (239).

界定座標範圍 緯度南界 經度西界 [37, 19.6], 緯度北界 經度東界 [81, 65.56]

分類群涵蓋範圍

Specimens of 111 families from 41 orders and 6 classes of vascular plants are presented. There are classes Gnetopsida (1 family), Liliopsida (21 families), Lycopodiopsida (2), Magnoliopsida (73), Pinopsida (3), and Polypodiopsida (11). The largest families in the dataset are Poaceae (655 specimens), Cyperaceae (605), Asteraceae (504), Rosaceae (272), Fabaceae (241), Brassicaceae (224), Caryophyllaceae (207), Amaranthaceae (205), Primulaceae (187), and Lamiaceae (170).

Family  Poaceae,  Cyperaceae,  Asteraceae,  Rosaceae,  Fabaceae,  Brassicaceae,  Amaranthaceae,  Caryophyllaceae,  Primulaceae,  Lamiaceae,  Betulaceae,  Ranunculaceae,  Ericaceae,  Rubiaceae,  Equisetaceae,  Geraniaceae,  Apiaceae,  Onagraceae,  Campanulaceae,  Orobanchaceae,  Typhaceae,  Plantaginaceae,  Boraginaceae,  Dryopteridaceae,  Amaryllidaceae,  Orchidaceae,  Papaveraceae,  Euphorbiaceae,  Gentianaceae,  Polygonaceae,  Salicaceae,  Asparagaceae,  Celastraceae,  Convolvulaceae,  Liliaceae,  Alismataceae,  Cystopteridaceae,  Droseraceae,  Violaceae,  Aristolochiaceae,  Caprifoliaceae,  Sapindaceae,  Cornaceae,  Athyriaceae,  Thelypteridaceae,  Rhamnaceae,  Plumbaginaceae,  Scrophulariaceae,  Nitrariaceae,  Juncaceae,  Adoxaceae,  Malvaceae,  Potamogetonaceae,  Apocynaceae,  Ophioglossaceae,  Araceae,  Hydrocharitaceae,  Lycopodiaceae,  Thymelaeaceae,  Crassulaceae,  Cupressaceae,  Diapensiaceae,  Elatinaceae,  Fagaceae,  Frankeniaceae,  Pinaceae,  Solanaceae,  Tamaricaceae,  Butomaceae,  Cannabaceae,  Elaeagnaceae,  Ephedraceae,  Lythraceae,  Aspleniaceae,  Ceratophyllaceae,  Hypericaceae,  Linaceae,  Oleaceae,  Pteridaceae,  Saxifragaceae,  Ulmaceae,  Urticaceae,  Berberidaceae,  Cucurbitaceae,  Iridaceae,  Polygalaceae,  Polypodiaceae,  Santalaceae,  Zygophyllaceae,  Acoraceae,  Anacardiaceae,  Aquifoliaceae,  Balsaminaceae,  Calceolariaceae,  Cistaceae,  Colchicaceae,  Commelinaceae,  Dennstaedtiaceae,  Grossulariaceae,  Haloragaceae,  Lentibulariaceae,  Mazaceae,  Melanthiaceae,  Parnassiaceae,  Polemoniaceae,  Scheuchzeriaceae,  Selaginellaceae,  Smilacaceae,  Taxaceae,  Tropaeolaceae,  Woodsiaceae

時間涵蓋範圍

起始日期 / 結束日期 1831-05-01 / 2019-08-14

計畫資料

Historically at state moment, there are two herbarium collections at the Central Siberian Botanical Garden, Siberian Branch of the Russian Academy of Sciences (CSBG SB RAS): herbarium named after I.M. Krasnoborov (NS) and herbarium named after M.G. Popov (NSK). Collections contain about 800 000 herbarium specimens of vascular plants, mosses, lichens and fungi gathered in Siberia, European part of Russia, Russian Far East, Europe, Asia and America. Obviously, herbarium collections of CSBG SB RAS are mainly focused on plant sheets from Siberian regions. Nevertheless, both NS and NSK collections contain unique materials collected by CSBG researches at the European part of Russia as well as duplicate plant sheets obtained from other herbariums. Some data from herbarium of European part of Russia from the CSBG collections have been published in 8 different datasets before. However, in this dataset the new data and determined geolocations were added. Digitization of vascular plants at 600 dpi was initiated in 2014 using special scanner, Herbscan, starting with type specimens. In 2017 a new research group, the USU-Herbarium, was organized in the CSBG SB RAS for digitization and management of herbarium collections. Now herbarium specimens are being digitized using two ObjectScan 1600, according to the international standards at 600 dpi. Images and metadata are stored in the CSBG SB RAS Digital Herbarium (http://herb.csbg.nsc.ru:8081) generated by ScanWizard Botany and MiVapp Botany software (Microtek, Taiwan). Our purpose is to provide open online access to the vascular plants collections in CSBG SB RAS as a data worldwide resource for study the biodiversity.

計畫名稱 West of Urals 2020
辨識碼 N-Eurasia-Russia2020-W-Urals
經費來源 The work was carried out within the framework of the State Assignment of the Central Siberian Botanical Garden, SB RAS № АААА-А17-117012610055-3.
研究區域描述 The earliest herbarium specimen from European part of Russia kept in CSBG SB RAS collections was collected in 1831 by G.S. Karelin (NS0017781). In total, 5384 samples were taken into account and 5104 with coordinates, which is 94.7%. Herbarium specimens were collected from 54 regions of the Russian Federation and every region is represented. The largest number was gathered from the Moscow Oblast and Moscow (865), Murmansk Oblast (833), Leningrad Oblast with Saint Petersburg (628), Volgograd Oblast (354), Pskov Oblast (239).
研究設計描述 Herbarium collections are the most important source of scientific information about the distribution of objects in the past and the present, which allows simulation the dynamics of objects in the future. Only the herbarium sample reliably confirms the presence of the plant organism in a specific point of space in a certain period of time. Herbarium collections and the data they hold are valuable for more traditional studies of taxonomy and systematic, but also for ecology, bioengineering, conservation, food security, and the human social and cultural elements of scientific collection. The value and universality of herbarium specimens are recognized in most countries, where national and large regional herbariums are actively developing and improving (Kovtonyuk, 2017). The creation of Virtual or Digital herbarium became a modern trend, stage of the inventory and modernization of herbarium collections of the leading Botanical institutions in the world (Kovtonyuk et al., 2019; Kovtonyuk, Han, Gatilova, 2020). Currently digitization of samples is carried out using two ObjectScan 1600 scanners. Each workstation consists of an ObjectScan 1600 scanner, ScanWizard_Botany software and MiVapp_Botany archive management system software (Microtek, Taiwan). This integrated workstation is characterized by on-top scan design for full-frame focus, a maximum of 1600 dpi (equal to 1 Gigabyte pixels), color CCD, Optical Character Recognition (OCR) for specimen label and ID barcode, and image archive and privileged-account cloud management system. Specimens were scanned using international standards: with the resolution of 600 dpi, a barcode for each specimen, and a 24-color scale and scale bar.

The personnel involved in the project:

元數據提供者
Nataliya Kovtonyuk
程式設計師
Irina Han
處理者
Evgeniya Gatilova

取樣方法

Dried and pressed herbarium specimens were digitized using two special scanners, ObjectScan 1600, according to the international standards, at 600 dpi, with a barcode, 24-color scale and spatial scale bar (Kovtonyuk, 2015; Kovtonyuk, Han, Gatilova, 2018). Images (*.jpg files) and metadata are stored in the CSBG SB RAS Digital Herbarium generated by ScanWizard Botany and MiVapp Botany software (Microtek, Taiwan).

研究範圍 Plant samples from European part of Russia kept at NS+NSK collections were gathered by staff of the CSBG SB RAS from different regions of Russia in field trip or received during herbarium exchange. The oldest herbarium specimen was collected in 1831 by G.S. Karelin. Very often herbarium sheets from "Florae Ingricae" (near 1860 year) do not contain the exact date and place of collection.
品質控管 Specialists from the Komarov Botanical Institute (Saint Petersburg), Main botanical Garden (Moskow), Lomonosov Moskow State University and the CSBG SB RAS took part in the identification of herbarium specimens. Quality control is carried out by staff of the USU-Herbarium group during the verification of the digitized samples. Label metadata information placed into Calc table (Open Office) and then transferred to *.csv and Darwin Core format.

方法步驟描述:

  1. The digitization process includes the following 6 steps (Kovtonyuk, Han, Gatilova, 2018): 1. Mounting of dry plant material onto a herbarium sheet; 2. Checking the identification and nomenclature by a specialist; 3. Barcoding the specimen: printing a barcode on the thermal printer and affixing it to the herbarium sheet; 4. Placing the herbarium sheet, 24-color scale and scale bar on the scanner platform and image capturing; 5. Generating metadata, labeling OCR by ScanWizard Botany and verification of the label text by experts; 6. Archive management by MiVapp-Botany.

收藏資料

蒐藏名稱 I.M.Krasnoborov Herbarium
蒐藏編號 NS
蒐藏名稱 M.G. Popov Herbarium
蒐藏編號 NSK
Specimen preservation methods Dried and pressed

引用文獻

  1. Kovtonyuk N., Han I. and Gatilova E. (2018). Digitization of the herbarium specimens of higher vascular plants in the Central Siberian Botanical Garden // Skvortsovia. V. 4, N 3. P.100-111. http://skvortsovia.uran.ru/2018/4302.pdf
  2. Kovtonyuk N., Han I., Gatilova E. (2019). Digital Herbarium Collections of the Central Siberian Botanical Garden SB RAS, Novosibirsk, Russia. In: Bychkov I., Voronin V. (eds). Information Technologies in the Research of Biodiversity. Springer Proceedings in Earth and Environmental Sciences. Springer, Cham. P.22–27. DOI: https://doi.org/10.1007/978-3-030-11720-7_4
  3. Kovtonyuk N.K., Han I.V., Gatilova E.A., Pshenichkina Yu.A. (2019). Digital Herbarium of the CSBG SB RAS in Global Biodiversity Information Facilities // Rast. Mir Asian. Russia. N 4 (36). P.68–73. DOI: 10.21782/RMAR1995-2449-2019-4(68-73).
  4. Kovtonyuk, N.K. (2017). Virtual herbarium collections as a resource for taxonomy and biodiversity study // Rast. Mir Asian. Russia. N 1(25). P. 98–104. DOI:10.21782/RMAR1995-2449-2017-1(98-104).
  5. Kovtonyuk N, Han I, Gatilova E (2019). Family Primulaceae in Digital Herbaria of CSBG SB RAS (NSK). Version 1.7. Central Siberian Botanical Garden SB RAS. Occurrence dataset https://doi.org/10.15468/zw7jnn
  6. Kovtonyuk N, Han I, Gatilova E (2019). Family Primulaceae in Digital Herbaria of CSBG SB RAS (NS). Central Siberian Botanical Garden SB RAS. Occurrence dataset https://doi.org/10.15468/be6owh
  7. Kovtonyuk N, Han I, Gatilova E, Friesen N (2019). Genus Allium in CSBG SB RAS herbarium collections (NS,NSK). Central Siberian Botanical Garden SB RAS. Occurrence dataset https://doi.org/10.15468/e4hv2e
  8. Kovtonyuk N, Han I, Gatilova E, Karakulov A (2019). Genus Rhododendron in Digital herbarium of CSBG SB RAS (NS, NSK). Version 1.2. Central Siberian Botanical Garden SB RAS. Occurrence dataset https://doi.org/10.15468/67ouin
  9. Kovtonyuk N, Han I, Gatilova E (2019). Genus Medicago (Fabaceae) in CSBG Herbarium collections (NS, NSK). Version 1.4. Central Siberian Botanical Garden SB RAS. Occurrence dataset https://doi.org/10.15468/jvrxeh
  10. Kovtonyuk N, Han I, Ovchinnikova S, Nikiforova O, Vlasova N, Shekhovtsova I, Doron′kin V, Troshkina V, Pinzhenina E, Belyaeva I, Eremin I (2019). Typotheca of the higher vascular plants stored in M.G. Popov Herbarium (NSK) at the Central Siberian botanical garden SB RAS. Version 1.5. Central Siberian Botanical Garden SB RAS. Occurrence dataset https://doi.org/10.15468/qdfdqq
  11. Kovtonyuk N, Han I, Gatilova E, Troshkina V (2020). Family Geraniaceae in CSBG SB RAS herbarium collections (NS, NSK). v1.1. Central Siberian Botanical Garden SB RAS. Occurrence dataset http://www.csbg.nsc.ru:8080/ipt/resource?r=geraniaceae2020&v=1.1
  12. Kovtonyuk N, Han I, Gatilova E (2020): Central Siberian Botanical Garden Herbarium (NS, NSK). v1.0. Central Siberian Botanical Garden SB RAS. Occurrence dataset http://www.csbg.nsc.ru:8080/ipt/resource?r=csbg2020&v=1.0
  13. Kovtonyuk N, Han I, Gatilova E (2020) Vascular plants from European Russia in the CSBG SB RAS Digital Herbarium. Biodiversity Data Journal 8: e56504. https://doi.org/10.3897/BDJ.8.e56504

額外的元數據

目的 Our purpose is to provide open online access to the CSBG SB RAS Digital herbarium (http://herb.csbg.nsc.ru:8081) as a data worldwide resource for studying biodiversity.
替代的識別碼 85f9137e-8aec-4e0b-9ed6-0af4dbe491e8
http://www.csbg.nsc.ru:8080/ipt/resource?r=euvrus