Abstract

The aim of this research was to obtain initial data on the fauna and abundance of the oribatid mites from the main types of the mountain tundra habitats of the Chunatundra Mountains. Four plots, including two lichen tundra plots, one dwarf shrub tundra plot and one sphagnum bog in the belt of mountain tundra were investigated. Multidimensional scaling and discriminant function analysis were used to identify trends in the fauna and abundance of oribatid species through the explored plots. A total of 70 species and one subspecies from 37 genera and 24 families were found during the course of this investigation. Nine species, one subspecies, one genus and one family of oribatid mites have been added to the fauna of the Kola Peninsula. The families Brachychthoniidae, Oppiidae and Suctobelbidae are the most diverse in the discovered local fauna. According to literature data, the first two families are characteristic of the low tundra communities, the third family is more common for the boreal zone. The discovered oribatid fauna is similar to the fauna of other tundra sites of the Kola Peninsula studied previously and is significantly different to the local oribatid mite faunae of the Scandinavian Peninsula. The abundance of the adult oribatid mites reached 39 080 ind./m2 in the lichen tundra and 56 200 ind./m2 in the dwarf shrub tundra. The minimum abundance of oribatid mites, 18 640 ind./m2 was found in the sphagnum bog. Differences in the oribatid mite complexes of lichen tundra, dwarf shrub tundra and the sphagnum bog were found. The species Carabodes labyrinthicus, Nothrus borussicus, Sellnickochthonius immaculatus, Mycobates sarekensis, and Tectocepheus velatus were associated with the lichen tundra habitats. Nanhermannia sellnicki, Chamobates borealis and a few species of Oppiella and Suctobelbella were associated with the dwarf shrub tundra. Mucronothrus nasalis, Limnozetes ciliatus, Platynothrus peltifer, Trimalaconothrus foveolatus, Limnozetes cf. rugosus, and Trimalaconothrus maior are most characteristic of the sphagnum bog. The family Suctobelbidae was represented by a large number of species, while the families Ceratozetidae and Camisiidae were much less diverse. The low diversity of Ceratozetidae, a high diversity of Suctobelbidae and relatively high abundance of oribatid mites in the explored tundra habitats may be explained by an ambivalent nature of the oribatid community, which combines boreal and arctic features due to marine climate. Also, this result may be a feature of a local mountain tundra which is surrounded by the underlying belts of the mountain forests that are a source of the increasingly diversity of species.

Highlights

  • During previous investigations of the tundra communities on the Kola Peninsula, a high number of oribatid mite species was found

  • In the Scandinavian Peninsula, 145 species, 69 genera, and 42 families of oribatid mites were found in the alpine and arctic/alpine habitats (Heggen 2010), 123 oribatid species belonging to 39 families were found in the treeless habitats of Taimyr Peninsula (Makarova 2015), and 151 species, 83 genera, 46 families were found in the western North American Low Arctic (Behan-Pelletier 1999)

  • The known fauna of the oribatid mites in the mountain tundra habitats of the Kola Peninsula comprises significantly fewer species than the fauna of oribatid mites in plain tundra on the Kola Peninsula, which includes140 species belonging to 73 genera and 39 families (Krivolutsky 1966; Liskovaya 2011; Leonov and Rakhleeva 2015)

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Summary

Introduction

During previous investigations of the tundra communities on the Kola Peninsula, a high number of oribatid mite species was found. Compared to more investigated regions, the known number of oribatid species in the mountain tundra of the Kola Peninsula is still far from expected. The known fauna of the oribatid mites in the mountain tundra habitats of the Kola Peninsula comprises significantly fewer species than the fauna of oribatid mites in plain tundra on the Kola Peninsula, which includes140 species belonging to 73 genera and 39 families (Krivolutsky 1966; Liskovaya 2011; Leonov and Rakhleeva 2015). The investigation of the different types of tundra habitats is important for a better understanding of the structure and complexity of the tundra biome

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