We found a match
Your institution may have access to this item. Find your institution then sign in to continue.
- Title
Developmental response to a seasonal time constraint: the effects of photoperiod on reproduction in the grasshopper Romalea microptera.
- Authors
HOMENY, RACHEL H.; JULIANO, STEVEN A.
- Abstract
1. Some organisms respond adaptively to seasonal time constraints by altering development time to life-history transitions (e.g. metamorphosis, oviposition). Such life-history changes may have costs (e.g. reduced fecundity, mass, offspring quality). 2. The hypothesis that a northern population of the grasshopper Romalea microptera (Beauvois) would show adaptive plasticity in oviposition timing in response to seasonal time constraints was tested by manipulating photoperiod to simulate the middle of the active season (Long photoperiod), the end of the active season (Short photoperiod), and seasonal change (photoperiod Declining from long to short). Females received either high or low food rations. Short or Declining photoperiod were predicted to induce early oviposition with costs of reduced egg number, post-oviposition mass, or egg size, particularly in low-food females. 3. Effects of food ration and photoperiod, but not interaction, were significant in failure time analysis of age at oviposition.mancova on age at oviposition, egg number, and post-oviposition mass yielded similar effects. The multivariate effect of photoperiod resulted primarily from reduced time to oviposition in Short or Declining photoperiod. No costs in egg number or post-oviposition mass were associated with this photoperiod-induced reduction in time to oviposition. The multivariate effect of food ration resulted mainly from lower egg number with low food. Food ration affected egg size, but photoperiod and interaction did not. In all cases, Short and Declining photoperiod produced similar effects. 4. In its northern range, R. microptera accelerates reproduction in response to seasonal constraints, a response that may be adaptive. How R. microptera avoids costs associated with this reduced pre-oviposition period remains unknown.
- Subjects
ROMALEIDAE; GRASSHOPPERS; ORTHOPTERA; PHOTOPERIODISM; PHYSIOLOGICAL adaptation; INSECT reproduction; METAMORPHOSIS
- Publication
Ecological Entomology, 2007, Vol 32, Issue 5, p559
- ISSN
0307-6946
- Publication type
Article
- DOI
10.1111/j.1365-2311.2007.00905.x