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The biology and life history of Arctic populations of the littoral mite Ameronothrus lineatus (Acari, Oribatida)
In: Experimental and Applied Acarology. Springer: Dordrecht. ISSN 0168-8162; e-ISSN 1572-9702
|  |
| Trefwoorden |
Cycles > Life cycle
Population dynamics
Ameronothrus lineatus (Thorell, 1871) [WoRMS]
Marien/Kust |
| Author keywords |
Latitudinal distribution, Microevolutionary adaptations, Multi-instar aggregations, Reproductive biology, Temperature |
| Abstract |
The present study attempts to elucidate possible microevolutionary adaptations of life-history traits of high-latitude populations of the holarctic, littoral oribatid mite Ameronothrus lineatus by comparing arctic and temperate populations. Additionally, the paper provides an overview of the limited research on general ecology and population biology of arctic populations. In the Arctic the larviparous A. lineatus has a 5-year life cycle (larva-to-larva), and adults survive a further 2-3 years. High survival to maturity is consistent with a low lifetime reproductive output of ca. 20 larvae. The life history can be regarded as an extreme version of the typical oribatid life history. However, several life-history features suggest specific adaptations of arctic populations. In particular, the pre-moult resting stage is synchronized with the warmest part of the arctic summer, which shortens this vulnerable part of development. High reproductive investment by females at relatively low temperatures may represent a physiological adaptation to the cool arctic summer. Finally, prolonged cold exposure positively affects reproduction and survival the following summer, suggesting adaptation of the species to the highly seasonal arctic environment. On the other hand, the ability of all life-cycle stages to overwinter, and a flexible life history with the species being able to take advantage of favourable climatic conditions to accelerate development and larviposition, seem to be ancestral features. Thus, the success of A. lineatus in arctic habitats is probably attributable to a combination of derived and ancestral life-history traits. Studies of conspecific temperate populations are required to elucidate further local adaptations of arctic populations. |
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