DOCSLIB.ORG

Trap-Nesting Bees and Wasps of Deep East Texas Daniel J

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Trap-Nesting Bees and Wasps of Deep East Texas Daniel J Trap-Nesting Bees and Wasps of Deep East Texas Daniel J. Bennett,1 David L. Kulhavy2, & R. Alan Shadow3 1Department of Biology and 2Arthur Temple College of Forestry and Agriculture, Stephen F. Austin State University, Nacogdoches, TX 3East Texas Plant Materials Center, USDA-NRCS, 6598 FM 2782 Nacogdoches, TX 75964 120 Introduction 10.0-11.9 mm diameter 8 stems (81 total) Solitary, above-ground nesting bees and wasps comprise a distinct guild of 11 8.0-9.9 mm diameter 9 stems (123 total) pollinators and predators in most terrestrial habitats. These insects typically use 100 4 cavities in woody vegetation. In these cavities they provision offspring, which are 6.0-7.9 mm diameter stems (406 total) typically separated by partitions consisting of soil or plant materials (Fig. 7). 3 1 6 8 4.0-5.9 mm diameter 1 80 6 44 5 stems (456 total) 41 2.0-3.9 mm diameter These insects can often be induced to nest in various materials. When these 1 stems (101 total) materials are placed in natural areas and later retrieved, they comprise a trap that 24 10 29 60 can be used as a means to sample the trap-nesting insect fauna of a location. In the 37 lab, trap-nests can be opened to gather data on developing offspring, which may be 3 25 8 4 reared to adulthood under controlled conditions (Krombein, 1967). The vast 2 3 40 4 2 5 2 6 7 majority of studies using trap-nesting techniques have relied on drilled wood 2 8 42 7 1 52 11 37 47 2 23 1 4 5 10 15 blocks, paper tubes, or reed stems. Severed bamboo stems have less often been 1 4 19 10 1 3 2 6 28 3 11 22 2 6 5 2 16 10 3 9 utilized by researchers. 20 8 18 13 5 11 8 23 8 15 10 3 1 17 17 13 2 13 16 10 13 15 6 6 5 8 11 8 1 11 11 7 10 1 Here, we provide preliminary data on the trap-nesting bees and wasps of 8 9 9 7 6 3 4 4 5 4 4 5 5 3 3 2 3 2 2 2 3 2 2 1 3 0 1 1 0 1 1 1 Nacogdoches County, Texas and present a novel trap design for sampling cavity- Urban Rural Urban Rural Urban Rural Urban Rural Urban Rural Urban Rural Urban Rural Urban Rural Urban Rural Urban Rural Urban Rural Urban Rural Urban Rural Urban Rural nesting insects. This design utilizes bamboo stems and a housing constructed from Figs 1–3. Stem-nesting wasp, 5/11/14 5/25/14 6/8/14 6/22/14 7/6/14 7/20/14 8/3/14 8/17/14 8/31/14 9/14/14 9/28/14 10/12/14 10/26/14 11/9/14 Isodontia auripes & tree Fig. 8. Frequency distribution of trap-nests occupied by bees and wasps at urban sites (Nacogdoches, TX) and rural sites (USDA Plant Materials Center, Nacogdoches PVC pipe, a PVC coupler, and window screen. cricket prey, Oecanthus sp. County, TX) from May–November, 2014. Methods Results and Discussion Family Genus/species Trap-nests comprised locally harvested and cut bamboo (Arundinaria Nesting activity. — During the course of this study, 1167 occupied stems Bombyliidae Anthrax (nest parasite) gigantea) with cavities of 2–12 mm diameter and lengths of 10–20 cm. were collected, which produced ca. 2200 individual insects representing Bombyliidae Lepidophora (nest parasite) Stems were held in a housing (Fig. 6) that utilized two perforated 21 genera (Table 1). Chrysididae Chrysis ? (nest parasite) panels of window screen. The screen panels were held taught between 4 a 4” long section of 4” diameter PVC pipe and PVC pipe couplers. This Nesting activity was recorded from early May until early November 2014 Crabronidae Trypoxylon (2 spp.) (Fig. 8). Peak activity occurred in the urban sites on July 6 and August 31 design allowed for easy retrieval and replacing of the stems as well as Messatoporus Ichneumonidae for spacing between the stems, which was believed to reduce the and in the rural sites on August 3. Stems with 4.0–5.9 mm diameter (nest parasite) spread of fungus and provide maximum ventilation. Moreover, other openings were used most frequently (456), followed by 6.0–7.9 mm stems Megachilidae Megachile (3 spp.) studies have shown that some stem-nesting insects prefer space (406), 8.0–9.9 mm stems (123), 2.0–3.9 mm stems (101), and 10.0–11.9 Megachilidae Coelioxys between their nest and their neighbors’ nests (Sheffield et al., 2008). mm stems (81). This housing was placed within a 12” long, green-painted PVC pipe to Megachilidae Osmia (3 spp.) provide shelter from sun and rain (Fig. 5). A set of stems comprised six During each collection event, typically < 10 stems were active per set. In Mutillidae Dasymutilla ? (nest parasite) 2.0–3.9 mm stems, six 4.0–5.9 mm stems, six 6.0–7.9 mm stems, three most cases, unoccupied stems for each size class outnumbered occupied 8.0–9.9 mm stems, and three 10.0–11.9 mm stems. Each set was stems. Thus, stems of all size classes were consistently available to insects Pompilidae Auplopus spread across two separate housings, which were wired to metal T- at each trap site over the course of the study (i.e., certain size classes Rhipiphoridae Macrosiagon (nest parasite) posts about 1.5 meters above ground (Figs 4–5). Two sets of stems were not excluded as possible nest sites due to previous insect activity). 5 were attached to each post; posts were situated in groups of threes, Sarcophagidae Senotainia (nest parasite) with 30 meters between posts. Performance of trap-nests. — The housings developed to suspend the stems functioned well. They were inexpensive, durable, and reusable. Sphecidae Chalybion zimmermani To test this new trap design, 18 sets of stems were placed at each of They provided good shading, ventilation, and spacing of stems. They Sphecidae Isodontia auripes two sites in Nacogdoches County, Texas from late April until early allowed the stems to be easily retrieved and replaced and were easily Vespidae Ancistrocerus November 2014. Site one comprised forested areas within the town of affixed to fence posts. Further, they apparently shielded the stems from Nacogdoches along La Nana Creek (NAC). Site two comprised the USDA attack by insect-eating birds. Vespidae Euodynerus (3 spp.) Plant Materials Center (PMC) located within the Stephen F. Austin Vespidae Monobia quadridens State University Experimental Forest (Fig. 4). The bamboo stems also functioned well in the field. They were utilized by 6 bees and wasps at a substantial rate, easily carried in large numbers, Vespidae Pachodynerus erynnis Traps were checked for nesting activity twice monthly, active stems easily split to observe nest occupants, durable, easily fitted with insect- Vespidae Parancistrocerus (2 spp.) were removed, and replacement stems were added to the traps. emergence containers, and were not prone to harboring moisture. Occupied stems were fitted with vials to trap emerging insects. Stems Disadvantages included the time required to harvest, cut, and sort stems Vespidae Stenodynerus were stored in a shed at ambient conditions to ensure development at to size classes, and the variations in shape of their inner cavities. In areas 7 Vespidae Symmorphus natural rates and were checked often for newly emerged adults. The where readily available, such as the southeastern United States, bamboo Figs 4–7. 4. USDA Plant Materials Center latter are currently undergoing pinning, labeling, identification, and Nacogdoches, TX. 5. Trap-nest housing. with offers an excellent trap-nesting material for use in surveys of bees, wasps Table 1. Bees, wasps, and their nest rain shield. 6. trap-nest housing 7. Opened stem and their parasites. parasites documented utilizing bamboo archival in the Dept. of Biology at Stephen F. Austin State University. showing pupae. and cell divisons. trap-nests in Nacogdoches County, TX. Literature Cited Acknowledgements 1. Krombein, K. V. 1967. Trap-nesting wasps and bees: life histories, nests, and associates. Smithsonian Press, Washington D.C. We gratefully acknowledge the tireless efforts of Brian Humphreys, Lufkin, TX Eagle Scout, who 2. Sheffield, C. S., P. G. Kevan, S. M. Westby, & R.F. Smith. 2008. Diversity of cavity-nesting bees (Hymenoptera: Apoidea) within apple orchards and wild habitats in the Annapolis Valley, Nova Scotia, Canada. Canadian Entomologist 140: 235–249. contributed to the construction and monitoring of trap-nests used in this study. .
Load more

Recommended publications
  • A Review of Sampling and Monitoring Methods for Beneficial Arthropods
    insects Review A Review of Sampling and Monitoring Methods for Beneficial Arthropods in Agroecosystems Kenneth W. McCravy Department of Biological Sciences, Western Illinois University, 1 University Circle, Macomb, IL 61455, USA; [email protected]; Tel.: +1-309-298-2160 Received: 12 September 2018; Accepted: 19 November 2018; Published: 23 November 2018 Abstract: Beneficial arthropods provide many important ecosystem services. In agroecosystems, pollination and control of crop pests provide benefits worth billions of dollars annually. Effective sampling and monitoring of these beneficial arthropods is essential for ensuring their short- and long-term viability and effectiveness. There are numerous methods available for sampling beneficial arthropods in a variety of habitats, and these methods can vary in efficiency and effectiveness. In this paper I review active and passive sampling methods for non-Apis bees and arthropod natural enemies of agricultural pests, including methods for sampling flying insects, arthropods on vegetation and in soil and litter environments, and estimation of predation and parasitism rates. Sample sizes, lethal sampling, and the potential usefulness of bycatch are also discussed. Keywords: sampling methodology; bee monitoring; beneficial arthropods; natural enemy monitoring; vane traps; Malaise traps; bowl traps; pitfall traps; insect netting; epigeic arthropod sampling 1. Introduction To sustainably use the Earth’s resources for our benefit, it is essential that we understand the ecology of human-altered systems and the organisms that inhabit them. Agroecosystems include agricultural activities plus living and nonliving components that interact with these activities in a variety of ways. Beneficial arthropods, such as pollinators of crops and natural enemies of arthropod pests and weeds, play important roles in the economic and ecological success of agroecosystems.
    [Show full text]
  • Hymenoptera: Vespoidea) for the Colombian Orinoco Region Biota Colombiana, Vol
    Biota Colombiana ISSN: 0124-5376 ISSN: 2539-200X [email protected] Instituto de Investigación de Recursos Biológicos "Alexander von Humboldt" Colombia Halmenschlager, Matheus; Agudelo Martínez, Juan C; Pérez-Buitrago, Néstor F. New records of Vespidae (Hymenoptera: Vespoidea) for the Colombian Orinoco Region Biota Colombiana, vol. 20, no. 1, 2019, January-June, pp. 21-33 Instituto de Investigación de Recursos Biológicos "Alexander von Humboldt" Colombia Available in: https://www.redalyc.org/articulo.oa?id=49159822002 How to cite Complete issue Scientific Information System Redalyc More information about this article Network of Scientific Journals from Latin America and the Caribbean, Spain and Journal's webpage in redalyc.org Portugal Project academic non-profit, developed under the open access initiative Halmenschlager et al. New records of wasps in the Colombian Orinoco New records of Vespidae (Hymenoptera: Vespoidea) for the Colombian Orinoco Region Nuevos registros de Vespidae (Hymenoptera: Vespoidea) para la región de la Orinoquía colombiana Matheus Y. Halmenschlager, Juan C. Agudelo Martínez and Néstor F. Pérez-Buitrago Abstract We analyzed 72 specimens from the Arauca (71) and Casanare (1) departments in the Orinoco region of Colombia. 7KHVSHFLPHQVEHORQJWRJHQHUDDQGVSHFLHVRIYHVSLGZDVSV)RXUVSHFLHVDUHUHSRUWHGIRUWKHÀUVWWLPH for the region and 14 are new records for the Arauca department. There is a likely new record of Stenodynerus cf. australis for the Neotropical region. Keywords. Arauca. Eumeninae. Neotropic. Species list. Vespid wasps. Resumen Analizamos 72 especímenes colectados de los departamentos de Arauca (71) y Casanare (1) en la región de la Orinoquía. Estos pertenecen a 10 géneros y 18 especies de avispas. Cuatro especies son nuevos registros para la región y 14 son nuevas para el departamento de Arauca.
    [Show full text]
  • Pachodynerus Nasidens Latreille (Hymenoptera: Vespidae: Eumeninae)
    1. PaDIL Species Factsheet Scientific Name: Pachodynerus nasidens Latreille (Hymenoptera: Vespidae: Eumeninae) Common Name Keyhole wasp Live link: http://www.padil.gov.au/pests-and-diseases/Pest/Main/142308 Image Library Australian Biosecurity Live link: http://www.padil.gov.au/pests-and-diseases/ Partners for Australian Biosecurity image library Department of Agriculture, Water and the Environment https://www.awe.gov.au/ Department of Primary Industries and Regional Development, Western Australia https://dpird.wa.gov.au/ Plant Health Australia https://www.planthealthaustralia.com.au/ Museums Victoria https://museumsvictoria.com.au/ 2. Species Information 2.1. Details Specimen Contact: Museum Victoria - [email protected] Author: McCaffrey, Sarah & Ken Walker Citation: McCaffrey, Sarah & Ken Walker (2012) Keyhole wasp(Pachodynerus nasidens)Updated on 3/8/2012 Available online: PaDIL - http://www.padil.gov.au Image Use: Free for use under the Creative Commons Attribution-NonCommercial 4.0 International (CC BY- NC 4.0) 2.2. URL Live link: http://www.padil.gov.au/pests-and-diseases/Pest/Main/142308 2.3. Facets Commodity Overview: General, Medical & Veterinary Commodity Type: Animal, Invertebrates Distribution: USA and Canada, Australasian - Oceanian, Central and South America Group: Wasps Status: Exotic species - absent from Australia 2.4. Other Names Potter wasp 2.5. Diagnostic Notes _Pachodynerus_ is a fairly large (about 50 species) neotropical and nearctic genus of potter wasps with higher diversity in central South America. At least one species (Pachodynerus nasidens) has been introduced in other biogeographical regions, including several oceanic islands. This genus is most closelly related to the genus Euodynerus. 3. Diagnostic Images India, 24 May 2010.
    [Show full text]
  • Wasps (Hymenoptera, Vespidae) of Warsaw and Mazovia
    POLISH ACADEMY OF SCIENCES • INSTITUTE OF ZOOLOGY MEMORABILIA ZOOLOGICA MEMORABILIA ZOOL. 36 91— 102 1982 EWA SKIBIŃSKA WASPS (HYMENOPTERA, VESPIDAE) OF WARSAW AND MAZOVIA ABSTRACT In the Vespidae of Mazovia 42 species have been recorded, including 11 social and 31 solitary wasps. In Warsaw only 14 species have been recorded, which account for 33.3",, of the wasps of Mazovia. They include 7 solitary species (22.5% of the wasps of Mazovia) and 7 social species (63.6°0). In the areas subject to extremely high urban pressure, two social species are almost the only wasps. These ars V. (V.J vulgaris and V. ( V.) germanica. A zoogeographical analysis shows that the proportion of the species with large ranges increased in the town. Wasps occurring in urban green areas mostly include ubiquitous social species and solitary species without specific requirements for nest sites. INTRODUCTION The family of wasps have been studied by few workers in Poland. They mostly prepared faunal lists of wasps or inserted fragmentary data on them in general lists of the Aculeata of a given area. Relatively best known wasps are those living in western Poland, that is, in Silesia, due to the studies carried out by Dittrich [5], in Pomerania, due to the studies by Paul [15], and also in southern Poland, mostly in Little Poland and the Tatra mountains, due to the studies conducted by Wierzejski [22], Niezabitowski [13], Niesiołowski [12], and Drogoszewski [6—8]. The earliest data from Mazovia are given by Nasonov [11], who lists Vespidae from Warsaw and some near localities like Otwock and Gałachy.
    [Show full text]
  • Nesting Biology of Zeta Argillaceum (Hymenoptera: Vespidae: Eumeninae) in Southern Florida, U.S
    Matthews & Gonzalez: Nesting Biology 37 NESTING BIOLOGY OF ZETA ARGILLACEUM (HYMENOPTERA: VESPIDAE: EUMENINAE) IN SOUTHERN FLORIDA, U.S. ROBERT W. MATTHEWS AND JORGE M. GONZÁLEZ University of Georgia, Department of Entomology, Athens, GA 30602, USA ABSTRACT Zeta argillaceum (L.), a common neotropical wasp, is established in Florida. The character- istic mud potter-like nests are easily recognized. They prey on geometrid caterpillars. Their nests are reused by various arthropods, forming an ecological web similar to that of other mud dauber wasps. Prey, inquilines, parasites, and scavengers found inside the nests are presented. Key Words: Pachodynerus erynnis, Pachodynerus nasidens, Anthrax sp., Melittobia austral- ica, Anthrenus sp., Macrosiagon sp., Chalybion californicum RESUMEN Zeta argillaceum (L.) es una avispa neotropical muy común y está establecida en Florida. El- las construyen nidos de barro en forma de vasija, fáciles de reconocer. Sus hospedadores son larvas de geométridos. Sus nidos son reutilizados por varios artrópodos y forman una red ecológica similar al de otras avispas constructoras de nidos de barro. Se presentan en este trabajo los hospedadores, inquilinos, parásitos y carroñeros encontrados dentro de los nidos. Translation provided by author. Zeta is a small neotropical eumenine wasp ge- (=Z. argillaceum) in Brazil (Rocha & Raw 1982). nus with 4 species that range from Mexico to Ar- In many aspects the general biology resembled gentina and also Trinidad, in the West Indies that of the related Z. abdominale (Drury) (in some (Bertoni 1934; Bodkin 1917; Callan 1954; Car- cases using its synonym Eumenes colona Saus- penter 1986b, 2002; Carpenter & Garcete-Barrett sure) studied in Jamaica by Freeman & Taffe 2002; Giordani Soika 1975; Martorell & Escalona (1974), Taffe & Ittyieipe (1976), and Taffe (1978, S.
    [Show full text]
  • Bees and Wasps of the East Sussex South Downs
    A SURVEY OF THE BEES AND WASPS OF FIFTEEN CHALK GRASSLAND AND CHALK HEATH SITES WITHIN THE EAST SUSSEX SOUTH DOWNS Steven Falk, 2011 A SURVEY OF THE BEES AND WASPS OF FIFTEEN CHALK GRASSLAND AND CHALK HEATH SITES WITHIN THE EAST SUSSEX SOUTH DOWNS Steven Falk, 2011 Abstract For six years between 2003 and 2008, over 100 site visits were made to fifteen chalk grassland and chalk heath sites within the South Downs of Vice-county 14 (East Sussex). This produced a list of 227 bee and wasp species and revealed the comparative frequency of different species, the comparative richness of different sites and provided a basic insight into how many of the species interact with the South Downs at a site and landscape level. The study revealed that, in addition to the character of the semi-natural grasslands present, the bee and wasp fauna is also influenced by the more intensively-managed agricultural landscapes of the Downs, with many species taking advantage of blossoming hedge shrubs, flowery fallow fields, flowery arable field margins, flowering crops such as Rape, plus plants such as buttercups, thistles and dandelions within relatively improved pasture. Some very rare species were encountered, notably the bee Halictus eurygnathus Blüthgen which had not been seen in Britain since 1946. This was eventually recorded at seven sites and was associated with an abundance of Greater Knapweed. The very rare bees Anthophora retusa (Linnaeus) and Andrena niveata Friese were also observed foraging on several dates during their flight periods, providing a better insight into their ecology and conservation requirements.
    [Show full text]
  • Checklist of the Spheciform Wasps (Hymenoptera: Crabronidae & Sphecidae) of British Columbia
    Checklist of the Spheciform Wasps (Hymenoptera: Crabronidae & Sphecidae) of British Columbia Chris Ratzlaff Spencer Entomological Collection, Beaty Biodiversity Museum, UBC, Vancouver, BC This checklist is a modified version of: Ratzlaff, C.R. 2015. Checklist of the spheciform wasps (Hymenoptera: Crabronidae & Sphecidae) of British Columbia. Journal of the Entomological Society of British Columbia 112:19-46 (available at http://journal.entsocbc.ca/index.php/journal/article/view/894/951). Photographs for almost all species are online in the Spencer Entomological Collection gallery (http://www.biodiversity.ubc.ca/entomology/). There are nine subfamilies of spheciform wasps in recorded from British Columbia, represented by 64 genera and 280 species. The majority of these are Crabronidae, with 241 species in 55 genera and five subfamilies. Sphecidae is represented by four subfamilies, with 39 species in nine genera. The following descriptions are general summaries for each of the subfamilies and include nesting habits and provisioning information. The Subfamilies of Crabronidae Astatinae !Three genera and 16 species of astatine wasps are found in British Columbia. All species of Astata, Diploplectron, and Dryudella are groundnesting and provision their nests with heteropterans (Bohart and Menke 1976). Males of Astata and Dryudella possess holoptic eyes and are often seen perching on sticks or rocks. Bembicinae Nineteen genera and 47 species of bembicine wasps are found in British Columbia. All species are groundnesting and most prefer habitats with sand or sandy soil, hence the common name of “sand wasps”. Four genera, Bembix, Microbembex, Steniolia and Stictiella, have been recorded nesting in aggregations (Bohart and Horning, Jr. 1971; Bohart and Gillaspy 1985).
    [Show full text]
  • MASON WASPS in OUR BACK YARD Teresa Dolman in Which She Has Already Laid an with Parchment Paper, Allowing 37 Carleton Road W
    MASON WASPS IN OUR BACK YARD Teresa Dolman in which she has already laid an with parchment paper, allowing 37 Carleton Road W. egg. She then seals the chamber for easy cleanout and also allowing Lethbridge, AB T1K 3X4 with mud made by mixing soil with for collection of bee pupae. The [email protected] regurgitated water or saliva (hence larvae of mason and leafcutter bees the name “mason”). If there is pupate in late summer and are often For over 40 years my husband, room in the linear nest she prepares removed in the fall to limit mortality Doug, and I have lived in a suburb of another brood cell. In such linear due to predators or low winter Lethbridge, Alberta. Our back yard nests with multiple cells, female temperatures, and to clean them of has a variety of trees and shrubs, eggs are laid in the inner chambers any mites. many perennial flowers and a while male eggs are laid in the outer Our hope of attracting pollinating garden, so it was a logical decision to chambers. The eggs hatch and bees was dashed again in spring buy and erect a bee house in order the larvae feed on the paralyzed 2017 when the mason wasps to attract native pollinators such as prey, grow to mature size and then returned and showed interest in both mason bees and leafcutter bees. The overwinter. In spring they pupate and boxes. Over the summer all cavities box we chose has holes of different shortly thereafter emerge as winged they could enter were provisioned diameters, and, in late 2014, we adults.
    [Show full text]
  • The Effect of Insects on Seed Set of Ozark Chinquapin, Castanea Ozarkensis" (2017)
    University of Arkansas, Fayetteville ScholarWorks@UARK Theses and Dissertations 5-2017 The ffecE t of Insects on Seed Set of Ozark Chinquapin, Castanea ozarkensis Colton Zirkle University of Arkansas, Fayetteville Follow this and additional works at: http://scholarworks.uark.edu/etd Part of the Botany Commons, Entomology Commons, and the Plant Biology Commons Recommended Citation Zirkle, Colton, "The Effect of Insects on Seed Set of Ozark Chinquapin, Castanea ozarkensis" (2017). Theses and Dissertations. 1996. http://scholarworks.uark.edu/etd/1996 This Thesis is brought to you for free and open access by ScholarWorks@UARK. It has been accepted for inclusion in Theses and Dissertations by an authorized administrator of ScholarWorks@UARK. For more information, please contact [email protected], [email protected], [email protected]. The Effect of Insects on Seed Set of Ozark Chinquapin, Castanea ozarkensis A thesis submitted in partial fulfillment of the requirements for the degree of Master of Science in Entomology by Colton Zirkle Missouri State University Bachelor of Science in Biology, 2014 May 2017 University of Arkansas This thesis is approved for recommendation to the Graduate Council. ____________________________________ Dr. Ashley Dowling Thesis Director ____________________________________ ______________________________________ Dr. Frederick Paillet Dr. Neelendra Joshi Committee Member Committee Member Abstract Ozark chinquapin (Castanea ozarkensis), once found throughout the Interior Highlands of the United States, has been decimated across much of its range due to accidental introduction of chestnut blight, Cryphonectria parasitica. Efforts have been made to conserve and restore C. ozarkensis, but success requires thorough knowledge of the reproductive biology of the species. Other Castanea species are reported to have characteristics of both wind and insect pollination, but pollination strategies of Ozark chinquapin are unknown.
    [Show full text]
  • How to Operate a Successful Bee Hotel
    How to Operate a Successful Bee Hotel Making space for wood and stem nesting bees in home landscapes, parks, and gardens Draft Elsa Youngsteadt Assistant Professor & Extension Urban Ecology Specialist Department of Applied Ecology North Carolina State University Meredith Favre Graduate Student—MS Department of Entomology and Plant Pathology North Carolina State University DRAFT VERSION in progress and not yet peer-reviewed, Feb 27, 2021 TABLE OF CONTENTS What is a bee hotel? .................................................................................................................................. 1 The benefits of bees ............................................................................................................................. 1 Who lives in a bee hotel? ...................................................................................................................... 2 How bees and wasps use a hotel .......................................................................................................... 3 Meet the residents ............................................................................................................................... 5 Family Megachilidae ........................................................................................................................ 2 Blue orchard bee ........................................................................................................................ 5 Other mason bees .....................................................................................................................
    [Show full text]
  • Diversity and Distribution of Hymenoptera Aculeata in Midwestern Brazilian Dry Forests
    See discussions, stats, and author profiles for this publication at: https://www.researchgate.net/publication/264895151 Diversity and Distribution of Hymenoptera Aculeata in Midwestern Brazilian Dry Forests Chapter · September 2014 CITATIONS READS 2 457 6 authors, including: Rogerio Silvestre Manoel F Demétrio UFGD - Universidade Federal da Grande Dourados UFGD - Universidade Federal da Grande Dourados 41 PUBLICATIONS 539 CITATIONS 8 PUBLICATIONS 27 CITATIONS SEE PROFILE SEE PROFILE Bhrenno Trad Felipe Varussa de Oliveira Lima UFGD - Universidade Federal da Grande Dourados 4 PUBLICATIONS 8 CITATIONS 8 PUBLICATIONS 8 CITATIONS SEE PROFILE SEE PROFILE Some of the authors of this publication are also working on these related projects: Phylogeny and Biogeography of genus Eremnophila Menke, 1964 (HYMENOPTERA: Sphecidae) View project Functional diversity, phylogeny, ethology and biogeography of Hymenoptera in the chacoan subregion View project All content following this page was uploaded by Rogerio Silvestre on 28 November 2014. The user has requested enhancement of the downloaded file. 28 R. Silvestre, M. Fernando Demétrio, B. Maykon Trad et al. ENVIRONMENTAL HEALTH - PHYSICAL, CHEMICAL AND BIOLOGICAL FACTORS DRY FORESTS ECOLOGY, SPECIES DIVERSITY AND SUSTAINABLE MANAGEMENT FRANCIS ELIOTT GREER EDITOR Copyright © 2014 by Nova Science Publishers, Inc. Diversity and Distribution of Hymenoptera Aculeata ... 29 In: Dry Forests ISBN: 978-1-63321-291-6 Editor: Francis Eliott Greer © 2014 Nova Science Publishers, Inc. Chapter 2 DIVERSITY AND DISTRIBUTION
    [Show full text]
  • Journal of Hymenoptera Research
    c 3 Journal of Hymenoptera Research . .IV 6«** Volume 15, Number 2 October 2006 ISSN #1070-9428 CONTENTS BELOKOBYLSKIJ, S. A. and K. MAETO. A new species of the genus Parachremylus Granger (Hymenoptera: Braconidae), a parasitoid of Conopomorpha lychee pests (Lepidoptera: Gracillariidae) in Thailand 181 GIBSON, G. A. P., M. W. GATES, and G. D. BUNTIN. Parasitoids (Hymenoptera: Chalcidoidea) of the cabbage seedpod weevil (Coleoptera: Curculionidae) in Georgia, USA 187 V. Forest GILES, and J. S. ASCHER. A survey of the bees of the Black Rock Preserve, New York (Hymenoptera: Apoidea) 208 GUMOVSKY, A. V. The biology and morphology of Entedon sylvestris (Hymenoptera: Eulophidae), a larval endoparasitoid of Ceutorhynchus sisymbrii (Coleoptera: Curculionidae) 232 of KULA, R. R., G. ZOLNEROWICH, and C. J. FERGUSON. Phylogenetic analysis Chaenusa sensu lato (Hymenoptera: Braconidae) using mitochondrial NADH 1 dehydrogenase gene sequences 251 QUINTERO A., D. and R. A. CAMBRA T The genus Allotilla Schuster (Hymenoptera: Mutilli- dae): phylogenetic analysis of its relationships, first description of the female and new distribution records 270 RIZZO, M. C. and B. MASSA. Parasitism and sex ratio of the bedeguar gall wasp Diplolqjis 277 rosae (L.) (Hymenoptera: Cynipidae) in Sicily (Italy) VILHELMSEN, L. and L. KROGMANN. Skeletal anatomy of the mesosoma of Palaeomymar anomalum (Blood & Kryger, 1922) (Hymenoptera: Mymarommatidae) 290 WHARTON, R. A. The species of Stenmulopius Fischer (Hymenoptera: Braconidae, Opiinae) and the braconid sternaulus 316 (Continued on back cover) INTERNATIONAL SOCIETY OF HYMENOPTERISTS Organized 1982; Incorporated 1991 OFFICERS FOR 2006 Michael E. Schauff, President James Woolley, President-Elect Michael W. Gates, Secretary Justin O. Schmidt, Treasurer Gavin R.
    [Show full text]