Dakota skipper (Hesperia dacotae) COSEWIC assessment and status report 2014

Photo of an adult Dakota Skipper, Hesperia dacotae, nectaring on a Black-eyed Susan (Rudbeckia serotina) flower.

ENDANGERED
2014

Document Information

COSEWIC Logo and Wordmark

COSEWIC status reports are working documents used in assigning the status of wildlife species suspected of being at risk. This report may be cited as follows:

COSEWIC. 2014. COSEWIC assessment and status report on the Dakota Skipper Hesperia dacotae in Canada. Committee on the Status of Endangered Wildlife in Canada. Ottawa. x +61 pp. (Species at Risk Public Registry website).

Previous report(s):
Crossman, E.J.1994. COSEWIC status report on the Dakota skipper Hesperia dacotae in Canada. Committee on the Status of Endangered Wildlife in Canada. Ottawa. 35 pp.(Species at Risk Public Registry website).

Production note:

COSEWIC would like to acknowledge Nicholai de Silva for writing the status report on the Dakota Skipper, Hesperia dacotae, in Canada, prepared under contract with Environment Canada. This report was overseen and edited by Jennifer Heron, Co-chair of the COSEWIC Arthropods Specialist Subcommittee.

For additional copies contact:

COSEWIC Secretariat
c/o Canadian Wildlife Service
Environment Canada
Ottawa, ON
K1A 0H3

Tel.: 819-953-3215
Fax: 819-994-3684
COSEWIC E-mail
COSEWIC web site

Également disponible en français sous le titre Évaluation et Rapport de situation du COSEPAC sur le L'hespérie du Dakota (Hesperia dacotae)) au Canada.

Cover illustration/photo:
Dakota Skipper -- Photo provided by author.

©Her Majesty the Queen in Right of Canada, 2014.

Catalogue No.CW69-14/358-2014E-PDF

ISBN 978-1-100-23935-4

COSEWIC logo

COSEWIC Assessment Summary

Assessment Summary - May 2014

Common name
Dakota Skipper
Scientific name
Hesperia dacotae
Status
Endangered
Reason for designation
This butterfly is dependent on tall-grass and mixed-grass prairie habitats, which have suffered > 99> historical losses since the 1850s. The species occurs within fragmented patches of habitat in three population centres in Canada. It has a small home range and is associated with specific prairie plants, making it sensitive to conversion of prairie remnants to cropland, spring and summer haying, overgrazing, controlled burns, drainage of natural sites, and natural disturbances such as floods. The long-term persistence of this butterfly is dependent on appropriate management of its habitat, most of which consists of small fragments.
Occurrence
Saskatchewan, Manitoba
Status history
Designated Threatened in November 2003. Status re-examined and designated Endangered in May 2014.

COSEWIC

Executive Summary

Dakota Skipper
Hesperia dacotae

Wildlife Species Description and Significance

Dakota Skipper (Hesperia dacotae) is a small (21-33 mm) butterfly. The dorsal wing surfaces of females vary in colour from grayish-beige to brown, suffused with differing amounts of orange and paler translucent spots on the forewing. Wing undersides are greyish-brown with obscure pale spots on the hindwing, and are considered diagnostic for the species. Male dorsal wing surfaces are tawny orange with narrow, diffuse brownish borders and a distinct dark marking on the forewing. The underside of males is often a dull yellowish-orange with poorly developed pale spots.

Dakota Skipper is one of a small group of habitat specialist butterflies that ranges in native tall-grass and mixed-grass prairie habitats that remain in small isolated pockets in Canada. The loss of this skipper from Canada would represent the loss of a significant species of this endangered prairie ecosystem.

Distribution

Dakota Skipper is closely associated with native tall-grass and upland dry mixed-prairie ecosystems, and historically ranged throughout central North America from southern Illinois, Iowa, North and South Dakotas and western Minnesota into southern Canada within Manitoba and extreme Saskatchewan. As of 2012, there are three extant and five extirpated population centres in Canada. The three extant population centres are: 1) Interlake Region surrounding Lundar, Manitoba; 2) Oak Lake Region near Griswold, southwestern Manitoba; and 3) Souris River Region, from Bienfait to Glen Ewen in southeastern Saskatchewan.

Habitat

Dakota Skipper is an obligate native tall-grass and upland dry mixed-prairie specialist. This species' habitat is categorized into one of two habitat types. In Manitoba the species inhabits wet-mesic tall grass prairie distinguished by topographically low relief (>1), more sandy gravel-free soils, and high water tables prone to intermittent flooding. This habitat type is associated with bluestem grasses and four predominant flowers, almost always present and in bloom during Dakota Skipper flight season: Black-eyed Susan, Common Harebell, Mountain Death Camas, and Wood Lily.)

In Saskatchewan Dakota Skipper inhabits upland dry mixed prairie habitat associated with glacial landscapes characterized by rolling terrain with relatively higher relief. Within this habitat, Bluestem and Needle Grasses are dominant. Wood Lily and Common Harebell are present; however, Common Gaillardia and especially Narrow-leaved Prairie Coneflower are important nectar sources.

Biology

Dakota Skipper has one generation per year. Individual adults live up to three weeks, but populations are active for a three- to five-week period during late June to mid-July. Adult females mate within one or two days following emergence and immediately begin laying eggs. Eggs are typically laid individually on the undersides of leaves of the larval host plants.

Population Sizes and Trends

There has been substantial search effort for Dakota Skipper in Canada. As of 2012, the species occurs within three population centres: two in Manitoba and one in Saskatchewan. In 2012, Dakota Skipper population size in Canada is estimated to be 14,000 individuals: Oak Lake, southwest Manitoba 7,670 adults; Interlake Manitoba 5,450 adults; and Saskatchewan 890 adults. In 2002, Dakota Skipper population size was estimated between 28,500 - 40,500 individuals in only three or four populations.

Numerous sites in Manitoba have been affected by flooding or grazing regimes inappropriate for Dakota Skipper, which has contributed to the population decline over the past 10 years. It appears that much of the suitable habitat in Saskatchewan remains intact. Estimates of available habitat per site are uncertain as these sites are not nearly as clearly defined as in Manitoba.

Threats and Limiting Factors

The predominant threat to Dakota Skipper is increased frequency and severity of flooding that partially affects parts of this low-relief habitat at all three population centres. Historically, prairie ecosystems experienced periodic natural flooding; however, the present-day remaining habitat patches are no longer interconnected, preventing recolonization between these periodically flooded sites. This factor, combined with the cumulative threats that include conversion of habitat to non-grassland farming (e.g., agricultural intensification), overgrazing, haying, mining operations, native and non-native vegetative succession, wildfires and fire suppression and pest control, is causing further declines.

Protection, Status, and Ranks

In Canada Dakota Skipper was assessed as Threatened in 2003 by COSEWIC and listed under the Species at Risk Act (SARA) in 2005. Provincially, the species is listed as threatened in Manitoba under the Manitoba Endangered Species Act.

Technical Summary

Dakota Skipper

Hesperia dacotae

Hespérie du Dakota

Range of occurrence in Canada (province/territory/ocean):
Manitoba and Saskatchewan

Demographic Information

Generation time
One generation per year.
Is there an [observed, inferred, or projected] continuing decline in number of mature individuals? Inferred, based on cumulative threats to habitat quality at all sites. Observed, based on lower abundance data when 2002, 2007, 2010 and 2012 survey results are compared.
Yes
Estimated percent of continuing decline in total number of mature individuals within [5 years or 2 generations]
Inferred, based on cumulative threats to habitat quality at all sites. Decline at three population centres are difficult to compare across years because survey techniques varied. Some evidence of decline: Interlake (Manitoba) – 2007 (N/A), 2010 (9 adults in 11 sites), 2012 (11 adults in 4 sites); Oak Lake (Manitoba) – 2007 (47 adults in 2 sites), 2010 (36 adults in 14 sites); 2012 (61 adults in 8 sites); Souris River (Saskatchewan) – 2007 (25 adults in 3 sites), 2010 (0 adults in 6 sites); 2012 (15 adults in 6 sites).
Unknown
[Observed, estimated, inferred, or suspected] percent [reduction or increase] in total number of mature individuals over the last [10 years, or 3 generations].
Suspected reduction based on survey information from 2002 – 2012 .
Unknown
[Projected or suspected] percent [reduction or increase] in total number of mature individuals over the next [10 years, or 3 generations].
Suspected reduction based on survey information from 2002 – 2012.
Unknown
[Observed, estimated, inferred, or suspected] percent [reduction or increase] in total number of mature individuals over any [10 years, or 3 generations] period, over a time period including both the past and the future.
Suspected reduction based on survey information from 2002 – 2012.
Unknown
Are the causes of the decline clearly reversible and understood and ceased?
Causes of decline have not ceased. Habitat quality declines (all sites) and increased flooding frequency and severity (Manitoba sites) but the rate of habitat loss may have slowed at all sites.
No
Are there extreme fluctuations in number of mature individuals
No

Extent and Occupancy Information

Estimated extent of occurrence
26,300 km2
Is the population severely fragmented?
Based on the threat of flooding at each of the three population centres. One flood may not occur at all sites within a population centre; however, over ten years the threat of floods and cumulative effects of habitat degradation are ongoing.
248 km2 total (Interlake 132 km2; Oak Lake 60 km2; Souris River 56 km2)
Is the population severely fragmented?
Mixing between three population centres not likely. Habitat degradation is ongoing within populations.
yes
Number of locations Extent and Occupancy Information Footnote1
Based on the threat of flooding at each of the three population centres. One flood may not occur at all sites within a population centre; however, over ten years the threat of floods and cumulative effects of habitat degradation are ongoing.
5-7
Is there an [observed, inferred, or projected] continuing decline in extent of occurrence?
Inferred, based on cumulative threats to habitat quality at Interlake (Manitoba) and Oak Lake (Manitoba) population centres. Souris River (Saskatchewan) EO likely stable although recent development may spatially fragment populations.
yes
Is there an [observed, inferred, or projected] continuing decline in index of area of occupancy?
Inferred, based on cumulative threats to habitat quality at Interlake (Manitoba) and Oak Lake (Manitoba) population centres. Souris River (Saskatchewan) EO likely stable although recent development may spatially fragment populations.
yes
Is there an [observed, inferred, or projected] continuing decline in index of area of occupancy?
Inferred, based on cumulative threats to habitat quality. Although flooding is a natural event, frequency and duration appear to have increased.
yes
Is there an [observed, inferred, or projected] continuing decline in number of populations?
Inferred, based on habitat loss and cumulative threats to habitat quality.
yes
Is there an [observed, inferred, or projected] continuing decline in number of locations*? Extent and Occupancy Information Footnote1? Inferred, based on habitat loss and cumulative loss to habitat quality.
yes
Is there an [observed, inferred, or projected] continuing decline in [area, extent and/or quality] of habitat?
Inferred based on habitat loss and cumulative threats to habitat quality.
yes
Are there extreme fluctuations in number of populations?
no
Are there extreme fluctuations in number of locations
Extent and Occupancy Information Footnote 1?
no
Are there extreme fluctuations in extent of occurrence?
no
Are there extreme fluctuations in index of area of occupancy?
no

Preface

Dakota Skipper was assessed by COSEWIC in 2003 as Threatened and listed as such under the federal Species at Risk Act in 2005. Since the initial status report, there has been substantial search effort and information gathered by numerous researchers at the University of Manitoba, Environment Canada and during the preparation of this status report.

The butterfly relies on small fragments of native prairie, a habitat that has experienced more than 99% loss in the past 200 years. Current threats include wildfire, severe flooding, grazing regimes that do not favour Dakota Skipper populations, the spread of non-native species, and the natural succession of native species. These cumulative threats led to the decline in the overall habitat quality and have impacted a number of sites where Dakota Skipper has previously been recorded.

COSEWIC logo

COSEWIC History

The Committee on the Status of Endangered Wildlife in Canada (COSEWIC) was created in 1977 as a result of a recommendation at the Federal-Provincial Wildlife Conference held in 1976. It arose from the need for a single, official, scientifically sound, national listing of wildlife species at risk. In 1978, COSEWIC designated its first species and produced its first list of Canadian species at risk. Species designated at meetings of the full committee are added to the list. On June 5, 2003, the Species at Risk Act (SARA) was proclaimed. SARA establishes COSEWIC as an advisory body ensuring that species will continue to be assessed under a rigorous and independent scientific process.

COSEWIC Mandate

The Committee on the Status of Endangered Wildlife in Canada (COSEWIC) assesses the national status of wild species, subspecies, varieties, or other designatable units that are considered to be at risk in Canada. Designations are made on native species for the following taxonomic groups: mammals, birds, reptiles, amphibians, fishes, arthropods, molluscs, vascular plants, mosses, and lichens.

COSEWIC Membership

COSEWIC comprises members from each provincial and territorial government wildlife agency, four federal entities (Canadian Wildlife Service, Parks Canada Agency, Department of Fisheries and Oceans, and the Federal Biodiversity Information Partnership, chaired by the Canadian Museum of Nature), three non-government science members and the co-chairs of the species specialist subcommittees and the Aboriginal Traditional Knowledge subcommittee. The Committee meets to consider status reports on candidate species.

Definitions (2014)

Wildlife Species

A species, subspecies, variety, or geographically or genetically distinct population of animal, plant or other organism, other than a bacterium or virus, that is wild by nature and is either native to Canada or has extended its range into Canada without human intervention and has been present in Canada for at least 50 years.

Extinct (X)
A wildlife species that no longer exists.
Extirpated (XT)
A wildlife species no longer existing in the wild in Canada, but occurring elsewhere.
Endangered (E)
A wildlife species facing imminent extirpation or extinction.
Threatened (T)
A wildlife species likely to become endangered if limiting factors are not reversed.
Special Concern (SC)Footnotea
A wildlife species that may become a threatened or an endangered species because of a combination of biological characteristics and identified threats.
Not at Risk (NAR)Footnoteb
A wildlife species that has been evaluated and found to be not at risk of extinction given the current circumstances.
Data Deficient (DD)Footnotec
A category that applies when the available information is insufficient (a) to resolve a species’ eligibility for assessment or (b) to permit an assessment of the species’ risk of extinction.

The Canadian Wildlife Service, Environment Canada, provides full administrative and financial support to the COSEWIC Secretariat.

Wildlife Species Description and Significance

Name and Classification

Class:
Insecta (insects)
Order:
Lepidoptera (butterflies and moths)
Family:
Hesperiidae (skippers)
Subfamily :
Hesperiinae (grass or branded skippers)
Genus :
Hesperia
Specific Name :
dacotae
Species
Hesperia dacotae
English Common Name:
Dakota Skipper
French Common Name:
Hespérie du Dakota

Dakota Skipper (Hesperia dacotae Skinner 1911) was once considered a subspecies of the more widespread Hesperia sassacus (Harris 1862), which ranges from south-central parts of Manitoba, eastward to the Maritimes and the eastern United States) (Layberry et al. 1998). Slight genetic differences have been noted between populations of Dakota Skipper in Manitoba compared to those in Minnesota and South Dakota (Britten and Glasford 2002) but no subspecies are currently recognized.

Morphological Description

Dakota Skipper has four life stages: egg, larvae, pupa and adult. Adult males are tawny orange with narrow diffuse brownish borders on the upper side of the wing surfaces and a distinct dark marking (stigma) on the forewing. There is individual variation in the intensity and extent of the brownish wing border. The forewing stigma has a black interior felt patch that contains specialized androconial scales that produce a pheromone involved in courtship. The underside of males is often a dull brownish to yellowish-orange with a poorly developed semicircle of slightly lighter spots (macular band) on the hindwing. In some individuals these spots are completely obscured (Figure 1).

Figure 1. Male Dakota Skipper dorsal (left) and ventral (right) surfaces. Specimen housed at the Canadian National Collection of Insects, Arachnids and Nematodes. Photos: Nick de Silva.
Map of the present global range of Dakota Skipper
Photo: 2014 © Environment Canada.
Long description for Figure 1

Two photos showing the dorsal (left image) and ventral (right image) surfaces of a male Dakota Skipper. The dorsal surface is tawny orange with narrow, diffuse brownish borders on the wing surfaces and a distinct dark marking (stigma) on the forewing. The underside of the skipper is a dull yellowish-orange.

Adult females have variable colouration and are more difficult to identify. Wing undersides are greyish-beige to brown with differing amounts of orange, and suffused spots that vary in size per individual. Unlike males, females do not have a stigma on the forewing. The wing underside is usually greyish-brown with obscure whitish spots on the hindwing, which are often diagnostic (Figure 2). Further information can be found in Layberry et al. 1998.

Figure 2. Female Dakota Skipper showing dorsal (left) and ventral (right) surfaces. Specimen housed at the CNC. Photos: Nick de Silva.
Map of the present global range of Dakota Skipper
Photo: 2014 © Environment Canada.
Long description for Figure 2

Two photos showing the dorsal (left image) and ventral (right image) surfaces of a female Dakota Skipper. The dorsal surface of the wings is a dull greyish-brown to yellowish-orange with lighter spots on the forewing. The undersides of the wings are greyish-beige with whitish spots. Unlike males, females do not have a stigma on the forewing.

The adult forms of both sexes are confused with Long Dash Skipper (Polites mystic Edwards 1863), Tawny-edged Skipper (Polites themistocles Latreille 1824), and Plains Skipper (Hesperia assiniboa Lyman 1892). Dakota Skipper females have whitish spots on the underside of the hindwing, which are separated (instead of continuous) as in Plains Skipper and Long Dash Skipper, and absent in Tawny-edged Skipper. Males are distinguishable from other species based on stigma shape and angulation.

Dakota Skipper eggs are hemispherical (1-2 mm diameter). Mature larvae (19-22 mm long) have no distinctive colour pattern and are light brown to peach-coloured. Dakota Skipper larvae are distinguished from other Hesperia larvae by their pitted ventral head capsule (other Hesperia species are unpitted) (McCabe 1981). The prothoracic shield, thoracic legs, and spiracles are black while the remainder of the body is minutely granular. The underside of the seventh and eight abdominal segments of the last instar larvae are covered with white wax (McCabe 1981). Dakota Skipper pupae are not described.

Population Spatial Structure and Variability

Prior to European colonization, Dakota Skipper may have formed a single contiguous metapopulation or several large populations within the historical range of tall-grass and mixed-grass prairies in North America (Britten and Glasford 2002; COSEWIC 2003). Manitoba populations of Dakota Skipper are genetically distinct from populations in Minnesota and South Dakota although were likely more connected in the recent past (Britten and Glasford 2002). There have been no genetic studies on Saskatchewan populations.

Designatable Units

One designatable unit occurs in Canada within the Prairie Ecological Area (COSEWIC 2011). There are no population or genetic studies that suggest otherwise.

Special Significance

Dakota Skipper is restricted to native tall-grass and mixed-grass prairie habitats across its range in southern Manitoba and southeastern Saskatchewan. The loss of this skipper from Canada would represent the loss of a significant species of these endangered prairie ecosystems. This butterfly has been the focus recovery efforts through recent workshops and symposiums held specifically to address the range-wide decline of this and other prairie butterflies within the US and Canada.

Distribution

Global Range

Dakota Skipper is closely associated with native tall-grass and upland dry mixed-prairie ecosystems that historically occurred throughout central North America. The historic range included southern Iowa, North and South Dakotas and western Minnesota into southern Manitoba and Saskatchewan in Canada (McCabe 1981; Opler and Krizek 1984; Scott 1986; Dana 200 1991; Cochrane and Delphey 2002; Royer and Marrone 1992). The species may have once occurred along the eastern border in Montana (Royer and Marrone 1992).

The present global range of Dakota Skipper includes Manitoba, Saskatchewan, Minnesota, North Dakota and South Dakota (Figure 3). The species is extirpated from Illinois and Iowa (McCabe 1981; Schlicht and Orwig 1998; Cochrane and Delphey 2002). Studies in the US suggest the species is now limited to 56 sites in Minnesota (40 sites within 10 connected complexes), 48 sites in South Dakota (32 sites in 5 connected complexes), and 32 sites in North Dakota (17 within two connected complexes) (Cochrane and Delphey 2002).

Figure 3.Global range of Dakota Skipper (COSEWIC 2003).
Map of the present global range of Dakota Skipper
Photo: 2014 © Environment Canada.
Long description for Figure 3

Map of the present global range of Dakota Skipper (outlined and hatched polygon), which includes Manitoba, Saskatchewan, Minnesota, North Dakota, and South Dakota.

Canadian Range

Dakota Skipper is currently known in Canada from three population centres: 1) Interlake Region surrounding Lundar, Manitoba; 2) Oak Lake Region, southwestern Manitoba; and 3) Souris River Region, from Bienfait to Glen Ewen in southeastern Saskatchewan. Following 2012 surveys (in preparation of this status report), the species was confirmed within 18 sites across these three population centres (Figure 4). The term 'site' in this document is defined as a contiguous and suitable Dakota Skipper habitat polygon that has been searched a minimum of 15 minutes.

Figure 4.Dakota Skipper sites showing all three population centres in Canada 2001 – 2012: Saskatchewan (left), Oak Lake (middle) and Interlake (right) (see Appendix 1).
Map showing locations of Dakota Skipper records
Photo: 2014 © Environment Canada.
Long description for Figure 4

Map showing locations of Dakota Skipper records in three population centres in Canada: the Interlake Region, Manitoba; the Oak Lake Region, southwestern Manitoba;and the Souris River Region, southeastern Saskatchewan. Different symbols identify the records as being from 2012, 2001 to 2011, and before 2001.

Prior to 2001 Dakota Skipper was recorded from 18 sites in Canada (Klassen et al. 1989; Layberry et al. 1998; COSEWIC 2003) although these sites are not the same sites as recorded in 2012. Since the first status report (COSEWIC 2003) the number of sites increased to nearly 40 new sites within the same three population centres. In 2002, Dakota Skipper was confirmed in 22 sites (17 sites in the Interlake; two in southwest Manitoba; three in Saskatchewan), whereas in 2012 it was recorded in only 18 sites (Table 3).

Extant Populations

Prior to the first status report (COSEWIC 2003) Dakota Skipper was recorded from 19 sites. In 2002, the largest population centre was in the Inter-lake Region between Lake Winnipeg and Lake Manitoba, and Dakota Skipper was recorded from 17 sites (near Eriksdale, Lundar, Inwood, and St. Laurent). In 2012, the skipper was collected at 4 sites within the Interlake Region (Table 3; Figure 5). This area appears to be variable in population abundance (Rigney pers. comm. 2012; Westwood pers. comm. 2012).

Figure 5.Dakota Skipper sites 2001 – 2012 showing Interlake population centre (Manitoba) (see Appendix 1).
Map showing locations where Dakota Skipper
Photo:2014 © Environment Canada.
Long description for Figure 5

Map showing locations where Dakota Skipper has been recorded in the Interlake Region of Manitoba. Different symbols identify the records as being from 2012 (four records), 2001 to 2011, and before 2001.

Dakota Skipper sites 2001 – 2012 showing Oak Lake population centre, Manitoba (see Appendix 1).
Map showing locations where Dakota Skipper
Photo: 2014 © Environment Canada.
Long description for Figure 6

Map showing locations where Dakota Skipper has been recorded in the Oak Lake Region of southwestern Manitoba. Different symbols identify the records as being from 2012 (eight records), 2001 to 2011, and before 2001.

There is one population centre in Saskatchewan along the Souris River Region. After years of speculation (Hooper 1973) and surveys, three sites were first recorded in 2001 and 2002 (Hooper 2003) and have since been intensively surveyed over the past 10 years. In total the skipper has been recorded from 16 of 22 sites surveyed near Oxbow, Roche Percee, and Glen Ewen. In 2012, Dakota Skipper was confirmed at 6 of these sites (Table 3; Figure 7). .

Figure 7 Dakota Skipper sites 2001 – 2012 showing Oak Lake population centre, Manitoba (see Appendix 1).
Map showing locations where Dakota Skipper has been recorded
Photo:2014 © Environment Canada.
Long description for Figure 7

Map showing locations where Dakota Skipper has been recorded in the Oak Lake Region of southwestern Manitoba. Different symbols identify the records as being from 2012 (eight records), 2001 to 2011, and before 2001.

Historical and Extirpated Populations

In Manitoba, many records prior to 1950 appear to be extirpated or are considered historic. The first is from Winnipeg (from the 1930s, historic) but no recent records are reported. A second, southwest of Winnipeg near Fannystelle (1991, considered extirpated – see Threats), was not detected in 2002 or 2012. A third near Miniota (1944, historic), presumably on prairie hills above the Assiniboine River, is now converted into a "Riparian Forest Centre", a habitat not known to support the skipper. The fourth was collected near Brandon (1950, historic), but no prairie habitat remains in the Brandon area nor was the species detected in 2002 (COSEWIC 2003) or 2012 (de Silva pers. data 2012) surveys.

The fifth extirpated population was in the Tall Grass Prairie Preserve (TGPP) in Manitoba and includes sites near Tolstoi, Gardenton, and Stuartburn. The last specimens from the TGPP (deposited in the J.B. Wallis Entomological Museum at the University of Manitoba and in the Manitoba Provincial Museum) were collected in 1987. The last confirmed sighting of Dakota Skipper in the TGPP was in 2000; however, voucher specimens were not collected (surveyors cited low abundance) (Britten and Glasford 2002). The site was resurveyed in 2002 (COSEWIC 2003) and 2012; however, Dakota Skipper was not recorded (de Silva pers. data 2012). Yearly surveys in the TGPP that target the Poweshiek Skipper (Oarisma poweshiek) have continued at concurrent flight times with Dakota Skipper; however, none of the latter have been recorded (Westwood pers. comm. 2012; Foster pers. comm. 2014; Harris pers. comm. 2014).

Dakota Skipper was recorded from Riding Mountain National Park; however, there are no associated voucher specimens or more recent records. Site visits suggest the habitat is not suitable for Dakota Skipper, and this occurrence is considered dubious (Rigney pers. comm. 2013). A site near Inwood (Interlake Region) also does not have an associated voucher specimen and was not confirmed in 2012. In the past the Inwood site has been subject to flooding and heavy grazing (see Threats).

Extent of Occurrence and Area of Occupancy

Dakota Skipper extent of occurrence is 26,300 km2 including historical and recent sites. The index of area of occupancy (IAO; historical and recent) is 248 km2 (2 X 2 km squares over sites in Figure 4). The IAO of the three known population centres separately are: Interlake Region [Manitoba] 132 km2, Oak Lake Region [Manitoba] 60 km2 and Souris River Region [Saskatchewan]) 56 km2.

Search Effort

Since 2000, there has been substantial search effort for Dakota Skipper in Canada. Search effort is not consistent between sites, years, site names and duration. From 2002 – 2012 (Figure 12), a minimum of 264 sites has been searched for Dakota Skipper (some sites have repeated visits): Interlake (Manitoba) 145 sites; Oak Lake (Manitoba) 77 sites and Souris River (Saskatchewan) 42 sites.

Comparable surveys were made in 2002 (COSEWIC 2003), 2006 (Morden 2006; Environment Canada 2007; Webster 2007) and 2007 in the preparation of the species' recovery strategy (Environment Canada 2007; Webster 2007), 2010 (Westwood 2010), 2010 – 2012 (Rigney 2013), 2011 (Murray and Freisen 2012) and 2012 (during status report preparation) (see Tables 1 and 2).

Table 1. Dakota Skipper survey sites 2002 - 2012.
Population Centre Interlake Region Oak Lake Region Souris River Region, Saskatchewan Reference
Year - - - -
2002 Approximately 50 sites surveyed. Dakota Skipper recorded at 21 sites (according to Westwood [2010] site numbering system) 436 adults recorded across 17 sites (according to COSEWIC [2003] numbering system) 16 sites surveyed 47 adults recorded across 2 sites 18 – 19 sites surveyed. 25 adults recorded across 3 sites COSEWIC 2003
2005 24 sites No surveys. No surveys Morden 2006
2007 N/A 14 of the 16 sites surveyed in COSEWIC 2003 Dakota Skipper recorded at 14 sites 371 adults recorded across 14 sites 12 of the 18 – 19 sites surveyed in COSEWIC 2003 Dakota Skipper recorded at 14 sites. 55 adults recorded across 12 sites Environment Canada 2007; Webster 2007
2010 21 of the 50 sites surveyed in COSEWIC 2003 Dakota Skipper recorded at 11 sites 9 adults total recorded across 11 sites 14 of the 16 sites surveyed in COSEWIC 2003 Dakota Skipper recorded at 14 sites 36 adults total recorded across 14 sites 6 of the 18 – 19 sites surveyed in COSEWIC 2003. 0 Dakota Skipper recorded at 6 sites. 0 adults total recorded across 6 sites Westwood 2010
2010 4 of the approximately 50 sites surveyed in COSEWIC 2003 0 adults recorded across 4 sites 4 of the approximately 16 sites surveyed in COSEWIC 2003 20 adults recorded across 4 sites N/A Westwood 2010
2011 4 adults recorded across 4 sites > 173 adults recorded across 4 sites N/A Rigney 2011 (thesis)
2012 7 adults recorded across 4 sites 33 adults recorded across 4 sites N/A Rigney 2012 (thesis)
2012 35 of the 50 sites surveyed in COSEWIC 2003 Dakota Skipper recorded at 4 sites 11 adults recorded across 4 sites 21 sites surveyed, including the 16 sites surveyed in COSEWIC 2003 Dakota Skipper recorded at 8 sites (no new sites) 61 adults recorded across 8 sites 6 of the 18 – 19 sites surveyed in COSEWIC 2003 Dakota Skipper recorded at 6 sites 15 adults recorded across 6 sites de Silva (preparation of this status report) 2012
Total Minimum 145 sites (some repeated) from 2002 – 2012 Minimum 77 sites (some repeated) from 2002 – 2012 Minimum 42 sites (some repeated) from 2002 – 2012 -
Table 2. Dakota Skipper sites survey sites confirmed during the preparation of this status report (de Silva pers. comm. 2012).
Regional Code Province Nearest Town and Site 2012 Date Time (Start) Time (End) Total # of Dakota Skipper
1 -IL MB Lundar A Jul-04 11:30 13:45 1
2-IL MB Lundar B Jul-12 15:30 17:00 5
3 - IL MB Oak Point Jul-12 12:40 13:15 1
4 - IL MB St. Laurent Jul-04 16:35 17:05 4
5-OL MB Deleau A   14:40 15:45 1
6-OL MB Deleau B Jul-05 16:30 17:00 9
7-OL MB Deleau C Jul-05 17:15 18:15 21
8- OL MB Deleau D Jul-06 11:45 12:45 3
9- OL MB Deleau E Jul-07 10:30 11:40 4
10- OL MB Deleau F Jul-07 12:00 13:00 7
11- OL MB Deleau G Jul-07 13:20 14:10 11
12- OL MB Belleview Jul-06 15:35 16:30 5
13- SR SK Glen Ewen A Jul-09 13:10 14:10 2
14- SR SK Glen Ewen B Jul-09 15:20 5:450 3
15- SR SK North Portal A Jul-10 10:05 10:55 4
16- SR SK North Portal B Jul-10 12:05 12:50 4
17- SR SK North Portal C Jul-10 13:45 14:45 1
18- SR SK Bienfait Jul-10 15:40 16:45 1

Table 3.

The threat classification below is based on the IUCN-CMP (World Conservation Union–Conservation Measures Partnership) unified threats classification system. For a detailed description of the threat classification system, see the CMP website (CMP 2010). Threats may be observed, inferred, or projected to occur in the near term. Threats are characterized here in terms of scope, severity, and timing. Threat "impact" is calculated from scope and severity. For information on how the values are assigned, see Master et al. (2009).

Matrix summarizing threats to the Dakota Skipper, based on the IUCN-CMP unified threats classification system.

Scientific Name
Dakota Skipper (Hesperia dacotae)
Date:
December, 28,2013
Assessor(s):
Nick de Silva, Christa Rigney, Richard Westwood and Jennifer Heron
Overall Threat Impact
na
Calculation Help:
na
Level 1 Threat Impact Counts
Threat Impact Threat Impact (descriptions) Level 1 Threat Impact Counts
high range
low range
A Very High 1 0
B High 0 0
C Medium 1 2
D Low 3 3
- Calculated Overall Threat Impact: Very High High
Overall Threat Comments
Dakota Skipper sites are Interlake Region Manitoba (Site 1: Lundar A; Site 2: Lundar B; Site 3: St. Laurent; Site 4: Oak Point); Oak Lake Region Manitoba (Site 5: Deleau A; Site 6: Deleau B; Site 7: Deleau C; Site 8: Deleau D; Site 9: Deleau E; Site 10: Deleau F; Site 11: Deleau G; Site 12: Belleview); Souris River Region Saskatchewan (Site 13: Glen Ewen A; Site 14: Glen Ewen B; Site 15: North Portal A; Site 16: North Portal B; Site 17: North Portal C; Site 18: Bienfait).
Threats Assessment Worksheet Table.
# Threat Impact
(calculated)
Impact
(calculated)
Scope
(next
10 Yrs)
Severity
(10 Yrs
or
3 Gen.)
Timing Comments
1 Residential & commercial development D Low Small (1-10%) Extreme (71-100%) Unknown -
1.1 Housing & urban areas D Low Small (1-10%) Extreme (71-100%) Unknown Potential to impact six sites or habitats adjacent to known sites: Site 1 (Lundar A, Manitoba), 3 (St. Laurent, Manitoba; no further development observed), 8 (Deleau D, Manitoba; nearby in adjacent habitats), 11 (Deleau G, Manitoba; nearby in adjacent habitats), 14 (Glen Ewen B, Saskatchewan; ongoing in habitat).
1.2 Agriculture & aquaculture D Low Small (1-10%) Negligible (<1%) High (Continuing) Potential to impact two sites: Site 2 (old airstrip), 3 (site is adjacent to a quarry).
2 Agriculture & aquaculture D Low Restricted (11-30%) Slight (1-10%) High (Continuing) -
2.3 Livestock farming & ranching - Low Restricted (11-30%) Slight (1-10%) High (Continuing) Deleau A and Deleau D have livestock grazing in nearby habitats.
3 Energy production & mining - Not a Threat (in the assessed timeframe) Pervasive (71-100%) Slight (1-10%)- Low (Possibly in the long term, >10 yrs) -
3.1 Oil & gas drilling - Not a Threat (in the assessed timeframe) Pervasive (71-100%) Slight (1-10%) Low (Possibly in the long term, >10 yrs) Oil and gas drilling is near all sites in Saskatchewan.
3.2 Mining &amp; quarrying - Negligible Negligible (<1%) Slight (1-10%) Low (Possibly in the long term, >10 yrs) One site is adjacent to a quarry (Site 4: Oak Point).
4 Transportation &amp; service corridors D   - -   -
5 Biological resource use D Low Large (31-70%) Slight (1-10%) Moderate (Possibly in the short term, < 10 yrs) -
5.2 Gathering terrestrial plants - Low Large (31-70%) - - Haying
6 Human intrusions &amp; disturbance A - - - - -
7 Natural system modifications

A

C

Very High - Medium Pervasive (71-100%) Extreme - Moderate (11-100%) Unknown -
7.1 Fire &amp; fire suppression A Very High Pervasive (71-100%) Extreme - Moderate (11-100%) Unknown

Fire suppression at all sites.

Possibility of fire at some sites.-

7.3 Other ecosystem modifications C Not Calculated (outside assessment timeframe) Pervasive (71-100%) Moderate (11-30%) Unknown Wildfires at some sites.
8 Invasive &amp; other problematic species &amp; genes - Not a Threat (in the assessed timeframe) Pervasive (71-100%) Slight (1-10%) Low (Possibly in the long term, >10 yrs) -
8.1 Invasive non-native/alien species - Not a Threat (in the assessed timeframe) Pervasive (71-100%) Slight (1-10%) Low (Possibly in the long term, &gt;10 yrs) All sites.
8.2 Problematic native species - Not a Threat (in the assessed timeframe)- Pervasive (71-100%) Slight (1-10%) Low (Possibly in the long term, >10 yrs) All sites.
9 Pollution -   Large (31-70%) Unknown Unknown -
9.3 Agricultural &amp; forestry effluents -   Large (31-70%) Unknown Unknown) Pesticide application at adjacent habitats.s
10 Geological events - - - -   -
11 Climate change &amp; severe weather C Medium Pervasive (71-100%) Moderate (11-30%) High (Continuing) -
11.2 Droughts C Medium Pervasive (71-100%) Moderate (11-30%) Moderate (Possibly in the short term, < 10 yrs) All sites are also subject to drought, which may cause premature plant senescence?
11.4 Storms & flooding C Medium Pervasive (71-100%)- Moderate (11-30%)- High (Continuing) All sites or portions of sites, are likely to be flooded within a ten-year period.-

In 2006 a new site was recorded at the Interlake (Manitoba) region (Environment Canada 2007; Webster 2007).

In 2010, sites visited by Webster in 2002 were resurveyed in the known population centres: 21 sites (of the 50 sites in COSEWIC 2003) in the Interlake Region (Manitoba), 14 sites (of the 16 sites in COSEWIC 2003) in the Oak Lake Region (Manitoba) and six sites (of the 18/19 sites in COSEWIC 2003) in the Souris River Region (Saskatchewan) (Westwood 2010). As well, 20 sites in the Tall Grass Prairie Preserve (extirpated population centre) were surveyed in 2010 but no Dakota Skipper recorded (Westwood 2010).

In 2011, searches were made south of the Oak Lake Region (Murray and Freisen 2012), but specimen identifications have not been confirmed

In 2012, Dakota Skipper surveys totalled 127 hours during preparation of this status report (Table 1). Field methods were kept consistent with the 2002 (COSEWIC 2003) survey except the minimum survey time per site was increased from 15 to 30 minutes (or sometimes more). In total Dakota Skipper was recorded from 18 sites in 2012 (Figure 4). An additional 68 sites were surveyed in 2012 and no Dakota Skippers were recorded (Appendix 2).

Additional prairie habitats remain to be surveyed in Saskatchewan (Figure 7) (Webster pers. comm. 2012). Estimates are speculative because sites and habitat in Saskatchewan are not as well mapped or defined as those in Manitoba.

Number of Locations

Annual flooding appears to be the greatest threat to Dakota Skipper. Flooding may affect 2 – 3 locations in the Interlake Region, 2 – 3 locations at the Oak Lake region and a minimum of three locations at the Saskatchewan region. The terrain in Saskatchewan is along the Souris River, with sites at various distances from one another. These sites could form one interconnected patch of habitat. The low-lying areas are prone to flooding, but the steeper areas would not likely be flooded. Recent development within the area may have created barriers to dispersal (Rigney pers. comm. 2014). In total, there are likely fewer than ten locations for Dakota Skipper.

Habitat loss and degradation, combined with natural succession, are considered to be mutually exclusive threats simultaneously impacting the three population centres although at different frequency and rates. "Degradation in quality of remaining Dakota Skipper habitat patches may now surpass the outright destruction of prairie as a threat to the species" (USFWS 2011). The cumulative effects of overgrazing, weed control, invasion by non-native species, haying, wildfire, lack of management or disturbance, habitat fragmentation and pest control contribute to habitat degradation. These factors combine to form the case for severe fragmentation when the species' limiting factors are also considered:

  • Low abundance during surveys within a habitat patch.
  • Low dispersal capability – home range of about 300m and dispersal less than 1km.
  • Inhabits habitat patches in association with four or five prairie plants, which face similar threats to those faced by Dakota Skipper.
  • The species likely formed a metapopulation structure within numerous interconnected habitat patches that experienced ongoing natural disturbance, (e.g., wildfire, flooding, natural succession). These natural disturbance events are no longer part of the ecosystem processes.
  • Current habitat patches are considered small (1ha to 400ha).
  • Habitat where the species occurs includes alternating lower (wetter) and higher (drier) sites that experience natural seasonal flooding, but the intensity and severity of flooding appears to have increased in the past decade.
  • Most sites are at least 1.5km apart and others up to 5km apart. In some cases there is marginal habitat in between, whether it be agricultural areas or road corridors. Evidence is inconclusive regarding the ability of the skipper to recolonize areas. However, as habitats become more unsuitable, infrequent Dakota Skipper dispersal events are unlikely to land in suitable habitat.
  • In Saskatchewan, the habitat along the Souris River may have at one point been more continuous; however, there has recently been larger-scale oil and gas development that may create barriers to dispersal.
  • As of 2012, there are 18 sites recorded. There may be additional sites that were previously occupied but that were flooded during these 2012 surveys, and these are possibly still extant. Flooding occurs to some degree at all sites; it may not occur over the entire site, but it is thought that at most sites there is some kind of flooding event and the duration may span the flight season for Dakota Skippers.
  • When additional cumulative threats are considered, extant sites are likely to decline in quality over the next ten years.

Habitat

Dakota Skipper typically lays its eggs on or near larval host plants (Dana 1991). Studies in the US confirmed oviposition on Little Bluestem (Andropogon scoparius), Big Bluestem (Andropogon gerardii ), Sideoats Grama (Bouteloua curtipendula), Prairie Dropseed (Sporobolus heterolepis), and Spear Grass (Stipa spartea) (Dana 1991). Oviposition has not been studied in Canadian populations.

Dakota Skipper larvae use a variety of grass species as host plants including bunch grasses: Little Bluestem and Prairie Dropseed, Big Bluestem, Sideoats Grama, Fall Panicum (Dichanthelium wilcoxianum), Kentucky Bluegrass (Poa Pratensis) and in rare cases Sun Sedge (Carex heliophila) (Dana 1991). Native bunchgrasses remain edible into fall unlike some non-native species such as Kentucky Bluegrass and Bromegrass (Bromus inermis), which have a mid-summer senescence or dormancy and make for unsuitable forage (MacNeill 1964).

Dakota Skipper adults nectar on Narrow-leaved Purple Coneflower (Dana 1991; Royer and Marrone 1992), Black-eyed Susan (Rudbeckia serotina), Blanketflowers, Dogbane (Apocynum sp.), Evening Primrose (Oenothera serrulata), Fleabane (Erigeron spp.), Gaillardia, Common Harebell (Campanula rotunifolia), Long Headed Coneflower (Ratibida columnifera) and White Prairie Clover (Dalea candida) (McCabe and Post 1977; Royer and Marrone 1992; COSEWIC 2003).

Habitat Requirements

Dakota Skipper is a native tall-grass and upland dry mixed-prairie obligate (Royer and Marrone 1992). The three extant population centres in Canada are characterized by two habitat types: 1) low, wet-mesic tall-grass/blue-stem prairie (also referred to as Type A habitat) in Manitoba or 2) upland dry-mesic mixed-grass/bluestem prairie (also referred to as Type B habitat) in Saskatchewan (Royer and Marrone 1992). In both habitat types bluestem (Andropogon spp.) is a dominant grass species.

Manitoba sites

Habitat in Manitoba (Type A, see Royer et al. 2008) has topographically low relief (>1 m), sandy and relatively gravel-free soils, and high water tables that experience natural intermittent spring floods. Despite flooding, these sites have sufficient topographic relief to provide suitable habitat during the larval growth period (Royer et al. 2008).

Adults use the higher and drier areas where grasses are shorter (10 -15 cm) (Environment Canada 2007). Dominant grasses include Little Bluestem (Andropogon scoparius), Big Bluestem (Andropogon gerardii) and Prairie Dropseed (Sporobolus heterolepis). Flowering plants almost always present and in bloom during the flight period include Wood Lily (Lilium philadelphicum), Common Harebell (Campanula rotundifolia), Mountain Death Camas (Anticlea elegans) (McCabe 1981), and Black-eyed Susan (Rudbeckia serotina).

In 2002, with the exception of the prairies near Tolstoi and Stuartburn, Dakota Skipper was present at all sites where these four plants were present (COSEWIC 2003). In 2012, these four plants were present at all Dakota Skipper sites plus a sub-site where the skipper had not previously been recorded. In North Dakota, McCabe (1981) rarely found Dakota Skipper at sites without Mountain Death Camas and considers this plant a reliable indicator of Dakota Skipper habitat. The flowering period of Mountain Death Camas coincides with the flight season of the skipper yet the life history of Dakota Skipper is completely independent of this plant (McCabe 1981). Additional vegetation includes bluestem grasses.

The size (ha) of Manitoba sites ranges from small (1.0 ha) to large (> 400 ha, especially in southwestern Manitoba) openings among Aspen (Populus spp.) or Bur Oak (Quercus macrocarpa) groves. These prairie sites are characterized by low relief (1 - 2 m), with alternating wetter (lower) and drier (higher) sections, each with a distinctive plant community. Many sites appear to be on fall haying or late season mowing regimes (de Silva pers. comm. 2012). Larger areas of open prairie exist and are more common in southwest Manitoba yet are parcelled off into smaller sections by aspen groves (de Silva pers. comm. 2012) (Figures 8 and 9), which may be important for mating (COSEWIC 2003).

Figure 8. Dakota Skipper habitat in the Interlake region near St. Laurent, Manitoba. Photo: N. de Silva.
Insert text here
Photo: 2014 © Environment Canada.
Long description for Figure 8

Photo of Dakota Skipper habitat in the Interlake Region near St. Laurent, Manitoba. The image shows wet-mesic tall-grass / blue-stem prairie with topographically low relief.

Figure 9. Dakota Skipper habitat in the Interlake region near Lundar, Manitoba, showing aspen groves. Photo: N. de Silva.
Photo of Dakota Skipper habitat
Photo: 2014 © Environment Canada.
Long description for Figure 9

Photo of Dakota Skipper habitat in the Interlake Region near Lundar, Manitoba. The image shows wet-mesic tall-grass / blue-stem prairie flanked by aspen groves.

In the Oak Lake Region, between Belleview and Souris, 61 adults were recorded in 2012. The prairie in the Oak Lake Region is more similar to the Interlake region and the size of prairie parcels is larger due to less aspen growth (Figures 10 and 11). Flooding in the Oak Lake region and, less so, the Interlake region is of concern (Watkins pers. comm. 2012).

Figure 10. North view of Dakota Skipper habitat along hillsides in the Souris River Region of southeastern Saskatchewan. Photo: N. de Silva.
North view of Dakota Skipper
Photo: 2014 © Environment Canada.
Long description for Figure 10

Photo of Dakota Skipper habitat on hillsides in the Souris River Region of southeastern Saskatchewan. The image shows upland dry-mesic mixed-grass / bluestem prairie.

Figure 11. Dakota Skipper site near Bienfait, Saskatchewan, where mining activity has degraded Dakota Skipper habitat. Photo: N. de Silva.
Dakota Skipper
Photo: 2014 © Environment Canada.
Long description for Figure 11

Photo of Dakota Skipper habitat near Bienfait, Saskatchewan. The image shows upland dry-mesic mixed-grass / bluestem prairie with spoil heaps from mining activity in the background.

Figure 12. Search effort for Dakota Skipper from 2002- 2012 (see Table 1). Many sites checked in 2012 failed to detect Dakota Skipper.
Search effort for Dakota Skipper
Photo: 2014 © Environment Canada.
Long description for Figure 12

Map showing location of Canadian sites searched for the Dakota Skipper from 2001 to 2012. Symbols indicate sites where the species was found in 2012, where it was not found in 2012, and where it was found between 2001 and 2011.

Saskatchewan habitats

Dakota Skipper habitat in the Souris River Region (Saskatchewan) is upland dry-mesic prairie, spanning less than 75 km east to west (Glen Ewen to Bienfait) along south-facing slopes of the Souris River (Figure 10) (see Royer et al. 2008). The habitat is associated with glacial landscapes and characterized by rolling terrain with higher relief. Soils are compact and, with gravel, and variable in moisture and temperature (Royer et al. 2008). Bluestem and needle grasses dominate. Wood Lily and Common Harebell are present, yet these habitats also support Upright Prairie Coneflower (Echinacea angustifolia) and Common Gaillardia (Gaillardia aristata).

These slopes are mostly unsuitable for agriculture and domestic livestock grazing, and aside from oil and gas activity appear in a natural state (see Threats). The inaccessibility of these steep hills and unsuitable agricultural soil are reasons this habitat has remained undeveloped (Royer and Marrone 1992) although this assessment is now more than 20 years old and development has occurred in this region since.

In the US, Dakota Skipper habitat in Minnesota, North Dakota, and South Dakota are a combination of Type A and B, depending on the site. In Minnesota the skipper primarily inhabits dry-mesic prairie with abundant Narrow-leaved Purple Coneflower (Echinacea angustifolia) but may also inhabit wet-mesic prairie in low numbers (Dana 1997; Swengel and Swengel 1999). Populations in South Dakota are more common in wet-mesic tall-grass prairies with Wood Lily and Mountain Death Camas than in Minnesota (Skadsen 1997). The habitat in North Dakota is varied (Cochrane and Delphey 2002); however, the wet-mesic habitats in the eastern part of the state appear to support denser populations than the drier habitat in western North Dakota (Royer and Marrone 1992).

Habitat Trends

Since the 1850s over 99% of the native prairie across North America has been converted to agricultural crops or hay fields, or severely degraded by overgrazing, all of which is unsuitable habitat for Dakota Skipper (Samson and Knopf 1994). Historically, there were approximately 340,000 km2 of tall-grass prairie in North America (Samson and Knopf 1994). Much of this habitat was lost between 1850 and 1920. Now, only about 500,000 ha remain, a decline of over 99%. Mixed-grass prairies have experienced similar losses (Samson and Knopf 1994).

At one time there was approximately 490,000 km2 of tall- and mixed-grass prairie across the former range of Dakota Skipper. Now only about 10% of that habitat remains (Biodiversity Conservation Alliance et al. 2003). In Manitoba, 600,000 ha of tall-grass prairie once existed (Samson and Knopf 1994). Now, only about 5,000 ha (this includes sites that are under a late fall mowing regime) remain, a decline of 99.5%. An even greater loss of mixed-grass prairies has taken place in Manitoba. In Saskatchewan, nearly 82% of the mixed-grass prairie habitat has been lost (Samson and Knopf 1994).

Biology

Dakota Skipper has four life stages with each stage having its own resource and microhabitat requirements (Scott 1986).

Life Cycle and Reproduction

Dakota Skipper has one generation per year in Canada (Cochrane and Delphey 2002). Adult skippers emerge in mid-June to early July (McCabe 1979; Dana 1991; Royer and Marrone 1992; Skadsen 1997; Swengel and Swengel 1999; Cochrane and Delphey 2002). Across its global range, adults are active for 3 - 5 weeks at a given site (McCabe 1981; Dana 1991). Individual adults can live up to four weeks (McCabe 1981).

In Canada the flight period is from late June to mid-July (June 23 to July 29) (Klassen et al. 1989; Environment Canada 2007; Webster pers. comm. 2012), with most records between June 27 and July 8 (COSEWIC 2003; Appendix 1). Adults live one to three weeks (Dana 1991; Dana 1997). Males emerge earlier than females under field conditions (Dana 1991), unlike previous research that suggested simultaneous emergence of the sexes (McCabe 1981). Emergence delay is due to the duration of post-diapause development being longer in females than males (Dana 1991). This observation was confirmed with 2012 survey data (de Silva pers. comm. 2012).

Emergence dates for the three Canadian population centres vary. During 2012 in the Oak Lake Region (Manitoba), the first adults were observed on June 26 and 27. On July 4, 2012, nearly a week later, four males were recorded in the Interlake Region in Lundar. A single female was also present, but the sex ratio showed more males (4:1). In Souris River Region (Saskatchewan) an equal sex ratio was recorded on July 10, suggesting peak flight period.

Mating occurs throughout the flight period, within a day of emergence (McCabe 1981; Dana 1991) and in the afternoon between 14:00 and 16:00 h (Dana 1991). Both sexes may mate more than once, although based on spermatophore counts females likely mate only once (McCabe 1981; Dana 1991). When a second mating does occur, it most likely takes place shortly after the first mating and before the female becomes refractory (Dana 1991).

There is some data on courtship behaviour (McCabe 1981), mating (see Dana 1991) and oviposition. Males perch (e.g., on vegetation), wait and pursue females from high vantage points such as flower heads (e.g.,Purple Conflower) (McCabe 1981; Dana 1991) and the leeward side of slopes in hilly terrain (McCabe 1981; Layberrry et al. 1998) as noted in the Souris River Region (Saskatchewan) (COSEWIC 2003; de Silva pers. data 2012). Adults observed in the Interlake Region (Manitoba) perched on thistle (Cirsium spp.). When grasses are short and sparse, males will perch on bare soil or short grasses (COSEWIC 2003).

Females lay eggs shortly after mating and continue to oviposit throughout their life span (McCabe 1981). Females lay 20 - 30 eggs daily then oviposition rates decline to approximately two eggs per day at two weeks after emergence (Dana 1991). Potential maximum lifetime fecundity is 180 to 250 eggs per female (Dana 1991).

In Canada oviposition has not been studied. In US populations, oviposition occurs throughout the day and eggs are laid individually on the underside of leaves or the upper surface of erect grasses, usually one to four centimetres above the soil surface (Dana 1991). Females fly slowly above the grass canopy and land on bare spots before crawling into the grasses.

In the US oviposition occurs on broadleaf plants (McCabe 1981; McCabe and Post 1977) and grasses (in decreasing order) Little Bluestem, Big Bluestem, Sideoats Grama, Prairie Dropseed and spear grass (Dana 1991). Oviposition is typically on or near larval host plants (Dana 1991). Larval hosts include this same suite of plants. Secondary hosts are Fall Panicum, Kentucky Bluegrass and, rarely, Sun Sedge (Dana 1991). In controlled, no-choice experiments, other common grasses such as June Grass (Koehleria cristata) and Porcupine Grass (Stipa spartea) were consumed (McCabe 1981; Dana 1991).

Dakota Skipper eggs hatch within 7-20 days, depending on temperature (McCabe 1981; Dana 1991). Larvae crawl to the base of a grass plant (Pyle 1981) and construct a silk tunnel at or beneath the ground (McCabe 1981; Dana 1991). From July to September, larvae feed at night and return to their silken shelter during the day (McCabe 1981; Klassen et al. 1989). Larvae forage for food outside the silk tunnel, returning with the food to the tunnel to eat (McCabe 1981; Dana 1991). Dakota Skipper has six or seven larval instars; the first three last 8 - 18 days under field conditions; the fourth 16 - 35 days (Dana 1991). Field studies in North Dakota observed larval diapause starting in the fourth instar (McCabe 1981) or fifth instar in Minnesota (Dana 1991) usually in October. Weather likely plays a factor in the life stage diapause starts. Dakota Skipper likely enters diapause in the fourth instar in Manitoba and Saskatchewan. Larvae begin feeding again in the spring. Generally the larvae pupate in early June (Klassen et al. 1989) and adults emerge in late June to early July.

Physiology and Adaptability

Dakota Skipper is sensitive to habitat changes, and although adults and larvae can use a variety of plants, the butterfly is rarely found in disturbed prairie habitats (McCabe 1981). Alteration of native plant community results in the loss of critical resources for the skipper, which is unlikely to move to new prairie habitats that are more than one kilometre away from the original habitat (Dana 1991; Royer and Marrone 1992). The poor dispersal capabilities and dependence on a specific suite of host plant species make Dakota Skipper especially susceptible to habitat degradation, particularly when remnant populations are widely separated.

Dispersal and Migration

Dakota Skipper is not migratory. Little information is available on the dispersal of the skipper in Canada or the United States. In a mark-release-recapture experiment at the Hole-in-the-Mountain preserve in Minnesota, marked adults moved across 200 m of unsuitable habitat between two sections of prairie (Dana 1991). Dana (1991) estimated average adult movements of about 300 m over a three to seven day period. Dakota Skipper experts interviewed by Cohrane and Delphey (2002) thought it was unlikely that the skipper would move more than one kilometre across non-native prairie habitat (crop fields or pastureland) to another prairie patch. Royer and Marrone (1992) also suggested that the species was unlikely to disperse far from their native prairie habitats. Unmarked Dakota Skippers from one site were reported as possibly dispersing to an adjoining previously uninhabited site 800 m away (Skadsen 1999). Additional studies are required to examine the potential long-range dispersal capabilities of this species.

Interspecific Interactions

Dakota Skipper is predated upon by Ambush bugs (Phymata sp.), flower spiders, (Misumena vatia Clerck and Misumenops carletonicus Dendale and Redner) and various orb weaver spiders (Araneidae: Misumenops spp.) (in Minnesota and North Dakota) (Cochrane and Delphey 2002, McCabe 1981; Dana 1991). These predators were rarely found in Common Harebell in North Dakota (McCabe 1981). Orb weaver spiders were less effective predators of young adult Dakota Skipper, which can break from the webbing. Old, worn adults, however, are less successful in breaking away from the webs (McCabe 1981).

An egg parasitoid, Ooencyrtus sp., has been reared from field-collected ova of Dakota Skipper in Minnesota. Ants have been observed seizing wandering larvae (Dana 1991). Other potential predators include robber flies, dragonflies and birds. Small mammals and ground-foraging birds may prey on skippers as observed with other butterfly species (Lederhouse et al. 1987).

At most sites in Manitoba and Saskatchewan, Garita Skipper (Oarisma garita (Reakirt)) and Long Dash Skipper (P. mystic) are also recorded at Dakota Skipper sites. Few interactions between Dakota Skipper and other species of butterflies have been observed. Occasionally, male Dakota Skippers are observed to briefly pursue a skipper of another species. Most interactions observed are Long Dash Skipper, which often occurs in the adjacent wetter sections of the prairies (e.g., next to Dakota Skipper sites). It is unlikely that there is any competition for larval or nectar food resources among these species of butterflies (COSEWIC 2003).

Population Sizes and Trends

Sampling Effort and Methods

The first population estimates in Canada were made in 2002 (fieldwork for the COSEWIC 2003 status report) at most sites where Dakota Skipper was recorded. Dakota Skippers were counted in one to nine 0.5-ha sections of the drier prairie within each prairie site surveyed. Counts were made while walking at a slow pace in a zig-zag path through the entire plot. It usually took about 15-20 minutes to count the adults in a 0.5-ha section of prairie. A basic population estimate was calculated based on the density of adults observed in the drier areas and the estimated proportion of the prairie with this kind of habitat [(mean number of adults per hectare in the 0.5 hectare sections counted) x (estimated proportion of drier prairie) x (estimated size of prairie)]. The size of the prairies was estimated visually with the aid of landmarks and topographic maps.

For the 2012 population estimate, only the total number of skippers observed on the survey date per site was multiplied by the estimated size of suitable habitat (ha).

Abundance

During 2002 (initial status report assessment), 436 adults (339 males, 97 females) of Dakota Skipper were counted at 17 sites (plus 29 sub-sites) in the Inter-lake Region of Manitoba (COSEWIC 2003). The prairies at these sites varied greatly in size from 0.5 ha to 500 ha in some of the larger prairie complexes. The total area occupied by Dakota Skipper in Manitoba was estimated at around 2,700 ha. The estimated number of adults per site varied from 15 individuals at a small one-hectare prairie east of St. Laurent, to 2,000 individuals in a 500-hectare series of prairies south of Lundar. The density of Dakota Skipper also varied within a given prairie. At one 250-hectare prairie east of Lundar, Dakota Skipper was counted in nine sections of the prairie.

The densities of adults in each of the nine sections were 24, 8, 18, 6, 4, 24, 4, 118, and 6 individuals per hectare (average density = 23.5 individuals/ha). No adults were observed in the low, wetter sections of the prairie at this site. The highest density occurred within a two-hectare section of undisturbed prairie containing extensive areas of short bunch grasses.

The total number of Dakota Skipper in the Interlake Region was estimated to be near 12,000 individuals on the dates the survey was done (2002). These estimates need to be viewed with caution. Surveys were not done at peak flight, and the total seasonal population of reproductive adults was likely higher than the one-day estimates. Dana (1991) estimated that only a third to a fifth of adults in a given population are alive simultaneously. Thus, the total seasonal population of this skipper in the inter-lake region may be between 25,000 and 35,000 individuals (COSEWIC 2003).

On July 10, 2002, a total of 25 males and 22 females were counted at the 100- and 200-ha sites near Griswold, Manitoba. The population was estimated at around 1,750 individuals on the date of the survey. The total seasonal adult populations may be between 3,000 and 5,000 individuals although this estimate is viewed with caution (see above) (COSEWIC 2003).

In 2002, Dakota Skipper was known from four sites in Saskatchewan. The prairie near Oxbow covers an area of about 50 ha and the population at this site was estimated to be at least 250 individuals. No estimates are available on the population size and area of the prairies at the other three sites in Saskatchewan (COSEWIC 2003).

In 2002, Dakota skipper population in Canada was estimated from 28,500 - 40,500 (COSEWIC 2003): 1) Interlake Region (25,000 – 30,000 adults); 2) Oak Lake Region (3,000 – 5,000 adults) and 3) Souris River Region (250 adults) (COSEWIC 2003).

Based on results from 2012 surveys and using the same methods described above, the Dakota Skipper population in Canada in 2012 is estimated at 14,000 individuals: 1) Interlake Region (Manitoba) population 5,450 adults; 2) Oak Lake Region (Manitoba) 7,670 adults; and 3) Souris River Region (Bienfait to Glen Ewen) (Saskatchewan) 890 adults. It appears that while there may be more known sites of larger size in the Interlake Region the sites in southwest Manitoba are generally of higher quality of habitat and have greater abundance. The Interlake Region had 70 hours devoted to surveying (11 Dakota skippers were observed), Oak Lake Region had 20 hours of observation time (61 skippers observed) and the Souris Region had a total of 11 hours (15 observed). In 2012 the three highest single counts occurred in the Oak Lake Region, similar to 2007 survey results that recorded 98 and 273 Dakota Skippers in 2 separate sites during two three-and-a-half-hour observation periods.

Similar densities of Dakota Skipper have been observed at a number of other wet-mesic tall-grass to dry-mesic mixed-grass prairies in the United States. Royer and Marrone (1992) reported densities of 40 individuals per hectare in wet-mesic bluestem prairies in North Dakota. In the Hole-in-the-Mountain preserve in Minnesota, Dana (1991) found 25 adults per hectare in a 40 ha area at peak seasonal abundance. He estimated that the total seasonal population was 2,000 - 3,000 adults. These high densities only persist for 7-10 days during the flight season (Dana 1991).

Factors that influence population estimates include the accuracy of estimated habitat size (ha). A site with few observations yet higher quality and quantity of habitat might be estimated to have more skippers present than a smaller (ha) site. In addition, surveys may not have been at peak flight (daily or seasonal), and the total seasonal population of reproductive adults may be higher than the one-day estimates. Dana (1991) estimated that only a third to a fifth of adults in a metapopulation are simultaneously alive.

Fluctuations and Trends

The population structure of Dakota Skipper is unknown, although the species does not appear to have extreme fluctuations. It is not known whether populations were contiguous or comprised of several larger metapopulations throughout the former expanse of tall-grass and mixed-grass prairies in North America (Britten and Glasford 2002). Current populations of the skipper are now highly fragmented and restricted to few remnant prairies (Cochrane and Delphey 2002). Most Dakota Skipper sites in Canada have been recorded since 2000, mainly due to increased search effort.

Rescue Effect

In Canada the three population centres are separated by a minimum of 100 km including populations in the United States. Unless a source population exists within one kilometre (Dana 1991; Royer and Marrone 1992) it is unlikely an extirpated or at-risk population will be re-founded by immigrants (McCabe 1981; Swengel 1998). Within each Canadian population centre, a number of the sites are within dispersal distance (1km) and populations may be interconnected.

Threats and Limiting Factors

The International Union for Conservation of Nature-Conservation Measures Partnership (IUCN-CMP) threat calculator (Salafsky et al. 2008; Masters et al. 2009) was used to classify and list threats to Dakota Skipper. The overall Threat Impact for Dakota Skipper is Very High (Table 3).

Climate Change and Severe Weather (Threat 11)

Storms and flooding (11.4)

The predominant threat to Dakota Skipper is increased frequency and severity of flooding of the low-relief habitat (see Habitat) within all three population centres. Historically, prairie ecosystems experienced periodic flooding. However, present-day habitat patches are no longer interconnected, preventing recolonization between seasonally flooded sites.

The highest threat to Dakota Skipper during 2012 surveys was habitat loss at known sites due to flooding (de Silva pers. comm. 2012). During the 2012 survey, seven sites were completely submerged and/or inaccessible due to flooding. In the Interlake Region around the Shoal Lakes, three sites were flooded, as they had been the year prior. In southwestern Manitoba an additional four sites where the skipper has been recorded within the last 10 years (COSEWIC 2003; Westwood 2010; Rigney pers. comm. 2012) were inaccessible due to high water levels. Westwood (2010) cites flooding as having a major impact to skipper activity in 2010.

In Saskatchewan, flooding in 2011 partially disturbed the site overlooking Bow Valley Regional Park. Prolonged or excessive flooding has been blamed for the loss of at least one site prior to 2012 in South Dakota (Skadsen 1997). Many of the lower-lying sites in Saskatchewan are within potential flood areas.

Conversely, flooding may have preserved some Dakota Skipper habitat, as this land is generally deemed unsuitable for farming.

Agriculture and Aquaculture (Threat 2)

  • Annual and perennial non-timber crops (2.1)

Since the 1850s over 99% of the native prairie across North America has been converted to agricultural crops or hay fields (Samson and Knopf 1994). Within Canada there has been a 99.9% decline in the tall-grass prairie habitat within Manitoba and an 81% decline in the mixed-grass prairie in Saskatchewan (Samson and Knopf 1994). Similar declines have been noted in the United States (Samson and Knopf 1994; Cochrane and Delphey 2002).

Dakota Skipper sites in Canada are located on prairie remnants, many adjacent to agricultural land. These prairie remnants remain where the land is unsuitable for agriculture largely due to poor soils, steeper terrain (McCabe 1981; Royer and Marrone 1992) and risk of flooding (especially in Manitoba). Agricultural land conversion is more likely to occur at the flatter Manitoba sites and less so within the steeper slopes within the habitat in Saskatchewan.

Habitat conversion has led to the extirpation of at least two sites since the initial COSEWIC (2003) status report. During 2012 surveys, one known site near Fannystelle (outside Winnipeg), Manitoba, was presumed extirpated due to site conversion in 2002 and one site near Elgin (extant in 2002) had been converted to cropland by 2012.

  • Livestock farming and ranching (2.3)

Overgrazing appears to adversely impact tall-grass and especially mixed-grass prairies (McCabe and Post 1977; Royer and Marrone 1992; Royer and Royer 1998). Dana (1997) found that cattle grazing reduced skipper numbers in direct proportion to grazing intensity. Grazing may reduce or eliminate adult nectar sources, remove larval host plants (McCabe 1981), and lead to soil compaction and larval mortality from trampling (McCabe 1981; Dana 1997; Cochrane and Delphey 2002). Dakota Skipper abundance declines with degradation of the floral community (Skadsen 2009).

Overgrazing may be detrimental to populations of Dakota Skipper, although moderate or low grazing may benefit the species by creating areas of mixed-grass vegetation structure preferred by the skipper (Dana 1991). Schlicht (1997) found Dakota Skipper to be abundant on prairies with light grazing, but absent on adjacent idle prairies.

Grazing occurs at both Manitoba population centres. In 2002, in the Interlake Region (Manitoba), few nectar sources were observed on grazed prairies, most grasses had been grazed to less than 10 cm height and Dakota Skipper was not recorded in these prairies. In 2012, Dakota Skipper was not present at two previously known sites near Inwood (Interlake Region), Manitoba. This site is within a bison ranch, which has been operational for nearly two decades--it is unknown whether grazing intensity, timing or frequency has increased in recent years. In the Oak Lake region (Manitoba), two sites near Griswold where Dakota Skipper was recorded in 2002 and 2007 has recent cattle grazing (Rigney pers. comm. 2012), and both skipper and indicator plants were absent in 2012.

Studies within grazed sites in Minnesota found exotic grasses increased while native species richness and diversity declined (Dana 1997). In North Dakota, both Dakota Skipper and adult nectar sources were rarely found on overgrazed prairies (McCabe 1981).

Energy Production and Mining (Threat 3)

  • Mining and quarrying (3.2)

Gravel mining and mine expansion over a 5-year span (Figure 11) may have impacted one site in the Souris River Region (near Bienfait) Saskatchewan. This expansion may have created unsurpassable barriers to movement for Dakota Skipper. Dakota Skipper was recorded in 2007 and 2012 (only one record) yet habitat quality has since declined (N. deSilva pers. comm. 2012).

Within the species' US range, gravel mining in Minnesota has occurred at some Dakota Skipper sites (Dana 1997), and at present a minimum of seven sites are threatened (Minnesota Department of Natural Resources 2006), the most recent being Felton Prairie (USFWS 2011).

Biological Resource Use (Threat 5)

  • Hunting and collecting terrestrial animals (5.1)

In Manitoba it is illegal to disturb or remove Dakota Skipper without a provincial scientific permit. Dakota Skipper is not collected for commercial purposes and collection of vouchers for scientific purposes is not a likely threat. In recent years, the collection of vouchers from known sites in Manitoba is no longer permitted due to concern for low populations (Watkins pers. comm. 2012). This is not considered a

  • Gathering terrestrial plants (5.2)

Haying and mowing is a potential threat to Dakota Skipper populations. However, depending on seasonal timing, haying may also benefit Dakota Skipper populations. Late season mowing reduces the adverse effects of mowing early and may benefit Dakota Skipper populations (McCabe 1981; Skadsen 1997; Swengel and Swengel 1999). If habitat is mowed before the flight period, adult nectar sources are eliminated and non-native grasses such as Kentucky bluegrass may outcompete larval and nectar sources (McCabe 1981; Royer and Marrone 1992; Dana 1997).

During 2002 (COSEWIC 2003) and 2012 surveys in Manitoba and Saskatchewan, adults were more commonly recorded from sites with a fall mowing regime, especially in the Lundar area. Plots on late summer or fall mowing regimes, either annually or during alternate years, had mid-height grasses and appeared to have more butterflies (de Silva pers. comm. 2012).

In a systematic survey in three US states, Dakota Skipper was more abundant in fall-hayed prairies than prairies left idle, grazed or burned (Swengel and Swengel 1999). Most Dakota Skipper populations North and South Dakota are found in prairies with a late season mowing regime (McCabe 1981; Skadsen 1997).

Natural System Modifications (Threat 7)

  • Fire and fire suppression (7.1)

Wildfires are important for sustaining the native prairie species (Bragg 1995). Historic wildfires were generally patchy, less intense, did not burn the entire habitat and thus allowed for butterfly recolonization (Swengel 1998). Fire suppression is ongoing at all population centres, although the rate and severity are unknown.

  • Other ecosystem modifications (controlled or prescribed burning) (7.3)

Today, fire is an important tool in the conservation and restoration of tallgrass prairie (Vogel et al. 2010) and used by land managers to maintain the native grassland structure and floral complexes. Prescribed burns differ from wildfires in that remnant prairies are often burned more frequently, more thoroughly and during seasons when wildfires would not normally occur (Orwig and Schlicht 1999). Prescribed burning of isolated prairies can cause local extirpation of certain insect species, especially habitat specialists such as Dakota Skipper and Poweshiek Skipperling (McCabe 1981; Schlicht and Saunders 1995; Swengel 1996, 1998, 2001; Orwig and Schlicht 1999).

The timing of prescribed burning may affect Dakota Skipper. Early summer burns have the potential to destroy Dakota Skipper eggs (McCabe 1981). Dana (1991) suggested that rotational, controlled, early spring burning might benefit Dakota Skipper by increasing nectar plant density and reducing high levels of litter that might negatively impact development of the immature stages.

The Dakota Skipper population at the Tall Grass Prairie Preserve (TGPP) may have been extirpated from controlled and unmanaged burns (Westwood 2010). Dakota Skipper was reported in the TGPP as recently at 2000 (Britten and Glasford 2002; COSEWIC 2003). Prescribed, rotational, early spring burning has been the major management practice used to prevent growth of woody vegetation and maintain the native prairie flora the TGPP (COSEWIC 2003). In 2001 controlled burning occurred, and in 2002 a wildfire occurred that burned more than half of the preserve. These fires (combined with grazing) may have been the disturbances that led to the extirpation of Dakota Skipper at this site (Westwood 2010).

Habitat fragmentation may also increase the effects of genetic drift (Britten and Glasford 2002), and make the Dakota Skipper more vulnerable to extirpation via natural disturbances such as flood or fire.

In the US, prescribed burning may have caused the extirpation of the last known Dakota Skipper site in Iowa (Orwig and Schlicht 1999). In Minnesota, significantly lower abundances of Dakota Skipper and other habitat specialists were observed at sites that had been burned than at sites that had been hayed (Swengel 1996, 1998; Swengel and Swengel 1999). Two to four years after early-spring burning, the abundance of Dakota Skipper (and several other habitat specialist butterflies) was still lower than pre-burn abundances on several Minnesota reserves (Swengel 1996), showing that burning is a major threat to this species. No known Dakota Skipper sites are currently scheduled for prescribed burning.

Invasive and Other Problematic Species and Genes (Threat 8)

  • Invasive non-native/alien species (8.1)

Non-native plants such as Leafy Spurge (Euphorbia esula), Kentucky Blue Grass and Smooth Brome (bromegrass), are threats to native prairie habitats. Late season invasive plants such as Smooth Brome are unsuitable forage and can potentially out-compete and replace the native plants Dakota Skipper larvae require (Dana 1991). Dakota Skipper has been extirpated from at least one site in North Dakota by Leafy Spurge (Royer and Royer 1998). The extent of these plants at Dakota Skipper sites in Manitoba and Saskatchewan is unknown.

  • Problematic native species (8.2)

Natural succession and the expansion of woody plant species, growth of shrubs and grasses, subsequent reduction in nectar sources, and litter accumulation contribute to the decline in quality of Dakota Skipper habitat (McCabe 1981; Dana 1997; Skadsen 2003). Periodic disturbance is needed to sustain the early seral conditions needed for Dakota Skipper host plants. The lack of long-term natural (e.g., fires) or anthropogenic (e.g., livestock grazing, mowing, or prescribed burns) disturbance has led to widespread natural succession in all Dakota Skipper habitats. One particular site near Grand Clariere, Manitoba, is experiencing rapid tall-grasses and shrub growth and may be at greater risk than other Dakota Skipper sites.

Research on Dakota Skipper in other parts of its global range suggests natural succession is necessary for habitat maintenance. In South Dakota overall prairie-dependent butterfly richness declined from natural succession by woody plants and invasive species, when compared to anthropogenically managed sites (Skadsen 2006). Following a prescribed burn, Dakota Skipper returned to a site that previously had ongoing natural succession (Skadsen 2008). Habitats that were not periodically disturbed in the Felton Prairie, Minnesota, had reduced Dakota Skipper abundance (Braker 1985). Significantly lower Dakota Skipper abundance was recorded on unmanaged prairies compared to sites on fall haying regimes (Swengel and Swengel 1999).

Pollution (Threat 9)

  • Agricultural and forestry effluents (9.3)

The broad application of insecticides for agricultural pest control can indirectly harm or kill Dakota Skipper (Royer and Marrone 1992). The use of herbicides to control non-native plants may impact nectar and larval host plants (Royer and Marrone 1992). Some Dakota Skipper sites in Canada are near agricultural properties, yet the impacts of agricultural pest control on this butterfly is unknown.

Limiting Factors

Dakota Skipper appears to have limited flight and dispersal ability, ranging less than 300 m from occupied sites (Dana 1997).

Nectar and host plant quantity and quality limit oviposition sites and larval development (see Habitat). Wildfire, soil pH, humidity and extreme winter temperatures affect larval survival (McCabe 1979, 1981).

Larvae have natural protection mechanisms against excess moisture (MacNeill 1964) yet high humidity may still pose a risk. Bacterial septicemia (MacNeill 1964) may be a mortality factor for Dakota Skipper (McCabe 1981).

Fully-grown larvae have a white glandular patch on the ventral portions of abdominal segments seven and eight that contains a waxy water-repellent substance. Prior to pupation, the larvae distribute this waxy material throughout the pupal chamber (McCabe 1981; Dana 1991). This substance may protect the larvae from the effects of high humidity, which may be a limiting factor to survival (MacNeill 1964) especially during flooding.

Predation, disease, and interspecific competition are not considered detrimental to Dakota Skipper populations (Dana 1991; Royer and Marrone 1992).

Protection, Status, and Ranks

Legal Protection and Status

In Canada Dakota Skipper was assessed as threatened by COSEWIC in 2003 and listed under the federal Species at Risk Act (SARA) in 2005.

In Manitoba, Dakota Skipper is listed as threatened under the Manitoba Endangered Species Act (CanLII 2006). Under this Act it is illegal to; 1) kill, injure, possess, disturb, or interfere with a threatened species, 2) destroy, disturb, or interfere with the habitat of a threatened species, or 3) damage, destroy, obstruct, or remove a natural resource on which a threatened species depends for its life and propagation. Special permits are also required for its study in Manitoba. In Saskatchewan the species is not listed under the provincial Wildlife Act (1998) and therefore not afforded protection under this legislation.

Non-Legal Status and Ranks

The native mixed- and tall-grass prairies of North America are considered critically endangered ecosystems (Samson and Knopf 1994; Steinauer and Collins 1994; Stephens et al. 2008; Koper et al. 2010).

In Canada the subnational conservation status ranks for Dakota Skipper are imperilled (S2) in Manitoba and critically imperilled (S1) in Saskatchewan. The national status rank in both Canada and the United States is imperilled (N2) and globally the species is imperilled (G2) (NatureServe 2013).

In the United States, the subnational conservation status ranks for Dakota Skipper are presumed extirpated (SX) in Illinois, critically imperiled (S1) in Iowa, imperiled (S2) in Minnesota, North Dakota (S2) and South Dakota (S2) (NatureServe 2012). The species is listed as Vulnerable by the International Union for Conservation of Nature (IUCN) under the A criterion; and is imperilled on the Xerces Society Red List (Xerces Society 2012).

Dakota Skipper is a candidate for listing under the United States Endangered Species Act due to declining populations as a result of development of native prairie for grazing, urban growth and herbicide use (USFWS 2009).

Habitat Protection and Ownership

In Canada no extant Dakota Skipper sites are recorded from federal or provincial lands. Dakota Skipper was formerly present within the 2,200 ha Tall Grass Prairie Preserve (TGPP); however, this population is likely extirpated as it has not been recorded during surveys in 2002 and 2012 (Westwood pers. comm. 2012).

Almost all Dakota Skipper sites in Manitoba are on privately owned land. These sites are currently not being used for agricultural purposes other than hay production.

Most sites in Saskatchewan appear to be on private lands, with the exception of one site near Oxbow at Bow Valley Regional Park, which is partly on land owned by the regional municipality. Local government land is often considered private by provincial governments.

In the United States, 49% of the 146 sites where Dakota Skipper is presumed extant are privately owned and 27% are state or federally owned.

Acknowledgements Contacted

Burns, John. May 2012. Research Entomologist and Curator of Lepidoptera in the Department of Entomology National Museum of Natural History, Smithsonian Institution, Washington, DC (USNM.)

Dana, Robert. June 2012. Minnesota Department of Natural Resources. Lafontaine, J. Donald. May 2012. Research Scientist and Curator of Lepidoptera, Biodiversity Section, Eastern Cereal and Oilseed Research Centre, Agriculture and Agri-Food Canada, K.W. Neatby Building, 960 Carling Ave., Ottawa, Ontario.

Rigney, Christa. June, July 2012. MSc. Candidate, University of Winnipeg. Winnipeg, Manitoba.

Webster, Reginald. June 2012. Research Associate, Zoology, New Brunswick Museum. St. John, New Brunswick.

Westwood, Richard. June/July 2012. Professor, Dept. of Biology and Dept. of Environmental Studies. University of Winnipeg. Winnipeg, Manitoba.

Watkins, William. June 2012. Zoologist, Manitoba Conservation Data Centre. Winnipeg, Manitoba.

Warren, Andrew. May, 2012. Senior Collections Manager, 123 McGuire Hall McGuire Center for Lepidoptera and Biodiversity, Florida Museum of Natural History, University of Florida.

Authorities Contacted

Authorities Contacted for the First Status Report

Borkowsky, Christie. July 2002. Prairie Technician, Critical Wildlfie Habitat Program, Box 24, 200 Saulteaux Crescent, Winnipeg, Manitoba R3J 3W3,

Britten, Hugh. November 2002. Associate Professor, Department of Biology, University of South Dakota, Vermillion, SD 57069.

Catling, Paul. February 2002. Research Scientist and Curator, and Adjunct Professor (University of Ottawa), Eastern Cereal and Oilseed Research Centre, Biological Resources Program, Agriculture and Agri-food Canada, Research Branch, Wm. Saunders Bldg., Central Experimental Farm, Ottawa, Ontario.

Dana, Robert. November 2002. Natural Heritage and Nonegame Research Program, Minnesota Department of Natural Resources, 500 Lafayette Rd., Box 25, St. Paul, MN 55155-4025.

Delphey, Phillip. October 2002. U.S. Fish and Wildlife Service, Twin Cities Field Office, 4101 E. 80th Street, Bloomington, MN 55425.

Duncan, James. February 2002, January 2004. Acting Chief, Program Manager for the Insect Species Group, Biodiversity Conservation Section, Wildlife and Ecosystem Protection Branch, Manitoba Conservation, Box 24, 200 Saulteaux Crescent, Winnipeg, Manitoba R3J 3W3.

Greenall, Jason. March 2002. Botanist/Ecologist, Biodiversity Conservation Section, Wildlife and Ecosystem Protection Branch, Manitoba Conservation, Box 24, 200 Saulteaux Crescent, Winnipeg, Manitoba R3J 3W3.

Hooper, R.R. March, July, September 2002. Box 757, Fort Qu'Appelle, Saskatchewan S0G 1S0. Kennedy, Lance. July 2002. Geologist, former farmer. Oak Point, Manitoba. Jessop, Annabelle. February 2002. Biodiversity Section, Eastern Cereal and Oilseed Research Centre, K.W. Neatby Building, 960 Carling Ave., Ottawa, Ontario.

Lafontaine, J. Donald. October 2001. Research Scientist and Curator of Lepidoptera, Biodiversity Section, Eastern Cereal and Oilseed Research Centre, Agriculture and Agri-Food Canada, K.W. Neatby Building, 960 Carling Ave., Ottawa, Ontario.

McCabe, Timothy. March 2002. Curator, New York State Museum, Cultural Education Center, Room 3132, Albany, N.Y. 12230-0001.

Preston, William B. March 2002. Co-author of "The Butterflies of Manitoba", 946 McMillan Avenue, Winnipeg, Manitoba, Canada R3M 0V6. Roughley, R. March, July 2002. Department of Entomology, University of Manitoba, Winnipeg, Manitoba, Canada R3T 2N2.

Royer, Ronald. October 2002. Division of Science, Minot State University, 500 University Avenue West, Minot, ND 58707.

Spomer, Stephen M. March 2002. University of Nebraska, Lincoln, Institute of Agriculture and Natural Resources, Department of Entomology, 202 Plant Industry, Lincoln, NE 68583-0816

Swengel, Scott. November 2002. 909 Birch St., Baraboo, WI 53913, Tel: (608) 356-9543.

Watkins, William. March, July, October 2002. Program Manager for the Insect Species Group, Biodiversity Conservation Section, Wildlife and Ecosystem Protection Branch, Manitoba Conservation, Box 24, 200 Saulteaux Crescent, Winnipeg, Manitoba R3J 3W3

Westhorpe, Peggy L. March 2002. Habitat Stewardship Manager, Wildlife and Ecosystem Protection Branch, Manitoba Conservation, Box 24, 200 Saulteaux Crescent, Winnipeg, Manitoba R3J 3W3.

Westwood, Richard. October 2002. Co-author of "The Butterflies of Manitoba", Centre for Forest Interdisciplinary Research and Departments of Biology and Environmental Studies, University of Winnipeg, Winnipeg, Manitoba R3B 2E9.

 

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Swengel, A.B. and S.R. Swengel. 1999. Observations of prairie skippers (Oarisma poweshiek, Hesperia dacotae, H. ottoe, H. leonardus pawnee, and Atrytone arogos iowa) (Lepidoptera: Hesperiidae) in Iowa, Minnesota, and North Dakota during 1988–1997. Great Lakes Entomologist 32(4): 267–292.

Webster, R.P. 2007. Dakota skipper, Hesperia dacotae (Skinner), survey in southeast Saskatchewan and southwest Manitoba during 2007. Canadian Wildlife Service, Environment Canada, Edmonton, Alberta. 26 pp.

USFWS. 2009. Candidate Notice of Review. Federal Register .. 74, No. 215. U.S. Fish and Wildlife Services. Web site: [accessed September 2012].

USFWS. 2011. U.S. Fish and Wildlife Service Species Assessment and Listing Priority Assignment Form – Hesperia dacotae. U.S. Fish and Wildlife Species Profile; Environmental Conservation Online System. Web site: [accessed September 2012].

Vogel, J.A., R.R. Koford, and D.M. Debinski. 2010. Direct and indirect responses of tallgrass prairie butterflies to prescribed burning. Journal of Insect Conservation 14: 663-677

.

Biographical Summary of Report Writer(s)

Nicholai de Silva holds an Honours Bachelor of Science as well as MSc in Biology from York University. He began his entomology career as an undergraduate research assistant helping to curate various graduate student projects in Canada's largest wild bee collection, the Packer Collection at York University. His undergraduate work focused on barcoding the native bee fauna of Thailand in conjunction with a countrywide entomology survey. His MSc work, under the tutelage of Dr. Laurence Packer, was a systematic revision of an interesting group of cleptoparasitic bees (Coelioxys) in Canada. Other side projects have included taxonomic work on other genera such as Systropha, as well as using trap nests to look at different aspects of native cavity-nesting bees. He has conducted or been involved in a number of inventory surveys including field experience in central and western Canada, and throughout the U.S.A.

Collections Examined

Loans of specimens including males and females of P. mystic, P. themistocles, and H. assiniboa, and Dakota Skipper were obtained from the Canadian National Collection, Ottawa, Ontario, as well as the Royal Saskatchewan Museum, Regina, Saskatchewan. Collections held at the University of Winnipeg were also examined. For a complete listing of database specimens held at the Royal Saskatchewan Museum (RSM), the Manitoba Museum previously the Manitoba Museum of Man and Nature (MMNM), and the Canadian National Collection (CNC) see Appendix 1.

Appendix 1. Dakota Skipper specimens and vouchers. RSM = Royal Saskatchewan Museum; MMMN = Manitoba Museum of Man and Nature, Winnipeg, Manitoba; and CNC = Canadian National Collection of Insects, Arachnids and Nematodes, Ottawa, Ontario.
Site Number Site Name Collection Catalog Province Date Collector
19 Oxbow RSM E-645 Saskatchewan 7/19/2001 R. Hooper
19 Oxbow RSM E-646 Saskatchewan 7/19/2001 R. Hooper
19 Oxbow RSM E-647 Saskatchewan 7/19/2001 R.Hooper
19 Oxbow RSM E-648 Saskatchewan 7/27/2001 R. Hooper
20 Roche Percee RSM E-649 Saskatchewan 7/29/2002 R. Hooper
21 Miniota CNC 164991 Manitoba 06/07/1944  
21 Miniota CNC 164992 Manitoba /-7-22  
22 Lundar CNC 164993 Manitoba 29/06/1987  
22 Lundar CNC 164994 Manitoba 29/06/1987  
22 Lundar CNC 164995 Manitoba 29/06/1987  
22 Lundar CNC 164996 Manitoba 29/06/1987  
22 Lundar CNC 164997 Manitoba 29/06/1987  
22 Lundar CNC 164998 Manitoba 29/06/1987  
22 Lundar CNC 164999 Manitoba 29/06/1987  
22 Lundar CNC 165000 Manitoba 29/06/1987  
22 Lundar CNC 165001 Manitoba 29/06/1987  
22 Lundar CNC 165002 Manitoba 29/06/1987  
22 Lundar CNC 165003 Manitoba 29/06/1987  
22 Lundar CNC 165004 Manitoba 29/06/1987  
23 Griswold CNC 439913 Manitoba 10/07/2002 R.P. Webster
24 Coldwell Twnship CNC 439914 Manitoba 06/07/2002 R.P. Webster
24 Coldwell Twnship CNC 439915 Manitoba 06/07/2002 R.P. Webster
25 Eriksdale Twnship CNC 439916 Manitoba 07/07/2002 R.P. Webster
26 Oak Lake Rd. CNC 439917 Manitoba 07/07/2002 R.P. Webster
26 Oak Lake Rd. CNC 439918 Manitoba 07/07/2002 R.P. Webster
27 St. Laurent Twnship CNC 439919 Manitoba 08/07/2002 R.P. Webster
28 Coldwell Twnship CNC 439920 Manitoba 07/07/2002 R.P. Webster
29 Coldwell Twnship CNC 439921 Manitoba 07/07/2002 R.P. Webster
30 Coldwell Twnship CNC 439922 Manitoba 08/07/2002 R.P. Webster
31 St. Laurent Twnship CNC 439923 Manitoba 08/07/2002 R.P. Webster
32 Lundar CNC 439924 Manitoba 08/07/2002 R.P. Webster
33 St. Laurent Twnship CNC 439925 Manitoba 08/07/2002 R.P. Webster
34 Coldwell Twnship CNC 439926 Manitoba 08/07/2002 R.P. Webster
34 Coldwell Twnship CNC 439927 Manitoba 08/07/2002 R.P. Webster
35 Coldwell Twnship CNC 439928 Manitoba 02/07/2002 R.P. Webster
36 Lundar CNC 439929 Manitoba 06/07/2002 R.P. Webster
37 Coldwell Twnship CNC 439930 Manitoba 08/07/2002 R.P. Webster
38 Coldwell Twnship CNC 439931 Manitoba 08/07/2002 R.P. Webster
14-SR Oxbox CNC 439932 Saskatchewan 11/07/2002 R.P. Webster
39 Inwood CNC 439933 Manitoba 07/07/2002 R.P. Webster
40 Griswold CNC 439934 Manitoba 10/07/2002 R.P. Webster
41 Lundar CNC 439935 Manitoba 02/07/2002 R.P. Webster
42 St. Laurent Twnship CNC 439936 Manitoba 08/07/2002 R.P. Webster
43 St. Laurent CNC 439937 Manitoba 08/07/2002 R.P. Webster
22 Lundar MMMN 225149 Manitoba 08/07/1982 P. Klassen
22 Lundar MMMN 225150 Manitoba 08/07/1982 P. Klassen
22 Lundar MMMN 225151 Manitoba 08/07/1982 P. Klassen
22 Lundar MMMN 225152 Manitoba 03/07/1984 P. Klassen
22 Lundar MMMN 225153 Manitoba 03/07/1984 P. Klassen
22 Lundar MMMN 225154 Manitoba 03/07/1984 P. Klassen
22 Lundar MMMN 225155 Manitoba 03/07/1984 P. Klassen
22 Lundar MMMN 225156 Manitoba 03/07/1984 P. Klassen
22 Lundar MMMN 225157 Manitoba 03/07/1984 P. Klassen
22 Lundar MMMN 225158 Manitoba 03/07/1984 P. Klassen
22 Lundar MMMN 225159 Manitoba 03/07/1984 P. Klassen
22 Lundar MMMN 225160 Manitoba 03/07/1984 P. Klassen
22 Lundar MMMN 225161 Manitoba 03/07/1984 P. Klassen
22 Lundar MMMN 225162 Manitoba 03/07/1984 P. Klassen
22 Lundar MMMN 225163 Manitoba 03/07/1984 P. Klassen
22 Lundar MMMN 225164 Manitoba 03/07/1984 P. Klassen
22 Lundar MMMN 225165 Manitoba 03/07/1984 P. Klassen
22 Lundar MMMN 225166 Manitoba 03/07/1984 P. Klassen
22 Lundar MMMN 225167 Manitoba 03/07/1984 P. Klassen
22 Lundar MMMN 225168 Manitoba 03/07/1984 P. Klassen
22 Lundar MMMN 225169 Manitoba 03/07/1984 P. Klassen
22 Lundar MMMN 225170 Manitoba 03/07/1984 P. Klassen
22 Lundar MMMN 225171 Manitoba 08/07/1985 P. Klassen
22 Lundar MMMN 225172 Manitoba 08/07/1985 P. Klassen
22 Lundar MMMN 225173 Manitoba 08/07/1985 P. Klassen
22 Lundar MMMN 225174 Manitoba 08/07/1985 P. Klassen
22 Lundar MMMN 225175 Manitoba 08/07/1985 P. Klassen
44 Tolstoi MMMN 225176 Manitoba 27/06/1986 P. Klassen
44 Tolstoi MMMN 225177 Manitoba 27/06/1986 P. Klassen
44 Tolstoi MMMN 225178 Manitoba 27/06/1986 P. Klassen
44 Tolstoi MMMN 225179 Manitoba 27/06/1986 P. Klassen
44 Tolstoi MMMN 225180 Manitoba 28/06/1986 P. Klassen
44 Tolstoi MMMN 225181 Manitoba 28/06/1986 P. Klassen
44 Tolstoi MMMN 225182 Manitoba 28/06/1986 P. Klassen
44 Tolstoi MMMN 225183 Manitoba 28/06/1986 P. Klassen
44 Tolstoi MMMN 225184 Manitoba 28/06/1986 P. Klassen
44 Tolstoi MMMN 225185 Manitoba 08/07/1986 P. Klassen
44 Tolstoi MMMN 225186 Manitoba 23/06/1987 P. Klassen
44 Tolstoi MMMN 225187 Manitoba 23/06/1987 P. Klassen
44 Tolstoi MMMN 225188 Manitoba 12/07/1993 P. Klassen
22 Lundar MMMN 225189 Manitoba 03/07/1984 P. Klassen
22 Lundar MMMN 225190 Manitoba 08/07/1985 P. Klassen
45 Oak Lake MMMN 225191 Manitoba 03/07/1991 P. Klassen
45 Oak Lake MMMN 225192 Manitoba 03/07/1991 P. Klassen
46 Stuartburn MMMN 225193 Manitoba 24/06/1987 P. Klassen
47 Fannystelle MMMN 225194 Manitoba 24/06/1991 P. Klassen
44 Tolstoi MMMN 225195 Manitoba 27/06/1986 P. Klassen
44 Tolstoi MMMN 225196 Manitoba 27/06/1986 P. Klassen
44 Tolstoi MMMN 225197 Manitoba 27/06/1986 P. Klassen
44 Tolstoi MMMN 225198 Manitoba 27/06/1986 P. Klassen
44 Tolstoi MMMN 225199 Manitoba 27/06/1986 P. Klassen
44 Tolstoi MMMN 225200 Manitoba 07/07/1986 P. Klassen
44 Tolstoi MMMN 225201 Manitoba 07/07/1986 P.Klassen
44 Tolstoi MMMN 225202 Manitoba 07/07/1986 P. Klassen
44 Tolstoi MMMN 225203 Manitoba 07/07/1986 P. Klassen
44 Tolstoi MMMN 225204 Manitoba 08/07/1986 P. Klassen
44 Tolstoi MMMN 225205 Manitoba 23/06/1987 P. Klassen
44 Tolstoi MMMN 225206 Manitoba 23/06/1987 P. Klassen
44 Tolstoi MMMN 225207 Manitoba 23/06/1987 P. Klassen
22 Lundar MMMN 225208 Manitoba 08/07/1985 P. Klassen
22 Lundar MMMN 225209 Manitoba 08/07/1985 P. Klassen
22 Lundar MMMN 225210 Manitoba 08/07/1985 P. Klassen
22 Lundar MMMN 225211 Manitoba 08/07/1985 P. Klassen
22 Lundar MMMN 225212 Manitoba 08/07/1985 P. Klassen
22 Lundar MMMN 225213 Manitoba 08/07/1985 P. Klassen
22 Lundar MMMN 225214 Manitoba 08/07/1985 P. Klassen
22 Lundar MMMN 225215 Manitoba 08/07/1985 P. Klassen
22 Lundar MMMN 225216 Manitoba 08/07/1985 P. Klassen
22 Lundar MMMN 225217 Manitoba 08/07/1985 P. Klassen
22 Lundar MMMN 225218 Manitoba 08/07/1985 P. Klassen
22 Lundar MMMN 225219 Manitoba 08/07/1985 P. Klassen
22 Lundar MMMN 225220 Manitoba 08/07/1985 P. Klassen
22 Lundar MMMN 225221 Manitoba 08/07/1985 P. Klassen
22 Lundar MMMN 225222 Manitoba 08/07/1985 P. Klassen
22 Lundar MMMN 225223 Manitoba 08/07/1985 P. Klassen
22 Lundar MMMN 225224 Manitoba 08/07/1985 P. Klassen
22 Lundar MMMN 225225 Manitoba 08/07/1985 P. Klassen
22 Lundar MMMN 225226 Manitoba 08/07/1985 P. Klassen
22 Lundar MMMN 225227 Manitoba 08/07/1985 P. Klassen
22 Lundar MMMN 225228 Manitoba 08/07/1985 P. Klassen
22 Lundar MMMN 225229 Manitoba 08/07/1985 P. Klassen
22 Lundar MMMN 225230 Manitoba 08/07/1985 P. Klassen
22 Lundar MMMN 225231 Manitoba 08/07/1985 P. Klassen
22 Lundar MMMN 225232 Manitoba 08/07/1985 P. Klassen
46 Stuartburn MMMN 225233 Manitoba 28/06/1986 P. Klassen
45 Oak Lake MMMN 225234 Manitoba 03/07/1991 P. Klassen
45 Oak Lake MMMN 225235 Manitoba 03/07/1991 P. Klassen
45 Oak Lake MMMN 225236 Manitoba 03/07/1991 P. Klassen
22 Lundar MMMN 225237 Manitoba 08/07/1985 P. Klassen
22 Lundar MMMN 225238 Manitoba 08/07/1985 P. Klassen
22 Lundar MMMN 225239 Manitoba 08/07/1985 P. Klassen
22 Lundar MMMN 225240 Manitoba 08/07/1985 P. Klassen
22 Lundar MMMN 225241 Manitoba 03/07/1984 P. Klassen
22 Lundar MMMN 225242 Manitoba 03/07/1984 P. Klassen
22 Lundar MMMN 225243 Manitoba 03/07/1984 P. Klassen
22 Lundar MMMN 225244 Manitoba 03/07/1984 P. Klassen
22 Lundar MMMN 225245 Manitoba 03/07/1984 P. Klassen
22 Lundar MMMN 225246 Manitoba 03/07/1984 P. Klassen
22 Lundar MMMN 225247 Manitoba 03/07/1984 P. Klassen
22 Lundar MMMN 225248 Manitoba 03/07/1984 P. Klassen
22 Lundar MMMN 225249 Manitoba 03/07/1984 P. Klassen
22 Lundar MMMN 225250 Manitoba 03/07/1984 P. Klassen
22 Lundar MMMN 225251 Manitoba 08/07/1985 P. Klassen
22 Lundar MMMN 225252 Manitoba 08/07/1985 P. Klassen
22 Lundar MMMN 225253 Manitoba 08/07/1985 P. Klassen
22 Lundar MMMN 225254 Manitoba 08/07/1985 P. Klassen
22 Lundar MMMN 225255 Manitoba 08/07/1985 P. Klassen
22 Lundar MMMN 225256 Manitoba 08/07/1985 P. Klassen
22 Lundar MMMN 225257 Manitoba 08/07/1985 P. Klassen
22 Lundar MMMN 225258 Manitoba 08/07/1985 P. Klassen
22 Lundar MMMN 225259 Manitoba 08/07/1985 P. Klassen
22 Lundar MMMN 225260 Manitoba 08/07/1985 P. Klassen
44 Tolstoi MMMN 225261 Manitoba 07/07/1986 P. Klassen
44 Tolstoi MMMN 225262 Manitoba 07/07/1986 P. Klassen
44 Tolstoi MMMN 225263 Manitoba 07/07/1986 P. Klassen
44 Tolstoi MMMN 225264 Manitoba 07/07/1986 P. Klassen
44 Tolstoi MMMN 225265 Manitoba 08/07/1986 P. Klassen
44 Tolstoi MMMN 225266 Manitoba 08/07/1986 P. Klassen
44 Tolstoi MMMN 225267 Manitoba 23/06/1987 P. Klassen
44 Tolstoi MMMN 225268 Manitoba 23/06/1987 P. Klassen
44 Tolstoi MMMN 225269 Manitoba 23/06/1987 P. Klassen
44 Tolstoi MMMN 225270 Manitoba 23/06/1987 P. Klassen
44 Tolstoi MMMN 225271 Manitoba 23/06/1987 P. Klassen
44 Tolstoi MMMN 225272 Manitoba 23/06/1987 P. Klassen
44 Tolstoi MMMN 225273 Manitoba 23/06/1987 P. Klassen
44 Tolstoi MMMN 225274 Manitoba 23/06/1987 P. Klassen
44 Tolstoi MMMN 225275 Manitoba 23/06/1987 P. Klassen
44 Tolstoi MMMN 225276 Manitoba 23/06/1987 P. Klassen
44 Tolstoi MMMN 225277 Manitoba 24/06/1987 P. Klassen
44 Tolstoi MMMN 225278 Manitoba 24/06/1987 P. Klassen
44 Lundar MMMN 225279 Manitoba 24/06/1987 P. Klassen
44 Lundar MMMN 225280 Manitoba 24/06/1987 P. Klassen
48 Inwood MMMN 225281 Manitoba 29/06/1987 P. Klassen
48 Inwood MMMN 225282 Manitoba 29/06/1987 P. Klassen
48 Inwood MMMN 225283 Manitoba 29/06/1987 P. Klassen
22 Lundar MMMN 225284 Manitoba 29/06/1987 P. Klassen
22 Lundar MMMN 225285 Manitoba 29/06/1987 P. Klassen
22 Lundar MMMN 225286 Manitoba 29/06/1987 P. Klassen
22 Lundar MMMN 225287 Manitoba 29/06/1987 P. Klassen
22 Lundar MMMN 225288 Manitoba 29/06/1987 P. Klassen
22 Lundar MMMN 225289 Manitoba 29/06/1987 P. Klassen
22 Lundar MMMN 225290 Manitoba 29/06/1987 P. Klassen
22 Lundar MMMN 225291 Manitoba 29/06/1987 P. Klassen
22 Lundar MMMN 225292 Manitoba 29/06/1987 P. Klassen
22 Lundar MMMN 225293 Manitoba 29/06/1987 P. Klassen
22 Lundar MMMN 225294 Manitoba 29/06/1987 P. Klassen
22 Lundar MMMN 225295 Manitoba 29/06/1987 P. Klassen
22 Lundar MMMN 225296 Manitoba 29/06/1987 P. Klassen
22 Lundar MMMN 225297 Manitoba 29/06/1987 P. Klassen
22 Lundar MMMN 225298 Manitoba 29/06/1987 P. Klassen
22 Lundar MMMN 225299 Manitoba 29/06/1987 P. Klassen
22 Lundar MMMN 225300 Manitoba 29/06/1987 P. Klassen
22 Lundar MMMN 225301 Manitoba 29/06/1987 P. Klassen
22 Lundar MMMN 225302 Manitoba 29/06/1987 P. Klassen
22 Lundar MMMN 225303 Manitoba 29/06/1987 P. Klassen
22 Lundar MMMN 225304 Manitoba 29/06/1987 P. Klassen
22 Lundar MMMN 225305 Manitoba 29/06/1987 P. Klassen
22 Lundar MMMN 225306 Manitoba 29/06/1987 P. Klassen
22 Lundar MMMN 225307 Manitoba 29/06/1987 P. Klassen
22 Lundar MMMN 225308 Manitoba 29/06/1987 P. Klassen
22 Lundar MMMN 225309 Manitoba 29/06/1987 P. Klassen
22 Lundar MMMN 225310 Manitoba 29/06/1987 P. Klassen
22 Lundar MMMN 225311 Manitoba 29/06/1987 P. Klassen
22 Lundar MMMN 225312 Manitoba 29/06/1987 P. Klassen
22 Lundar MMMN 225313 Manitoba 29/06/1987 P. Klassen
22 Lundar MMMN 225314 Manitoba 29/06/1987 P. Klassen
22 Lundar MMMN 225315 Manitoba 29/06/1987 P. Klassen
22 Lundar MMMN 225316 Manitoba 29/06/1987 P. Klassen
22 Lundar MMMN 225317 Manitoba 07/07/1987 P. Klassen
22 Lundar MMMN 225318 Manitoba 07/07/1987 P. Klassen
22 Lundar MMMN 225319 Manitoba 07/07/1987 P. Klassen
22 Lundar MMMN 225320 Manitoba 07/07/1987 P. Klassen
22 Lundar MMMN 225321 Manitoba 07/07/1987 P. Klassen
22 Lundar MMMN 225322 Manitoba 07/07/1987 P. Klassen
22 Lundar MMMN 225323 Manitoba 07/07/1987 P. Klassen
44 Tolstoi MMMN 225324 Manitoba 23/06/1988 P. Klassen
45 Oak Lake MMMN 225325 Manitoba 03/07/1991 P. Klassen
45 Oak Lake MMMN 225326 Manitoba 03/07/1991 P. Klassen
45 Oak Lake MMMN 225327 Manitoba 03/07/1991 P. Klassen
45 Oak Lake MMMN 225328 Manitoba 03/07/1991 P. Klassen
22 Lundar MMMN 225329 Manitoba 29/06/1987 P. Klassen
22 Lundar MMMN 225330 Manitoba 29/06/1987 P. Klassen
49 Winnipeg MMMN 240864 Manitoba 04/07/1933  
44 Tolstoi MMMN 240865 Manitoba 29/06/1987 Mckillop
48 Inwood MMMN 240866 Manitoba 30/07/1987 Mckillop
22 Lundar MMMN 240867 Manitoba 14/07/1996 Delf
22 Lundar MMMN 240868 Manitoba 05/07/1996 Delf
Appendix 2.Table summarizing data on Dakota Skipper sites where no specimens were recorded during surveys in 2012. Information includes nearest town, site, search duration, geographical coordinates, other skipper species found, and host plants.
Nearest Town 2012 date Site Time (Start) Time (End) Duration P. Mystic

P.

Themo

stocles

P. Peckius O. Garita A. logan T. lineola Smooth Camas Tiger Lilly Black-eyed Susan Harebell Purple Coneflower (SK) Thistle Surveyor Notes
Lundar Jun-29 12:30 14:30 2:00 8 3 0 0 0 >100 none none rare rare none rare N.de Silva - -
Lundar Jun-29 b 18:30 20:00 1:30 2 4 0 0 0 15 none none rare rare none rare N. de Silva  
Lundar Jun-30 c 9:30 10:30 1:00 3 0 0 0 0 3 rare rare none none none rare N. de Silva  
St. Laurent Jun-30   11:30 12:30 1:00 4 0 0 0 0 10 rare rare none uncommon none abundant N. de Silva  
Oak Point Jun-30   12:50 13:20 0:30 0 0 0 0 0 0 none none none none none none N. de Silva  
Oak Point Jun-30 b 13:50 14:10 0:20 0 0 0 0 0 0 n/a n/a n/a n/a n/a n/a N. de Silva original coordinates from CNC in water
Oak Point Jun-30 c 14:30 15:30 1:00 4 0 0 0 0 0 none rare rare none none none N. de Silva  
Lundar Jun-30 b 16:05 17:05 1:00 5 0 0 0 0 20 none rare uncommon uncommon none rare N. de Silva  
Lundar Jun-30 c 17:10 18:10 1:00 2 0 0 0 0 50 none none uncommon uncommon none none N. de Silva  
Balmoral Jul-01   14:20 15:10 0:50 30 4 0 0 0 40 none none common common none none N. de Silva 27ºC & sunny
Argyle Jul-01   15:20 16:10 0:50 9 0 4 0 0 5 none none none none none none N. de Silva  
Inwood Jul-01   16:40 17:10 0:30 0 0 0 0 0 0 n/a n/a n/a n/a n/a n/a N. de Silva bison enclosure, unsuitable habitat (heavily grazed)
Inwood Jul-01   17:20 18:00 0:40 0 0 0 0 0 0 n/a n/a n/a n/a n/a n/a N. de Silva marshy but completely flooded
Oak Point Jul-01   18:45 19:15 0:30 3 2 0 0 0 <100 rare rare uncommon uncommon none common N. de Silva  
Lundar Jul-02   10:00 10:50 0:50 5 2 0 0 0 <50 none rare uncommon rare none   N. de Silva 29ºC but feels like 37ºC, overcast some rain
Lundar Jul-02 b 10:50 11:35 0:45 0 0 0 0 0 3 uncommon rare uncommon uncommon none uncommon N. de Silva very marshy, not a lot of flowers in bloom
Lundar Jul-02 c 11:40 12:10 0:30 2 0 0 0 0 0 n/a n/a n/a n/a n/a n/a N. de Silva cropland
Lundar Jul-02 d 12:10 12:35 0:25 0 0 0 0 0 0 none none none none none none N. de Silva  
Lundar Jul-02 e 12:40 12:55 0:15 2 0 0 0 0 >100 rare none common uncommon none   N. de Silva  
Lundar Jul-02 f 13:05 13:40 0:35 8 0 0 0 0 0 rare uncommon uncommon common none   N. de Silva  
Lundar Jul-02 g 13:40 14:10 0:30 0 0 0 0 0 0 rare rare uncommon common none none N. de Silva  
Lundar Jul-02 h 14:30 15:00 0:30 8 2 0 0 0 0 uncommon uncommon common uncommon none common N. de Silva  
Lundar Jul-02 i 15:00 15:30 0:30 15 1 0 0 0 5 uncommon uncommon common uncommon none common N. de Silva  
Lundar Jul-02 j 15:30 16:00 0:30 0 0 0 0 0 0 rare rare common common none common N. de Silva  
Lundar Jul-02 k 16:00 16:30 0:30 0 0 0 0 0 0 none none none none none none N. de Silva racetrack overgrown, little flowers
Lundar Jul-02 l 16:30 17:30 1:00 2 0 0 0 0 <100 common rare common common none uncommon N. de Silva  
Lundar Jul-02 m 17:30 18:00 0:30 4 0 0 0 0 5 rare rare rare rare none rare N. de Silva lots of trees, not a lot of flowers
Lundar Jul-02 n 18:05 18:30 0:25 0 0 0 0 0 0 none rare none rare none none N.de Silva  
Narcisse Jul-02   18:35 19:00 0:25 8 3 2 0 0 0 none none common uncommon none uncommon N. de Silva  
Narcisse Jul-02 b 19:10 19:55 0:45 2 2 3 0 0 >100 rare rare uncommon common none common N. de Silva  
Lundar Jul-03   10:40 13:15 2:35 2 0 2 0 0 <50 none none common rare none   N. de Silva 28ºC & sunny
Lundar Jul-03 b 10:40 13:15 2:35 6 3 1 0 0 10 rare rare rare rare none   N. de Silva  
Lundar Jul-03 c 10:40 13:15 2:35 1 0 0 0 0 10 uncommon none common common none   N. de Silva  
Lundar Jul-03 d 10:40 13:15 2:35 0 0 0 0 0 0 none none common common none   N. de Silva  
Lundar Jul-03 e 10:40 13:15 2:35 0 0 0 0 0 0 rare rare common common none common N. de Silva  
Lundar Jul-03 f 10:40 13:15 2:35 2 2 0 0 0 10 rare rare common common none common N. de Silva  
St. Laurent Jul-03   14:15 15:00 0:45 4 0 0 0 0 0 uncommon uncommon common uncommon none uncommon N. de Silva  
St. Laurent Jul-03 b 15:00 15:45 0:45 3 0 0 2 0 0 uncommon uncommon common uncommon none uncommon N. de Silva  
St. Laurent Jul-03 c 15:50 16:30 0:40 0 0 0 0 0 0 rare uncommon common common none rare N. de Silva  
Lundar Jul-03 g 17:00 17:30 0:30 6 0 0 0 0 5 common uncommon common common none   N. de Silva  
Oak Point Jul-03   17:40 18:15 0:35 4 2 0 0 0 5 rare none common common none rare N. de Silva  
Lundar Jul-03 h 18:20 19:20 1:00 6 0 3 3 0 5 common rare abundant common none uncommon N. de Silva  
Lundar Jul-04   11:30 13:45 2:15 10 4 0 0 0 20 rare none common common none rare N. de Silva 25ºC & sunny
Lundar Jul-04 b 11:30 13:45 2:15 0 0 0 0 0 0 rare none uncommon uncommon none rare N. de Silva  
St. Laurent Jul-04 -; 14:40 15:20 0:40 5 3 0 0 0 >20 rare none uncommon none none   N. de Silva  
St. Laurent Jul-04 b 15:30 16:10 0:40 2 2 1 0 0 >20 rare none uncommon none none   N. de Silva  
St. Laurent Jul-04 c 16:15 16:35 0:20 3 1 4 0 0 >20 rare none uncommon none none   N. de Silva  
Lundar Jul-04 d 17:40 18:15 0:35 4 0 0 3 0 0 common rare abundant common none uncommon N. de Silva  
Oak Point Jul-04   18:15 19:00 0:45 2 1 0 3 0 0 rare none common common none rare N. de Silva  
Lundar Jul-04 e 19:10 19:40 0:30 1 0 0 0 0 0 rare uncommon uncommon common none   N. de Silva  
Lundar Jul-04 f 19:40 20:20 0:40 2 0 0 0 0 <10 uncommon uncommon common uncommon none common N. de Silva  
Belleview Jul-05   13:50 14:30 0:40 10 6 0 0 4 0 rare uncommon common common none   N. de Silva  
Deleau Jul-06   10:30 11:15 0:45 1 0 0 0 0 1 common uncommon common common none   N. de Silva  
Deleau Jul-06 b 13:00 13:30 0:30 4 1 0 0 0 0 uncommon uncommon uncommon uncommon none   N. de Silva  
Belleview Jul-06   13:35 14:05 0:30 0 0 0 0 0 0 n/a n/a n/a n/a n/a n/a N. de Silva  
Belleview Jul-06 b 14:10 14:40 0:30 0 0 0 0 0 0 n/a n/a n/a n/a n/a n/a N. de Silva  
Belleview Jul-06 c 14:50 15:25 0:35 3 5 0 0 0 0 rare rare rare rare none   N. de Silva  
Belleview Jul-06 d 15:35 16:30 0:55 4 1 0 0 0 0 uncommon uncommon uncommon uncommon none   N. de Silva  
Belleview Jul-06 e 16:50 17:45 0:55 9 1 0 0 0 0 n/a n/a n/a n/a n/a n/a N. de Silva  
Deleau Jul-06 c 18:00 18:55 0:55 12 2 0 0 0 5 common uncommon common common none   N. de Silva  
Oak Lake Jul-07   14:20 15:00 0:40 0 0 0 0 0 0 n/a n/a n/a n/a n/a n/a N. de Silva  
Belleview Jul-07   15:45 16:45 1:00 4 3 0 0 0 0 uncommon uncommon uncommon uncommon none   N. de Silva  
Griswold Jul-07   17:30 18:30 1:00 2 3 2 0 0 15 none none rare none none none N. de Silva  
Elgin Jul-08   9:30 10:00 0:30 0 0 0 0 0 0 n/a n/a n/a n/a n/a n/a N. de Silva  
Elgin Jul-08 b 10:05 10:50 0:45 0 0 0 0 0 >100 n/a n/a n/a n/a n/a n/a N. de Silva  
Elgin Jul-08 c 11:15 12:30 1:15 5 2 0 0 0 30 none none rare none none none N. de Silva  
Rapid City Jul-08   13:40 13:50 0:10 0 0 0 0 0 0 n/a n/a n/a n/a n/a n/a N. de Silva  
Miniota Jul-08   15:00 15:30 0:30 0 0 0 0 0 10 n/a n/a n/a n/a n/a   N. de Silva  
Beulah Jul-08   15:30 15:50 0:20 0 0 0 0 0 12 none none none none none none N. de Silva  
Deleau Jul-08   17:10 18:00 0:50 0 1 0 0 0 0 common uncommon common common none   N. de Silva  
Deleau Jul-08 b 18:10 19:00 0:50 7 0 0 0 4 0 none none uncommon none none none N. de Silva  
Glen Ewen Jul-09   14:20 14:30 0:10 0 0 0 0 0 0 n/a n/a n/a n/a n/a n/a N. de Silva  
Glen Ewen Jul-09 b 14:50 15:00 0:10 0 0 0 0 0 0 n/a n/a n/a n/a n/a n/a N. de Silva  
Oxbow Jul-09   15:50 16:50 1:00 7 0 0 0 0 0 none rare uncommon uncommon common   N. de Silva  
Oxbow Jul-09 b 16:50 17:20 0:30 0 0 0 0 0 0 n/a n/a n/a n/a n/a n/a N. de Silva  
Oxbow Jul-09 c 17:20 18:45 1:25 3 0 0 0 0 0   none none uncommon common none N. de Silva  
North Portal Jul-10   9:15 10:00 0:45 2 0 0 0 0 0 none none none none common none N. de Silva  
North Portal Jul-10 b 11:20 11:40 0:20 0 0 0 0 0 0 n/a n/a n/a n/a n/a n/a N. de Silva  
North Portal Jul-10 c 12:55 13:40 0:45 0 0 0 0 0 0 none none none rare common none N. de Silva  
Bienfait Jul-10   15:00 15:20 0:20 0 0 0 0 0 0 n/a n/a n/a n/a n/a n/a N. de Silva  
Bienfait Jul-10 b 17:05 17:30 0:25 0 0 0 0 0 0 none none none none none none N. de Silva  
Tolstoi Jul-11   10:30 11:15 0:45 1 2 16 0 0 10 none none none none none common N. de Silva  
Tolstoi Jul-11 b 11:20 11:55 0:35 2 1 30 4 0 0 none none rare none none uncommon N. de Silva  
Tolstoi Jul-11 c 12:00 12:20 0:20 0 0 0 0 0 0 n/a n/a n/a n/a n/a n/a N. de Silva  
Tolstoi Jul-11 d 12:25 13:00 0:35 0 0 20 18 0 0 none none common common none common N. de Silva  
Tolstoi Jul-11 e 13:05 13:40 0:35 0 2 15 0 0 0 none none uncommon uncommon none common N. de Silva  
Tolstoi Jul-11 f 13:45 14:15 0:30 1 3 10 0 0 0 uncommon rare common common none uncommon N. de Silva  
Tolstoi Jul-11 g 14:15 14:50 0:35 0 0 0 0 0 0 uncommon rare common common none uncommon N. de Silva  
Tolstoi Jul-11 h 14:55 15:35 0:40 0 0 0 0 0 5 none uncommon common common none uncommon N. de Silva  
Tolstoi Jul-11 i 15:45 16:25 0:40 1 4 9 0 0 0 none none abundant none none uncommon N. de Silva  
Stuartburn Jul-11   16:40 17:10 0:30 0 0 0 0 0 0 none none none none none none N. de Silva  
Stuartburn Jul-11 b 17:15 17:40 0:25 0 0 2 0 0 0 none none rare none none rare N. de Silva  
Stuartburn Jul-11 c 17:50 18:10 0:20 0 0 0 0 0 0 none none none none none none N. de Silva  
Lundar Jul-12   9:30 11:00 1:30 6 0 2 0 0 0 common none common common none common N. de Silva  
Lundar Jul-12 b 9:30 11:00 1:30 5 2 2 0 0 0 rare none uncommon common none rare N. de Silva  
Lundar Jul-12 c 9:30 11:00 1:30 0 0 1 0 0 0 rare none uncommon uncommon none uncommon N. de Silva  
Narcisse Jul-12   9:30 11:00 1:30 3 0 0 1 0 <10 rare none uncommon uncommon none   N. de Silva -
Lundar Jul-12 d 11:20 11:55 0:35 0 0 0 0 0 2 none none uncommon uncommon none   N. de Silva  
Lundar Jul-12 e 11:55 12:25 0:30 0 0 0 0 0 0 none none uncommon uncommon none none N.de Silva -
St. Laurent Jul-12   13:30 14:00 0:30 3 0 0 0 0 0 none none common common none rare N.de Silva -
St. Laurent Jul-12 b 14:05 14:35 0:30 1 0 0 2 0 9 common none common uncommon none   N. de Silva -
Lake Francis Jul-12   14:40 14:45 0:05 0 0 0 0 0 0 n/a n/a n/a n/a n/a n/a N. de Silva -
Lundar Jul-13   10:15 12:15 2:00 2 1 0 2 0 0 common rare abundant common none uncommon N. de Silva -
Lundar Jul-13 b 12:30 14:30 2:00 8 0 0 0 0 0 common rare abundant common none uncommon N. de Silva -
Lundar Jul-13 c 14:45 15:55 1:10 2 0 0 0 0 0 common rare common common none uncommon N.de Silva -

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