Predator protection versus rapid growth in a montane leaf beetle

Predator protection versus rapid growth in a montane leaf beetle

Adults and larvae of Chrysomela aenicollis (Coleoptera: Chrysomelidae) feed on foliage of Salix species (Salicaceae) between 2,400-3,400 m above sea level in the east-central Sierra Nevada mountains of California. We predicted that (1) cold climatic conditions would be a more frequent source of mort...

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Bibliographic Details
Published in:Oecologia Vol. 70; no. 1; pp. 106 - 112
Main Authors: Smiley, J.T, Rank, N.E
Format: Journal Article
Language:English
Published: Berlin Springer-Verlag 01-08-1986
Springer
Subjects:
adaptation
altitude
Animal and plant ecology
Animal, plant and microbial ecology
Animals
Autoecology
Beetles
Biological and medical sciences
Branches
Chrysomela
chrysomela aenicollis
Chrysomelidae
climatic factors
Demecology
Eggs
Fundamental and applied biological sciences. Psychology
growth rate
Insect larvae
Larvae
Larval development
Mortality
Predators
Protozoa. Invertebrata
Salix
Storms
Topographical elevation
California
USA, California, Sierra Nevada Mts
Chrysomelidae
Coleoptera
United States
Insecta
Mortality
Environmental factor
California
North America
Weather
Phytophagous
Mountain
Arthropoda
America
Predation
Invertebrata
Altitude
Salix
Elevation difference
Growth rate
Predator protection
Chrysomela
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Summary:Adults and larvae of Chrysomela aenicollis (Coleoptera: Chrysomelidae) feed on foliage of Salix species (Salicaceae) between 2,400-3,400 m above sea level in the east-central Sierra Nevada mountains of California. We predicted that (1) cold climatic conditions would be a more frequent source of mortality at higher elevations, (2) mild-weather agents of mortality such as predation should be more severe at lower elevations, and (3) populations of C. aenicollis would be adapted to the local selective regime at each elevation. We tested these predictions in 1984 and 1985 by transferring over 6,000 eggs and larvae within and between two sites at 2,810 and 3,240 m elevation above sea level. During mild summer weather at both sites, survivorship on Salix branches isolated by a barrier of sticky resin was similar to that on control branches, and we concluded that aerial predators were the primary cause of mortality. At least one major predator, a solitary wasp (Symmorphus sp., Hymenoptera: Eumenidae), was specifically associated with C. aenicollis at the lower site, where beetle mortality was highest. At both sites in 1984 and 1985, larvae originating from the lower site remained in aggregations and survived more frequently than larvae from the upper site, suggesting that they are better defended against predators. During a storm with cold weather late in the 1984 season, larvae and pupae died more frequently at the upper site, and there was a marginally significant trend (P < 0.1) for the lower site individuals to die more frequently than upper site larvae during the cold storm. Upper site larvae grew approximately 10% faster than lower site larvae at the lower site and under controlled conditions in the laboratory. These findings indicate that upper and lower site populations were adapted to the local selective regime, which suggest how populations of montane phytophagous insects may adapt to changing elevations.
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ISSN:0029-8549
1432-1939
DOI:10.1007/BF00377117