Long-term dynamics of the abundance of earthworms and enchytraeids (Annelida, Clitellata: Lumbricidae, Enchytraeidae) in forests of the Central Urals, Russia

DwC-A資料集	下載 553 紀錄在 English 中 (109 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 (21 KB)
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說明

The dataset includes information from a long-term monitoring program for two taxa of Annelids, Lumbricidae and Enchytraeidae, which dwell in the topsoil of spruce-fir, birch, pine, and floodplain forests in the Central Urals. The dataset includes information on the earthworm community structure (list of species, species abundance, number of egg cocoons, cocoon exuvia, juveniles, and adults) and inter-annual dynamics of earthworm and enchytraeid abundance. The dataset consists of 553 sampling events (= samples, corresponding to upper and lower layers of the soil monoliths) and 12 739 occurrences (earthworms, mainly identified to species, and earthworm cocoons and enchytraeids, identified to family) collected during 1990–2020. In total, 3 305 individuals of earthworms were collected, representing ten (out of twelve) species and all eight genera described for the fauna of the Central Urals. In addition, 7 292 earthworm egg cocoons and cocoon exuvia and 6 926 individuals of enchytraeids were accumulated. The presence-absence data on each of the ten earthworm species, egg cocoons, cocoon exuvia, and enchytraeids is provided for each sampling event. All data were collected in undisturbed non-polluted areas and are used as a local reference for ecotoxicological monitoring. The dataset provides valuable information for estimating the composition and abundance of earthworm communities in different habitats over a long time and contributes to the study of soil fauna biodiversity in the Urals.

資料紀錄

此資源sampling event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 553 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。

553

12739

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。:

Vorobeichik E, Nesterkov A, Golovanova E, Nesterkova D, Ermakov A, Grebennikov M (2021): Long-term dynamics of the abundance of earthworms and enchytraeids (Annelida, Clitellata: Lumbricidae, Enchytraeidae) in forests of the Central Urals, Russia. v1.2. Institute of Plant and Animal Ecology (IPAE). Dataset/Samplingevent. http://gbif.ru:8080/ipt/resource?r=lepc_annelids_1990-2020&v=1.2

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 Institute of Plant and Animal Ecology (IPAE)。 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: bf5bc7f6-71a3-4abd-8abc-861ee3cbf84a。 Institute of Plant and Animal Ecology (IPAE) 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

Samplingevent; terrestrial oligochaetes; soil macroinvertebrates; macrofauna; detritivores; species diversity; population density; community composition

聯絡資訊

Evgenii Vorobeichik

元數據提供者 ●
出處 ●
連絡人

principal investigator

Institute of plant and animal ecology, UB RAS

Yekaterinburg

ev@ipae.uran.ru

http://orcid.org/0000-0001-9191-1296

Alexey Nesterkov

元數據提供者 ●
典藏經理 ●
出處 ●
連絡人

researcher

Institute of plant and animal ecology, UB RAS

Yekaterinburg

nesterkov@ipae.uran.ru

http://orcid.org/0000-0001-8382-8468

Elena Golovanova

出處

senior researcher

Omsk state pedagogical university

Omsk

evgolovanova@gmail.com

http://orcid.org/0000-0003-0871-9274

Dina Nesterkova

出處

researcher

Institute of plant and animal ecology, UB RAS

Yekaterinburg

ndv@ipae.uran.ru

http://orcid.org/0000-0002-0895-4111

Alexander Ermakov

出處

senior researcher

Institute of plant and animal ecology, UB RAS

Yekaterinburg

ermakov@ipae.uran.ru

http://orcid.org/0000-0002-6151-7594

Maxim Grebennikov

出處

research engineer

Institute of plant and animal ecology, UB RAS

Yekaterinburg

mt.71@mail.ru

地理涵蓋範圍

The Ural Mountains are a north-south-oriented mountain system located between the East European plain and West Siberian plain. The study area is situated in the lowest uplands of the Urals (altitudes are 150–400 m above sea level) and belongs to the southern taiga subzone. Primary coniferous forests (Picea abies, Abies sibirica, and Pinus sylvestris) and secondary deciduous forests (Betula pendula, Betula pubescens, and Populus tremula) prevail. Spruce and fir forests with nemoral flora on loam or heavy loam soils dominate on the western slope of the Urals, and pine forests on sandy loam or light loam soils prevail on the eastern side. The ground vegetation layer is dominated by Oxalis acetosella, Aegopodium podagraria, Gymnocarpium dryopteris, Dryopteris carthusiana, Asarum europaeum, Maianthemum bifolium, Cerastium pauciflorum, and Stellaria holostea. Soil formation occurs on eluvium and eluvium-diluvium of bedrock metamorphic rocks (shales, sandstones, quartzites, and silicified limestones). Soil cover is formed mainly by soddy-podzolic soils (Albic Retisols, Stagnic Retisols, and Leptic Retisols), burozems (Haplic Cambisols), and grey forest soils (Retic Phaeozems). Zoogenically active humus form (Dysmull) prevail (Korkina and Vorobeichik, 2021). The climate is warm-summer humid continental, Dfb according to Köppen-Geiger classification (Peel et al., 2007). The average annual air temperature is +2.0 °С; the average annual precipitation is 550 mm; the warmest month is July (+17.7 °С) and the coldest month is January (–14.2 °С) (mean values for the last 40 years, 1975–2015, according to the data of the nearest meteorological station in Revda). The snowless period is about 215 days (from April to October), the maximum height of the snow cover is about 40–60 cm.

界定座標範圍	緯度南界經度西界 [56.789, 59.33], 緯度北界經度東界 [56.957, 59.745]

分類群涵蓋範圍

General taxonomic coverage is 1 phylum, 1 class, 2 orders, 2 families, 8 genera, 10 species of annelids.

Class	Clitellata
Order	Crassiclitellata, Enchytraeida
Family	Lumbricidae (earthworms), Enchytraeidae (pot worms)

時間涵蓋範圍

彙整期間	1990-2020

計畫資料

無相關描述

計畫名稱	Russia 2021
辨識碼	N-Eurasia-Russia2021

參與計畫的人員:

Dmitry Schigel

取樣方法

Earthworms were collected in summer months of 1990–2020 at sampling plots (10 × 10 m in size) established in seven study sites.The sampling process included hand-sorting of annelids (earthworms and enchytraeids) out of soil monoliths 20 × 20 cm in area and 25–30 cm in depth. During sampling, monoliths were divided into two layers, corresponding to the samples: the "O" horizon (forest litter) and the "A" horizon (organic-mineral). Monoliths were not subdivided into layers and were analyzed as a whole sample (the A horizon) in R-A16-Kryl (arable land). The sampling and hand sorting procedures were the same in all years (with a few exceptions); a total of 284 soil monoliths and 553 samples (upper and lower layers of the monoliths) were collected for over 30 years of study.

研究範圍	Study sites were located on gentle slopes of ridges in forests with a different stand composition (spruce-fir, pine, birch, and mixed forests) and arable lands. Loam and heavy loam soddy-podzolic soils (Albic Retisols) and podzolized burozems (Leptic Retisols) prevail. A total of seven study sites (=dwc:locationID) were established corresponding to local aggregations of different biotopes. The number of sampling plots within each study site were unequal: R-E30-Sol (spruce-fir forest) included seven sampling plots, R-E20-Pmay (spruce-fir forest) included six plots, R-B20-Pmay (birch forest) and R-S20-Pmay (pine forest) included one sampling plot each, R-E17-Kryl (spruce and birch forest) included four plots, R-Fp17-Kryl (floodplain forest) and R-A16-Kryl (arable land) included three plots each. Study sites R-E30-Sol and R-E20-Pmay were permanent throughout all years of the study. However, the exact position of the sampling plots within these study sites differed between 1990–1991 and 2004–2020 (exact position varied within a range of 300–500 m due to refinement of methodical procedures and positioning inaccuracy). The current position of the sampling plots has been established since 2004. Study sites R-B20-Pmay and R-S20-Pmay are additional and were included in the study only in 1991. Study sites near Krylosovo (R-E17-Kryl, R-Fp17-Kryl, and R-A16-Kryl) have been explored since 2019.
品質控管	A total of more than 3300 individuals of earthworms, 7200 egg cocoons and cocoon exuvia of earthworms, and 6900 individuals of enchytraeids were collected. All specimens were wet-preserved in 70% alcohol and stored (with the partial exception of materials from 1990–1991) in the depository of the Laboratory of Population and Community Ecotoxicology of the Institute of Plant and Animal Ecology, Ural Branch, Russian Academy of Sciences (IPAE UB RAS). Earthworms were identified by Evgenii Vorobeichik and Dina Nesterkova from IPAE UB RAS and Elena Golovanova from the Laboratory of Invertebrate Systematics and Ecology of Omsk State Pedagogical University.

研究範圍

Study sites were located on gentle slopes of ridges in forests with a different stand composition (spruce-fir, pine, birch, and mixed forests) and arable lands. Loam and heavy loam soddy-podzolic soils (Albic Retisols) and podzolized burozems (Leptic Retisols) prevail. A total of seven study sites (=dwc:locationID) were established corresponding to local aggregations of different biotopes. The number of sampling plots within each study site were unequal: R-E30-Sol (spruce-fir forest) included seven sampling plots, R-E20-Pmay (spruce-fir forest) included six plots, R-B20-Pmay (birch forest) and R-S20-Pmay (pine forest) included one sampling plot each, R-E17-Kryl (spruce and birch forest) included four plots, R-Fp17-Kryl (floodplain forest) and R-A16-Kryl (arable land) included three plots each. Study sites R-E30-Sol and R-E20-Pmay were permanent throughout all years of the study. However, the exact position of the sampling plots within these study sites differed between 1990–1991 and 2004–2020 (exact position varied within a range of 300–500 m due to refinement of methodical procedures and positioning inaccuracy). The current position of the sampling plots has been established since 2004. Study sites R-B20-Pmay and R-S20-Pmay are additional and were included in the study only in 1991. Study sites near Krylosovo (R-E17-Kryl, R-Fp17-Kryl, and R-A16-Kryl) have been explored since 2019.

品質控管

A total of more than 3300 individuals of earthworms, 7200 egg cocoons and cocoon exuvia of earthworms, and 6900 individuals of enchytraeids were collected. All specimens were wet-preserved in 70% alcohol and stored (with the partial exception of materials from 1990–1991) in the depository of the Laboratory of Population and Community Ecotoxicology of the Institute of Plant and Animal Ecology, Ural Branch, Russian Academy of Sciences (IPAE UB RAS). Earthworms were identified by Evgenii Vorobeichik and Dina Nesterkova from IPAE UB RAS and Elena Golovanova from the Laboratory of Invertebrate Systematics and Ecology of Omsk State Pedagogical University.

方法步驟描述:

Fieldwork and processing of soil monoliths. Earthworms were collected in June, July, and August of 1990–2020. Sampling plots 10 × 10 m in size were established in seven study sites. Annelids (earthworms and enchytraeids) were hand-sorted out of soil monoliths 20 × 20 cm in area and 25–30 cm in depth, depending on the occurrence of macroinvertebrates. The time interval for extracting one soil monolith from the sampling plot was approximately 5 minutes. Ten monoliths were collected from each plot randomly, excluding nearby trunk areas with a radius of 0.5–1 m around large trees (more than 30 cm in diameter) and any visible pedoturbations. During sampling, each monolith was divided into two layers, corresponding to the samples: the O horizons (forest litter) and A horizon (organic-mineral). Monoliths were not subdivided into layers and were analyzed as a whole sample (the A horizon) in R-A16-Kryl (arable land). Monoliths were placed in plastic bags (separately for the layers), delivered to the laboratory, and stored before processing at 12°C for no more than five days (as a rule, 1–2 days). The collected earthworms were carefully washed with water, fixed with 10% formalin, and then wet-preserved in 70% ethanol. Enchytraeids and earthworm cocoons were fixed with 70% ethanol. The sampling and hand sorting procedures were the same in all years, except that the number of samples taken in 1990 reached 80 per plot. Thus, a total of 284 soil monoliths and 553 samples (upper and lower layers of the monoliths) were collected over all these years. Unfortunately, the materials collected in 1990 and 1991 were not preserved in full until now. Therefore, in the dataset, unlike all others, these years marked with dwc:basisOfRecord = "HumanObservation."
Identifying earthworm species. Adult earthworms were identified to species level using the taxonomic key of Vsevolodova-Perel (1997). Juvenile specimens were identified to species level using external characteristics such as the coloration, the prostomium shape, the pattern of setae, and examination of the internal structure during autopsy (a shape of nephridial bladders, a presence and location of diverticula). Almost all earthworms (3236 of 3305, 98%) were identified to species level. Earthworm cocoons and enchytraeids were identified only to the family level.

收藏資料

蒐藏名稱	lepc_annelids_1990-2020

標本保存方法	Alcohol, Formalin

引用文獻

Korkina, I.N., Vorobeichik, E.L. 2021. Non-typical degraded and regraded humus forms in metal-contaminated areas, or there and back again. Geoderma 404, 115390. https://doi.org/10.1016/j.geoderma.2021.115390
Peel, M.C., Finlayson, B.L., McMahon, T.A. 2007. Updated world map of the Köppen-Geiger climate classification. Hydrology and Earth System Sciences 11, 1633–1644. https://doi.org/10.5194/hess-11-1633-2007
Vsevolodova-Perel, T.S. 1997. Dozhdevyye chervi fauny Rossii: kadastr i opredelitel’ [The earthworms of the fauna of Russia: Cadaster and key]. Editor-in-chef Chernova N.M. Moskva, Nauka. 102 p. (in Russian).

額外的詮釋資料

替代的識別碼	bf5bc7f6-71a3-4abd-8abc-861ee3cbf84a
	http://gbif.ru:8080/ipt/resource?r=lepc_annelids_1990-2020