Two Techniques for Monitoring Feeding of Large Larval Lepidoptera, with Notes on Feeding Rhythms of Late-instar Gypsy Moths (Lepidoptera: Lymantriidae)1

Abstract We collected data on mortality of late-instar gypsy moth, Lymantria dispar (L.), from outbreak populations over 4 wk in June 2017 at 10 sites in the New England region of the United States, along with estimated rainfall at these sites. Deposition of airborne conidia of the fungal pathogen, Entomophaga maimaiga Humber, Shimazu & R.S. Soper, was measured at these same sites as well as at seven other locations in New England. We also quantified the geographical distribution of gypsy moth-caused defoliation in New England in 2017 and 2018 from Landsat imagery. Weekly mortality of gypsy moth larvae caused by E. maimaiga correlated with local deposition of conidia from the previous week, but not with rainfall. Mortality from this pathogen reached a peak during the last 2 wk of gypsy moth larval development and always exceeded that caused by LdNPV, the viral pathogen of gypsy moth that has long been associated with gypsy moth outbreaks, especially prior to 1989. Cotesia melanoscela (Ratzeburg) was by far the most abundant parasitoid recovered and caused an average of 12.6% cumulative parasitism, but varied widely among sites. Deposition of E. maimaiga conidia was highly correlated with percent land area defoliated by gypsy moths within distances of 1 and 2 km but was not significantly correlated with defoliation at distances greater than 2 km. This is the first study to relate deposition of airborne conidia of E. maimaiga to mortality of gypsy moths from that agent.

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Host Choice of Late Instar Gypsy Moths (Lepidoptera: Lynmantriidae) Between Loblolly Pine and Sweetgum

Environmental Entomology ◽

10.1093/ee/25.3.603 ◽

1996 ◽

Vol 25 (3) ◽

pp. 603-610 ◽

Cited By ~ 2

Author(s):

B. L. Strom ◽

F. P. Hain

Keyword(s):

Loblolly Pine ◽

Host Choice ◽

Gypsy Moths ◽

Late Instar

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ECOLOGY OF BLACK FLIES (DIPTERA: SIMULIIDAE) OF THE SOURIS RIVER, MANITOBA AS A BASIS FOR CONTROL STRATEGY

The Canadian Entomologist ◽

10.4039/ent113223-3 ◽

1981 ◽

Vol 113 (3) ◽

pp. 223-234 ◽

Cited By ~ 6

Author(s):

A. R. Westwood ◽

R. A. Brust

Keyword(s):

Control Program ◽

Abundant Species ◽

Pest Species ◽

Black Flies ◽

Black Fly ◽

Simulium Vittatum ◽

Late Instar ◽

Simulium Decorum ◽

Fly Control ◽

Wire Cage

AbstractTen species of black flies were collected from the Souris River, Manitoba between April 1977 and October 1978. Adults of Simulium luggeri Nicholson and Mickel, Simulium meridionale Riley, Simulium venustum Say, Simulium verecundum Stone and Jamnback, and Simulium johannseni johannseni (Hart) were collected feeding on livestock and humans, and are well known pest species. Simulium vittatum Zetterstedt was the most abundant species, but was not a pest on man or domestic animals. Simulium tuberosum (Lundström) and Simulium johannseni duplex Shewell and Fredeen were the least abundant species. Simulium j. johannseni, S. j. duplex, S. venustum, S. verecundum, S. tuberosum, and Cnephia dacotensis (Dyar and Shannon) appeared to be univoltine species while S. luggeri, S. meridionale, Simulium decorum Walker, and S. vittatum were multivoltine in the Souris River.An evaluation of cone, plate, rope, and wire cage sampling devices for black fly larvae and pupae indicated that cone samplers provided a more representative sample for population assessment.In a black fly control program, of the Souris River, Manitoba two separate larvicide treatments in spring may be necessary. In the case of two treatments, the first should be aimed at late instar larvae of S. j. johannseni, S. venustum, and S. verecundum. Since the majority of S. luggeri and S. meridionale would be in the egg stage at this time, a second treatment, 10–14 days later, would be necessary to control late instar larvae of these species.

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Central and Peripheral Clock Control of Circadian Feeding Rhythms

Journal of Biological Rhythms ◽

10.1177/07487304211045835 ◽

2021 ◽

pp. 074873042110458

Author(s):

Carson V. Fulgham ◽

Austin P. Dreyer ◽

Anita Nasseri ◽

Asia N. Miller ◽

Jacob Love ◽

...

Keyword(s):

Locomotor Activity ◽

Circadian Clock ◽

Feeding Behavior ◽

Molecular Clock ◽

Fat Body ◽

Molecular Clocks ◽

Central Brain ◽

Feeding Rhythms ◽

Free Running ◽

The Brain

Many behaviors exhibit ~24-h oscillations under control of an endogenous circadian timing system that tracks time of day via a molecular circadian clock. In the fruit fly, Drosophila melanogaster, most circadian research has focused on the generation of locomotor activity rhythms, but a fundamental question is how the circadian clock orchestrates multiple distinct behavioral outputs. Here, we have investigated the cells and circuits mediating circadian control of feeding behavior. Using an array of genetic tools, we show that, as is the case for locomotor activity rhythms, the presence of feeding rhythms requires molecular clock function in the ventrolateral clock neurons of the central brain. We further demonstrate that the speed of molecular clock oscillations in these neurons dictates the free-running period length of feeding rhythms. In contrast to the effects observed with central clock cell manipulations, we show that genetic abrogation of the molecular clock in the fat body, a peripheral metabolic tissue, is without effect on feeding behavior. Interestingly, we find that molecular clocks in the brain and fat body of control flies gradually grow out of phase with one another under free-running conditions, likely due to a long endogenous period of the fat body clock. Under these conditions, the period of feeding rhythms tracks with molecular oscillations in central brain clock cells, consistent with a primary role of the brain clock in dictating the timing of feeding behavior. Finally, despite a lack of effect of fat body selective manipulations, we find that flies with simultaneous disruption of molecular clocks in multiple peripheral tissues (but with intact central clocks) exhibit decreased feeding rhythm strength and reduced overall food intake. We conclude that both central and peripheral clocks contribute to the regulation of feeding rhythms, with a particularly dominant, pacemaker role for specific populations of central brain clock cells.

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Developmental and reproductive effects of clothianidin exposure in monarch butterflies (Lepidoptera: Nymphalidae)

The Canadian Entomologist ◽

10.4039/tce.2021.5 ◽

2021 ◽

pp. 1-16

Author(s):

Alana A.E. Wilcox ◽

Amy E.M. Newman ◽

D. Ryan Norris

Keyword(s):

Egg Size ◽

Insect Pests ◽

Danaus Plexippus ◽

Crop Damage ◽

High Dose ◽

Monarch Butterflies ◽

Insecticide Treatment ◽

Late Instar ◽

Length Width ◽

The Impact

Abstract Neonicotinoid insecticides are used to reduce crop damage caused by insect pests, but sublethal levels could affect development and reproduction in nontarget insects, such as monarch butterflies (Danaus plexippus) (Lepidoptera: Nymphalidae). To investigate the impact of field-realistic concentrations of the neonicotinoid clothianidin on monarch butterflies, we grew swamp milkweed (Asclepias incarnata) (Apocynaceae) in either low (15 ng/g of soil) or high (25 ng/g of soil) levels of clothianidin, or in a control (0 ng/g), then raised monarchs on the milkweed. Morphological traits of monarch caterpillars were measured during development and, once they eclosed, were mated as adults to quantify egg size and mass and the number of eggs laid. Although the effects of the treatment had complex effects on caterpillar length, width and volume of late-instar caterpillars were negatively affected. Fifth-instar caterpillars from the high-dose insecticide treatment had lower mass than other groups. Adult monarch butterflies raised on treated milkweed were larger than controls, but clothianidin exposure did not affect the number of eggs laid or egg size. Although the magnitude of the effect depends on clothianidin concentration, our results suggest that exposure to clothianidin during early life can impact monarch caterpillar development but is unlikely to reduce female reproductive output.

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The North American Aegeriidae (Lepidoptera): A Revision Based on Late-Instar Larvae

Memoirs of the Entomological Society of Canada ◽

10.4039/entm10058fv ◽

1968 ◽

Vol 100 (S58) ◽

pp. 5-112 ◽

Cited By ~ 4

Author(s):

Margaret Rae MacKay

Keyword(s):

North American ◽

Phylogenetic Relationships ◽

New Genera ◽

The North ◽

Late Instar ◽

Five Tribes

AbstractThe North American Aegeriidae are revised on the basis of the study of late-instar larvae of about 60 species. These species represent 20 genera in five tribes in two subfamilies: Bembeciini, Zenodoxini, Aegeriini and Melittiini in Zenodoxinae and Synanthedontini in Synanthedontinae. The presently recognized genera, Ramosia Engelhardt, Conopia Hübner and Thamnosphecia Spuler are reduced to synonyms of Synanthedon Hübner. Three new genera are defined by larval characters but are referred to only as Genera I, II and III. Larval characters for most of the species are discussed and illustrated; keys to species, genera and tribes are provided. Tribes, genera and most species are arranged in the text as nearly as possible according to their phylogenetic relationships as suggested by the larvae.

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Circadian and Feeding Rhythms Orchestrate the Diurnal Liver Acetylome

Cell Reports ◽

10.1016/j.celrep.2017.07.065 ◽

2017 ◽

Vol 20 (7) ◽

pp. 1729-1743 ◽

Cited By ~ 35

Author(s):

Daniel Mauvoisin ◽

Florian Atger ◽

Loïc Dayon ◽

Antonio Núñez Galindo ◽

Jingkui Wang ◽

...

Keyword(s):

Feeding Rhythms

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Laboratory Bioassay of Beauveria Bassiana, Spinosad, Garlic, and Neem-Derived Products for Control of Grasshoppers

Arthropod Management Tests ◽

10.1093/amt/23.1.372 ◽

1998 ◽

Vol 23 (1) ◽

pp. 372-372

Author(s):

Nihat Demirel ◽

Whitney Cranshaw

Keyword(s):

Beauveria Bassiana ◽

Petri Dish ◽

Neem Oil ◽

Laboratory Bioassay ◽

Neem Extract ◽

Late Instar ◽

Petri Dishes

Abstract Trials were conducted with adult, field collected migratory grasshoppers to determine susceptibility to ingestion expo sure to Beauveria bassiana Strain GHA (BotaniGard WP), spinosad (Conserve SC) a garlic-derived insecticide/repellent (Garlic Barrier), neem oil (Tril ogy) and a neem extract (BioNeem). Field collected late instar grasshoppers were confined, 8 per petri dish (100 mm X 15 mm), with 6 petri dishes usetl per treatment. Treatments involved dipping alfalfa leaves into the insecticide solutions and allowing them to air dry before feeding these to the grasshop pers. After the originally treated foliage were consumed, untreated foliage was used to maintain grasshoppers in all treatments. Mortality was assessed a 24, 48, 96, and 192 h after exposure.

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