High diversity of mites (Acari: Oribatida, Mesostig-mata) supports the high conservation value of a broadleaf forest in Eastern Norway

Broadleaf forests are critical habitats for biodiversity and this biodiversity is in turn essential for their proper functioning. Mites (Acari) are a numerous and functionally essential component of these forests. We report the diversity of two important groups, Oribatida and Mesostigmata, in a broa...

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Main Authors: Seniczak, Anna, Seniczak, Stanisław, Starý, Josef, Kaczmarek, Sławomir, Jordal, Bjarte, Kowalski, Jarosław, Roth, Steffen, Djursvoll, Per, Bolger, Thomas
Format: Dataset
Language:English
Published: Dryad 2021
Subjects:
FOS Agriculture, forestry, and fisheries
Bergen
Bray
Kjeøya
Norway
Stump
Viken
Fennoscandia
Mite
Online Access:https://dx.doi.org/10.5061/dryad.80gb5mkrd
http://datadryad.org/stash/dataset/doi:10.5061/dryad.80gb5mkrd
id ftdatacite:10.5061/dryad.80gb5mkrd
record_format openpolar
institution Open Polar
collection DataCite Metadata Store (German National Library of Science and Technology)
op_collection_id ftdatacite
language English
topic FOS Agriculture, forestry, and fisheries
spellingShingle FOS Agriculture, forestry, and fisheries
Seniczak, Anna
Seniczak, Stanisław
Starý, Josef
Kaczmarek, Sławomir
Jordal, Bjarte
Kowalski, Jarosław
Roth, Steffen
Djursvoll, Per
Bolger, Thomas
High diversity of mites (Acari: Oribatida, Mesostig-mata) supports the high conservation value of a broadleaf forest in Eastern Norway
topic_facet FOS Agriculture, forestry, and fisheries
description Broadleaf forests are critical habitats for biodiversity and this biodiversity is in turn essential for their proper functioning. Mites (Acari) are a numerous and functionally essential component of these forests. We report the diversity of two important groups, Oribatida and Mesostigmata, in a broadleaf forest in Eastern Norway which is considered to be a biodiversity hotspot. Eighteen samples, each 500 cm3, were collected from diverse microhabitats (moss on ground, lichens on tree twigs lying on ground, moss on tree trunk at ground level and 1.5 m above ground, moss on decaying wood, log and stump, and decaying wood) from which 10,843 specimens and 95 species from 32 families of Oribatida, and 655 specimens of 34 species from 14 families of Mesostigmata were found. Only 30% of the species were previously recorded in broadleaf forests in Western Norway. Oribatid communities on tree stumps and in lichens were distinct from the other communities, while mesostigmatid communities on tree trunks (both at ground level and above ground) and in lichens differed most from other communities. Over 30% of the species were found in only a single microhabitat. Twenty-three species and the genus Zerconopsis are reported from Norway for the first time. Six records are also new to Fennoscandia, including (Oribatida) Quadroppia monstruosa, Eueremaeus valkanovi, Ramusella furcata, and (Mesostigmata) Dendrolaelaps rectus, D. multidentatus, and D. tenuipilus. In addition, several rare species were detected, e.g., Achipteria magna, Oribotritia berlesei, and Subiasella quadrimaculata, and two were found in their northernmost locality (O. berlesei, E. valkanovi). These results confirm the unique character and high conservation value of the studied forest in Norway, Fennoscandia and at a European scale. : 2.1. Study Site Samples were collected in a plant-rich broadleaf forest located in Kjeøya (59.093° N 11.222° E, 120 m a.s.l.), a peninsula in Viken province, Halden municipality, in Eastern Norway (Figure 1). The study site was characterized by an oceanic climate, with mean annual temperature 6.4 °C and annual precipitation 820 mm [38]. Summer is relatively mild with average temperatures between 16.0–16.7 °C in July and August. In the coldest months (January and February) the average temperatures are between −2.9 °C and −3.8 °C. The vegetation zone is Boreonemoral and slightly oceanic sensu [39]. The bedrock is composed mainly of different gneiss and granite rocks. The forest (Figure 2) has an area of 2.32 ha and is considered an important habitat, since many rare species, mainly fungi, have been detected there [40]. Forest was characterized by old and large oak (mostly common oak, Quercus robur L.), hollow oaks of 100 years and older (>50 cm dbh) [41], and small-leaved lime (Tilia cordata Mill.) trees. Other tree species were hazel (Corylus avellana L.), common ash (Fraxinus excelsior L.), Norway maple (Acer platanoides L.), and some additional Norway spruce [Picea abies (L.) H.Karst] and Scots pine (Pinus sylvestris L.). The herb vegetation was partly sparse. 2.2. Sampling and Identification In total, 18 samples, each of a volume of 500 cm3, were collected on 12 June 2017 from several microhabitats: (1) mosses on ground (four samples), (2) lichens on tree twigs lying on ground (three samples), (3) mosses on tree trunks on ground level (three samples), (4) mosses on tree trunks 1.5 m above ground (two samples), (5) mosses on stump (one sample), (6) mosses on decaying wood (three samples), and (7) decaying wood (two samples). Arthropods were extracted using modified Tullgren funnels for 14 days into 90% ethanol and sorted out from the samples under stereomicroscope. Oribatida were mounted on temporary slides with cavity in lactic acid and adult specimens were identified using the keys of [42–45], while juveniles were identified based on [46–61]. The nomenclature of oribatid species follows [62, 63] and partly [45,57,58]. Mesostigmata were mounted on permanent slides in PVA mounting medium (Lactic Acid, Poly Vinyl Acetate and Phenol Solution, BioQuip Products, Inc., Compton, CA, USA) and identified following [64–84]. Full names of species are given in Table 1 while in other tables and figures abbreviations are used. Specimens representing all species are deposited at the University Museum of Bergen, Norway. Information on other mite groups that were sorted out from the samples will be published later. Habitat preferences (Table 1) of oribatid mites are based on [45,85–87], and those of Mesostigmata on [67,69,70,72,73,75–78,80–82,88–91]. These habitats include the following types: aquatic (reproduction and all stages of life cycle in water or at its margins), hygrophilous (living in wet places), mesohygrophilous (preferring high moisture but not wet places), xerophilous (living in dry places), arboricolous (living on trees), lichenicolous (living on lichens), merocenophilous (living in bark beetle galleries and anthills), muscicolous (living in mosses), praticolous (meadow species), silvicolous (forest species), tyrphophilous (bog species) and eurytopic (occurring in more than three habitat types). The new records of Oribatida for Norway are based on the checklist [92] and later publications [15,37,93]. Those new to Fennoscandia are based on [94,95] and later publications [31,96–107]. The new records of Mesostigmata for Norway are based on [91,108–110] and those new to Fennoscandia are based on [90,111]. 2.3. Statistical Analyses Oribatid and mesostigmatid mite populations were quantified as abundance (individuals in 500 cm3), dominance (D, percentage of specimens of a particular species in the average abundance of Oribatida or Mesostigmata), and frequency (F, percentage of the samples where the species was present), and by the number of species (mean per sample in habitat and total species richness per habitat), and the Shannon (H') diversity index [112]. Categories summarizing the status of occurrence of species (Table 2) follow [113]. The basic statistical descriptors included the mean values and standard deviation and were calculated in MS Excel. The species similarities of the Oribatida and Mesostigmata between microhabitats were analyzed using an unweighted pair group method with arithmetic mean (UPGMA) with Bray-Curtis coefficient [114] using MVSP 3.2 [115]. Chao −1 indices and individual-based rarefaction curves were computed using 100 randomizations in EstimateS for Windows (version 9) [116].
format Dataset
author Seniczak, Anna
Seniczak, Stanisław
Starý, Josef
Kaczmarek, Sławomir
Jordal, Bjarte
Kowalski, Jarosław
Roth, Steffen
Djursvoll, Per
Bolger, Thomas
author_facet Seniczak, Anna
Seniczak, Stanisław
Starý, Josef
Kaczmarek, Sławomir
Jordal, Bjarte
Kowalski, Jarosław
Roth, Steffen
Djursvoll, Per
Bolger, Thomas
author_sort Seniczak, Anna
title High diversity of mites (Acari: Oribatida, Mesostig-mata) supports the high conservation value of a broadleaf forest in Eastern Norway
title_short High diversity of mites (Acari: Oribatida, Mesostig-mata) supports the high conservation value of a broadleaf forest in Eastern Norway
title_full High diversity of mites (Acari: Oribatida, Mesostig-mata) supports the high conservation value of a broadleaf forest in Eastern Norway
title_fullStr High diversity of mites (Acari: Oribatida, Mesostig-mata) supports the high conservation value of a broadleaf forest in Eastern Norway
title_full_unstemmed High diversity of mites (Acari: Oribatida, Mesostig-mata) supports the high conservation value of a broadleaf forest in Eastern Norway
title_sort high diversity of mites (acari: oribatida, mesostig-mata) supports the high conservation value of a broadleaf forest in eastern norway
publisher Dryad
publishDate 2021
url https://dx.doi.org/10.5061/dryad.80gb5mkrd
http://datadryad.org/stash/dataset/doi:10.5061/dryad.80gb5mkrd
long_lat ENVELOPE(-114.067,-114.067,-74.833,-74.833)
ENVELOPE(12.764,12.764,66.445,66.445)
ENVELOPE(-153.167,-153.167,-86.183,-86.183)
ENVELOPE(19.395,19.395,69.232,69.232)
geographic Bergen
Bray
Kjeøya
Norway
Stump
Viken
geographic_facet Bergen
Bray
Kjeøya
Norway
Stump
Viken
genre Fennoscandia
Mite
genre_facet Fennoscandia
Mite
op_rights Creative Commons Zero v1.0 Universal
https://creativecommons.org/publicdomain/zero/1.0/legalcode
cc0-1.0
op_rightsnorm CC0
op_doi https://doi.org/10.5061/dryad.80gb5mkrd
_version_ 1765997241358614528
spelling ftdatacite:10.5061/dryad.80gb5mkrd 2023-05-15T16:12:01+02:00 High diversity of mites (Acari: Oribatida, Mesostig-mata) supports the high conservation value of a broadleaf forest in Eastern Norway Seniczak, Anna Seniczak, Stanisław Starý, Josef Kaczmarek, Sławomir Jordal, Bjarte Kowalski, Jarosław Roth, Steffen Djursvoll, Per Bolger, Thomas 2021 https://dx.doi.org/10.5061/dryad.80gb5mkrd http://datadryad.org/stash/dataset/doi:10.5061/dryad.80gb5mkrd en eng Dryad Creative Commons Zero v1.0 Universal https://creativecommons.org/publicdomain/zero/1.0/legalcode cc0-1.0 CC0 FOS Agriculture, forestry, and fisheries dataset Dataset 2021 ftdatacite https://doi.org/10.5061/dryad.80gb5mkrd 2022-02-08T13:02:41Z Broadleaf forests are critical habitats for biodiversity and this biodiversity is in turn essential for their proper functioning. Mites (Acari) are a numerous and functionally essential component of these forests. We report the diversity of two important groups, Oribatida and Mesostigmata, in a broadleaf forest in Eastern Norway which is considered to be a biodiversity hotspot. Eighteen samples, each 500 cm3, were collected from diverse microhabitats (moss on ground, lichens on tree twigs lying on ground, moss on tree trunk at ground level and 1.5 m above ground, moss on decaying wood, log and stump, and decaying wood) from which 10,843 specimens and 95 species from 32 families of Oribatida, and 655 specimens of 34 species from 14 families of Mesostigmata were found. Only 30% of the species were previously recorded in broadleaf forests in Western Norway. Oribatid communities on tree stumps and in lichens were distinct from the other communities, while mesostigmatid communities on tree trunks (both at ground level and above ground) and in lichens differed most from other communities. Over 30% of the species were found in only a single microhabitat. Twenty-three species and the genus Zerconopsis are reported from Norway for the first time. Six records are also new to Fennoscandia, including (Oribatida) Quadroppia monstruosa, Eueremaeus valkanovi, Ramusella furcata, and (Mesostigmata) Dendrolaelaps rectus, D. multidentatus, and D. tenuipilus. In addition, several rare species were detected, e.g., Achipteria magna, Oribotritia berlesei, and Subiasella quadrimaculata, and two were found in their northernmost locality (O. berlesei, E. valkanovi). These results confirm the unique character and high conservation value of the studied forest in Norway, Fennoscandia and at a European scale. : 2.1. Study Site Samples were collected in a plant-rich broadleaf forest located in Kjeøya (59.093° N 11.222° E, 120 m a.s.l.), a peninsula in Viken province, Halden municipality, in Eastern Norway (Figure 1). The study site was characterized by an oceanic climate, with mean annual temperature 6.4 °C and annual precipitation 820 mm [38]. Summer is relatively mild with average temperatures between 16.0–16.7 °C in July and August. In the coldest months (January and February) the average temperatures are between −2.9 °C and −3.8 °C. The vegetation zone is Boreonemoral and slightly oceanic sensu [39]. The bedrock is composed mainly of different gneiss and granite rocks. The forest (Figure 2) has an area of 2.32 ha and is considered an important habitat, since many rare species, mainly fungi, have been detected there [40]. Forest was characterized by old and large oak (mostly common oak, Quercus robur L.), hollow oaks of 100 years and older (>50 cm dbh) [41], and small-leaved lime (Tilia cordata Mill.) trees. Other tree species were hazel (Corylus avellana L.), common ash (Fraxinus excelsior L.), Norway maple (Acer platanoides L.), and some additional Norway spruce [Picea abies (L.) H.Karst] and Scots pine (Pinus sylvestris L.). The herb vegetation was partly sparse. 2.2. Sampling and Identification In total, 18 samples, each of a volume of 500 cm3, were collected on 12 June 2017 from several microhabitats: (1) mosses on ground (four samples), (2) lichens on tree twigs lying on ground (three samples), (3) mosses on tree trunks on ground level (three samples), (4) mosses on tree trunks 1.5 m above ground (two samples), (5) mosses on stump (one sample), (6) mosses on decaying wood (three samples), and (7) decaying wood (two samples). Arthropods were extracted using modified Tullgren funnels for 14 days into 90% ethanol and sorted out from the samples under stereomicroscope. Oribatida were mounted on temporary slides with cavity in lactic acid and adult specimens were identified using the keys of [42–45], while juveniles were identified based on [46–61]. The nomenclature of oribatid species follows [62, 63] and partly [45,57,58]. Mesostigmata were mounted on permanent slides in PVA mounting medium (Lactic Acid, Poly Vinyl Acetate and Phenol Solution, BioQuip Products, Inc., Compton, CA, USA) and identified following [64–84]. Full names of species are given in Table 1 while in other tables and figures abbreviations are used. Specimens representing all species are deposited at the University Museum of Bergen, Norway. Information on other mite groups that were sorted out from the samples will be published later. Habitat preferences (Table 1) of oribatid mites are based on [45,85–87], and those of Mesostigmata on [67,69,70,72,73,75–78,80–82,88–91]. These habitats include the following types: aquatic (reproduction and all stages of life cycle in water or at its margins), hygrophilous (living in wet places), mesohygrophilous (preferring high moisture but not wet places), xerophilous (living in dry places), arboricolous (living on trees), lichenicolous (living on lichens), merocenophilous (living in bark beetle galleries and anthills), muscicolous (living in mosses), praticolous (meadow species), silvicolous (forest species), tyrphophilous (bog species) and eurytopic (occurring in more than three habitat types). The new records of Oribatida for Norway are based on the checklist [92] and later publications [15,37,93]. Those new to Fennoscandia are based on [94,95] and later publications [31,96–107]. The new records of Mesostigmata for Norway are based on [91,108–110] and those new to Fennoscandia are based on [90,111]. 2.3. Statistical Analyses Oribatid and mesostigmatid mite populations were quantified as abundance (individuals in 500 cm3), dominance (D, percentage of specimens of a particular species in the average abundance of Oribatida or Mesostigmata), and frequency (F, percentage of the samples where the species was present), and by the number of species (mean per sample in habitat and total species richness per habitat), and the Shannon (H') diversity index [112]. Categories summarizing the status of occurrence of species (Table 2) follow [113]. The basic statistical descriptors included the mean values and standard deviation and were calculated in MS Excel. The species similarities of the Oribatida and Mesostigmata between microhabitats were analyzed using an unweighted pair group method with arithmetic mean (UPGMA) with Bray-Curtis coefficient [114] using MVSP 3.2 [115]. Chao −1 indices and individual-based rarefaction curves were computed using 100 randomizations in EstimateS for Windows (version 9) [116]. Dataset Fennoscandia Mite DataCite Metadata Store (German National Library of Science and Technology) Bergen Bray ENVELOPE(-114.067,-114.067,-74.833,-74.833) Kjeøya ENVELOPE(12.764,12.764,66.445,66.445) Norway Stump ENVELOPE(-153.167,-153.167,-86.183,-86.183) Viken ENVELOPE(19.395,19.395,69.232,69.232)

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