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Annual Review of Entomology - Volume 53, 2008
Volume 53, 2008
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Population Ecology of Insect Invasions and Their Management*
Vol. 53 (2008), pp. 387–408More LessDuring the establishment phase of a biological invasion, population dynamics are strongly influenced by Allee effects and stochastic dynamics, both of which may lead to extinction of low-density populations. Allee effects refer to a decline in population growth rate with a decline in abundance and can arise from various mechanisms. Strategies to eradicate newly established populations should focus on either enhancing Allee effects or suppressing populations below Allee thresholds, such that extinction proceeds without further intervention. The spread phase of invasions results from the coupling of population growth with dispersal. Reaction-diffusion is the simplest form of spread, resulting in continuous expansion and asymptotically constant radial rates of spread. However, spread of most nonindigenous insects is characterized by occasional long-distance dispersal, which results in the formation of isolated colonies that grow, coalesce, and greatly increase spread. Allee effects also affect spread, generally in a negative fashion. Efforts to slow, stop, or reverse spread should incorporate the spread dynamics unique to the target species.
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Medical Aspects of Spider Bites
Vol. 53 (2008), pp. 409–429More LessSpiders have been incriminated as causes of human suffering for centuries, but few species worldwide cause medically significant envenomation. Widow spiders (Latrodectus spp.) occur worldwide and cause latrodectism, which is characterized by pain (local and generalized) associated with nonspecific systemic effects, diaphoresis, and less commonly other autonomic and neurological effects. Recluse spiders (Loxosceles spp.) are distributed mostly through the tropical and subtropical Western Hemisphere and can cause severe skin lesions and rarely systemic effects; most bites are unremarkable. Highly dangerous spiders in South America (armed spiders) and Australia (funnel-web spiders) cause rare but severe envenomation requiring medical intervention and sometimes antivenom. Most other spiders involved in verified bites cause minor, transient effects. Many spiders blamed for causing medical mischief have been elevated to medical significance via circumstantial evidence, poor reporting, and repetitive citation in the literature; several species have been shown to be harmless with more stringent scientific evidence involving verified bites in humans.
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Plant-Mediated Interactions Between Whiteflies, Herbivores, and Natural Enemies
Moshe Inbar, and Dan GerlingVol. 53 (2008), pp. 431–448More LessWhiteflies (Homoptera: Aleyrodidae) comprise tiny phloem-sucking insects. The sessile development of their immatures and their phloem-feeding habits (with minimal physical plant damage) often lead to plant-mediated interactions with other organisms. The main data come from the polyphagous pest species Bemisia tabaci (Gennadius) and Trialeurodes vaporariorum (Westwood), which are intricately associated with their host plants. Although these associations might not represent aleyrodids in general, we rely on them to highlight the fundamental role of host plants in numerous ecological interactions between whiteflies, other herbivores, and their natural enemies. Plant traits often affect the activity, preference, and performance of the whiteflies, as well as their entomopathogens, predators, and parasitoids. Leaf structure (primarily pubescence) and constitutive and induced chemical profiles (defensive and nutritional elements) are critically important determinants of whitefly fitness. Pest management--related and evolutionary biology studies could benefit from future research that will consider whiteflies in a multitrophic-level framework.
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Ancient Rapid Radiations of Insects: Challenges for Phylogenetic Analysis
Vol. 53 (2008), pp. 449–472More LessPhylogenies of major groups of insects based on both morphological and molecular data have sometimes been contentious, often lacking the data to distinguish between alternative views of relationships. This paucity of data is often due to real biological and historical causes, such as shortness of time spans between divergences for evolution to occur and long time spans after divergences for subsequent evolutionary changes to obscure the earlier ones. Another reason for difficulty in resolving some of the relationships using molecular data is the limited spectrum of genes so far developed for phylogeny estimation. For this latter issue, there is cause for current optimism owing to rapid increases in our knowledge of comparative genomics. At least some historical patterns of divergence may, however, continue to defy our attempts to completely reconstruct them with confidence, at least using current strategies.
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Fruit Fly (Diptera: Tephritidae) Host Status Determination: Critical Conceptual, Methodological, and Regulatory Considerations*
Vol. 53 (2008), pp. 473–502More LessAlthough fruit fly host status determination/designation lies at the heart of strategic decisions on national and international trade of fruit and vegetables, all attempts thus far to define host plant status have been contentious and as a result long-standing disputes between commercial partners throughout the world have lingered over decades. Part of the problem is that too little effort has been devoted to understanding the underlying mechanisms involved in host plant use by fruit flies and that instead economic and political interests usually prevail. Here we review the most important evolutionary, biological, ecological, physiological, and behavioral aspects that drive host use by fruit flies, and then construct a flow diagram rooted in these fundamentals that outlines a series of steps and definitions to determine if a particular fruit or vegetable (and cultivars thereof) is a natural host, or a conditional (potential, artificial) host, or a nonhost. Along the way, we incorporate risk analysis considerations and propose that the underlying complexity determining host plant utilization by fruit flies requires a flexible systems approach capable of realistically dealing with fly/host/environment/geographic variability on a case-by-case basis.
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Codling Moth Management and Chemical Ecology
Vol. 53 (2008), pp. 503–522More LessLepidopteran insects use sex pheromones to communicate for mating. Olfactory communication and mate-finding can be prevented by permeating the atmosphere with synthetic pheromone. Pheromone-mediated mating disruption has become a commercially viable pest management technique and is used to control the codling moth, Cydia pomonella, a key insect pest of apple, on 160,000 ha worldwide. The codling moth sex pheromone, codlemone, is species specific and nontoxic. Orchard treatments with up to 100 grams of synthetic codlemone per hectare effectively control codling moth populations over the entire growing season. Practical implementation of the mating disruption technique has been realized at an opportune time, as codling moth has become resistant to many insecticides. We review codling moth chemical ecology and factors underlying the behavioral mechanisms and practical implementation of mating disruption. Area-wide programs are the result of collaborative efforts between academic research institutions, extension, chemical industries, and grower organizations, and they demonstrate the environmental and economic relevance of pheromone research.
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Primer Pheromones in Social Hymenoptera
Vol. 53 (2008), pp. 523–542More LessSocial insect are profoundly influenced by primer pheromones (PPhs), which are efficient means for maintaining social harmony in the colony. PPhs act by affecting the physiology of the recipients with a subsequent shift in their behavior, and many PPhs have a releaser effect (i.e., changing the probability of performing a certain behavior upon perception). In this review we try to clarify the interplay between such dual pheromonal effects. Only a few PPhs have been identified, and we provide evidence for their existence in multiple species of social Hymenoptera, which is the most extensively studied of the social insects. We focus on the regulation of reproduction, social policing, and task allocation. Considering PPhs in a broad sense, we also discuss fertility signals and the role of cuticular hydrocarbons as putative PPhs. Identification of the underlying chemistry of PPhs offers insights into insect physiology and the evolution of social behavior. PPhs of the honey bee are used to demonstrate the complexity of pheromonal communication in social insects.
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Previous Volumes
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Volume 70 (2025)
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Volume 69 (2024)
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Volume 68 (2023)
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Volume 67 (2022)
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Volume 66 (2021)
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Volume 65 (2020)
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Volume 64 (2019)
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Volume 63 (2018)
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Volume 62 (2017)
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Volume 61 (2016)
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Volume 60 (2015)
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Volume 59 (2014)
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Volume 58 (2013)
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Volume 57 (2012)
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Volume 56 (2011)
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Volume 55 (2010)
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Volume 54 (2009)
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Volume 53 (2008)
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Volume 52 (2007)
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Volume 51 (2006)
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Volume 50 (2005)
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Volume 49 (2004)
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Volume 48 (2003)
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Volume 47 (2002)
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Volume 46 (2001)
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Volume 45 (2000)
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Volume 44 (1999)
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Volume 43 (1998)
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Volume 42 (1997)
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Volume 41 (1996)
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Volume 40 (1995)
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Volume 39 (1994)
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Volume 38 (1993)
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Volume 37 (1992)
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Volume 36 (1991)
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Volume 35 (1990)
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Volume 34 (1989)
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Volume 33 (1988)
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Volume 32 (1987)
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Volume 31 (1986)
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Volume 30 (1985)
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Volume 29 (1984)
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Volume 28 (1983)
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Volume 27 (1982)
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Volume 26 (1981)
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Volume 25 (1980)
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Volume 24 (1979)
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Volume 23 (1978)
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Volume 22 (1977)
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Volume 21 (1976)
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Volume 20 (1975)
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Volume 19 (1974)
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Volume 18 (1973)
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Volume 17 (1972)
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Volume 16 (1971)
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Volume 15 (1970)
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Volume 14 (1969)
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Volume 13 (1968)
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Volume 12 (1967)
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Volume 11 (1966)
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Volume 10 (1965)
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Volume 9 (1964)
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Volume 8 (1963)
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Volume 7 (1962)
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Volume 6 (1961)
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Volume 5 (1960)
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Volume 4 (1959)
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Volume 3 (1958)
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Volume 2 (1957)
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Volume 1 (1956)
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Volume 0 (1932)