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- Title
Butterfly life history and temperature adaptations; dry open habitats select for increased fecundity and longevity.
- Authors
Karlsson, Bengt; Wiklund, Christer
- Abstract
1. Evidence suggests that changes of temperature-related performance curves can trigger a selective response in life-history traits. Hence, it should be expected that insects adapted to different temperature regimes should exhibit optimal performance at the temperature to which they are adapted.2. To test this idea we investigated how fecundity and longevity are influenced by ambient temperatures in a set of satyrine butterflies adapted to live in dry open landscapes or in closed forest landscapes, respectively, by keeping egg-laying adult females at five different constant temperatures ranging between 20 and 40 °C.3. We studied four species, two of which are confined to dry and hot open habitats, namely the grayling (Hipparchia semele) and the small heath (Coenonympha pamphilus), and two of which are shade dwelling, namely the ringlet (Aphantopus hyperantus) and the speckled wood butterfly (Pararge aegeria).4. As predicted, the results showed that lifetime fecundity exhibited bell-shaped curves in relation to temperature with the open landscape group peaking at a higher temperature, 30 °C, compared with the shade-dwelling group that peaked at 25 °C. Longevity decreased with increasing temperatures among all species, but the open landscape living species survived better at higher temperatures. Moreover, although the magnitude of reproductive effort measured as lifetime egg mass did not differ between the two ecological groups, lifetime fecundity did with open landscape species laying more and smaller eggs than the shade-dwelling species.5. This difference in life-history character traits suggests either that dry and relatively warm open habitats open life-history opportunities in terms of higher fecundity and longevity that remain closed to butterflies adapted to cooler temperatures, or that life in dry open habitats actively selects for higher fecundity and survival as a result of increased offspring mortality.Journal of Animal Ecology(2005) doi: 10.1111/j.1365-2656.2004.00902.x
- Subjects
BUTTERFLIES; INSECTS; LIFE history theory; BODY temperature regulation; HABITATS; FERTILITY
- Publication
Journal of Animal Ecology, 2005, Vol 74, Issue 1, p99
- ISSN
0021-8790
- Publication type
Article
- DOI
10.1111/j.1365-2656.2004.00902.x