Coleoptera of Canada.

The beetle fauna of Canada was assessed, including estimates of yet unreported diversity using information from taxonomists and COI sequence clusters in a BOLD (Barcode of Life Datasystems) COI dataset comprising over 77,000 Canadian records. To date, 8302 species of Coleoptera have been recorded in Canada, a 23% increase from the first assessment in 1979. A total of 639 non-native beetle species have become established in Canada, with most species in the Staphylinidae (153 spp.), Curculionidae (107 spp.), Chrysomelidae (56 spp.) and Carabidae (55 spp.). Based on estimates from the taxonomic community and our BOLD dataset, we estimate that slightly more than 1000 beetle species remain to be reported from Canada, either as new records or undescribed species. Renewed enthusiasm toward and financial support for surveys, especially in the central and western provinces of Canada will be critical for detecting, documenting and describing these species. The Barcode of Life database is still far from comprehensive for Canadian Coleoptera but substantial progress has been made and the number of Barcode Index Numbers (BINs) (as candidate species) has reached nearly 70% of the number of species reported from Canada. Comparison of BINs to observed species in a group of Canadian Staphylinidae suggests that BINs may provide a good estimate of species diversity within the beetles. Histeridae is a diverse family in Canada that is notably underrepresented in BOLD. Families such as Mordellidae, Scraptiidae, Latridiidae, Ptiliidae and Scirtidae are poorly known taxonomically in Canada and are represented in our BOLD dataset by many more BINs than recorded species.

Campbell et al. (1979) provided the first thorough assessment of the biology and diversity of Canadian beetles. That important contribution, based on unpublished lists of Canadian beetle species, was followed by two checklists of Canadian beetle species (Bousquet 1991, Bousquet et al. 2013) that form the foundation of the results presented below. New Canadian records published since Bousquet et al. (2013) are listed in Table 1 under the respective families. Beetle classification has changed significantly over recent decades and continues to improve based on results of phylogenetic analyses of ever-larger datasets. Generally, we follow the classification used in Bousquet et al. (2013) with the following changes: , and separate from (Short and Fikáček 2013); and as (Robertson et al. 2015); distinct from (Cline et al. 2014); cerylonid series families as superfamily (Robertson et al. 2015); and distinct from (Robertson et al. 2015); distinct from (Robertson et al. 2015); and distinct from (Robertson et al. 2015); distinct from (Shin et al. 2018).

Table 1.

Census of in Canada. Information sources refer to those available since the publication of Bousquet et al. (2013).

Taxon1	No. species reported in Campbell et al. (1979)	No. species currently known from Canada2	No. BINs3 available for Canadian species	Est. no. undescribed or unrecorded in Canada	General distribution by ecozone3A	Information sources
Suborder Archostemata
Cupedidae	3	3	3	0	Mixedwood Plains, Montane Cordillera
Micromalthidae	1	1	0	0	Pacific Maritime
Suborder Adephaga
Amphizoidae	3	3	2	0	Pacific Maritime, Boreal Cordillera, Montane Cordillera
Carabidae	8614	983 (55)	652	150	all ecozones	Lewis et al. 2015
Dytiscidae	285	280	181	7	all ecozones
Gyrinidae	30	34	29	0	all except Arctic
Haliplidae	38	35	20	0	southern Arctic and southward	van Vondel and Alarie 2016
Noteridae	0	2	1	0	Mixedwood Plains
Rhysodidae	?4	2	1	0	Pacific Maritime, Mixedwood Plains
Trachypachidae	?4	2	2	0	Boreal Plains, Mountain Cordillera
Suborder Polyphaga
Superfamily Scirtoidea
Eucinetidae	5	7 (1)	6	2	Boreal ecozones and southward
Clambidae	3	7 (2)	6	0	Boreal ecozones and southward
Scirtidae 5	12	25 (1)	46	21	Taiga ecozones and southward
Superfamily Hydrophiloidea
Histeridae	87	137 (12)	22	11	all except Arctic	Brousseau et al. 2014
Georissidae	1	1	0	0	Montane Cordillera, Prairies
Helophoridae	?6	27 (1)	22	0	southern Arctic and southward
Hydrochidae	?6	8	4	0	Boreal ecozones and southward
Hydrophilidae	1806	113 (18)	89	3	southern Arctic and southward
Sphaeritidae	1	1	0	0	Pacific Maritime, Montane Cordillera, Western Interior Basin
Superfamily Staphylinoidea
Agyrtidae	?7	7	2	0	Cordilleras and Mixedwood Plains
Hydraenidae	13	27	8	0	all except Arctic
Leiodidae	838	181 (2)	131	15	all except Arctic	Peck and Newton 2017
Ptiliidae	20	48 (12)	69	75	all except Arctic
Silphidae	277	27 (1)	21	2	all except Arctic	Sikes et al. 2016
Staphylinidae	9349	1774 (153)	1135	370	all ecozones	Klimaszewski et al. 2018, A Davies pers. comm.
Superfamily Scarabaeoidea
Geotrupidae	?10	12 (1)	10	2	all ecozones south of boreal
Glaphyridae	?10	1	0	1	Pacific Maritime
Glaresidae	?10	2	1	3	Montane Cordillera, Prairies
Hybosoridae	?10	1	1	0	Mixedwood Plains
Superfamily Scarabaeoidea
Lucanidae	10	14	10	2	southern Taiga ecozones, Hudson Plains and southward
Ochodaeidae	?10	4	2	0	Montane Cordillera, Prairies, Mixedwood Plains
Passalidae	1	1	0	0	Mixedwood Plains, Prairies
Scarabaeidae	21010	220 (23)	173	24	all except Arctic
Trogidae	?10	15	6	2	south of Taiga ecozones and Boreal Cordillera
Superfamily Dascilloidea
Rhipiceridae	1	1	0	0	Mixedwood Plains
Superfamily Buprestoidea
Buprestidae	200	178 (6)	128	6–18	southern Arctic and southward	Lyons et al. 2014
Superfamily Byrrhoidea
Byrrhidae	31	26 (3)	25	3	southern Arctic and southward
Dryopidae	3	6 (1)	0	0	Boreal ecozones and southward
Elmidae	16	32	14	0	Hudson Plains, Boreal ecozones and southward
Heteroceridae	16	28	9	0	Hudson Plains, Boreal ecozones and southward
Superfamily Byrrhoidea
Limnichidae	5	3	0	0	Boreal Plains, Boreal Shield, Mixedwood Plains
Lutrochidae	0	1	1	0	Mixedwood Plains
Psephenidae	1	4	3	0	Mixedwood Plains, Atlantic Maritime
Ptilodactylidae	2	4	8	4	south of Boreal in the west, Boreal Shield, Mixedwood Plains
Superfamily Elateroidea
Artematopodidae	4	5	5	0	south of Boreal in the west, Boreal Shield, Mixedwood Plains
Cantharidae	111	151 (3)	103	5	southern Arctic and southward
Elateridae	350	385 (7)	302	20–58	southern Arctic and southward	Webster et al. 2016b
Eucnemidae	30	39	27	4	Boreal ecozones and southward	Webster et al. 2016b
Lampyridae	26	32 (1)	31	2	Hudson Plains, Boreal and southward
Lycidae	23	29	37	8	Boreal ecozones and southward
Phengodidae	2	1	2	1	Mixedwood Plains
Throscidae	8	8	19	11	Boreal ecozones and southward
Superfamily Derodontoidea
Derodontidae	6	8 (1)	4	0	Boreal ecozones and southward
Nosodendridae	1	2	0	0	Montane Cordillera, Mixedwood Plains
Superfamily Bostrichoidea
Bostrichidae	2411	24 (4)	13	1–2	Taiga ecozones and southward
Dermestidae	39	47 (16)	29	3–5	southern Arctic and southward
Endecatomidae	?11	1	0	0	Prairies, Boreal Shield, Mixedwood Plains, Atlantic Maritime
Ptinidae	8512	99 (19)	64	6–9	Taiga ecozones and southward	Webster et al. 2016b
Superfamily Lymexyloidea
Lymexylidae	1	1	1	0	Boreal Shield, Boreal Plains, Mixedwood Plains, Atlantic Maritime
Superfamily Tenebrionoidea
Aderidae 13	8	11 (2)	11	1	Boreal Shield and southwards in the east, south of boreal in the west	Barber and Bouchard 2017
Anthicidae	25	65 (3)	33	12	Taiga ecozones and southward
Boridae	?14	2	2	0	Taiga ecozones and southward
Ciidae	23	29 (1)	25	0	Taiga ecozones and southward
Superfamily Tenebrionoidea
Ischaliidae	?15	2	2	0	Montane Cordillera, Western Interior Basin, Boreal Shield, Mixedwood Plains, Atlantic Maritime, Pacific Maritime
Melandryidae	3516,19	43	40	0	Taiga ecozones and southward
Meloidae	40	46	34	0	Boreal ecozones and southward
Mordellidae	5017	75	107	42	Boreal ecozones and southward
Mycetophagidae	10	16 (2)	15	0	Boreal ecozones and southward
Mycteridae	2	4	2	0	Montane Cordillera, Mixedwood Plains, Atlantic Maritime
Oedemeridae	15	13 (1)	7	0	Boreal ecozones and southward
Prostomidae	1	1	0	0	Pacific Maritime
Pyrochroidae	2115	21	15	0	Boreal ecozones and southward
Pythidae	?14	6	9	3	Boreal ecozones and southward
Ripiphoridae	7	11	2	0	Boreal Shield and southwards in the east, south of boreal in the west
Salpingidae	1014	10 (1)	9	0	Taiga ecozones and southward
Scraptiidae	?14,17	20	48	30	Boreal ecozones and southward
Stenotrachelidae 18	6	9	6	0	Boreal ecozones and southward
Synchroidae	?19	2	1	0	Boreal Shield, Prairies, Mixedwood Plains, Atlantic Maritime
Tenebrionidae	10620	137 (15)	92	10	Taiga ecozones and southward	Bousquet et al. 2018
Tetratomidae	8	20 (1)	16	0	Boreal ecozones and southward
Zopheridae	2321,22	19 (1)	6	0	Boreal ecozones and southward
Superfamily Cleroidea
Biphyllidae	1	1	0	2	Mixedwood Plains, Atlantic Maritime
Byturidae	2	1	1	0	Boreal ecozones and southward
Cleridae	40	52 (6)	36	3	Boreal ecozones and southward
Melyridae	30	53 (2)	46	0	Boreal ecozones and southward
Trogossitidae	23	22	4	0	Taiga ecozones and southward
Superfamily Cucujoidea
Cucujidae	2524	8	6	0	Taiga ecozones and southward
Cryptophagidae	45	68 (10)	71	5	Taiga ecozones and southward
Cybocephalidae	?25	1	4	3	Montane Cordillera, Prairies, Mixedwood Plains
Erotylidae	17	28 (1)	20	0	Boreal ecozones and southward
Kateretidae	?25	8 (2)	5	2	Taiga ecozones and southward
Laemophloeidae	?24	13 (3)	13	0	Boreal Shield and southwards in the east, south of boreal in the west
Monotomidae 26	15	27 (5)	13	6	Montane Cordillera, Western Interior Basin, Mixedwood Plains, Atlantic Maritime, Pacific Maritime
Nitidulidae	9525	99 (11)	78	12	Taiga ecozones and southward	Webster et al. 2016c
Passandridae	?24	1	1	0	Mixedwood Plains
Phalacridae	10	8	19	11	Boreal Shield and southwards in the east, south of boreal in the west
Superfamily Cucujoidea
Sphindidae	3	6	5	0	south of Boreal ecozones
Silvanidae	?23	16 (6)	8	0	Boreal ecozones and southwards
Superfamily Coccinelloidea
Anamorphidae	?26	2 (1)	2	0	Mixedwood Plains, Atlantic Maritime
Bothrideridae	?22	3	0	0	Montane Cordillera, Western Interior Basin, Pacific Maritime, Mixedwood Plains
Cerylonidae	627	4	5	1	Boreal ecozones and southward
Coccinellidae	120	162 (10)	136	0	Taiga ecozones and southward	Ratzlaff et al. 2016
Corylophidae	5	16 (2)	24	8	Boreal ecozones and southward
Endomychidae	1026	13	9	1	Boreal ecozones and southward
Euxestidae	?27	2	0	0	Mixedwood Plains, Atlantic Maritime
Latridiidae	45	60 (21)	83	23	Taiga ecozones and southward
Mycetaeidae	?26	1 (1)	0	0	Boreal Shield, Mixedwood Plains, Atlantic Maritime, Pacific Maritime
Murmidiidae	?27	2 (1)	1	0	Boreal Shield, Mixedwood Plains
Teredidae	?22	1	0	0	Pacific Maritime
Superfamily Curculionoidea
Anthribidae	18	22 (1)	20	2	Boreal ecozones and southward	Webster et al. 2016c
Attelabidae	?28	14	14	2	Boreal Shield and southwards in the east, south of boreal in the west
Brachyceridae	?28	18 (2)	10	0	Taiga ecozones and southward
Brentidae	?28	48 (8)	54	15	Taiga ecozones and southward
Cimberididae 29	4	8	7	0	Boreal ecozones and southward
Curculionidae	111328	826 (107)	433	75	southern Arctic and southward	Webster et al. 2016c, de Tonnancour et al. 2017
Dryophthoridae	?28	27 (3)	10	0	Boreal ecozones and southward
Superfamily Chrysomeloidea
Cerambycidae	350	375 (9)	306	10–30	southern Arctic and southward	Bousquet et al. 2017
Chrysomelidae	58830	595 (56)	339	40–170	southern Arctic and southward	Marshall and Paiero 2016
Megalopodidae	?30	7 (1)	4	0	Boreal Shield and southwards in the east, south of boreal in the west
Orsodacnidae	?30	1	1	0	Boreal Shield and southwards in the east, south of boreal in the west
Total	6742	8302 (639)	5750	1078−1284

Classification following Bousquet et al. (2013) with updates from Short and Fikáček (2013), Robertson et al. (2015), Cline et al. (2014), Shin et al. (2018). Current Canadian richness based on Bousquet et al. (2013) with updates from the literature indicated under ‘Information sources’, the number in parentheses represents the number of non-native species included in the total. Barcode Index Number, as defined in Ratnasingham and Hebert (2013).

Family-level classification in Campbell et al. (1979) differing from the present study includes: and as ; as former ; and as ; as ; former treated separately; former , , and treated separately; all scarabaeoid families except and treated as ; as and former treated separately; former treated separately; as former ; and treated as ; former treated separately and as ; some as ; some as ; as former ; as ; former and treated separately; former treated separately; and as former ; , and as ; and as ; as former ; and as ; and as ; former and treated separately, and , , () and as ; as subfamily of ; and as , and former treated separately.

Coleopterists within the taxonomic community were asked for estimates of undescribed and unreported Canadian beetles in their group of specialisation (contributors listed in Acknowledgments). Estimates accounted for both unrecognised distribution records and undescribed species, including those indicated by BINs (see below). In cases of multiple estimates, a range was reported to show the minimum and maximum values. We stress that these values were not intended to be precise but were included to provide the reader with an estimate of how well each group is known taxonomically in Canada. A dataset comprised of 77,626 Canadian records associated with a BIN (Barcode Index Number, Ratnasingham and Hebert (2013)) in BOLD (Barcode of Life Datasystems) was also used to estimate beetle diversity in Canada. Number of BINs was used as a proxy for species diversity in Canada with the caveat that there will be instances where closely related species may share a BIN or a single species may be represented by multiple BINs. Beetle families with fewer reported species than BINs were estimated to contain in Canada at least as many undescribed or unreported species as BINs. Families with many more described species than BINs are considered to be underrepresented in BOLD and would benefit from focused sequencing and collecting effort in the future.

Canadian beetles are classified in the suborders , , and (Table 1). Currently, 8302 species have been recorded in Canada (Table 1), a 23% increase from 6742 in 1979, 13% from 7326 in 1991 and 1.8% from 8149 in 2013). The number of Canadian species in the families , , , , , , , and have more than doubled since 1979 (Table 1). The four most diverse families of beetles in Canada are the (1774 spp.), (983 spp.), (826 spp.) and (595 spp.) (Table 1). Of these, the number of Canadian has increased most since 1979 (by 840 species, 90%) and the total number of species in Canada might eventually exceed 2000 (Table 1). The number of BINs in the BOLD database (Table 1) for Canadian is nearly 70% of the number of known beetle species for Canada. All of the higher groups of Canadian beetles have associated BINs except for the polyphagan superfamily , with the single Canadian species Knoch.

Although our knowledge of Canadian beetle diversity has steadily increased between 1979, 1991, 2013 and 2018, significant contributions can still be made in each province and territory as sampling has been far from exhaustive (for overall estimates of undescribed or unrecorded beetle species, see Table 1). Most biomes in Canada are still only superficially sampled, especially those in central and western Canada. Despite much recent survey work over the past 15 years, more than 300 species were added to the provincial beetle fauna of New Brunswick only two years ago (Webster et al. 2016a). Continued survey work, using a variety of collection techniques, will be necessary for Canada to respond to important changes to its dynamic fauna, such as new invasive species and thermophilic species expanding their range northward in response to global climate change.

In total, 639 non-native beetle species are established in Canada (Table 1), although some of these may eventually be proven to be naturally Holarctic. While a few were introduced intentionally for the biological control of weeds and insects (e.g., De Clerck-Floate and Cárcamo 2011), most have been introduced into North America accidentally through various pathways including dry ballast, wood packing material, and agricultural and horticultural commodities such as stored grain, moss and plant stock (e.g., Klimaszewski and Brunke 2018). The families with the highest number of non-native species in Canada are (153 spp.), (107 spp.), (56 spp.), and (55 spp.).

Nineteen beetle families are currently not or only poorly represented in BOLD by Canadian specimens, i.e., the number of BINs is <20% of the number of recorded species in Canada, making it difficult to use barcode data to assess overall taxonomic knowledge (Table 1). These families typically contain few known species in Canada based on published taxonomic data (Table 1). Sixteen of these families are not represented in BOLD by Canadian specimens: (); and (); and (); (); and (); (); (); (); (); , , , and (). Efforts are underway to generate DNA barcodes for these families based on Canadian specimens. The family , which has more than 130 species in Canada, is particularly underrepresented, with only 22 BINs (i.e., approximately 16% of the known diversity) currently available in BOLD. Most members of this family are small, and live in microhabitats that are not sampled frequently such as mammal and bird nests, or under bark (Bousquet and Laplante 2006). This lack of representation could also be partly due to sequencing bias against resulting from primer mismatch, or differences in DNA preservation at the collecting and archiving stages. For example, only 3% (8/256) of a diverse sample of specimens from the Canadian National Collection of Insects, Arachnids and Nematodes (CNC, Agriculture and Agri-Food Canada) yielded barcode-compliant (and therefore BIN-compatible) sequences, versus 22% of submitted CNC (522/2356).

Based on the number of BINs in BOLD for Canadian specimens, sixteen beetle families are more diverse in Canada than would appear from the recorded number of species (Table 1). The families where the number of BINs most greatly exceeds the number of species reported in Canada are: (+32 BINs) and (+28 BINs) (), (+23 BINs) (), (+21 BINs) (), and (+21 BINs) (). These families, generally with poorly known and small-sized species, require focused taxonomic studies because they may contain many undescribed species or described species yet unreported from Canada. This work should reconcile the unidentified BIN clusters with available names and describe any species new to science to adequately document the Canadian fauna. Researchers at the CNC and the Canadian Museum of Nature have made numerous contributions to the knowledge of Canadian . However, because most federal employees in Canada focus their research on agriculturally-significant taxa (see Bouchard et al. (2017) for plant-feeding taxa with high economic concern in Canada and in agroecosystems of our trading partners), beetle groups without either plant pests or well-known beneficial species have been given a lower taxonomic research priority. Canadian universities have until recently included taxonomic research on non-economically important beetles, although they currently support a minute fraction of research on Canadian .

The total estimated number of undescribed and unreported beetle species for Canada is 1080 to 1280 species (Table 1) based on expert estimates and species predicted by BINs including Canadian specimens in BOLD. The beetle families with the greatest number of taxonomist-estimated unrecognised diversity in Canada include the , , , and , most of which include either plant pests or beneficial predators and parasitoids. These numbers represent the best available estimate of unrecorded diversity, although they must be interpreted with respect to limitations of expert opinion, BOLD database sampling, potential inaccuracies of the most current checklist (Bousquet et al. 2013), and BIN calculation methods. While we expect the exact numbers to change with further taxonomic research, the general trends reported herein should not.

Reconciling

Barcode reference libraries for beetles and bees in taxonomically well-studied Central Europe (Hendrich et al. 2014, Schmidt et al. 2015) show that most BIN clusters are highly congruent with taxa already recognised by science. There, most discordance between BINs and recognised taxa likely reflects cases of unrecognised species diversity or species pairs with very similar COI sequences that, while considered one BIN due to shallow divergence, still clustered into species (Hendrich et al. 2014). However, it will be important to assess whether BINs closely approximate real taxa in other regions. We anticipate that barcoding will be similarly effective for characterising the Canadian fauna since both regions are climatologically and topographically similar with shared glaciation history, and with many beetle genera in common.

One DNA barcoding-related discovery is a cryptic species of burying beetle (: Fabricius) that was discovered in North America based on congruent evidence from ecological data, mating studies, morphology and DNA barcode data (Sikes et al. 2016). is considered taxonomically very well studied in North America but the cryptic lineage was first highlighted by a different BIN than specimens from the Palaearctic and Alaska (Sikes et al. 2016). We anticipate that the taxonomic integration of DNA barcode data will provide many other insights about the Canadian fauna. The pressing need to carefully and authoritatively link Linnaean taxonomy with molecular reference databases such as BOLD through taxonomic research was stressed by Somervuo et al. (2017) and is re-emphasised here. This need was recently recognised in Canada, with over 5000 beetle species (summarised by Bouchard et al. 2017) added to BOLD in recent years. Although a general, species-focused analysis of the Canadian beetle fauna (similar to Hendrich et al. 2014) is premature, it is possible to examine the congruence of BINs with the taxonomy of a group of well-revised but diverse beetles.

We can partially test BIN congruence using the subtribe (sensu Brunke et al. 2016), a diverse lineage of rove beetles () and the subject of modern taxonomic revision in North America, including critical examination of male genitalia for species concepts (Smetana 1971a, b, 1973, 1976, 1978, 1981, 1990). They are generalist predators, may be important predators of pest insects and are often abundant in decaying organic matter (Smetana 1971a). Currently, 64 species of and are recorded from Canada (Bousquet et al. 2013) and of these, 42 (66%) are represented in BOLD by sequences of authoritatively identified specimens. A total of 52 BINs represent Canadian in BOLD and most BIN incongruence with existing taxonomy is due to unrecognised species diversity. Although four ‘well-known’ species are currently considered Holarctic in distribution, Nearctic specimens form separate BINs from their Palaearctic counterparts in three of these. One Canadian has two traditionally recognised subspecies for which BINs are 6% divergent and will likely be considered morphologically diagnosable species. Another four BINs correspond to still unidentified species and further work is needed to discern whether they belong to described or undescribed taxa. Two Palaearctic species appear present but unverified and unreported from Canada. Four cases exist where a valid species of contains two BINs that do not correspond to morphological differences. In these cases, BOLD may have oversplit species due to algorithm artifacts based on material limited in number and geographic coverage, and BINs may be later combined in BOLD when additional sequences are included. Taxonomic research involving these putative lineages, including study of type specimens for available names, is in progress. No described species of shared BINs with any other species, indicating that the species are not ‘oversplit’, likely due to informative variation in male genitalia. Thus, only 7.7% of BINs were incongruent with species level clusters after cases of unrecognised species diversity were removed (a further 11.5%). A similar result was found for the well-studied of Central Europe where similar diversity (71 species, Assing and Schülke 2012) was represented by about 51% coverage (36 species with 39 BINs) in BOLD and only 7.7% of BINs (involving two species) were incongruent with prevailing species concepts (Hendrich et al. 2014).

The utility of BOLD as a proxy for biodiversity should be demonstrated over a broader taxonomic and geographic scale (Bergsten et al. 2012), as the BOLD database is highly skewed toward Canadian specimens. However, it is promising that gaps in the variation of male genitalia of rove beetles, typically used by taxonomists, correspond remarkably well to gaps in sequence variation identified by BINs. This suggests that BINs may provide a proxy for beetle diversity in North America and could be useful for highlighting taxonomic groups needing research attention (as done above by family).

Future priorities

The number of known species from Canada will continue to increase as new species are described, new populations of described species are discovered and species arrive as a result of climate change or global trade. While further taxonomic work on , , and will continue to add many species to the Canadian fauna, new biosystematics work on several poorly studied families (e.g., , , , , and ) is greatly needed. Although recent collecting in eastern Canada has yielded many discoveries, these biomes and, especially, those of central and western Canadian provinces remain inadequately sampled. A renewed effort toward exploring the Canadian beetle fauna will be critical for the documentation of the more than 1000 unrecorded or undescribed species that are estimated to be undetected or undescribed in Canada. Since DNA barcoding is a useful tool for assessing species diversity and appears to be highly compatible and synergistic with traditional morphological taxonomy, knowledge of beetle diversity in Canada will further benefit from continued development of the DNA barcode library through focused collecting, authoritative vouchering and continued integrative taxonomic research. However, improved and continued documentation of the Canadian fauna can only be achieved with new funding for surveys, including a variety of sampling methods, and by hiring or otherwise supporting scientists that include taxonomic work on the Canadian fauna as part of their research profile.