Occurrence

Occurrences of the invasive plant species Heracleum sosnowskyi Manden. in the Komi Republic territory (European North-East Russia)

Latest version published by Institute of Biology of Komi Scientific Centre of the Ural Branch of the Russian Academy of Sciences on 16 February 2017 Institute of Biology of Komi Scientific Centre of the Ural Branch of the Russian Academy of Sciences
Occurrences of the invasive plant species Heracleum sosnowskyi Manden. in the Komi Republic territory (European North-East Russia) were recorded and published in the Global Biodiversity Information Facility (GBIF http://www.gbif.org) using the RIVR information system (http://ib.komisc.ru/add/rivr/en, RIVR is the acronym of transliterated Russian name of the project “Rasprostranenie Invasionnyh Vidov Rastenij”. English translation: “Occurrence of Invasion Plant Species”). The occurrence data can be added by any user after a simple registration (citizen science concept) process; however, the data published in GBIF are provided only by professional scientists. The total study area is approximately 19,000 km2. The GBIF resource contains 10894 H. sosnowskyi occurrence points, each with their ge... More

Description

Occurrences of the invasive plant species Heracleum sosnowskyi Manden. in the Komi Republic territory (European North-East Russia) were recorded and published in the Global Biodiversity Information Facility (GBIF http://www.gbif.org) using the RIVR information system (http://ib.komisc.ru/add/rivr/en, RIVR is the acronym of transliterated Russian name of the project “Rasprostranenie Invasionnyh Vidov Rastenij”. English translation: “Occurrence of Invasion Plant Species”). The occurrence data can be added by any user after a simple registration (citizen science concept) process; however, the data published in GBIF are provided only by professional scientists. The total study area is approximately 19,000 km2. The GBIF resource contains 10894 H. sosnowskyi occurrence points, each with their geographical coordinates and photographs of the plants in the locus of growth. The research was supported by programs of the Ural Branch of RAS (№ 12-4-009, № 13-4-028) and by the Russian Foundation for Basic Research and Government of Komi Republic (№ 16-44-110694)

Data Records

The data in this occurrence 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 10,894 records.

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.

Downloads

Download the latest version of this resource data as a Darwin Core Archive (DwC-A) or the resource metadata as EML or RTF:

Data as a DwC-A file download 10,894 records in English (197 kB) - Update frequency: annually
Metadata as an EML file download in English (32 kB)
Metadata as an RTF file download in English (25 kB)

Versions

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

How to cite

Researchers should cite this work as follows:

Chadin I, Dalke I, Zakhozhiy I, Malyshev R, Madi E, Kuzivanova O, Kirillov D (2016): Occurrences of the invasive plant species Heracleum sosnowskyi Manden. in the Komi Republic territory (European North-East Russia). v1.8. Institute of Biology of Komi Scientific Centre of the Ural Branch of the Russian Academy of Sciences. Dataset/Occurrence. http://ib.komisc.ru:8088/ipt/resource?r=heraclueum_occurrence&v=1.8

Rights

Researchers should respect the following rights statement:

The publisher and rights holder of this work is Institute of Biology of Komi Scientific Centre of the Ural Branch of the Russian Academy of Sciences. This work is licensed under a Creative Commons Attribution (CC-BY) 4.0 License.

GBIF Registration

This resource has been registered with GBIF, and assigned the following GBIF UUID: 09efcc43-c674-4a70-b326-cd83f7463d1d.  Institute of Biology of Komi Scientific Centre of the Ural Branch of the Russian Academy of Sciences publishes this resource, and is itself registered in GBIF as a data publisher endorsed by Participant Node Managers Committee.

Keywords

occurrence; human observation; Heracleum sosnowskyi; hogweed; invasive; geotagged photographs; Komi Republic; European North-East Russia; occurrence; human observation; Heracleum sosnowskyi; hogweed; invasive; geotagged photographs; Komi Republic; European North-East Russia

Contacts

Who created the resource:

Ivan Chadin
Deputy Director
Institute of Biology of Komi Scientific Centre of the Ural Branch of the Russian Academy of Sciences
Kommunisticheskaya, 28
167982 Syktyvkar
Komi Republic
RU
+79222716727
Igor Dalke
senior scientist
Institute of Biology of Komi Scientific Centre of the Ural Branch of the Russian Academy of Sciences
Kommunisticheskaya, 28
167982 Syktyvkar
Komi Republic
RU
Ilya Zakhozhiy
scientist
Institute of Biology of Komi Scientific Centre of the Ural Branch of the Russian Academy of Sciences
Kommunisticheskaya, 28
167982 Syktyvkar
Komi Republic
RU
Ruslan Malyshev
scientist
Institute of Biology of Komi Scientific Centre of the Ural Branch of the Russian Academy of Sciences
Kommunisticheskaya, 28
167982 Syktyvkar
Komi Republic
RU
Elena Madi
leading engineer programmer
Institute of Biology of Komi Scientific Centre of the Ural Branch of the Russian Academy of Sciences
Kommunisticheskaya, 28
167982 Syktyvkar
Komi Republic
RU
Olga Kuzivanova
engineer-chemist
Institute of Biology of Komi Scientific Centre of the Ural Branch of the Russian Academy of Sciences
Kommunisticheskaya, 28
167982 Syktyvkar
Komi Republic
RU
Dmitrii Kirillov
scientist
Institute of Biology of Komi Scientific Centre of the Ural Branch of the Russian Academy of Sciences
Kommunisticheskaya, 28
167982 Syktyvkar
Komi Republic
RU

Who can answer questions about the resource:

Ivan Chadin
Deputy Director
Institute of Biology of Komi Scientific Centre of the Ural Branch of the Russian Academy of Sciences
Kommunisticheskaya, 28
167982 Syktyvkar
Komi Republic
RU
+79222716727
Igor Dalke
senior scientist
Institute of Biology of Komi Scientific Centre of the Ural Branch of the Russian Academy of Sciences
Kommunisticheskaya, 28
167982 Syktyvkar
Komi Republic
RU

Who filled in the metadata:

Ivan Chadin
Deputy Director
Institute of Biology of Komi Scientific Centre of the Ural Branch of the Russian Academy of Sciences
Kommunisticheskaya, 28
167000
Komi Republic
RU

Who else was associated with the resource:

Point Of Contact
Ivan Chadin
Deputy Director
Institute of Biology of Komi Scientific Centre of the Ural Branch of the Russian Academy of Sciences
Kommunisticheskaya, 28
167982 Syktyvkar
Komi Republic
RU
+79222716727

Geographic Coverage

The Komi Republic territory is located in the north-east of the Russian Plain and the western slopes of the northern Ural Mountains. It is a large and an important biogeographic boundary that separates the flora and fauna of two continents – Europe and Asia. On the plain territory of the Komi Republic, a pronounced latitudinal-nature zonation occurs. In the extreme north-east is a subzone of the southern tundra. The forest-tundra is a transition zone between the tundra and taiga zones. In the Pechora Province, it has a width of 100–120 km forming the southern periphery of the territory that has the Bolshezemelskaya tundra. The main type of vegetation in the Republic of Komi is the boreal (taiga) forest. The taiga zone is divided into subzones, namely the extreme northern, northern, middle, and southern taiga zones. On the eastern edge of the Republic in the Ural Mountains, altitudinal zonation occurs with distinct zones: the mountain forest, alpine tundra, and cold deserts zones (Gorchakovskii 1975). A large part of the Republic has a climate similar to that of the Atlantic-Arctic region with a cold temperate (boreal) climate (Atlas… 1997). The Kazakhstan territory is a zone of excessive moisture, widespread marshes, and wetlands. The annual precipitation exceeds the evaporation and decreases from south to north, from 700 to 550 mm. A significant difference in the climate is observed across the length of the Republic from south to north and from west to east. The duration of the previous winter in the south of the Republic was 170–180 days and that in the north was 230–250 days. The average temperature in January (the coldest month) in the south is 15 °C whereas that in the north-east is –22 °C. Summers are short and warm; the average temperature in July (the warmest month) is approximately 10 °C in the north-east and 17 °C in the south of the Republic. The prevailing wind directions in winter are south and south-west, and north in summer. The monthly average wind speed in the taiga zone is 3–4 m/s and that in the tundra area is 6.5 m/s. Many species exist in the Komi Republic region, which include 929 fungi, 1217 vascular plant, 653 moss, 1020 lichen, 2,000 algae, more than 3,500 arachnid, more than 6,000 insect, 50 fish, six amphibian, five reptile, 265 bird, and 57 mammal species. The Komi Republic territory includes 237 forest, floristic, meadow, marsh, ichthyological, ornithological, and geological reserves and natural monuments. The Pechora-Ilych State Reserve and the "Yugyd Va" National Park occupy 13.5% of the total territory of the Republic (The Biological Diversity of the Republic of Komi 2012).

Bounding Coordinates South West [59.38, 48.94], North East [66.12, 60.34]

Taxonomic Coverage

The resource contains occurrence data only for one species – H. sosnowskyi Manden.

Kingdom  Plantae (Plants)
Phylum  Tracheophyta (Vascular plants)
Class  Magnoliopsida (Flowering plants)
Order  Apiales
Family  Apiaceae (Carrot family)
Genus  Heracleum (Hogweed)
Species  Heracleum sosnowskyi (Sosnowsky's hogweed)

Temporal Coverage

Start Date / End Date 2012-07-28 / 2016-08-23

Project Data

The aim of the project is to build a model of the spread of invasive species Sosnowski's Hogweed (Heracleum sosnowskyi Manden.) and to define the theoretical limits of the range based on ecological and physiological traits of H. sosnowskyi. Eco-physiological species distribution model should allow us to understand the mechanisms that lead to invasion of the species, and will contribute to the understanding of the invasion species distribution mechanisms. The mapping the H. sosnowskyi occurrences is the basis for it’s management.

Title Ecophysiological modelling of invasive plant species distribution. The case of Heracleum sosnowskyi in the taiga zone of the European part of Russia
Identifier Project No 16-44-110694
Funding The project was supported by the grant of The Russian Foundation for Basic Research and The Government of Komi Republic (Project No 16-44-110694)
Study Area Description The Komi Republic territory is located in the north-east of the Russian Plain and the western slopes of the northern Ural Mountains. It is a large and an important biogeographic boundary that separates the flora and fauna of two continents – Europe and Asia. On the plain territory of the Komi Republic, a pronounced latitudinal-nature zonation occurs. In the extreme north-east is a subzone of the southern tundra. The forest-tundra is a transition zone between the tundra and taiga zones. In the Pechora Province, it has a width of 100–120 km forming the southern periphery of the territory that has the Bolshezemelskaya tundra. The main type of vegetation in the Republic of Komi is the boreal (taiga) forest. The taiga zone is divided into subzones, namely the extreme northern, northern, middle, and southern taiga zones. On the eastern edge of the Republic in the Ural Mountains, altitudinal zonation occurs with distinct zones: the mountain forest, alpine tundra, and cold deserts zones (Gorchakovskij 1975). A large part of the Republic has a climate similar to that of the Atlantic-Arctic region with a cold temperate (boreal) climate (Atlas 1997). The territory is a zone of excessive moisture, widespread marshes, and wetlands. The annual precipitation exceeds the evaporation and decreases from south to north, from 700 to 550 mm. A significant difference in the climate is observed across the length of the Republic from south to north and from west to east. The duration of the winter in the south of the Republic is 170–180 days and that in the north is 230–250 days. The average temperature in January (the coldest month) in the south is 15 °C whereas that in the north-east is –22 °C. Summers are short and warm; the average temperature in July (the warmest month) is approximately 10 °C in the north-east and 17 °C in the south of the Republic. The prevailing wind directions in winter are south and south-west, and north in summer. The monthly average wind speed in the taiga zone is 3–4 m/s and that in the tundra area is 6.5 m/s. Biological diversity of the Komi Republic region include 929 fungi, 1217 vascular plant, 653 moss, 1020 lichen, 2,000 algae, more than 3,500 arachnid, more than 6,000 insect, 50 fish, six amphibian, five reptile, 265 bird, and 57 mammal species. The Komi Republic territory includes 237 forest, floristic, meadow, marsh, ichthyological, ornithological, and geological reserves and natural monuments. The Pechora-Ilych State Reserve and the "Yugyd Va" National Park occupy 13.5% of the total territory of the Republic (Biologicheskoe raznoobrazie 2012).
Design Description The project design combines an experimental approach and analysis of results of the observations. The responses of H. sosnowskyi plants to the changes in the abiotic environmental parameters were obtained by instrumental measurements of the morphological and physiological parameters (including CO2/H2O gas exchange, chlorophyll fluorescence, and heat dissipation) in the plants grown in climatic chambers and experimental plots. The data of the optimal and critical values of the environmental factors (heat, light, rainfall, and soil) required for the survival and reproduction of the plants were used for a joint analysis along with the geographically referenced data of these factors. The results were arranged in a raster map showing the potential areas of H. sosnowskyi. The resulting map was verified by a direct comparison with the data of the field observations of the habitats of this species and with the correlation simulation of their geographical distribution.

The personnel involved in the project:

Principal Investigator
Igor Dalke
Author
Ilya Zakhozhiy
Ruslan Malyshev

Sampling Methods

The occurrence data consist of the presence data only. Two methods were used for the creation of occurrence records, which include the data collection along transects (7130 points) and mapping of H. sosnowskyi boundaries that were later converted to regular points sample (3764 points). The regular points sample coordinates were generated using the QGIS Desktop software (v 2.16.3). The points were created with a 25 m point spacing within polygon layers that indicated the H. sosnowskyi population boundaries. The occurrences were labelled with a tag “Generated Regular Sample” written in the “occurrence remarks” field. The “associated media” field contained the URL of the locality map showing the generated point pattern with the scale bar and the north end on top of the map. Data along transects were collected by recording a video of H. sosnowskyi plants growing along the roadsides and by taking photographs in the direction perpendicular to the road at a distance of up to 5 km. Data along transects were collected during driving in a car along public roads by means of video recording of H. sosnowskyi plants growing along roadsides, and with photography while hiking in the direction perpendicular to the road at a distance up to 5 kilometers. Data along transects were collected during driving in a car along public roads by means of video recording of H. sosnowskyi plants growing along roadsides, and with photography while hiking in the direction perpendicular to the road at a distance up to 5 kilometers.

Study Extent The occurrence data of H. sosnowskyi were collected from an area of approximately 19, 000 km2 (Figure 1). Most of the data were collected from the capital area of Komi, Syktyvkar (61° 39.95’N , 50° 49.53’E) as well as along the roads at a distance of 300 km from Syktyvkar, the directions of which coincide with the flow direction of the major rivers Vychegda and Sysola belonging to the Northern Dvina basin. A separate cluster of the data was collected from a 664 km (orthodromic) distance in the territory and suburb of Inta city, located near the Arctic Circle (66° 1.87’N , 60° 8.72’E). A pronounced sampling bias should be considered before using the data for the species distribution modelling. Data were collected close to the settlements or the roads connecting them, which is a travel time bias [Fourcade et al., 2014]. In the case of H. sosnowskyi, such a sampling bias may coincide with the actual factors determining the dispersal of the plants of this species. In most cases, roadsides are the optimal habitats for this species as they are open and well-lighted with adequate moisture due to the roadside drainage systems. Moreover, the air flow creates favourable conditions for the spread of the plants.
Quality Control The published data collected by professional scientists with sustainable skills for the identification of H. sosnowskyi and its differences from other similar species in its habitats were published in GBIF whereas that collected by volunteers were accumulated in the RIVR system. Before publication, data were checked for gross errors in georeferencing by visual inspection of the overlay points on the map with the borders of Russian regions in OpenStreet in the QGIS Desktop. The presence of duplicate records was checked by running a special SQL script. The records were counted as duplicated if three fields were the same: the coordinates, the date of the event, and the file name of the photograph. For many data points (1080 of 10894 points, 10%), the same dates and coordinates were detected; however, they presented a series of photographs (2 to 13). These data were saved in the system as they could be of interest for the assessment of the landscape and the evaluation of plants in the H. sosnowskyi habitat.

Method step description:

  1. Photographs of the plants were taken using consumer cameras. Videos were recorded with a Car DVR Camera (video 1280 × 960 pixels at 30 frames/second), mounted on the car windshield (height from the road surface was 170 cm). The survey was conducted at speeds of 60–90 km/h. The GPS track was simultaneously recorded with GPS navigators. The time on the cameras and video recorders were synchronised with the time displayed on the GPS navigation device. All the images were geotagged by a GPS track log with “GPS Correlate” software (v 1.6.1, https://github.com/freefoote/gpscorrelate) according to the methods described in the OpenStreetMap Project documentation [Geotagging Source Photos..., 2016]. The video files were broken into frames (one frame per second) and the frames were saved as "jpeg" files with the program FFmpeg (v 3.1.4 http://www.ffmpeg.org/) followed by geotagging of these files similar to that of the photographs. The array of images was hand sorted into two groups: images that contained H. sosnowskyi plants and images without these plants. The coordinates of the photographs obtained from a Car DVR Camera were corrected in the Quantum GIS Geographic Information System (QGIS) program (v 2.16.3 http://www.qgis.org) by shifting the group of points on the side of the road. All geotagged H. sosnowskyi images were uploaded to the online database “Occurrence of invasive plant species Heracleum sosnowskyi Manden.” [RIVR..., 2016].

Bibliographic Citations

  1. QGIS Development Team, 2016. QGIS Geographic Information System. Open Source Geospatial Foundation Project. http://www.qgis.org/ A DOI, URI, or other persistent identifier that resolves to the online external resource. It should be used in the citation, usually at the end.
  2. Fourcade, Y. et al. Mapping Species Distributions with MAXENT Using a Geographically Biased Sample of Presence Data: A Performance Assessment of Methods for Correcting Sampling Bias / Y. Fourcade, J. O. Engler, D. Rödder, J. Secondi // PLoS ONE. – 2014. – V. 9. – N 5.
  3. Razdel VI. Okonchanie ohrany ili dopuska selekcionnogo dostizheniya k ispol'zovaniyu (TitleVI. Completion of Protection or Admittance for Usage) // Oficial'nyj byulleten' FGBU "Gosudarstvennaya komissiya Rossijskoj Federacii po ispytaniyu i ohrane selekcionnyh dostizhenij". – 2012. – № 6. – S. 469. (Section VI. The end of protection or tolerance of the selection achievement to use (TitleVI. Completion of Protection or Admittance for Usage) // the Official Bulletin of fsbi "State Commission of the Russian Federation on test and protection of selection achievements". – 2012. – № 6. – S. 469.)
  4. Informacionnoe pis'mo FGBU “Rossel'hozcentr” ot 26.11.2015 № 1-8/2230 [Online]. – URL: http://antibor.ru/sites/526a0b00d7e1e49744000002/assets/56fa0dcdd7e1e4c087062929/pismo1-2.jpg.(Information letter of “rosselhozcenter” from 26.11.2015 No. 1-8/2230 [Online]. – URL: http://antibor.ru/sites/526a0b00d7e1e49744000002/assets/56fa0dcdd7e1e4c087062929/pismo1-2.jpg.)
  5. Geotagging Source Photos — OpenStreetMap Wiki [Online]. – URL: http://wiki.openstreetmap.org/wiki/Geotagging_Source_Photos.
  6. RIVR - Occurrence of Invasive Plant Species Heracleum Sosnowskyi Manden. [Online]. URL: Accessed October 10, 2016. http://ib.komisc.ru/add/rivr/en/.

Additional Metadata

Alternative Identifiers 09efcc43-c674-4a70-b326-cd83f7463d1d
http://ib.komisc.ru:8088/ipt/resource?r=heraclueum_occurrence