Articles
Review of the Ocalea group of genera (Coleoptera, Staphylinidae, Aleocharinae) in Canada and Alaska: new taxa, bionomics, and distribution
- Jan Klimaszewski, Georges Pelletier
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- Published online by Cambridge University Press:
- 02 April 2012, pp. 443-500
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A review of the Nearctic genera and Canadian and Alaskan species of the Ocalea group is presented. Ten genera are treated, with five erected as new: Alfocalea Klimaszewski gen. nov. (type species: A. montana Klimaszewski sp. nov.), Betocalea Klimaszewski gen. nov. (type species: B. pacifica Klimaszewski sp. nov.), Gennadota Casey (reinstated), Longipeltina Bernhauer, Megocalea Klimaszewski gen. nov. (type species: M. lemieuxi Klimaszewski sp. nov.), Metocalea Klimaszewski gen. nov. (type species: M. lindgreni Klimaszewski sp. nov.), Neoisoglossa (Casey) (nomen novum), Neothetalia Klimaszewski gen. nov. (type species: N. nimia (Casey)), Ocalea Erichson (restricted definition), and Parocalea Bernhauer. Twenty-four species of the Ocalea group are here recognized in the Nearctic region, fourteen of which occur in Canada. Six new species are described from western Canada and Alaska: Neothetalia smetanai Klimaszewski sp. nov. (Canada: British Columbia), Neothetalia canadiana Klimaszewski sp. nov. (Canada: British Columbia, Yukon Territory; United States: Alaska), Betocalea pacifica (Canada: British Columbia), Alfocalea montana (Canada: Alberta, British Columbia), Metocalea lindgreni (Canada: British Columbia), and Megocalea lemieuxi (Canada: British Columbia). The first record of Neoisoglossa agnita (Casey) in Alberta is provided. Two nominal species, Atheta (Athetalia) bicarniceps Casey (= Neoisoglossa) and Isoglossa grandicollis (Casey) (= Neoisoglossa), are here synonymized with Neoisoglossa arcuata (Casey). Aleochara pallitarsis Kirby has been transferred to the genus Neothetalia and is newly recorded from Alaska and British Columbia. Ocalea columbiana Klimaszewski has been transferred to Neothetalia and is newly recorded from Alaska. Neothetalia pallitarsis was formerly recorded from an unknown locality in North America and Neothetalia columbiana from the Carmanah Valley on Vancouver Island. Neothetalia nimia is newly recorded from Alaska. A new generic classification is proposed to accommodate species of the Nearctic Ocalea group. New data are provided on the systematics, relationships, bionomics, and distribution of the Nearctic species and genera of America north of Mexico. Diagnoses, colour images of entire bodies, and line illustrations of genital features are provided for those Canadian and Alaskan species that were not formerly illustrated, and their collection localities are plotted on maps. A key to Nearctic genera of the Ocalea group and the species occurring in Canada and Alaska is presented. The lectotypes have been designated for the following nominal species because the original series consisted of syntypes or represented mixed species or both sexes but with males bearing a better diagnostic set of characters: Aleochara picata Stephens (= Ocalea), Atheta (Athetalia) bicarniceps, Atheta (Athetalia) nimia Casey (= Neothetalia), Atheta (Athetalia) repensa Casey (= Neoisoglossa), Isoglossa arcuata Casey (= Neoisoglossa), Ocalea agnita Casey (= Neoisoglossa), Ocalea franciscana Casey (= Neoisoglossa), Ocalea fusca Fenyes (= Neoisoglossa), Ocalea grandicollis Casey (= Neoisoglossa), Pyroglossa grossa Bernhauer, Rheobioma disjuncta Casey (= Neoisoglossa), Rheobioma marcida Casey (= Neoisoglossa), and Rheobioma terrena Casey (= Neoisoglossa).
Revision of the New World species of the genus Monomachus Klug (Hymenoptera: Proctotrupoidea, Monomachidae)
- Luciana Musetti, Norman F. Johnson
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- Published online by Cambridge University Press:
- 02 April 2012, pp. 501-552
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The species of the genus Monomachus Klug occurring in the Americas are revised. The genus is found from Chile and Argentina north to the Mexican states of Oaxaca and Chiapas. A total of 20 species are considered to be valid and 9 are described as new: M. atratussp. nov., M. aurifersp. nov., M. cultratussp. nov., M. exulsp. nov., M. intonsussp. nov., M. paulussp. nov., M. satyrussp. nov., M. serratussp. nov., and M. velatussp. nov. The species M. bicolor Szépligeti, M. cubiceps Schrottky, M. eurycephalus Schletterer, M. fuscator (Perty), M. glaberrimus Schletterer, M. klugii Westwood, M. megacephalus Schletterer, M. pallescens Schletterer, M. porteri Brèthes, M. segmentator Westwood, and M. variegatus Schletterer are redescribed. Monomachus lateralis Westwood is considered a nomen dubium stat. nov.; a lectotype is designated for M. cubiceps; and Monomachus fuscator andinus Schulz is treated as a junior synonym of M. fuscator, syn. nov. A key to the species of the New World and a checklist of the world species is provided. Monomachus fuscator and M. eurycephalus are parasitoids of the coffee pest Chiromyza vittata Wiedemann (Diptera: Stratiomyidae, Chiromyzinae).
The genus Alucita in North America, with description of two new species (Lepidoptera: Alucitidae)
- Bernard Landry, Jean-François Landry
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- Published online by Cambridge University Press:
- 02 April 2012, pp. 553-579
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The North American fauna of Alucitidae is shown to include three widespread species: Alucita montana Barnes et Lindsey, 1921 (nec Cockerell), Alucita adriendenisisp. nov. (type locality: Manitoulin Island, Ontario, Canada), and Alucitalalanneisp. nov. (type locality: Maynooth, Ontario, Canada). Alucita hexadactyla (L., 1758) and A. huebneri Wallengren, 1862 do not occur in North America. The three North American species are described and illustrated. Alucita montana is found from southwestern Quebec and Vermont, west to British Columbia, and south to Arizona, California, and Texas; its caterpillar is associated with Symphoricarpos spp. (Caprifoliaceae). Alucita adriendenisi is known from northwestern Quebec and New York, west to Alberta and the Northwest Territories, with more southern populations (isolated?) in West Virginia, Arizona, and Texas; its caterpillar feeds on flowers of Lonicera dioica L. (Caprifoliaceae) in Michigan. Alucita lalannei has been found in Ontario, Manitoba, and Alberta, Canada; its host plant is unknown.
Combination of protein-rich pea flour and pea extract with insecticides and enzyme inhibitors for control of stored-product beetles
- Xingwei Hou, Paul Fields, Wes Taylor
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- Published online by Cambridge University Press:
- 02 April 2012, pp. 581-590
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Protein-rich pea flour and its extract are toxic to stored-product beetles and, at a concentration of 0.1%, can control these insects in a granary. To reduce the concentration of protein-rich pea flour needed to control stored-product beetles, natural products or currently used grain protectants (diatomaceous earth, neem, Bacillus thuringiensis (Berliner), malathion, and pyrethrum) were mixed with protein-rich pea flour in wheat. Mixtures were tested against the rice weevil, Sitophilus oryzae (L.) (Coleoptera: Curculionidae), the red flour beetle, Tribolium castaneum (Herbst) (Coleoptera: Tenebrionidae), and the rusty grain beetle, Cryptolestes ferrugineus (Stephens) (Coleoptera: Cucujidae). Neem and protein-rich pea flour acted synergistically against T. castaneum. Malathion and protein-rich pea flour acted synergistically against S. oryzae. Protein-rich pea flour combined with diatomaceous earth or pyrethrum acted additively against S. oryzae. All other combinations acted antagonistically. An extract from protein-rich pea flour reduced feeding of S. oryzae, and three enzyme inhibitors, piperonyl butoxide, profenofos, and diethyl maleate, were tested for their possible synergistic effects on feeding deterrence and mortality. Piperonyl butoxide and pea extract had additive effects, and diethyl maleate had no effect on the feeding and mortality of insects. Profenofos alone killed all insects in 3 days. The flour consumption of S. oryzae was positively correlated with LT50 (time to 50% mortality) in flour disks treated with pea extract.
Fecundity and recruitment of eggs during outbreaks of the spruce budworm
- V.G. Nealis, J. Régnière
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- Published online by Cambridge University Press:
- 02 April 2012, pp. 591-604
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Field data from outbreaks of the spruce budworm, Choristoneura fumiferana (Clem.) (Lepidoptera: Tortricidae), in Ontario and Quebec show that current-year defoliation is the single greatest determinant of variation in fecundity. The species of tree that served as the foodplant and infections by the microsporidian Nosema fumiferanae (Thomson) (Microsporida) had little effect on mean lifetime fecundity in field populations. During a prolonged outbreak at one location (Black Sturgeon Lake, Ontario), annual lifetime fecundity was inversely related to observed defoliation in the same year, with the highest mean fecundity recorded at the beginning and the end of the outbreak when defoliation was least severe. The overall trend in yearly rate of change in egg density in a population time series at Black Sturgeon Lake was associated more closely with generational survival than with fecundity. Measured fecundity of local moths was greater than estimated per capita rates of recruitment in most years of the outbreak at Black Sturgeon Lake. This suggests that in these years of the outbreak at Black Sturgeon Lake there was a net emigration of egg-carrying moths.