Acari

The Acari /ˈækəraɪ/ (or Acarina /ækəˈraɪnə/) are a taxon of arachnids that contains mites and ticks. The diversity of the Acari is extraordinary and their fossil history goes back to at least the early Devonian period. Acarologists (people who study the Acari) have proposed a complex set of taxonomic ranks to classify mites. In most modern treatments, the Acari are considered a subclass of the Arachnida and are composed of two or three superorders or orders: Acariformes (or Actinotrichida), Parasitiformes (or Anactinotrichida), and Opilioacariformes; the latter is often considered a subgroup within the Parasitiformes. The monophyly of the Acari is open to debate, and the relationships of the acarines to other arachnids is not at all clear. In older treatments, the subgroups of the Acarina were placed at order rank, but as their own subdivisions have become better understood, treating them at the superorder rank is more usual. Most acarines are minute to small (for example, 0.08–1.00 mm or 0.003–0.039 in), but the largest (some ticks and red velvet mites) may reach lengths of 10–20 mm (0.4–0.8 in). Over 50,000 species have been described (as of 1999) and an estimated million or more species may exist. The study of mites and ticks is called acarology (from Greek ἀκαρί/ἄκαρι, akari, a type of mite; and -λογία, -logia), and the leading scientific journals for acarology include Acarologia, Experimental and Applied Acarology and the International Journal of Acarology. Mites are arachnids, and as such, evolved from a segmented body with the segments organised into two tagmata: a prosoma (cephalothorax) and an opisthosoma (abdomen). However, only the faintest traces of primary segmentation remain in mites; the prosoma and opisthosoma are fused, and a region of flexible cuticle (the circumcapitular furrow) separates the chelicerae and pedipalps from the rest of the body. This anterior body region is called the capitulum or gnathosoma, and according to some works, is also found in the Ricinulei. The remainder of the body is called the idiosoma and is unique to mites. Most adult mites have four pairs of legs, like other arachnids, but some have fewer. For example, gall mites like Phyllocoptes variabilis (family Eriophyidae) have a worm-like body with only two pairs of legs; some parasitic mites have only one or three pairs of legs in the adult stage. Larval and prelarval stages have a maximum of three pairs of legs; adult mites with only three pairs of legs may be called 'larviform'. Also, members of the Nematalycidae within the Endeostigmata, which live between sand grains, have often worm-like and elongated bodies with reduced legs. The mouth parts of mites may be adapted for biting, stinging, sawing, or sucking. They breathe through tracheae, stigmata (small openings of the skin), intestines, and the skin itself. Species hunting for other mites have very acute senses, but many mites are eyeless. The central eyes of arachnids are always missing, or they are fused into a single eye. Thus, any eye number from none to five may occur. Acarine ontogeny typically consists of an egg, a prelarval stage (often absent), a larval stage (hexapod except in the mite superfamily Eriophyoidea, which have only two pairs of legs), and a series of nymphal stages. Any or all of these stages except the adult may be suppressed or occur only within the body of a previous stage. Larvae (and prelarvae) have a maximum of three pairs of legs (legs are often reduced to stubs or absent in prelarvae); legs IV are added at the first nymphal stage. Usually, a maximum of three nymphal stages are present and they are referred to in sequence as the protonymph, deutonymph, and tritonymph; however, some soft ticks have supernumerary nymphal stages. The females of some Tarsonemidae bear sexually mature young. If any nymphal stages are absent, then authors may disagree on which stages are present. Only the Oribatida pass through all developmental stages. Acarines are extremely diverse. They live in practically every habitat, and include aquatic (fresh and sea water) and terrestrial species. They outnumber other arthropods in the soil organic matter and detritus. Many are parasitic, and they affect both vertebrates and invertebrates. Most parasitic forms are external parasites, while the free-living forms are generally predatory and may even be used to control undesirable arthropods. Others are detritivores that help to break down forest litter and dead organic matter, such as skin cells. Others still are plant feeders and may damage crops. The feather mites, Astigmata, are found on almost all species of birds, except for penguins, and are highly specialized for life on their hosts. They may feed on uropygial oil, skin flakes, fungus, bacteria, and feathers, depending on the taxon to which they belong. Their lifestyles are affected by the microclimate (ambient temperature and relative humidity); for example, seasonal change in temperature causes feather mites to shift their microhabitats on blue tits. However, no evidence shows microclimate affecting mite diversity.