Description
These specimens are bees that have been gathered from Ontario's Far North as a part of the Far North Biodiversity Project with the Ontario Ministry of Natural Resources and Forestry, and from Akimiski Island Nunavut. Akimiski specimens were gathered at the research station therein. Most of these bee specimens are bycatch from traps intended to catch biting flies. This dataset is to published in an upcoming article in the Journal of the Entomological Society of Ontario.
Data Records
The data in this occurrence resource has been published as a Darwin Core Archive (DwC-A), which is a standardized format for sharing biodiversity data as a set of one or more data tables. The core data table contains 93 records.
This IPT archives the data and thus serves as the data repository. The data and resource metadata are available for download in the downloads section. The versions table lists other versions of the resource that have been made publicly available and allows tracking changes made to the resource over time.
Versions
The table below shows only published versions of the resource that are publicly accessible.
How to cite
Researchers should cite this work as follows:
Vizza K (2021): Bees (Hymenoptera : Apoidea) of Far Northern Ontario and Akimiski Island, Nunavut. v1.0. University of Toronto Scarborough. Dataset/Occurrence. https://doi.org/10.5886/kfhmpn
Rights
Researchers should respect the following rights statement:
The publisher and rights holder of this work is University of Toronto Scarborough. To the extent possible under law, the publisher has waived all rights to these data and has dedicated them to the Public Domain (CC0 1.0). Users may copy, modify, distribute and use the work, including for commercial purposes, without restriction.
GBIF Registration
This resource has been registered with GBIF, and assigned the following GBIF UUID: 21276ae8-ac03-4ae2-a3d3-37e9886c15ea. University of Toronto Scarborough publishes this resource, and is itself registered in GBIF as a data publisher endorsed by Canada Biodiversity Information Facility.
Keywords
Occurrence; Osmia; biodiversity; pollinators; boreal forest; DNA barcode; bilateral gynandromorph; arctic; Specimen; Occurrence
Contacts
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Geographic Coverage
Ontario's Far North and Akimiski Island, Nunavut.
| Bounding Coordinates | South West [49.354, -95.054], North East [56.511, -79.585] |
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Temporal Coverage
| Living Time Period | Spring and Summer (2010-2017) |
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Project Data
Abstract Bees (Hymenoptera: Anthophila) are important pollinators in northern Canada but observations of species occurrences in such remote regions are largely lacking. We report on bee species surveys across 22 sites in northern Ontario and neighbouring Akimiski Island in Nunavut, using coloured pan traps, hand netting, Malaise traps, and Nzi traps over five years in Ontario and nine years in Nunavut. From morphological identification and DNA barcoding, we identified 30 species from 93 specimens. We document four new occurrence records for Nunavut, Megachile circumcincta (Kirby, 1802) (Megachilidae), Megachile melanophaea Smith, 1853 (Megachilidae), Osmia paradisica Sandhouse, 1924 (Megachilidae) and Halictus virgatellus Cockerell, 1901 (Halictidae). Also, we report on a bilaterally gynandromorphic M. melanophaea from Akimiski Island and a new CO1 barcode for the rare Osmia nearctica Rightmyer, Griswold and Arduser, 2010 (Megachilidae). These northern collections represent one of the most comprehensive surveys of wild bees in the southern Hudson Bay region, filling an important biogeographic gap for Canada.
| Title | Wild bees (Hymenoptera: Anthophila) from remote surveys in northern Ontario and Akimiski Island, Nunavut including four new regional records |
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| Identifier | BOLD Project Number: KMVMT |
| Funding | Symons Trust Fund for Canadian Studies grant for $3000 to barcode the specimens. Field Work was funded by the Ontario Ministry of Natural Resources and Forestry |
| Study Area Description | Ontario’s Far North Ontario’s Far North region is that area that occurs roughly above 50°N latitude and extends to the northern and eastern coastline of Hudson Bay and James Bay. The climate here is characterized by long, cold winters and short, cool summers, and is part of the subarctic climate zone of Canada. This area is large and remote, and access to many locations is possible only by helicopter, which is costly. The land cover is split into two ecozones. The Boreal Shield ecozone is composed of Archean age bedrock, and the primary vegetation is coniferous trees such as black spruce, jack pine and balsam fir, with deciduous trees like birches and balsam poplars in the Boreal Shield’s southern reaches. The Hudson Bay Lowlands ecozone is predominantly peatland, swamps and bogs, and vegetation consisting of largely stunted trees such as spruce and tamarack, shrubs such as willows, combined with dense mats of sphagnum and various grasses. As there are rich mineral resources in the Far North’s “Ring of Fire” region and mining operations are likely to commence in the next 10 years, the timing could not be better to understand what bee species live in the Far North. This is especially critical now that we have seen that some bee species are in serious decline. Akimiski Island, Nunavut Akimiski Island is located off the coast of northern Ontario in James Bay, and is in many ways Ontario’s Far North in miniature. It is included in the Hudson Bay Lowlands ecozone. As such, it has a similar climate and vegetative composition in the north and east,but is more like the Boreal Shield ecozone to the south and west of the island in terms of vegetation . Gibson et al. (2018) conducted a survey of the bumblebees (Bombus) in Ontario’s Far North and on Akimiski Island, but no other native bees have ever been examined in these areas until now. This project is the first to cover such a wide range of native bee species from this region. Surveying these areas will improve our understanding of bees, an important component of biodiversity, in these understudied and remote areas in the North. |
| Design Description | Trapping in Ontario’s Far North — Two ecozones of Ontario’s Far North were sampled: The Boreal Shield ecozone and the Hudson Bay Lowlands ecozone. Bees were caught in pan traps (blue, yellow, white), Malaise traps, Nzi traps and by hand netting. Malaise traps catch many flying insect taxa, and do not tend to attract one taxon over another, while Nzi traps target blood feeding Diptera such as Tabanidae (Figure 2.2). Each trap was set up in the same array at every site. One Malaise trap and one Nzi trap were located near the field camp, where the field personnel set up their tents in a location coinciding with areas that flying insects were likely to be found (e.g. a clearing in a wooded area, a streambed). A single Nzi trap was deployed 10 similarly to Malaise traps. These traps were deployed for 12 hours/day for the five days spent at each site. The collecting head, a plastic jar at the top of the trap which the insects crawl into and are killed, contained 80% denatured ethanol (Ringrose 2014). Specimens were removed at the end of each day and stored in 500-ml sample jars in 70% ethanol. Nine pan traps were also deployed near the field camp arrayed in an ‘X’ shape; traps were 2.25 m apart from each other in a 11.2-m diameter plot (Gan et al. 2009) and pans of different colours (white, yellow and blue) were placed randomly within the array, to ensure that pans would not collect bees in an unbiased fashion. Pans were charged with RV antifreeze as a killing agent and emptied on the same schedule as the Malaise trap. Upon emptying each day, specimens from different coloured pans were grouped together by colour. All FNBP insect collections are stored at the David Beresford entomology lab, Trent University, Peterborough, Ontario, Canada. Akimiski Trapping — Sampling on Akimiski Island, Nunavut, was conducted at a single site using the same trapping method as with the FNBP. The research station on the island was a small, fenced-in area where the trapping took place, approximately 50 m x 60 m (Figure 2.3). The primary vegetative cover was spruce and various shrubs on the inland side of the camp, and flat shoreline (Vezsenyi et al. 2019). All traps were deployed for 12 hours at the research station. Occasional collecting with hand nets took place at other sites on the island on an ad hoc basis. It was difficult to deploy pan, Malaise, or Nzi traps away from the fenced-in field station due to the common occurrences of polar bears on the island, which presented an element of danger to the collector, and would destroy traps. Akimiski Island specimens were placed in sample jars with 70% ethanol. |
The personnel involved in the project:
Sampling Methods
Trapping in Ontario’s Far North — Two ecozones of Ontario’s Far North were sampled: The Boreal Shield ecozone and the Hudson Bay Lowlands ecozone. Bees were caught in pan traps (blue, yellow, white), Malaise traps, Nzi traps and by hand netting. Malaise traps catch many flying insect taxa, and do not tend to attract one taxon over another, while Nzi traps target blood feeding Diptera such as Tabanidae (Figure 2.2). Each trap was set up in the same array at every site. One Malaise trap and one Nzi trap were located near the field camp, where the field personnel set up their tents in a location coinciding with areas that flying insects were likely to be found (e.g. a clearing in a wooded area, a streambed). A single Nzi trap was deployed 10 similarly to Malaise traps. These traps were deployed for 12 hours/day for the five days spent at each site. The collecting head, a plastic jar at the top of the trap which the insects crawl into and are killed, contained 80% denatured ethanol (Ringrose 2014). Specimens were removed at the end of each day and stored in 500-ml sample jars in 70% ethanol. Nine pan traps were also deployed near the field camp arrayed in an ‘X’ shape; traps were 2.25 m apart from each other in a 11.2-m diameter plot (Gan et al. 2009) and pans of different colours (white, yellow and blue) were placed randomly within the array, to ensure that pans would not collect bees in an unbiased fashion. Pans were charged with RV antifreeze as a killing agent and emptied on the same schedule as the Malaise trap. Upon emptying each day, specimens from different coloured pans were grouped together by colour. All FNBP insect collections are stored at the David Beresford entomology lab, Trent University, Peterborough, Ontario, Canada. Akimiski Trapping — Sampling on Akimiski Island, Nunavut, was conducted at a single site using the same trapping method as with the FNBP. The research station on the island was a small, fenced-in area where the trapping took place, approximately 50 m x 60 m (Figure 2.3). The primary vegetative cover was spruce and various shrubs on the inland side of the camp, and flat shoreline (Vezsenyi et al. 2019). All traps were deployed for 12 hours at the research station. Occasional collecting with hand nets took place at other sites on the island on an ad hoc basis. It was difficult to deploy pan, Malaise, or Nzi traps away from the fenced-in field station due to the common occurrences of polar bears on the island, which presented an element of danger to the collector, and would destroy traps. Akimiski Island specimens were placed in sample jars with 70% ethanol.
| Study Extent | Akimiski Island, Ontario's Far North (50 degrees north latitude and above, traps emptied daily, spring and summer from 2010-2014 for Ontario and 2010-2017 for Akimiski Island |
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| Quality Control | Expert taxonomic review and DNA barcoding were used to ensure that the species identification of each specimen caught was correct. |
Method step description:
- The FNBP terrestrial survey in northern Ontario occurred between June and July from 2010-2014 at >400 distinct sites distributed across 91 temporary field camps (Figure 1). Sites were predetermined along intersecting transect lines that extended outward from field camps. Each site was visited once (e.g., in only one year; Figure 1) and surveyed daily for seven days. Insects, including bees, were collected using four methods: pan traps used to catch flower-visiting insects [shallow, 5 oz dishes painted one of three colours of Rustoleum Tremclad spray paint: white (colour code: RAL 9010), yellow (RAL 1026), and light blue (RAL 5012)], Nzi traps (a biting fly trap, Figure 2B; Mihok 2002), Malaise traps (Figure 2C), and by hand netting once per day. Nine pan traps (3 of each colour) were deployed near the field camp in an ‘X’ shape, spaced a minimum 2.25 m apart where there was sufficient bare ground (Gan et al. 2009). Pans were filled with a propylene glycol mixture consisting of 50% water and 50% non-toxic antifreeze (Starbrite RV Anti-freeze). At each field camp, if there was a dry, open-canopied area (e.g., not in a densely wooded landscape or submerged in water), a Malaise trap and Nzi trap were placed nearby. Both traps were outfitted with collecting heads filled with 80% denatured ethanol (Ringrose et al. 2014). All traps were emptied each day, and captured insects were stored in 500 ml sample jars in 80% ethanol. Specimens from Akimiski Island were collected by the author DVB from mid-July to early August of 2008-2017. Sampling took place at the research station (53°04'02"N, 80°58'14"W; Figure 2D) using Malaise, Nzi, and pan traps deployed from dawn to dusk each day (minimum 2.25m apart within a fenced camp area to protect researchers from polar bears (Ursus maritimus Phipps, 1774, Ursidae) (Figure 2E). Pan traps were filled with propylene glycol (as in northern Ontario) but because these were remote sites with limited access, soapy water was used in some deployments. Sweep netting of vegetation for general insect surveying was conducted ad hoc in the surrounding vicinity outside the fence, and farther away when opportunities arose. Captured specimens were stored in 80% ethanol, grouped by trap type and catch date. Identification and Curation Collections were processed at Trent University and identified to genus by the author KMV using Packer et al. (2007) and Ascher and Pickering (2018), then to species by the author KLJH using dichotomous keys [Anthophora Latreille, 1803, Coelioxys Latreille, 1809, Hoplitis Klug, 1807: Mitchell (1962), Ascher and Pickering (2018); Megachile Latreille, 1802: Sheffield et al. (2011); Osmia Panzer, 1806: Rightmyer et al. (2010), and additional consultation with M. Rightmyer, Andrena Fabricius 1775: Laberge and Ribble (1975), Laberge (1980), Laberge (1986); Halictus Latreille 1804: Mitchell (1960), Roberts (1973); Lasioglossum Curtis, 1833: Gibbs (2010), Gibbs (2013); Colletes Latreille, 1802: Romankova (2003), Stephen (1954), Mitchell (1960)], and referencing specimens in the Packer Collection at York University, the Royal Ontario Museum, and the Biodiversity of Urban Green Spaces (‘BUGS’) Lab at the University of Toronto Scarborough. We additionally obtained CO1 DNA barcodes for each specimen following standard protocols (Canadian Centre for DNA Barcoding, Ivanova et al. 2006). We compared the resulting sequences to those uploaded to the Barcode of Life Data (BOLD) systems and cross-referenced sequences in GenBank (Benson et al. 2018) using the Basic Local Alignment Search Tool (BLAST; Zhang et al. 2000). We used ≥ 98% genetic matches to assign species identities (Packer et al. 2009). The goal of obtaining CO1 barcodes was to confirm taxonomy-based determinations in cases where pre-existing barcodes were available, and to contribute novel barcodes for species and geographical populations not yet represented in barcode libraries. The full list of bee species, their abundances, and GenBank accession numbers are available in Supplementary Materials 1. Descriptions of life history traits (pollen specialization, sociality, and nesting preference) for each species are included in Supplementary Materials 2. We summarize the known province and territory distribution for each species based on published collections and peer-reviewed literature in Supplementary Materials 3. Georeferenced species occurrence records were uploaded to Canadensys for databasing on the Global Biodiversity Information Facility (GBIF) (Vizza et al. 2021 DOI forthcoming). All bee specimens are curated in the BUGS Lab at University of Toronto Scarborough.
Collection Data
| Collection Name | Biodiversity of Urban Greenspaces Lab: Far North Bee Collection |
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| Parent Collection Identifier | Not applicable |
| Specimen preservation methods | Pinned |
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Additional Metadata
| Alternative Identifiers | 10.5886/kfhmpn |
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| https://data.canadensys.net/ipt/resource?r=bugs_specimens |