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Host acceptance and larval competition between the invasive banded and European elm bark beetles (Coleoptera: Scolytidae): Potential mechanisms for competitive displacementAuthor(s): J.C. Lee; S.J. Seybold
Source: J Insect Behav 23:19-34. Published online 16 July 2009
Publication Series: Scientific Journal (JRNL)
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DescriptionA recent survey revealed that the newly invasive banded elm bark beetle, Scolytus schevyrewi, was much more abundant than the long-established European elm bark beetle, S. multistriatus, in areas of Colorado and Wyoming, USA. This study was initiated to determine whether competitive displacement of S. multistriatus by S. schevyrewi might be mediated by a sequence of behavioral interactions between the species on and below the bark surface. At the first step in the sequence, host acceptance behavior (i.e., time to tunnel into the host) was monitored among female S. schevyrewi and S. multistriatus. There was no substantial difference in host acceptance behavior when females were offered small cut logs (bolts) of Siberian elm, Ulmus pumila, infested with con- or heterospecific females. At the second step, mating and oviposition usually follow after a female has excavated a gallery. Mean oviposition per parental female in 1 wk was not significantly different among treatments: S. schevyrewi at medium density of 2.86 parental females per dm2, at high density of 5.71 per dm2; S. multistriatus at medium density, at high density; and mixed species (i.e., S. schevyrewi and S. multistriatus combined, with each at medium density). At the third step, progeny production and progeny size were monitored among the same density treatments, but the number of parental beetles and size of bolts were doubled. Differences in progeny production would reflect larval competition, since the number of eggs initially laid was not different. Both S. schevyrewi and S. multistriatus were sensitive to intraspecific competition because size of progeny was smaller in high than medium density treatments, but total progeny production was similar at both densities. Scolytus schevyrewi was a stronger interspecific competitor than S. multistriatus. Smaller S. multistriatus progeny, and four-fold more S. schevyrewi progeny were produced when both species developed on the same host. The contributions of these proximal behavioral events toward the mechanism for competitive displacement are described in the context of the host colonization behavior of Scolytus spp. The competitive advantage of S. schevyrewi larvae established through this study, and the more rapid response of S. schevyrewi to elm hosts established through other investigations, may be the key mechanistic components that facilitate the displacement of S. multistriatus by S. schevyrewi.
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CitationLee, J.C.; Seybold, S.J. 2009. Host acceptance and larval competition between the invasive banded and European elm bark beetles (Coleoptera: Scolytidae): Potential mechanisms for competitive displacement. J Insect Behav 23:19–34http://dx.doi.org/10.1007/s10905-009-9192-1
KeywordsHost acceptance, oviposition, resource acquisition, Scolytus multistriatus, Scolytus schevyrewi, Ulmus pumila
- Semiochemical-mediated flight strategies of two invasive elm bark beetles: A potential factor in competitive displacement
- Biology of the invasive banded elm bark beetle (Coleoptera: Scolytidae) in the western United States
- Co-occurrence of the invasive banded and European elm bark beetles (Coleoptera: Scolytidae) in North America
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