\u3ci\u3eLeptoglossus Corculus\u3c/i\u3e and \u3ci\u3eLeptoglossus Occidentalis\u3c/i\u3e (Hemiptera: Coreidae) Attacking Red Pine, \u3ci\u3ePinus Resinosa\u3c/i\u3e, Cones in Wisconsin and Minnesota

Leptoglossus corculus and Leptoglossus occidentalis are recorded feeding on red pine cones and conelets in Wisconsin and L. occidentalis is recorded feeding on red pine conelets in Minnesota

First Record of Rhipiceridae (Coleoptera: Polyphaga: Dascilloidea) From Wisconsin

The Cedar beetle family, Rhipiceridae, is recorded from Wisconsin for the first time. A single adult female of Sandalus niger was collected on a walkway along a forested path in south-central Wisconsin on 7 October 2000. This discovery represents not only the first record of Rhipiceridae from Wisconsin, but also the first record of the entire superfamily Dascilloidea, a relatively basal lineage of Elateriformia

Scarab Beetles (Coleoptera: Scarabaeidae) Associated With Pocket Gophers in Wisconsin

A survey of nonparasitic arthropods inhabiting pocket gopher burrows in Wisconsin was undertaken from 1998 through 2002, representing the first survey of its kind for the Great Lakes region. Six scarab species were collected during this survey, all of which represented new state records at the time of collection. Observations for each species, including diagnostic remarks, seasonality, distribution, and natural history information are provided. Background information on pocket gophers, with an emphasis on the Wisconsin species, Geomys bursarius, is also provided

Eastern Pine Seedworm, \u3ci\u3eCydia Toreuta\u3c/i\u3e (Lepidoptera: Tortricidae) in Red Pine Cones in Wisconsin

Cydia toreuta population densities, prolonged diapause behavior, parasitism and adult emergence patterns were examined over four years at two red pine locations in Wisconsin. Last-instar densities ranged from 0.54 to 3.18 per cone. This was considered a wide range for this species in red pine. Population clumping was evident at last-instar densities below 2.90, however no consistent pattern was evident between years. Clumping disappeared at populations greater than 2.90 last-instars. Prolonged diapause varied from 7.8 to 38.9070. Parasitism rates var­ ied from 10.9 to 46.6 %. Phanerotoma toreuta (Hymenoptera: Braconidae) was the most abundant parasite at both sites and emerged in unison with male C. toreuta. Estimation of percent of last-instars undergoing prolonged diapause prior to spring emergence can be accomplished using forced emergence though cones should be collected after 31 January. Estimation of percent parasitism can be made as early as November. Resident moth populations could be estimated prior to spring flight utilizing this information. Emergence occurred over an approximately 2 week period between mid-May and early June. The majority of male moths emerged prior to females

Insects Associated With Butternut and Butternut Canker in Minnesota and Wisconsin

Butternut, Juglans cinerea, is being killed throughout its native range in North America by the fungus Sirococcus clavigignenti-juglandacearum. In addition to rain splashed spores, it is thought that the fungus may have spread over long distances to infect widely scattered butternut by insect vectors During surveys in 1995 and 1996 we found several insect species in close association with diseased butternut trees, and spores of S. clavigignenti-juglandacearum were isolated in pure culture from the bodies of some of these insects. Potential insect vectors were species in the coleopteran genera Eubulus (Curculionidae), Laemophlaeus (Laemophloeidae), and Glischrochilus (Nitidulidae). Because several insect species become contaminated with fungal spores, further study is needed to determine if any of these insects might transmit the fungus to healthy trees and thereby infect them

Lessons learned: rearing the crown-boring weevil, Ceutorhynchus scrobicollis (Coleoptera: Curculionidae), in containment for biological control of garlic mustard (Alliaria petiolata)

In this paper, we describe lessons learned and protocols developed after a decade of rearing Ceutorhynchus scrobicollis Nerenscheimer and Wagner in a Biosafety Level 2 containment facility. We have developed these protocols in anticipation of approval to release C. scrobicollis in North America for the biocontrol of garlic mustard. The rearing protocol tried to minimize the potential of attack by the adult parasitoid, Perilitus conseutor, which may be present in field collected C. scrobicollis from Europe to prevent inadvertent introduction of parasitoids into North America. All C. scrobicollis used for our quarantine rearing were field collected near Berlin, Germany. We have successfully reared C. scrobicollis on caged garlic mustard plants in a growth chamber by alternating temperatures and photoperiods to simulate those in its native range. In Germany, C. scrobicollis produces one generation per year and F1 adults emerge in late May. In containment, a new generation of adults emerged an average of 108 days after adults were placed on plants. We found the optimal time spent to collect F1 adults was four weeks after the appearance of the first F1 adult, with 95% of potential adults collected. Simulating a three-month summer aestivation period, followed by a week of fall, and three weeks of winter conditions resulted in optimum levels of oviposition in F1 females. Larvae first hatched 8- to-10 days after adults were placed on plants at 15/14 C day/night temperatures with a 9.5 hour photoperiod. We therefore recommend that C. scrobicollis adults are removed from garlic mustard rosettes after 8 days. This will maximize the period of female oviposition while minimizing the time when larvae are available for attack from P. conseutor

Carrion Beetles (Coleoptera: Silphidae) of Wisconsin

The first comprehensive faunal survey of the carrion beetles (Coleoptera: Silphidae) of Wisconsin is presented. Six genera and 14 species are recorded from the state, including a new state record, Heterosilpha ramosa (Say). Nicrophorus americanus Olivier was not recovered during this study. An annotated checklist includes species-specific geographical and temporal distributions, remarks on foods and habitat, and counties of specimen collections for each species

A generic-level phylogenetic review of the Macrodactylini (Coleoptera: Scarabaeidae: Melolonthinae)

A revision of the generic classification of the tribe Macrodactylini is provided using morphological characters of adults. The revision is based on a taxonomic analysis of 80 genera historically placed in the tribe and a cladistic analysis of 32 genera conforming to the new tribal definition. Synapomorphies for the newly defined Macrodactylini include: the length of the fifth ventrite longer than the fourth ventrite when viewed ventrally, fifth ventrite lacking a complete suture between the tergite and sternite, and the metathoracic tibial spurs (if present) offset, allowing the metatarsus to move past them. Thirty-two genera constitute the newly defined Macrodactylini: Agaocnemis Moser, Alvarinus Blanchard, Ancistrosoma Curtis, Anomonyx Saylor, Anoplosiagum Blanchard, Astaenosiagum Martínez, Barybas Blanchard, Calodactylus Blanchard, Ceraspis Le Peletier and Serville, Ceratolontha Arrow, Chariodactylus Moser, Chariodema Blanchard, Chremastodus Solier, Clavipalpus Laporte, Ctenotis Burmeister, Dasyus Le Peletier and Serville, Dicrania Le Peletier and Serville, Gama Blanchard, Gastrohoplus Moser, Hercitis Burmeister, Hieritis Burmeister, Isonychus Mannerheim, Issacaris Fairmaire, Macrodactylus Dejean, Manodactylus Moser, Manopus Laporte, Oedichira Burmeister, Pectinosoma Arrow, Plectris Le Peletier and Serville, Pristerophora Harold, Rhinaspis Perty, and Schizochelus Blanchard. Sixteen genera are removed or their removal is confirmed from the historical Macrodactylini: Coenonycha Horn, Dichelonyx Harris, and Gymnopyge Linell (to Dichelonychini), Homalochilus Blanchard, Homoliogenys Gutiérrez, Liogenys Guérin-Méneville, and Pacuvia Curtis (to Diplotaxini), Diphycerus Deyrolle and Fairmaire (to Diphycerini), Hyperius Deyrolle and Fairmaire (to Melolonthini), Apterodemidea Gutiérrez (to Sericoidini), Blepharotoma Blanchard (to Liparetrini ), Diaphylla Erichson (removed from Macrodactylini, and currently unplaced into existing melolonthine tribes), Hilarianus Blanchard, Manonychus Moser, Pseudoisonychus Frey (removed from Macrodactylini, and currently unplaced into existing melolonthine tribes) and Zabacana Saylor (to Epectinaspis (Rutelinae)). Nine new generic synonyms are proposed: Corminus Burmeister, junior synonym of Alvarinus Blanchard; Ctilocephala Burmeister, Eubarybas Gutiérrez, and Pseudohercitis Moser, each a junior synonym of Barybas Blanchard; Byrasba Harold, Rhinaspoides Moser, and Ulomenes Blanchard, each a junior synonym of Rhinaspis Perty; Demodema Blanchard, a junior synonym of Plectris Le Peletier and Serville; and Pachylotoma Blanchard, junior synonym of Gama Blanchard. Eight previously proposed synonyms are confirmed: Amphicrania Burmeister, junior synonym of Clavipalpus Laporte; Chlaeobia Blanchard a junior synonym of Phyllophaga Harris; Dioplia Burmeister, junior synonym of Calodactylus Blanchard; Faula Blanchard junior synonym of Ceraspis Le Peletier and Serville; Dejeania Blanchard, preoccupied name and junior synonym of Dichelomorpha Burmeister; Harpodactyla Burmeister, junior synonym of Gama Blanchard; and Microcrania Burmeister, junior synonym of Barybas Blanchard. The removal of Philochloenia (junior synonym of Dichelonyx) is noted. Fifteen genera remain incertae sedis due to lack of adequate study material or insufficient information on their possible removal from Macrodactylini: Acanthosternum Philippi (junior synonym of Modialis, Smith and Evans 2005), Anomalochilus Blanchard, Astaenoplia Martínez, Aulanota Moser, Canestera Saylor, Dichelomorpha Burmeister, Diphydactylus Thomson, Hadrocerus Guérin-Méneville, Hamatoplectris Frey, Mallotarsus Blanchard, Metaceraspis Frey, Paulosawaya Martínez and D’Andretta, Pseudodicrania Gutiérrez, Pseudoleuretra Martínez and D’Andretta and Xenoceraspis Arrow. A diagnosis for the thirty-two genera comprising the Macrodactylini is presented and key characters are illustrated. A key to the genera and hypothesized phylogeny of Macrodactylini is provided