127 results on '"Strange, James P"'
Search Results
2. Metabolomes of bumble bees reared in common garden conditions suggest constitutive differences in energy and toxin metabolism across populations
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Keaveny, Ellen C., Helling, Mitchell R., Basile, Franco, Strange, James P., Lozier, Jeffrey D., and Dillon, Michael E.
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- 2023
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3. Bumble bees exhibit body size clines across an urban gradient despite low genetic differentiation
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Austin, Matthew W., Tripodi, Amber D., Strange, James P., and Dunlap, Aimee S.
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- 2022
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4. Consumption of pollen contaminated with field-realistic concentrations of fungicide causes sublethal effects in Bombus impatiens (Hymenoptera: Apidae) microcolonies.
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Runnion, Emily N, Strange, James P, and Sivakoff, Frances S
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BUMBLEBEES ,BEE behavior ,ANIMAL sexual behavior ,FUNGICIDES ,APIDAE - Abstract
Bumble bees are declining across the globe. The causes of this decline have been attributed to a variety of stressors, including pesticides. Fungicides are a type of pesticide that has been understudied in the context of bumble bee health. As a result, fungicides are often applied to flowering plants without consideration of pollinator exposure. Recent work demonstrates that fungicides have sublethal effects in bumble bees, but little is known about how much fungicide it takes to cause these sublethal effects. To address this gap in the literature, we fed microcolonies of the common eastern bumble bee (Bombus impatiens CressonHymenoptera: ApidaeHymenoptera: ApidaeHymenoptera: ApidaeHymenoptera: Apidae) pollen contaminated with a range of fungicide concentrations. We chose these concentrations based on the range of fungicide concentrations in pollen and nectar that were reported in the literature. Results revealed that later-stage pupae and newly emerged males are potentially sensitive to fungicide exposure, showing smaller size and reduced fat reserves at intermediate levels of contamination. Compared to the control, intermediated levels of fungicide-contaminated pollen led to increased pupal mortality and delayed male emergence. Contrary to expectations, higher fungicide levels did not exhibit a linear relationship with negative impacts, suggesting nuanced effects. Because body size and emergence timing are important aspects of bumble bee reproductive behavior, results have implications for mating success, potentially disrupting colony development. [ABSTRACT FROM AUTHOR]
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- 2024
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5. Body mass and sex, not local climate, drive differences in chill coma recovery times in common garden reared bumble bees
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Oyen, K. Jeannet, Jardine, Laura E., Parsons, Zachary M., Herndon, James D., Strange, James P., Lozier, Jeffrey D., and Dillon, Michael E.
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- 2021
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6. Assessing the effects of cold storage regimes of North American Bombus Gynes.
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Lindsay, Thuy Tien T., Hagen, Marcia M., Knoblett, Joyce N., Rinehart, Joseph P., Kapheim, Karen M., and Strange, James P.
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COLD storage ,BUMBLEBEES ,POLLINATION ,POLLINATORS ,LIFE cycles (Biology) ,TEMPORARY stores ,ENDANGERED species ,GREENHOUSE plants ,MICROCYSTIS - Abstract
Bumble bees are the primary commercial pollinators for greenhouse‐grown crops and managing them requires insight into the Bombus life cycle. However, some aspects of the life cycle are not fully understood. Once mated, adult Bombus gynes can be stored for a short term at a constant low temperature (CLT). However, survival rates for some species are low during CLT, particularly when storage periods exceed a month. To address this, we tested the hypothesis that Bombus gynes stored in a fluctuating thermal regime (FTR) have increased survival compared to gynes stored in CLT. Specifically, the FTR had a baseline temperature of 2°C, with a daily fluctuation to 20°C relative to the CLT of 2°C with no warming pulse. We tested the effects of FTR on gyne survival and post‐cold storage lipid content in three species used for commercial pollination in North America: B. vosnesenskii, B. huntii and B. impatiens. We further assessed how additional factors influence cold storage survival, including gyne body weight, body size and colony age. Survival responses varied among species. Bombus vosnesenskii and B. huntii had a lower survival rate in FTR compared to CLT, but B. impatiens gynes had a significantly higher survival rate in FTR. We did not observe significant effects of FTR on lipid stores for any species, but survival increased with an increasing initial weight prior to cold storage. Moreover, gynes produced later in the colony life cycle had lower body weight and decreased survival compared to early emerging gynes. Our study provides insight into how cold storage conditions interact with colony and gyne characteristics to influence captive overwintering survival. Our findings have economic applications for improving commercial rearing and efforts for conservation rearing of at‐risk Bombus species. [ABSTRACT FROM AUTHOR]
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- 2024
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7. Bumble bee responses to climate and landscapes: Investigating habitat associations and species assemblages across geographic regions in the United States of America.
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Christman, Morgan E., Spears, Lori R., Burchfield, Emily K., Pearse, William D., Strange, James P., and Ramirez, Ricardo A.
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BUMBLEBEES ,FORESTS & forestry ,LAND cover ,AGRICULTURE ,SPECIES diversity ,PLAINS ,BEE colonies ,SOIL fertility - Abstract
Bumble bees are integral pollinators of native and cultivated plant communities, but species are undergoing significant changes in range and abundance on a global scale. Climate change and land cover alteration are key drivers in pollinator declines; however, limited research has evaluated the cumulative effects of these factors on bumble bee assemblages. This study tests bumble bee assemblage (calculated as richness and abundance) responses to climate and land use by modeling species‐specific habitat requirements, and assemblage‐level responses across geographic regions. We integrated species richness, abundance, and distribution data for 18 bumble bee species with site‐specific bioclimatic, landscape composition, and landscape configuration data to evaluate the effects of multiple environmental stressors on bumble bee assemblages throughout 433 agricultural fields in Florida, Indiana, Kansas, Kentucky, Maryland, South Carolina, Utah, Virginia, and West Virginia from 2018 to 2020. Distinct east versus west groupings emerged when evaluating species‐specific habitat associations, prompting a detailed evaluation of bumble bee assemblages by geographic region. Maximum temperature of warmest month and precipitation of driest month had a positive impact on bumble bee assemblages in the Corn Belt/Appalachian/northeast, southeast, and northern plains regions, but a negative impact on the mountain region. Further, forest land cover surrounding agricultural fields was highlighted as supporting more rich and abundant bumble bee assemblages. Overall, climate and land use combine to drive bumble bee assemblages, but how those processes operate is idiosyncratic and spatially contingent across regions. From these findings, we suggested regionally specific management practices to best support rich and abundant bumble bee assemblages in agroecosystems. Results from this study contribute to a better understanding of climate and landscape factors affecting bumble bees and their habitats throughout the United States. [ABSTRACT FROM AUTHOR]
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- 2024
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8. A century of pollen foraging by the endangered rusty patched bumble bee (Bombus affinis): inferences from molecular sequencing of museum specimens
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Simanonok, Michael P., Otto, Clint R. V., Cornman, R. Scott, Iwanowicz, Deborah D., Strange, James P., and Smith, Tamara A.
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- 2021
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9. A homeotic shift late in development drives mimetic color variation in a bumble bee
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Tian, Li, Rahman, Sarthok Rasique, Ezray, Briana D., Franzini, Luca, Strange, James P., Lhomme, Patrick, and Hines, Heather M.
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- 2019
10. Range-wide genetic analysis of an endangered bumble bee (Bombus affinis, Hymenoptera: Apidae) reveals population structure, isolation by distance, and low colony abundance.
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Mola, John M, Pearse, Ian S, Boone, Michelle L, Evans, Elaine, Hepner, Mark J, Jean, Robert P, Kochanski, Jade M, Nordmeyer, Cale, Runquist, Erik, Smith, Tamara A, Strange, James P, Watson, Jay, and Koch, Jonathan B U
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BUMBLEBEES ,APIDAE ,HYMENOPTERA ,POPULATION differentiation ,WILDLIFE conservation ,POPULATION genetics - Abstract
Declines in bumble bee species range and abundances are documented across multiple continents and have prompted the need for research to aid species recovery and conservation. The rusty patched bumble bee (Bombus affinis) is the first federally listed bumble bee species in North America. We conducted a range-wide population genetics study of B. affinis from across all extant conservation units to inform conservation efforts. To understand the species' vulnerability and help establish recovery targets, we examined population structure, patterns of genetic diversity, and population differentiation. Additionally, we conducted a site-level analysis of colony abundance to inform prioritizing areas for conservation, translocation, and other recovery actions. We find substantial evidence of population structuring along an east-to-west gradient. Putative populations show evidence of isolation by distance, high inbreeding coefficients, and a range-wide male diploidy rate of ~15%. Our results suggest the Appalachians represent a genetically distinct cluster with high levels of private alleles and substantial differentiation from the rest of the extant range. Site-level analyses suggest low colony abundance estimates for B. affinis compared to similar datasets of stable, co-occurring species. These results lend genetic support to trends from observational studies, suggesting that B. affinis has undergone a recent decline and exhibit substantial spatial structure. The low colony abundances observed here suggest caution in overinterpreting the stability of populations even where B. affinis is reliably detected interannually. These results help delineate informed management units, provide context for the potential risks of translocation programs, and help set clear recovery targets for this and other threatened bumble bee species. [ABSTRACT FROM AUTHOR]
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- 2024
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11. The expanding Pacific Northwest range of Bombus impatiens Cresson and its establishment in Washington State
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Looney, Chris, Strange, James P., Freeman, Maggie, and Jennings, David
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- 2019
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12. Biogeographic parallels in thermal tolerance and gene expression variation under temperature stress in a widespread bumble bee
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Pimsler, Meaghan L., Oyen, Kennan J., Herndon, James D., Jackson, Jason M., Strange, James P., Dillon, Michael E., and Lozier, Jeffrey D.
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- 2020
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13. It is buzziness time: rearing, mating, and overwintering Bombus vosnesenskii (Hymenoptera: Apidae).
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Christman, Morgan E, Barkan, N Pinar, Campion, Claire, Heraghty, Sam D, Keaveny, Ellen C, Verble, Kelton M, Waybright, Sarah A, Dillon, Michael E, Lozier, Jeffrey D, and Strange, James P
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BUMBLEBEES ,APIDAE ,HYMENOPTERA ,POLLINATION ,LIFE cycles (Biology) ,COLD storage ,COLONIAL birds - Abstract
Bombus vosnesenskii Radowszkowski, 1862 is one of three bumble bee species commercially available for pollination services in North America; however, little is documented about B. vosnesenskii colony life cycle or the establishment of ex situ rearing, mating, and overwintering practices. In this study, we documented nest success, colony size, and gyne production; recorded the duration of mating events; assessed overwintering survival of mated gynes; and evaluated second-generation nest success for colonies established from low- and high-elevation wild-caught B. vosnesenskii gynes. Of the 125 gynes installed, 62.4% produced brood cells (nest initiation) and 43.2% had at least 1 worker eclose (nest establishment). High-elevation B. vosnesenskii gynes had significantly higher nest initiation and establishment success than low-elevation gynes. However, low-elevation colonies were significantly larger with queens producing more gynes on average. Mating was recorded for 200 low-elevation and 37 high-elevation gynes, resulting in a mean duration of 62 and 51 min, respectively. Mated gynes were then placed into cold storage for 54 days to simulate overwintering, which resulted in 59.1% of low-elevation gynes surviving and 91.9% of high-elevation gynes surviving. For second-generation low-elevation gynes, 26.4% initiated nesting and 14.3% established nesting. Second-generation high-elevation gynes did not initiate nesting despite CO
2 narcosis treatments. Overall, these results increase our understanding of B. vosnesenskii nesting, mating, and overwintering biology from 2 elevations. Furthermore, this study provides information on successful husbandry practices that can be used by researchers and conservationists to address knowledge gaps and enhance the captive rearing of bumble bees. [ABSTRACT FROM AUTHOR]- Published
- 2023
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14. Patterns of population genetic structure and diversity across bumble bee communities in the Pacific Northwest
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Koch, Jonathan B., Looney, Chris, Sheppard, Walter S., and Strange, James P.
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- 2017
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15. Novel microsatellite loci reveal high genetic diversity yet low population structure for alfalfa leafcutting bees in North America
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Strange, James P., Delaney, Deborah A., Tarpy, David R., and James, Rosalind R.
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- 2017
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16. Relocation risky for bumblebee colonies
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Lozier, Jeffrey D., Cameron, Sydney A., Duennes, Michelle A., Strange, James P., Williams, Paul H., Goulson, David, Brown, Mark J. F., Morales, Carolina, and Jepsen, Sarina
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- 2015
17. LATE-SEASON SURVEY OF BUMBLE BEES ALONG CANADIAN HIGHWAYS OF BRITISH COLUMBIA AND YUKON TERRITORIES
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Hatten, Timothy D., Strange, James P., and Maxwell, Jill M.
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- 2015
18. Bumble bee nest abundance, foraging distance, and host-plant reproduction: implications for management and conservation
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Geib, Jennifer C., Strange, James P., and Galen, Candace
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- 2015
19. Comparative analysis of 3 pollen sterilization methods for feeding bumble bees.
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Strange, James P, Tripodi, Amber D, Huntzinger, Craig, Knoblett, Joyce, Klinger, Ellen, Herndon, James D, Vuong, Hoang Q, McFrederick, Quinn S, Irwin, Rebecca E, Evans, Jay D, Giacomini, Jonathan J, Ward, Robert, and Adler, Lynn S
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BUMBLEBEES ,HONEYBEES ,STERILIZATION (Disinfection) ,PALYNOLOGY ,FUMIGATION ,ETHYLENE oxide ,FUNGAL viruses ,MYCOSES ,FOOD quality - Abstract
Pollen is an essential component of bee diets, and rearing bumble bees (Bombus spp.) for commercial use necessitates feeding pollen in mass quantities. This pollen is collected from honey bee (Apis mellifera L.) colonies because neither an artificial diet nor an economical, large-scale pollen collection process from flowers is available. The provenance of honey bee-collected pollen is often unknown, and in some cases has crossed international borders. Both deformed wing virus (DWV) and the fungal pathogen Ascosphaera apis (Claussen) Olive & Spiltoir (cause of chalkbrood disease); occur in honey bee-collected pollen, and infections have been observed in bumble bees. We used these pathogens as general surrogates for viruses and spore-forming fungal diseases to test the efficacy of 3 sterilization methods, and assessed whether treatment altered pollen quality for the bumble bee. Using honey bee-collected pollen spiked with known doses of DWV and A. apis , we compared gamma irradiation (GI), ozone fumigation (OZ), and ethylene oxide fumigation (EO) against an untreated positive control and a negative control. Following sterilization treatments, we tested A. apis spore viability, detected viral presence with PCR, and tested palatability to the bumble bee Bombus impatiens Cresson. We also measured bacterial growth from pollens treated with EO and GI. GI and EO outperformed OZ treatment in pathogen suppression. EO had the highest sterilizing properties under commercial conditions and retained palatability and supported bee development better than other treatments. These results suggest that EO sterilization reduces pathogen risks while retaining pollen quality as a food source for rearing bumble bees. [ABSTRACT FROM AUTHOR]
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- 2023
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20. Variation in North American bumble bee nest success and colony sizes under captive rearing conditions.
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Strange, James P, Tripodi, Amber D, Lindsay, Thuy-Tien T, Herndon, James D, Knoblett, Joyce, Christman, Morgan E, Barkan, N Pinar, and Koch, Jonathan B U
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BUMBLEBEES , *COLONIAL birds - Abstract
Of the 265 known bumble bee (Bombus) species, knowledge of colony lifecycle is derived from relatively few species. As interest in Bombus commercialization and conservation grows, it is becoming increasingly important to understand colony growth dynamics across a variety of species since variation exists in nest success, colony growth, and reproductive output. In this study, we reported successful nest initiation and establishment rates of colonies and generated a timeline of colony development for 15 western North American Bombus species, which were captively reared from wild-caught gynes from 2009 to 2019. Additionally, we assessed variation in colony size among 5 western North American Bombus species from 2015 to 2018. Nest initiation and establishment rates varied greatly among species, ranging from 5–76.1% and 0–54.6%, respectively. Bombus griseocollis had the highest rates of nest success across the 11-yr period, followed by B. occidentalis , B. vosnesenskii , and B. huntii. Furthermore, days to nest initiation and days to nest establishment varied among species, ranging from 8.4 to 27.7 days and 32.7 to 47 days. Colony size also differed significantly among species with B. huntii and B. vosnesenskii producing more worker/drone cells than B. griseocollis , B. occidentalis , and B. vancouverensis. Additionally, gyne production differed significantly among species with B. huntii colonies producing more gynes than B. vosnesenskii. Results from this study increase knowledge of systematic nesting biology for numerous western North American Bombus species under captive rearing conditions, which can further improve rearing techniques available to conservationists and researchers. [ABSTRACT FROM AUTHOR]
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- 2023
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21. Whole genome demographic models indicate divergent effective population size histories shape contemporary genetic diversity gradients in a montane bumble bee.
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Lozier, Jeffrey D., Strange, James P., and Heraghty, Sam D.
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BUMBLEBEES , *GENETIC variation , *GLACIATION , *GENOMES , *SPECIES distribution , *HETEROZYGOSITY ,REPRODUCTIVE isolation - Abstract
Understanding historical range shifts and population size variation provides an important context for interpreting contemporary genetic diversity. Methods to predict changes in species distributions and model changes in effective population size (Ne) using whole genomes make it feasible to examine how temporal dynamics influence diversity across populations. We investigate Ne variation and climate‐associated range shifts to examine the origins of a previously observed latitudinal heterozygosity gradient in the bumble bee Bombus vancouverensis Cresson (Hymenoptera: Apidae: Bombus Latreille) in western North America. We analyze whole genomes from a latitude‐elevation cline using sequentially Markovian coalescent models of Ne through time to test whether relatively low diversity in southern high‐elevation populations is a result of long‐term differences in Ne. We use Maxent models of the species range over the last 130,000 years to evaluate range shifts and stability. Ne fluctuates with climate across populations, but more genetically diverse northern populations have maintained greater Ne over the late Pleistocene and experienced larger expansions with climatically favorable time periods. Northern populations also experienced larger bottlenecks during the last glacial period, which matched the loss of range area near these sites; however, bottlenecks were not sufficient to erode diversity maintained during periods of large Ne. A genome sampled from an island population indicated a severe postglacial bottleneck, indicating that large recent postglacial declines are detectable if they have occurred. Genetic diversity was not related to niche stability or glacial‐period bottleneck size. Instead, spatial expansions and increased connectivity during favorable climates likely maintain diversity in the north while restriction to high elevations maintains relatively low diversity despite greater stability in southern regions. Results suggest genetic diversity gradients reflect long‐term differences in Ne dynamics and also emphasize the unique effects of isolation on insular habitats for bumble bees. Patterns are discussed in the context of conservation under climate change. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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22. Recent and future declines of a historically widespread pollinator linked to climate, land cover, and pesticides.
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Janousek, William M., Douglas, Margaret R., Cannings, Syd, Clément, Marion A., Delphia, Casey M., Everett, Jeffrey G., Hatfield, Richard G., Keinath, Douglas A., Uhuad Koch, Jonathan B., McCabe, Lindsie M., Mola, John M., Ogilvie, Jane E., Rangwala, Imtiaz, Richardson, Leif L., Rohde, Ashley T., Strange, James P., Tronstad, Lusha M., and Graves, Tabitha A.
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LAND cover ,POLLINATORS ,INSECT pollinators ,BUMBLEBEES ,PESTICIDES ,GRAIN storage ,ORGANIC foods - Abstract
The acute decline in global biodiversity includes not only the loss of rare species, but also the rapid collapse of common species across many different taxa. The loss of pollinating insects is of particular concern because of the ecological and economic values these species provide. The western bumble bee (Bombus occidentalis) was once common in western North America, but this species has become increasingly rare through much of its range. To understand potential mechanisms driving these declines, we used Bayesian occupancy models to investigate the effects of climate and land cover from 1998 to 2020, pesticide use from 2008 to 2014, and projected expected occupancy under three future scenarios. Using 14,457 surveys across 2.8 million km2 in the western United States, we found strong negative relationships between increasing temperature and drought on occupancy and identified neonicotinoids as the pesticides of greatest negative influence across our study region. The mean predicted occupancy declined by 57% from 1998 to 2020, ranging from 15 to 83% declines across 16 ecoregions. Even under the most optimistic scenario, we found continued declines in nearly half of the ecoregions by the 2050s and mean declines of 93% under the most severe scenario across all ecoregions. This assessment underscores the tenuous future of B. occidentalis and demonstrates the scale of stressors likely contributing to rapid loss of related pollinator species throughout the globe. Scaled-up, international species-monitoring schemes and improved integration of data from formal surveys and community science will substantively improve the understanding of stressors and bumble bee population trends. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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23. Novel Microsatellite Markers for Osmia lignaria (Hymenoptera: Megachilidae): A North American Pollinator of Agricultural Crops and Wildland Plants.
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Koch, Jonathan Berenguer Uhuad, Branstetter, Michael G, Cox-Foster, Diana L, Knoblett, Joyce, Lindsay, Thuy-Tien Thai, Pitts-Singer, Theresa L, Rohde, Ashley T, Strange, James P, and Tobin, Kerrigan B
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MICROSATELLITE repeats ,CROPS ,POPULATION differentiation ,GENETIC variation ,AGRICULTURE ,ORCHARDS - Abstract
Comprehensive decisions on the management of commercially produced bees, depend largely on associated knowledge of genetic diversity. In this study, we present novel microsatellite markers to support the breeding, management, and conservation of the blue orchard bee, Osmia lignaria Say (Hymenoptera: Megachilidae). Native to North America, O. lignaria has been trapped from wildlands and propagated on-crop and used to pollinate certain fruit, nut, and berry crops. Harnessing the O. lignaria genome assembly, we identified 59,632 candidate microsatellite loci in silico, of which 22 were tested using molecular techniques. Of the 22 loci, 12 loci were in Hardy-Weinberg equilibrium (HWE), demonstrated no linkage disequilibrium (LD), and achieved low genotyping error in two Intermountain North American wild populations in Idaho and Utah, USA. We found no difference in population genetic diversity between the two populations, but there was evidence for low but significant population differentiation. Also, to determine if these markers amplify in other Osmia , we assessed 23 species across the clades apicata , bicornis , emarginata , and ribifloris. Nine loci amplified in three species/subspecies of apicata , 22 loci amplified in 11 species/subspecies of bicornis , 11 loci amplified in seven species/subspecies of emarginata , and 22 loci amplified in two species/subspecies of ribifloris. Further testing is necessary to determine the capacity of these microsatellite loci to characterize genetic diversity and structure under the assumption of HWE and LD for species beyond O. lignaria. These markers will inform the conservation and commercial use of trapped and managed O. lignaria and other Osmia species for both agricultural and nonagricultural systems. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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24. Captive Rearing Success and Critical Thermal Maxima of Bombus griseocollis (Hymenoptera: Apidae): A Candidate for Commercialization?
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Christman, Morgan E, Spears, Lori R, Koch, Jonathan B U, Lindsay, Thuy-Tien T, Strange, James P, Barnes, Cody L, and Ramirez, Ricardo A
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POLLINATION by bees ,BUMBLEBEES ,APIDAE ,HYMENOPTERA ,COMMERCIALIZATION ,POLLINATORS ,SUCCESS - Abstract
Commercialized bumble bees (Bombus) are primary pollinators of several crops within open field and greenhouse settings. However, the common eastern bumble bee (Bombus impatiens Cresson, 1863) is the only species widely available for purchase in North America. As an eastern species, concerns have been expressed over their transportation outside of their native range. Therefore, there is a need to identify regionally appropriate candidates for commercial crop pollination services, especially in the western U.S.A. In this study, we evaluated the commercialization potential of brown-belted bumble bees (Bombus griseocollis De Geer, 1773), a broadly distributed species throughout the U.S.A. by assessing nest initiation and establishment rates of colonies produced from wild-caught gynes, creating a timeline of colony development, and identifying lab-reared workers' critical thermal maxima (CT
Max ) and lethal temperature (ecological death). From 2019 to 2021, 70.6% of the wild-caught B. griseocollis gynes produced brood in a laboratory setting. Of these successfully initiated nests, 74.8% successfully established a nest (produced a worker), providing guidance for future rearing efforts. Additionally, lab-reared workers produced from wild-caught B. griseocollis gynes had an average CTMax of 43.5°C and an average lethal temperature of 46.4°C, suggesting B. griseocollis can withstand temperatures well above those commonly found in open field and greenhouse settings. Overall, B. griseocollis should continue to be evaluated for commercial purposes throughout the U.S.A. [ABSTRACT FROM AUTHOR]- Published
- 2022
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25. Neonicotinoid Pesticides Cause Mass Fatalities of Native Bumble Bees: A Case Study From Wilsonville, Oregon, United States.
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Hatfield, Richard G, Strange, James P, Koch, Jonathan B, Jepsen, Sarina, and Stapleton, Isaak
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BUMBLEBEES ,HONEYBEES ,BEES ,MASS casualties ,NEONICOTINOIDS ,IMIDACLOPRID ,SCIENTIFIC literature ,TIME of death - Abstract
In June of 2013 an application of dinotefuran on an ornamental planting of European linden trees (Tilia cordata Mill. [Malvales: Malvalceae]) in a shopping mall parking lot in Wilsonville, Oregon provoked the largest documented pesticide kill of bumble bees in North America. Based on geographic information systems and population genetic analysis, we estimate that between 45,830 and 107,470 bumble bees originating from between 289 and 596 colonies were killed during this event. Dinotefuran is a neonicotinoid that is highly effective in exterminating and/or harming target pest insects and non-target beneficial insects. Analysis to detect the concentration of pesticides in flowers that received foliar application revealed that the minimum reported dinotefuran concentration of a sampled T. cordata flower was 7.4 ppm, or in excess of 737% above the LC
50 of the beneficial pollinator, the honey bee (Apis mellifera Linnaeus, 1758 [Hymenoptera: Apidae]). Furthermore, sampled Vosnesensky bumble bees (Bombus vosnesenskii Radoskowski, 1862 [Hymenoptera: Apidae]) were found to have an average dinotefuran concentration of 0.92 ppm at the time of death, which exceeds the maximum LC50 of A. mellifera (0.884 ppm). Our study underscores the lethal impact of the neonicotinoid pesticide dinotefuran on pollinating insect populations in a suburban environment. To our knowledge, the documentation and impact of pesticide kills on wild populations of beneficial insects has not been widely reported in the scientific literature. It is likely that the vast majority of mass pesticide kills of beneficial insects across other environments go unnoticed and unreported. [ABSTRACT FROM AUTHOR]- Published
- 2021
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26. No sex differences in learning in wild bumblebees.
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Muth, Felicity, Tripodi, Amber D, Bonilla, Rene, Strange, James P, and Leonard, Anne S
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BUMBLEBEES ,POLLINATION ,CAPTIVE wild animals ,LEARNING ability ,ASSOCIATIVE learning ,COGNITION ,HONEYBEES ,SYRPHIDAE - Abstract
Females and males often face different sources of selection, resulting in dimorphism in morphological, physiological, and even cognitive traits. Sex differences are often studied in respect to spatial cognition, yet the different ecological roles of males and females might shape cognition in multiple ways. For example, in dietary generalist bumblebees (Bombus), the ability to learn associations is critical to female workers, who face informationally rich foraging scenarios as they collect nectar and pollen from thousands of flowers over a period of weeks to months to feed the colony. While male bumblebees likely need to learn associations as well, they only forage for themselves while searching for potential mates. It is thus less clear whether foraging males would benefit from the same associative learning performance as foraging females. In this system, as in others, cognitive performance is typically studied in lab-reared animals under captive conditions, which may not be representative of patterns in the wild. In the first test of sex and species differences in cognition using wild bumblebees, we compared the performance of Bombus vancouverensis nearcticus (formerly bifarius) and Bombus vosnesenskii of both sexes on an associative learning task at Sierra Nevada (CA) field sites. Across both species, we found that males and females did not differ in their ability to learn, although males were slower to respond to the sucrose reward. These results offer the first evidence from natural populations that male bumblebees may be equally as able to learn associations as females, supporting findings from captive colonies of commercial bees. The observed interspecific variation in learning ability opens the door to using the Bombus system to test hypotheses about comparative cognition. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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27. Substantial genetic divergence and lack of recent gene flow support cryptic speciation in a colour polymorphic bumble bee (Bombus bifarius) species complex.
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Ghisbain, Guillaume, Lozier, Jeffrey D., Rahman, Sarthok Rasique, Ezray, Briana D., Tian, Li, Ulmer, Jonah M., Heraghty, Sam D., Strange, James P., Rasmont, Pierre, and Hines, Heather M.
- Subjects
BUMBLEBEES ,GENE flow ,POLLINATION by bees ,GENETIC speciation ,SPECIES distribution ,SPECIES ,POLLINATORS - Abstract
Phenotypic polymorphism can constitute an inherent challenge for species delimitation. This issue is exemplified in bumble bees (Bombus), where species can exhibit high colour variation across their range, but otherwise exhibit little morphological variation to distinguish them from close relatives. We examine the species status of one of the most abundant North American bumble bees, Bombus bifarius Cresson, which historically comprised two major taxa, bifarius s.s. and nearcticus. These lineages are recognized primarily by red and black variation in their mid‐abdominal coloration; however, a continuum from black (nearcticus) to red (bifarius s.s.) variation has led to their historic synonymization. Integrating mitochondrial and nuclear data and whole‐genome sequencing, we reveal a high level of both mitochondrial and nuclear divergence delimiting two morphologically cryptic species – the red bifarius s.s. and the colour‐variable (black to red) nearcticus. Population genomic analysis supports an absence of recent genomic admixture and a strong population structure between the two clades, even in sympatry. Species distribution models predict partially differentiated niches between the genetically inferred clades with annual precipitation being a leading differentiating variable. The bifarius s.s. lineage also occupies significantly higher elevations, with regions of sympatry being among the highest elevations in nearcticus. Our data also support a subspecies‐level divergence between the broadly distributed nearcticus and the island population vancouverensis. In this paper, we formally recognize the two species, Bombus bifarius Cresson and Bombus vancouverensis Cresson, the latter including the subspecies B. vancouverensis vancouverensiscomb.n. and B. vancouverensis nearcticuscomb.n., with vancouverensis the name bearer due to year priority. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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28. Why Are Queens Broodless? Failed Nest Initiation Not Linked to Parasites, Mating Status, or Ovary Development in Two Bumble Bee Species of Pyrobombus (Hymenoptera: Apidae: Bombus).
- Author
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Mullins, Jessica L, Strange, James P, and Tripodi, Amber D
- Subjects
BUMBLEBEES ,BEES ,POLLINATION by bees ,APIDAE ,HYMENOPTERA ,PARASITES ,SPECIES ,PARASITOIDS - Abstract
Bumble bees (Bombus [Hymenoptera: Apidae]) are important pollinators for agricultural crops, which has led to their commercial domestication. Despite their importance, little is known about the reproductive biology of bumble bees native to North America. The Hunt bumble bee (Bombus huntii Greene [Hymenoptera: Apidae]) and the Vosnesensky bumble bee (Bombus vosnesenskii Radoszkowski [Hymenoptera: Apidae] are native candidates for commercial production in western North America due to their efficacy in providing commercial pollination services. Availability of pollinators native to the region in which services would be provided would minimize the likelihood of introducing exotic species and spreading novel disease. Some parasites are known to affect bumble bee reproduction, but little is known about their prevalence in North America or how they affect queen success. Only 38% of wild-caught B. huntii and 51% wild-caught B. vosnesenskii queens collected between 2015 and 2017 initiated nests in the laboratory. Our objective was to identify causal factors leading to a queen's inability to oviposit. To address this, we dissected each broodless queen and diagnosed diseases, assessed mating status, and characterized ovary development. Nematodes, arthropods, and microorganisms were detected in both species. Overall, 20% of queens were infected by parasites, with higher rates in B. vosnesenskii. Over 95% of both species were mated, and over 88% had developed ovaries. This suggests that parasitism and mating status were not primary causes of broodlessness. Although some failure to nest can be attributed to assessed factors, additional research is needed to fully understand the challenges presented by captive rearing. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
29. Western bumble bee: declines in the continental United States and range-wide information gaps.
- Author
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GRAVES, TABITHA A., JANOUSEK, WILLIAM M., GAULKE, SARAH M., NICHOLAS, AMY C., KEINATH, DOUGLAS A., BELL, CHRISTINE M., CANNINGS, SYD, HATFIELD, RICHARD G., HERON, JENNIFER M., KOCH, JONATHAN B., LOFFLAND, HELEN L., RICHARDSON, LEIF L., ROHDE, ASHLEY T., RYKKEN, JESSICA, STRANGE, JAMES P., TRONSTAD, LUSHA M., and SHEFFIELD, CORY S.
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BUMBLEBEES ,POLLINATION by bees ,INTRODUCED species ,LAND cover ,ENDANGERED species ,ACQUISITION of data ,MEDICAL climatology - Abstract
In recent decades, many bumble bee species have declined due to changes in habitat, climate, and pressures from pathogens, pesticides, and introduced species. The western bumble bee (Bombus occidentalis), once common throughout western North America, is a species of concern and will be considered for listing by the U.S. Fish and Wildlife Service (USFWS) under the Endangered Species Act (ESA). We attempt to improve alignment of data collection and research with USFWS needs to consider redundancy, resiliency, and representation in the upcoming species status assessment. We reviewed existing data and literature on B. occidentalis, highlighting information gaps and priority topics for research. Priorities include increased knowledge of trends, basic information on several life-history stages, and improved understanding of the relative and interacting effects of stressors on population trends, especially the effects of pathogens, pesticides, climate change, and habitat loss. An understanding of how and where geographic range extent has changed for the two subspecies of B. occidentalisis also needed. We outline data that could be easily collected in other research projects that would increase their utility for understanding range-wide trends of bumble bees. We modeled the overall trend in occupancy from 1998 to 2018 of Bombus occidentalis with in the continental United States using existing data. The probability of local occupancy declined by93% over 21 yr from 0.81 (95% CRI = 0.43, 0.98) in 1998 to 0.06 (95% CRI = 0.02, 0.16) in 2018. The decline in occupancy varied spatially by land cover and other environmental factors. Detection rates vary in both space and time, but peak detection across the continental United States occurs in mid-July. We found considerable spatial gaps in recent sampling, with limited sampling in many regions, including most of Alaska, northwestern Canada, and the southwestern United States. We therefore propose a sampling design to address these gaps to best inform the ESA species status assessment through improved assessment of how the spatial distribution of stressors influences occupancy changes. Finally, we request involvement via data sharing, participation in occupancy sampling with repeated visits to distributed survey sites, and complementary research to address priorities outlined in this paper. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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30. Local adaptation across a complex bioclimatic landscape in two montane bumble bee species.
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Jackson, Jason M., Pimsler, Meaghan L., Oyen, Kennan J., Strange, James P., Dillon, Michael E., and Lozier, Jeffrey D.
- Subjects
BUMBLEBEES ,POLLINATION by bees ,ION transport (Biology) ,SPECIES ,PHYSIOLOGICAL adaptation ,RESPIRATORY organs - Abstract
Understanding evolutionary responses to variation in temperature and precipitation across species ranges is of fundamental interest given ongoing climate change. The importance of temperature and precipitation for multiple aspects of bumble bee (Bombus) biology, combined with large geographic ranges that expose populations to diverse environmental pressures, make these insects well‐suited for studying local adaptation. Here, we analyzed genome‐wide sequence data from two widespread bumble bees, Bombus vosnesenskii and Bombus vancouverensis, using multiple environmental association analysis methods to investigate climate adaptation across latitude and altitude. The strongest signatures of selection were observed in B. vancouverensis, but despite unique responses between species for most loci, we detected several shared responses. Genes relating to neural and neuromuscular function and ion transport were especially evident with respect to temperature variables, while genes relating to cuticle formation, tracheal and respiratory system development, and homeostasis were associated with precipitation variables. Our data thus suggest that adaptive responses for tolerating abiotic variation are likely to be complex, but that several parallels among species can emerge even for these complex traits and landscapes. Results provide the framework for future work into mechanisms of thermal and desiccation tolerance in bumble bees and a set of genomic targets that might be monitored for future conservation efforts. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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31. First record of Crithidia expoeki (Trypanosomatida: Trypanosomatidae) from native Canadian bumble bees (Hymenoptera: Apidae: Bombus).
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PALMIER, KIRSTEN M., TRIPODI, AMBER D., CAMERON, ANDREW D. S., STRANGE, JAMES P., and SHEFFIELD, CORY S.
- Abstract
Bumble bees (Bombus Latrielle: Apidae) are important pollinators; however, declines of several species have been documented worldwide. Although pathogens have been linked to some declines, the biology, distribution, and impacts of most pathogens are poorly understood. Here, we report the first record of a recently characterized protozoan pathogen, Crithidia expoeki Schmid-Hempel & Tognazzo (Trypanosomatida: Trypanosomatidae), from bumble bees in Canada. This provides further insight on its global distribution and importance as a threat to bumble bees in Canada. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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32. Bombus (Hymenoptera: Apidae) Microcolonies as a Tool for Biological Understanding and Pesticide Risk Assessment.
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Klinger, Ellen G, Camp, Allison A, Strange, James P, Cox-Foster, Diana, and Lehmann, David M
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BIOPESTICIDES ,POLLINATION by bees ,APIDAE ,BEES ,BUMBLEBEES ,PESTICIDES ,HYMENOPTERA ,RISK assessment - Abstract
Bumble bees provide valuable pollination services to many wild and agricultural plants. Populations of some bumble bee species are in decline, prompting the need to better understand bumble bee biology and to develop methodologies for assessing the effects of environmental stressors on these bees. Use of bumble bee microcolonies as an experimental tool is steadily increasing. This review closely examines the microcolony model using peer-reviewed published literature identified by searching three databases through November 2018. Microcolonies have been successfully used for investigating a range of endpoints including behavior, the gut microbiome, nutrition, development, pathogens, chemical biology, and pesticides/xenobiotics. Methods for the initiation and monitoring of microcolonies, as well as the recorded variables were catalogued and described. From this information, we identified a series of recommendations for standardizing core elements of microcolony studies. Standardization is critical to establishing the foundation needed to support use of this model for biological response investigations and particularly for supporting use in pesticide risk assessment. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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33. Foraging Economics of the Hunt Bumble Bee, a Viable Pollinator for Commercial Agriculture.
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Baur, Abby, Strange, James P, and Koch, Jonathan B
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POLLINATION by bees ,BUMBLEBEES ,POLLINATORS ,AGRICULTURE ,FLORAL morphology ,APIDAE ,POLLEN - Abstract
Globally, there are only five bumble bee (Hymenoptera: Apidae, Bombus) species that have been successfully commercialized for agriculture. The Hunt bumble bee, Bombus huntii Green, 1860, has been recognized as a suitable pollinator of crops and has a broad distribution in western North America, making it a viable candidate for commercialization. In this study, our goal was to characterize the foraging dynamics of B. huntii female workers under open field conditions. To accomplish this goal, we monitored three B. huntii colonies over an 8-wk period in the summer of 2012 in northern Utah. Using marked bees, we studied the relationship between foraging duration/offloading and pollen/nonvisible pollen collection. In total, we observed 921 foraging events across all three colonies. Of our observations, 82% (n = 756) were foraging events that included both a departure and arrival time observation. Average duration of pollen and nonpollen (i.e. nectar) trips across foragers is 41.86 ± 5.65 min (±SE) and 32.18 ± 5.89 min, respectively. Workers spent a significantly longer time offloading pollen in the nest after a foraging trip relative to workers without pollen present on their corbicula. Pollen foraging rate increases over the course of the day, likely due to the time it takes to learn how to forage on a diverse array of flower morphologies. Our study provides data on how long it takes for B. huntii to forage in open field conditions and will be useful when comparing foraging rates in controlled crop systems. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
34. A homeotic shift late in development drives mimetic color variation in a bumble bee.
- Author
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Li Tian, Rahman, Sarthok Rasique, Ezray, Briana D., Franzini, Luca, Strange, James P., Lhomme, Patrick, and Hines, Heather M.
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BUMBLEBEES ,BEES ,HOMEOBOX genes ,CIS-regulatory elements (Genetics) ,GENE expression ,BACKGROUND radiation ,APIDAE - Abstract
Natural phenotypic radiations, with their high diversity and convergence, are well-suited for informing how genomic changes translate to natural phenotypic variation. New genomic tools enable discovery in such traditionally nonmodel systems. Here, we characterize the genomic basis of color pattern variation in bumble bees (Hymenoptera, Apidae, Bombus), a group that has undergone extensive convergence of setal color patterns as a result of Müllerian mimicry. In western North America, multiple species converge on local mimicry patterns through parallel shifts of midabdominal segments from red to black. Using genome-wide association, we establish that a cis-regulatory locus between the abdominal fate-determining Hox genes, abd-A and Abd-B, controls the red-black color switch in a western species, Bombus melanopygus. Gene expression analysis reveals distinct shifts in Abd-B alignedwith the duration of setal pigmentation at the pupal-adult transition. This results in atypical anterior Abd-B expression, a late developmental homeotic shift. Changing expression of Hox genes can have widespread effects, given their important role across segmental phenotypes; however, the late timing reduces this pleiotropy, making Hox genes suitable targets. Analysis of this locus across mimics and relatives reveals that other species follow independent genetic routes to obtain the same phenotypes. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
35. Characterizing bumble bee (Bombus) communities in the United States and assessing a conservation monitoring method.
- Author
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Strange, James P. and Tripodi, Amber D.
- Subjects
- *
BUMBLEBEES , *AGRICULTURAL ecology , *METHODOLOGY , *SPECIES , *BIOLOGICAL classification - Abstract
Aim: Bumble bees (Hymenoptera: Apidae: Bombus) are economically and ecologically important pollinators in agroecosystems and wildland habitats. In the Nearctic region, there are approximately 41 species, of which the IUCN lists twelve species as vulnerable, endangered, or critically endangered. We conducted a standardized faunal survey to inform ongoing conservation efforts including petitions under review for the Endangered Species Act. Furthermore, we test the appropriateness of a methodology for accurately sampling bumble bee communities. Location: The United States of America, including 31 sites in 15 states. Methods: We surveyed 15 states in the summer of 2015 to assess community composition and relative species abundance at agricultural and seminatural sites throughout the United States. We collected approximately 100 bees, using aerial nets, from each of 31 sites and identified specimens to species, totaling 3,252 bees. We assessed our survey methodology to understand whether it accurately sampled the potential community of bumble bees at each site for utility in future monitoring efforts. Results: Average site species richness was 5.1 ± 2.05, and we detected 30 of the 41 species documented historically within the contiguous United States. Sampling a site beyond 100 bees rarely added additional species detections, whereas adding additional sampling sites within an ecoregion frequently increased the species richness for the ecoregion. Thirteen of the 30 species we detected each accounted for <1% of the total fauna, and two species accounted for 49.02% of all bees captured. Species richness and evenness increased with increasing latitude across communities. Main Conclusions: Species diversity and evenness in bumble bees increases in northern latitudes and increasing elevation in the United States; however, a few common species tend to dominate communities while many species occur only in low numbers. The results of this survey effort can inform current conservation evaluations and planning. Bumble bee communities vary across the United State and several species are considered to be at risk. We assessed the community structure and evaluated a sampling technique at 31 sites in 15 states in 2015. We suggest that sampling methods were adequate to assess community structure and provide much needed baseline data for further monitoring efforts. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
36. Phylogeny and population genetic analyses reveals cryptic speciation in the Bombus fervidus species complex (Hymenoptera: Apidae).
- Author
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Koch, Jonathan B., Rodriguez, Juanita, Pitts, James P., and Strange, James P.
- Subjects
BUMBLEBEES ,ANGIOSPERMS ,INSECT populations ,INSECT phylogeny ,INSECT genetics - Abstract
Bumble bees (Bombus Latrielle) are significant pollinators of flowering plants due to their large body size, abundant setae, and generalist foraging strategies. However, shared setal coloration patterns among closely and distantly related bumble bee species makes identification notoriously difficult. The advent of molecular genetic techniques has increased our understanding of bumble bee evolution and taxonomy, and enables effective conservation policy and management. Individuals belonging to the North American Bombus fervidus species-complex (SC) are homogenous in body structure but exhibit significant body color phenotype variation across their geographic distribution. Given the uncertainty of the genealogical boundaries within the SC, some authors have synonymized all members of the B. fervidus SC within a single taxon, while others propose an alternative two taxa hypothesis. Operating under the phylogenetic species concept, our analysis supports the hypothesis that there are two independent lineages of bumble bees within the B. fervidus SC. With the current evidence, however, it is not possible to assign valid names to either of them, because both lineages include the color phenotypes found in the original species descriptions of B. fervidus and B. californicus. Cryptic speciation does not seem to be the product of Müllerian mimicry between the clades, because diverging coloration patterns are observed when the distribution of the clades overlaps. Furthermore, within each lineage there is evidence for strong population differentiation that is correlated with geographic distribution rather than color phenotype. In our study, we demonstrate the importance of obtaining a broad sample of multiple populations when conducting lower-level phylogenetic analyses. In addition to improving our knowledge of bumble bee diversification patterns, characterizing the evolutionary history of these pollinators provides the foundation needed to guide contemporary conservation assessments and management strategies. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
37. Distance, elevation and environment as drivers of diversity and divergence in bumble bees across latitude and altitude.
- Author
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Jackson, Jason M., Pimsler, Meaghan L., Oyen, Kennan Jeannet, Koch‐Uhuad, Jonathan B., Herndon, James D., Strange, James P., Dillon, Michael E., and Lozier, Jeffrey D.
- Subjects
DISPERSAL of insects ,BUMBLEBEES ,BIOGEOGRAPHY ,DISPERSAL (Ecology) ,NUCLEOTIDE sequencing ,HABITATS - Abstract
Abstract: Identifying drivers of dispersal limitation and genetic differentiation is a key goal in biogeography. We examine patterns of population connectivity and genetic diversity using restriction site‐associated DNA sequencing (RADseq) in two bumble bee species, Bombus vosnesenskii and Bombus bifarius, across latitude and altitude in mountain ranges from California, Oregon and Washington, U.S.A. Bombus vosnesenskii, which occurs across a broader elevational range at most latitudes, exhibits little population structure while B. bifarius, which occupies a relatively narrow higher elevation niche across most latitudes, exhibits much stronger population differentiation, although gene flow in both species is best explained by isolation with environmental niche resistance. A relationship between elevational habitat breadth and genetic diversity is also apparent, with B. vosnesenskii exhibiting relatively consistent levels of genetic diversity across its range, while B. bifarius has reduced genetic diversity at low latitudes, where it is restricted to high‐elevation habitat. The results of this study highlight the importance of the intersect between elevational range and habitat suitability in influencing population connectivity and suggest that future climate warming will have a fragmenting effect even on populations that are presently well connected, as they track their thermal niches upward in montane systems. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
38. A Nonlethal Method to Examine Non-Apis Bees for Mark-Capture Research.
- Author
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Boyle, Natalie K., Tripodi, Amber D., Machtley, Scott A., Strange, James P., Pitts-Singer, Theresa L., and Hagler, James R.
- Subjects
APIS (Insects) ,BEE behavior ,HONEYBEES ,POLLINATION by bees ,SPECIES distribution ,BEEKEEPING - Abstract
Studies of bee movement and activities across a landscape are important for developing an understanding of their behavior and their ability to withstand environmental stress. Recent research has shown that proteins, such as egg albumin, are effective for mass-marking bees. However, current protein mass-marking techniques require sacrificing individual bees during the data collection process. A nonlethal sampling method for protein mark-capture research is sorely needed, particularly for vulnerable, sensitive, or economically valuable species. This study describes a nonlethal sampling method, in which three non-Apis bee species (Bombus bifarius Cresson [Hymenoptera: Apidae], Osmia lignaria Say [Hymenoptera: Megachilidae], and Megachile rotundata Fabricius [Hymenoptera: Megachilidae]) were tested for a unique protein marker by immersing them momentarily in saline buffer and releasing them. Results showed that an egg albumin-specific enzyme-linked immunosorbent assay was 100% effective at detecting the protein on bees that were sampled nonlethally. Furthermore, this sampling method did not have an impact on bee survivorship, suggesting that immersing bees in buffer is a reliable and valid surrogate to traditional, destructive sampling methods for mark-capture bee studies. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
39. Rarely reported, widely distributed, and unexpectedly diverse: molecular characterization of mermithid nematodes (Nematoda: Mermithidae) infecting bumble bees (Hymenoptera: Apidae: Bombus) in the USA.
- Author
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Tripodi, Amber D. and Strange, James P.
- Subjects
- *
MERMITHIDA , *BUMBLEBEES , *ADENOPHOREA infections , *HOST-parasite relationships , *DATA analysis , *DISEASES - Abstract
Mermithid nematodes (Nematoda: Mermithida: Mermithidae) parasitize a wide range of both terrestrial and aquatic invertebrate hosts, yet are recorded in bumble bees (Insecta: Hymenoptera: Apidae: Bombus) only six times historically. Little is known about the specific identity of these parasites. In a single-season nationwide survey of internal parasites of 3646 bumble bees, we encountered six additional instances of mermithid parasitism in four bumble bee species and genetically characterized them using two regions of 18S to identify the specific host–parasite relationships. Three samples from the northeastern USA are morphologically and genetically identified as Mermis nigrescens , whereas three specimens collected from a single agricultural locality in the southeast USA fell into a clade with currently undescribed species. Nucleotide sequences of the V2–V6 region of 18S from the southeastern specimens were 2.6–3.0% divergent from one another, and 2.2–4.0% dissimilar to the nearest matches to available data. The dearth of available data prohibits positive identification of this parasite and its affinity for specific bumble bee hosts. By doubling the records of mermithid parasitism of bumble bee hosts and providing genetic data, this work will inform future investigations of this rare phenomenon. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
40. Pheromone Lure and Trap Color Affects Bycatch in Agricultural Landscapes of Utah.
- Author
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Spears, Lori R., Looney, Chris, Ikerd, Harold, Koch, Jonathan B., Griswold, Terry, Strange, James P., and Ramirez, Ricardo A.
- Subjects
PHEROMONE traps ,AGRICULTURAL ecology ,INSECT pest control ,PREDATION ,POLLINATORS - Abstract
Aerial traps, using combinations of color and attractive lures, are a critical tool for detecting and managing insect pest populations. Yet, despite improvements in trap efficacy, collection of nontarget species ("bycatch") plagues many insect pest surveys. Bycatch can influence survey effectiveness by reducing the available space for target species and increasing trap screening time, especially in areas where thousands of insects are captured as bycatch in a given season. Additionally, bycatch may negatively impact local nontarget insect populations, including beneficial predators and pollinators. Here, we tested the effect of pheromone lures on bycatch rates of Coccinellidae (Coleoptera), Apoidea (Hymenoptera), and nontarget Lepidoptera. Multicolored (primarily yellow and white) bucket traps containing a pheromone lure for capturing one of three survey target species, Spodoptera litura (F.), S. littoralis (Boisduval), or Helicoverpa armigera (Hu? bner), were placed in alfalfa and corn fields, and compared to multicolored traps without a pheromone lure. All-green traps with and without H. armigera lures were employed in a parallel study investigating the effect of lure and trap color on bycatch. Over 2,600 Coccinellidae representing seven species, nearly 6,400 bees in 57 species, and >9,000 nontarget moths in 17 genera were captured across 180 traps and seven temporal sampling events. Significant effects of lure and color were observed for multiple taxa. In general, nontarget insects were attracted to the H. armigera lure and multicolored trap, but further studies of trap color and pheromone lure specificity are needed to better understand these interactions and to minimize nontarget captures. [ABSTRACT FROM AUTHOR]
- Published
- 2016
- Full Text
- View/download PDF
41. Population genomics of divergence among extreme and intermediate color forms in a polymorphic insect.
- Author
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Lozier, Jeffrey D., Jackson, Jason M., Dillon, Michael E., and Strange, James P.
- Subjects
BUMBLEBEES ,ANIMAL coloration ,REPRODUCTIVE isolation ,PHENOTYPES ,PHYLOGEOGRAPHY - Abstract
Geographic variation in insect coloration is among the most intriguing examples of rapid phenotypic evolution and provides opportunities to study mechanisms of phenotypic change and diversification in closely related lineages. The bumble bee Bombus bifarius comprises two geographically disparate color groups characterized by red-banded and black-banded abdominal pigmentation, but with a range of spatially and phenotypically intermediate populations across western North America. Microsatellite analyses have revealed that B. bifarius in the USA are structured into two major groups concordant with geography and color pattern, but also suggest ongoing gene flow among regional populations. In this study, we better resolve the relationships among major color groups to better understand evolutionary mechanisms promoting and maintaining such polymorphism. We analyze >90,000 and >25,000 single-nucleotide polymorphisms derived from transcriptome ( RNAseq) and double digest restriction site associated DNA sequencing (dd RAD), respectively, in representative samples from spatial and color pattern extremes in B. bifarius as well as phenotypic and geographic intermediates. Both dd RAD and RNAseq data illustrate substantial genome-wide differentiation of the red-banded (eastern) color form from both black-banded (western) and intermediate (central) phenotypes and negligible differentiation among the latter populations, with no obvious admixture among bees from the two major lineages. Results thus indicate much stronger background differentiation among B. bifarius lineages than expected, highlighting potential challenges for revealing loci underlying color polymorphism from population genetic data alone. These findings will have significance for resolving taxonomic confusion in this species and in future efforts to investigate color-pattern evolution in B. bifarius and other polymorphic bumble bee species. [ABSTRACT FROM AUTHOR]
- Published
- 2016
- Full Text
- View/download PDF
42. Evidence for Bombus occidentalis (Hymenoptera: Apidae) Populations in the Olympic Peninsula, the Palouse Prairie, and Forests of Northern Idaho.
- Author
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Rhoades, Paul R., Koch, Jonathan B., Waits, Lisette P., Strange, James P., and Eigenbrode, Sanford D.
- Subjects
WESTERN bumblebee ,BEES ,POLLINATORS ,CONSERVATION biology ,ECOSYSTEMS - Abstract
Since the mid-1990s, Bombus occidentalis (Green) has declined from being one of the most common to one of the rarest bumble bee species in the Pacific Northwest of the United States. Although its conservation status is unresolved, a petition to list this species as endangered or threatened was recently submitted to the U.S. Fish and Wildlife Service. To shed light on the conservation situation and inform the U.S. Fish and Wildlife Service decision, we report on the detection and abundance of B. occidentalis following bumble bee collection between 2012 and 2014 across the Pacific Northwest. Collection occurred from the San Juan Islands and Olympic peninsula east to northern Idaho and northeastern Oregon, excluding the arid region in central Washington. B. occidentalis was observed at 23 collection sites out of a total of 234. With the exception of three sites on the Olympic peninsula, all of these were in the southeastern portion of the collection range. [ABSTRACT FROM AUTHOR]
- Published
- 2016
- Full Text
- View/download PDF
43. Molecular tools and bumble bees: revealing hidden details of ecology and evolution in a model system.
- Author
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Woodard, S. Hollis, Lozier, Jeffrey D., Goulson, David, Williams, Paul H., Strange, James P., and Jha, Shalene
- Subjects
MOLECULAR biology ,BUMBLEBEES ,BEE ecology ,BIOLOGICAL evolution ,BEE behavior - Abstract
Bumble bees are a longstanding model system for studies on behaviour, ecology and evolution, due to their well-studied social lifestyle, invaluable role as wild and managed pollinators, and ubiquity and diversity across temperate ecosystems. Yet despite their importance, many aspects of bumble bee biology have remained enigmatic until the rise of the genetic and, more recently, genomic eras. Here, we review and synthesize new insights into the ecology, evolution and behaviour of bumble bees that have been gained using modern genetic and genomic techniques. Special emphasis is placed on four areas of bumble bee biology: the evolution of eusociality in this group, population-level processes, large-scale evolutionary relationships and patterns, and immunity and resistance to pesticides. We close with a prospective on the future of bumble bee genomics research, as this rapidly advancing field has the potential to further revolutionize our understanding of bumble bees, particularly in regard to adaptation and resilience. Worldwide, many bumble bee populations are in decline. As such, throughout the review, connections are drawn between new molecular insights into bumble bees and our understanding of the causal factors involved in their decline. Ongoing and potential applications to bumble bee management and conservation are also included to demonstrate how genetics- and genomics-enabled research aids in the preservation of this threatened group. [ABSTRACT FROM AUTHOR]
- Published
- 2015
- Full Text
- View/download PDF
44. Bombus huntii, Bombus impatiens, and Bombus vosnesenskii (Hymenoptera: Apidae) Pollinate Greenhouse-Grown Tomatoes in Western North America.
- Author
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STRANGE, JAMES P.
- Subjects
BUMBLEBEES ,TOMATOES ,GREENHOUSES ,POLLINATION ,APIDAE - Abstract
Bumble bees (Bombus ) are the primary pollinators of tomatoes grown in greenhouses and can significantly increase fruit weight compared with tomatoes that receive no supplemental pollination. More than a million colonies are sold worldwide annually to meet pollination needs. Due to mounting concerns over the transportation of bumble bees outside of their native ranges, several species native to western North American are currently being investigated as potential commercial pollinators. Here, two western, Bombus huntii Greene and Bombus vosnesenskii Radoszkowski, and one eastern species, Bombus impatiens Cresson, are compared for their efficacy as pollinators of greenhouse-grown tomatoes. In two experiments, colonies were placed in greenhouses and compared with control plants that received no supplemental pollination. In the first experiment, seed set was significantly increased with B. huntii pollination in one variety of cherry tomatoes. In the second experiment comparing all three bumble bee species, fruit weight was an average of 25.2 g heavier per fruit pollinated by bees versus the control, and the number of days to harvest was 2.9 d shorter for bee-pollinated fruit. In some rounds of pollination, differences were found among bumble bee species, but these were inconsistent across replicates and not statistically significant overall. Additionally, fruit weight was shown to be highly correlated to fruit diameter and seed set in all tests and, thus, is shown to be a reliable metric for assessing pollination in future studies. These results suggest that commercialization of western bumble bees is a viable alternative to the current practices of moving of nonnative bees into western North America to pollinate tomatoes. [ABSTRACT FROM AUTHOR]
- Published
- 2015
- Full Text
- View/download PDF
45. PCR reveals high prevalence of non/low sporulating Nosema bombi (microsporidia) infections in bumble bees (Bombus) in Northern Arizona.
- Author
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Blaker, Elizabeth A., Strange, James P., James, Rosalind R., Monroy, Fernando P., and Cobb, Neil S.
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POLYMERASE chain reaction , *MICROSPORIDIA , *PARASITIC diseases , *BUMBLEBEES , *DISEASE prevalence , *DISEASES - Abstract
About 20% of bumble bee species are in decline in North America, and the microsporidian pathogen, Nosema bombi , has been correlated with these declines. We conducted a comprehensive survey of N. bombi infections in the bumble bee communities throughout the flight season along an elevation gradient in Northern Arizona. Focusing on two species, Bombus (Pyrobombus) huntii and Bombus (Pyrobombus) centralis , we used a combination of PCR and microscopy to distinguish between sporulating and non/low, sporulating N. bombi infections. Surprisingly high levels of PCR-positive infections with no detectable spore loads were found in B. huntii (31–63%) and B. centralis (56.5–66.5%), while the prevalence of sporulating infections was low (3.0–11.8% and 0–12.9% respectively). We determined the prevalence of sporulating N. bombi infection in six other co-occurring, but rarer, bumble bee species (0–62.5%,), but did not test them using PCR. The prevalence of sporulating N. bombi infections in B. (Bombias) nevadensis was significantly higher than in either B. huntii or B. centralis (29%). The declining bumble bee, Bombus sensu strico occidentalis , had the highest prevalence of sporulating N. bombi infections (62.5%), but we purposely captured very few B. occidentalis because of its declining status. PCR was a more sensitive measure of N. bombi prevalence and revealed that wild bumble bees have a much higher prevalence of N. bombi than has previously been recognized. Microscopy and PCR together provide complementary, not redundant, information that deepens our understanding of the dynamic interactions between N. bombi and their bumble bee hosts. [ABSTRACT FROM AUTHOR]
- Published
- 2014
- Full Text
- View/download PDF
46. Range Extension of Two Bumble Bee Species (Hymenoptera: Apidae) into Olympic National Park
- Author
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Koch, Jonathan B., Looney, Chris, Sheppard, Walter S., and Strange, James P.
- Published
- 2016
- Full Text
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47. Novel multiplex PCR reveals multiple trypanosomatid species infecting North American bumble bees (Hymenoptera: Apidae: Bombus).
- Author
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Tripodi, Amber D., Szalanski, Allen L., and Strange, James P.
- Subjects
- *
POLYMERASE chain reaction , *CRITHIDIA , *HOST-parasite relationships , *BUMBLEBEES , *NUCLEOTIDE sequencing , *DISEASES - Abstract
Crithidia bombi and Crithidia expoeki (Trypanosomatidae) are common parasites of bumble bees ( Bombus spp.). Crithidia bombi was described in the 1980s, and C. expoeki was recently discovered using molecular tools. Both species have cosmopolitan distributions among their bumble bee hosts, but there have been few bumble bee studies that have identified infections to species since the original description of C. expoeki in 2010. Morphological identification of species is difficult due to variability within each stage of their complex lifecycles, although they can be easily differentiated through DNA sequencing. However, DNA sequencing can be expensive, particularly with many samples to diagnose. In order to reliably and inexpensively distinguish Crithidia species for a large-scale survey, we developed a multiplex PCR protocol using species-specific primers with a universal trypanosomatid primer set to detect unexpected relatives. We applied this method to 356 trypanosomatid-positive bumble bees from North America as a first-look at the distribution and host range of each parasite in the region. Crithidia bombi was more common (90.2%) than C. expoeki (21.3%), with most C. expoeki -positive samples existing as co-infections with C. bombi (13.8%). This two-step detection method also revealed that 2.2% samples were positive for trypanosmatids that were neither C. bombi nor C. expoeki. Sequencing revealed that two individuals were positive for C. mellificae , one for Lotmaria passim , and three for two unclassified trypanosomatids. This two-step method is effective in diagnosing known bumble bee infecting Crithidia species, and allowing for the discovery of unknown potential symbionts. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
48. Land cover and climate drive shifts in Bombus assemblage composition.
- Author
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Christman, Morgan E., Spears, Lori R., Strange, James P., Pearse, William D., Burchfield, Emily K., and Ramirez, Ricardo A.
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- *
BUMBLEBEES , *LAND cover , *BIOTIC communities , *ECOLOGICAL disturbances , *AGRICULTURAL intensification , *HABITATS , *FLOWERING of plants - Abstract
Pollinators play pivotal roles in maintaining agricultural and natural plant communities, yet some bee populations are declining. Loss of pollinator habitats as a result of agricultural intensification and urbanization have reduced bee abundance and diversity. Additionally, climate change has affected bee distributions and led to disruption of plant-pollinator synchrony, impacting ecosystem processes. However, how these factors concurrently influence bee assemblages is poorly understood. Therefore, we evaluated bumble bee (Bombus) assemblages in relation to the proportion of agricultural, semi-natural, and urban land cover and interannual variation in temperature, precipitation, and relative humidity in Utah agroecosystems using Bombus captured as bycatch in pest monitoring traps from 2014 to 2018. Bombus assemblage composition was highest in agricultural sites with increased agricultural land cover in the surrounding area, low temperatures, and high relative humidity during the growing season; and lowest in sites with increased urban land cover, high temperatures, and low relative humidity. Functional dispersion did not differ among these groups indicating a range of tongue lengths, body sizes, hair lengths, and hair types were present within all agricultural sites. Further, high beta-diversity, as indicated by unique Bombus assemblages among sites, suggests that all agricultural sites in this study have potential conservation value for maintaining Bombus communities. Therefore, it is important that diverse habitats for pollinators are maintained through targeted management techniques. Additionally, our collection of Bombus from mid-May to mid-September identified phenological overlap within Bombus assemblages, which helps ensure pollination services are provided even if a particular species is lost due to environmental disturbances. However, while there is overlap in functional traits and phenology, considerations should be given due to widespread pollinator declines. Overall, evaluating landscape and climate variables together may yield more realistic results and better inform effective management and land-use planning strategies to prevent ecological homogenization and to foster future resiliency of Bombus populations. • The combined effects of land cover and climate impact Bombus in agroecosystems. • Bombus composition was highest with crop land, low temperatures and high humidity. • Bombus composition was lowest with urban land, high temperatures and low humidity. • Phenological overlap among species provides functional redundancy. • High Bombus turnover suggests all surveyed sites have conservation value. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
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49. De Novo Genome Assemblies for Three North American Bumble Bee Species: Bombus bifarius, Bombus vancouverensis, and Bombus vosnesenskii.
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Heraghty, Sam D., Sutton, John M., Pimsler, Meaghan L., Fierst, Janna L., Strange, James P., and Lozier, Jeffrey D.
- Subjects
- *
BUMBLEBEES , *BOMBUS terrestris , *INSECT pollinators , *FUNCTIONAL genomics , *GENOMES , *BEES , *POLLINATION by bees - Abstract
Bumble bees are ecologically and economically important insect pollinators. Three abundant and widespread species in western North America, Bombus bifarius, Bombus vancouverensis, and Bombus vosnesenskii, have been the focus of substantial research relating to diverse aspects of bumble bee ecology and evolutionary biology. We present de novo genome assemblies for each of the three species using hybrid assembly of Illumina and Oxford Nanopore Technologies sequences. All three assemblies are of high quality with large N50s (. 2.2 Mb), BUSCO scores indicating . 98% complete genes, and annotations producing 13,325 – 13,687 genes, comparing favorably with other bee genomes. Analysis of synteny against the most complete bumble bee genome, Bombus terrestris, reveals a high degree of collinearity. These genomes should provide a valuable resource for addressing questions relating to functional genomics and evolutionary biology in these species. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
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50. Towards a U.S. national program for monitoring native bees.
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Woodard, S. Hollis, Federman, Sarah, James, Rosalind R., Danforth, Bryan N., Griswold, Terry L., Inouye, David, McFrederick, Quinn S., Morandin, Lora, Paul, Deborah L., Sellers, Elizabeth, Strange, James P., Vaughan, Mace, Williams, Neal M., Branstetter, Michael G., Burns, Casey T., Cane, James, Cariveau, Alison B., Cariveau, Daniel P., Childers, Anna, and Childers, Christopher
- Subjects
- *
MULTILAYERS , *BEES , *POLLINATORS - Abstract
North America has more than 4000 bee species, yet we have little information on the health, distribution, and population trends of most of these species. In the United States, what information is available is distributed across multiple institutions, and efforts to track bee populations are largely uncoordinated on a national scale. An overarching framework for monitoring U.S. native bees could provide a system that is responsive to national needs, resources, and capacities. Five major action areas and priorities for structuring a coordinated effort include: (1) Defining the scope, aims, and cost of a national native bee monitoring program; (2) Improving the national capacity in bee taxonomy and systematics; (3) Gathering and cataloging data that are standardized, accessible, and sustainable; (4) Identifying survey methods and prioritizing taxa to monitor; and (5) Prioritizing geographic areas to be monitored. Here, we detail the needs, challenges, and opportunities associated with developing a multi-layered U.S. national plan for native bee monitoring. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
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