Brian T. Forschler scite author profile

The number of recognized invasive termite species has increased from 17 in 1969 to 28 today. Fourteen species have been added to the list in the past 44 years; 10 have larger distributions and 4 have no reported change in distribution, and 3 species are no longer considered invasive. Although most research has focused on invasive termites in urban areas, molecular identification methods have answered questions about certain species and found that at least six species have invaded natural forest habitats. All invasive species share three characteristics that together increase the probability of creating viable propagules: they eat wood, nest in food, and easily generate secondary reproductives. These characteristics are most common in two families, the Kalotermitidae and Rhinotermitidae (which make up 21 species on the invasive termite list), particularly in three genera, Cryptotermes, Heterotermes, and Coptotermes (which together make up 16 species). Although it is the largest termite family, the Termitidae (comprising 70% of all termite species) have only two invasive species, because relatively few species have these characteristics. Islands have double the number of invasive species that continents do, with islands in the South Pacific the most invaded geographical region. Most invasive species originate from Southeast Asia. The standard control methods normally used against native pest termites are also employed against invasive termites; only two eradication attempts, in South Africa and New Zealand, appear to have been successful, both against Coptotermes species.

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Grooming Behavior as a Mechanism of Insect Disease Defense

Zhukovskaya

Yanagawa

Forschler

2013

Insects

134

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Grooming is a well-recognized, multipurpose, behavior in arthropods and vertebrates. In this paper, we review the literature to highlight the physical function, neurophysiological mechanisms, and role that grooming plays in insect defense against pathogenic infection. The intricate relationships between the physical, neurological and immunological mechanisms of grooming are discussed to illustrate the importance of this behavior when examining the ecology of insect-pathogen interactions.

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Phylogenetic Analyses of Two Mitochondrial Genes and One Nuclear Intron Region Illuminate European Subterranean Termite (Isoptera: Rhinotermitidae) Gene Flow, Taxonomy, and Introduction Dynamics

Jenkins

Dean

Verkerk

et al. 2001

Molecular Phylogenetics and Evolution

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Evaluation of Mark–Release–Recapture Methods for Estimating Forager Population Size of Subterranean Termite (Isoptera: Rhinotermitidae) Colonies

Thorne

Russek‐Cohen

Forschler

et al. 1996

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Protist Communities from Four Castes and Three Species of <I>Reticulitermes</I> (Isoptera: Rhinotermitidae)

Lewis

Forschler

2004

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