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1

Andreyanov. "HELMINTHOFAUNA OF THE ERMINE (MUSTELA ERMINEA)." THEORY AND PRACTICE OF PARASITIC DISEASE CONTROL, no. 20 (May 14, 2019): 40–44. http://dx.doi.org/10.31016/978-5-9902340-8-6.2019.20.40-44.

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The purpose of the work was to study the helminth fauna of the ermine on the territory of the Ryazan region. We studied 19 ermine heads, Mustela erminea, aged from 1 to 3 years, using the method of complete helminthological dissection. The material for the study (animal carcass) was removed from the “Shilovskoye” hunting ground of the Ryazan Regional Society of Hunters and Fishermen in the floodplain of the Oka, Pary and Ibreda rivers. Animals were harvested under one-time licenses using cup traps No. 0, 1 and live traps for small predatory animals. The period of production of the beast was 2013–2018 from October to March. The carcasses of animals were delivered to the laboratory in a chilled or frozen state. The collected worms were fixed in ethanol (70% solution) or Barbagallo liquids. Determination of the helminthological material to the species was carried out according to the determinant of helminths of predatory mammals of the USSR. As a result of research, 6 types of helminths of 3 systematic classes were identified in the ermine: 2 types of trematodes, 3 types of nematodes and one type of scrapers. Two species of trematodes were identified – Euparyphium melis and Alaria spp. larvae in the small intestine and muscle tissue (diaphragm, masseter). Among the nematodes, 3 species are represented – Capillaria putorii, Skrjabingylus petrowi and large larvae Larvae migrans spp. (3.5–4.5 mm). Round helminths were localized in the small intestine, frontal sinuses and muscle tissue (diaphragm). Macracanthorhynchus catulinus larvae were recorded in the muscles of the diaphragm, abdominal muscles and extensor and flexor muscles of the hind limbs. The animal can be both the ultimate owner of helminthiasis, and intermediate one.
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2

Johnson, Donald R., Bradley J. Swanson, and Judith L. Eger. "Cyclic dynamics of eastern Canadian ermine populations." Canadian Journal of Zoology 78, no. 5 (May 1, 2000): 835–39. http://dx.doi.org/10.1139/z00-011.

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Based on partial autocorrelation analysis, 20 ermine (Mustela erminea) populations in Manitoba, Ontario, and Quebec demonstrated cyclic dynamics characterized by a latitudinal gradient of decreasing first-order feedback and increasing negativity of second-order feedback. Most of these populations exhibited three cyclic peaks and a 10-year interval of noncyclic dynamics during the sampling period (1915-1940). Changes in ermine density probably reflected those in the density of microtine rodents, their primary prey. Analysis of the limited number of long-term lemming and vole series from boreal North America indicated a latitudinal gradient in cyclic dynamics similar to that of microtine rodent populations in northern Europe. Complex geographic and temporal variation in ermine population dynamics, including cyclic, noncyclic, and shifting patterns of density change, supports the specialist-generalist hypothesis of predator-prey interaction at temperate latitudes.
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3

Robitaille, Jean-François, and Georg Baron. "Seasonal changes in the activity budget of captive ermine, Mustela erminea L." Canadian Journal of Zoology 65, no. 12 (December 1, 1987): 2864–71. http://dx.doi.org/10.1139/z87-435.

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The duration and location of behavior patterns in ermine (Mustela erminea L.) kept in outdoor enclosures were recorded over a 1-year period. The behavior patterns were grouped into five functional behavioral categories: exploration, comfort behavior, feeding behavior, nest care, and locomotion. Exploration and locomotion occurred mostly on the ground, whereas comfort behavior, feeding behavior, and nest care occurred in the nest. Total activity, outdoor activity, locomotion, and exploration were correlated with ambient temperature. Variations in monthly activity budgets over the year suggest the influence of two factors: the physiological reproductive state and the ambient temperature. The relevance of the observed behavioral strategies to energy economy in the ermine is discussed.
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4

Raymond, Michel, and Jean-François Robitaille. "Spacing patterns of ermine, Mustela erminea L., in a Quebec agrosystem." Canadian Journal of Zoology 73, no. 10 (October 1, 1995): 1827–34. http://dx.doi.org/10.1139/z95-215.

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Spacing patterns in mammals are influenced by mating systems such as polygyny–promiscuity. Movement parameters were monitored over 3 years in an increasing population of ermine, Mustela erminea cicognanii, in southern Quebec (45°22′N, 71°51′W), and the effects of age, sex, breeding status, and annual densities on movements were examined. Residency times (range 24–443 d) were significantly higher in females than in males. Populations were composed of more visiting males than residents and more resident females than visiting females. Adult and juvenile males travelled significantly more than adult females and during the year of highest density than in other years. Males' travel distances significantly decreased and those of females increased during the postbreeding season. Males' home range sizes (range 1.0–87.4 ha) were significantly larger than those of females during the postbreeding period and over the whole season. Home ranges overlapped only between the sexes. Our study showed little influence of annual variations in population density on spacing patterns. We conclude that (i) movements in Nearctic ermine populations are, at moderate to high population levels, influenced by intraspecific characteristics, and (ii) in view of the similar behavior of Palaearctic and Nearctic ermine, interdemic body size range has little influence on spacing patterns of ermine.
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5

Stelmakh, S. "Distribution, population densiti and behavior in the space of ermine (Mustela erminea L.) in conditions Roztotchya and Nadsyannya." Visnyk of Lviv University. Biological series, no. 83 (December 25, 2020): 58–66. http://dx.doi.org/10.30970/vlubs.2020.83.07.

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Peculiarities of distribution, population density and spatial behavior of ermine in the winter season in the natural regions of Roztotchya and Nadsyannia have been studied. About 60 % of the district’s territory lies within the hilly region of Roztocko-Opil, in particular Roztocze, the other part belongs to Prykarpattia, namely the Nadsyan plain. Methods of tracking and accounting of traces on snow were used. Population density calculations were performed according to the updated formula Formozova. The results of research have shown that the ermine is a fairly common species on both the Roztoc Upland and the Nadsyan Plain. However, the habitats of this predator mostly cover aquatic habitats (67 %). The best stations are primarily the coastal strip of small rivers and streams. In second place in terms of the number of registered traces of the species is the border of forests and arable fields, or meadows (20 %). In large forests, the species is mostly registered on fellings and young forest crops (8 %). In fields more than 500 m away from forests and water bodies, ermine is rare (3 %). Occasionally ermine is registered in settlements – near buildings (2 %). The highest population density of the species was observed in 2010 (8 individuals / 1000 ha). The lowest rates were registered in 2012 (2 individuals / 1000 ha). On average, the amplitude of fluctuations in ermine population density for 10 consecutive years reached 4 times the value. However, in coastal stations, the difference between the extreme indicators was 6 times (2–12 individuals / 1000 ha). The length of the daily course of ermines in winter is from 200 m to 4.5 km, on average 1.2 km. The average size of a single area of ​​the animal along the shores of reservoirs is 15–20 hectares, in the depths of the forest can be 100 hectares or more. Individual areas of males are slightly larger than females and are often superimposed on them. Instead, individual areas of males or females that live nearby almost never overlap. Some ermines can lead a nomadic lifestyle. The species is often active during the light period of the day.
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6

Berna, Howard J. "First Record of the Ermine (Mustela erminea) in Arizona." Southwestern Naturalist 36, no. 2 (June 1991): 245. http://dx.doi.org/10.2307/3671930.

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7

Fleming, Melissa A., and Joseph A. Cook. "Phylogeography of endemic ermine (Mustela erminea) in southeast Alaska." Molecular Ecology 11, no. 4 (April 2002): 795–807. http://dx.doi.org/10.1046/j.1365-294x.2002.01472.x.

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8

Anderson, Edward A., and Benjamin G. Davis. "Ermine Revolt." ACS Central Science 4, no. 7 (July 25, 2018): 781–82. http://dx.doi.org/10.1021/acscentsci.8b00440.

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9

Piekarska-Boniecka, Hanna, Marta Rzańska-Wieczorek, Idzi Siatkowski, and Tadeusz Barczak. "Parasitisation of Yponomeuta malinellus feeding on Crataegus monogyna in the allotment gardens in the city of Poznań, Poland." Plant Protection Science 58, No. 2 (March 28, 2022): 150–57. http://dx.doi.org/10.17221/101/2021-pps.

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The apple ermine moth (Yponomeuta malinellus Zeller) is an economically important pest of apple trees and apple orchards. It is also a pest of ornamental trees and shrubs in urban habitats. The aim of our study was to determine the degree of parasitisation of the apple ermine moth pupae collected from the common hawthorn (Crataegus monogyna Jacquin) in the allotment gardens in Poznań, Poland, by parasitoids from the Ichneumonidae family, to determine parasitoid species and the dates when they start flying. Judged from the parasitisation of pupae, the parasitoids reduced the apple ermine moth population by 9.1% over the period 2014–2016. The apple ermine moth pupae were parasitised by the following six parasitoid species: Gelis areator (Panzer), Herpestomus brunnicornis (Gravenhorst), Itoplectis alternans (Gravenhorst), I. maculator (Fabricius), I. tunetana (Schmiedeknecht), and Pimpla turionushtana (Linnaeus). The most effective entomophages H. brunnicornis and I. tunetana reduced the apple ermine moth population by 3.2% and 2.7%, respectively. Our results suggest that the apple ermine population in urban allotment gardens exposed to heavy anthropogenic pressure can be reduced by parasitoids of the Ichneumonidae family. The degree of parasitisation of the moth in this particular urban habitat may be comparable to the degree of its parasitisation in orchards.
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10

Thompson, I. D. "Habitat Needs of Furbearers in Relation to Logging in Boreal Ontario." Forestry Chronicle 64, no. 3 (June 1, 1988): 251–61. http://dx.doi.org/10.5558/tfc64251-3.

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A literature review of boreal furbearers in Ontario indicates a substantial lack of a scientific basis on which to manage habitat or populations except for marten (Martes americana) and beaver (Castor canadensis). A review of known habitat requirements is presented for marten, lynx (Felis lynx), snowshoe hare (Lepus americanus), red fox (Vulpes vulpes), ermine (Mustela erminea), mink (Mustela vision), beaver, otter (Lutra canadensis), and muskrat (Ondatra zibethicus), including known impacts of timber harvesting. Use of fur harvest statistics as indicators of population and ultimately habitat is questionable because catch integrates many variables and habitat change occurs slowly. Considerable data suggest that management for relatively few prey species may be an alternative to attempting to manage habitat for individual furbearers. Data from Manitouwadge, Ontario show marten prefer old growth forests and occur at extremely low densities up to 40 years after logging. Fox and lynx were most abundant in 20-30-year-old successional stands. Ermine occurred in all ages of stands that were censused. Access by logging roads is a negative factor for populations of all furbearers as it enhances morality from trapping, particularly if pelt prices are high.
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11

Fleming, Melissa A., Elaine A. Ostrander, and Joseph A. Cook. "Microsatellite markers for American mink (Mustela vison) and ermine (Mustela erminea)." Molecular Ecology 8, no. 8 (August 1999): 1352–55. http://dx.doi.org/10.1046/j.1365-294x.1999.00701_2.x.

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12

Lacy, Norris J. "Arthur's Ermine Arms." Arthuriana 21, no. 4 (2011): 42–52. http://dx.doi.org/10.1353/art.2011.0043.

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13

Thompson, I. D., I. J. Davidson, S. O'Donnell, and F. Brazeau. "Use of track transects to measure the relative occurrence of some boreal mammals in uncut forest and regeneration stands." Canadian Journal of Zoology 67, no. 7 (July 1, 1989): 1816–23. http://dx.doi.org/10.1139/z89-258.

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Tracks of marten (Martes americana), lynx (Felis lynx), red fox (Vulpes vulpes), ermine (Mustela erminea), snowshoe hare (Lepus americanus), and red squirrel (Tamiasciurus hudsonicus) were censused from 1980 to 1985 on 1-km transects in uncut stands and on eight sites that had been clear-cut between 1 and 33 years ago, in boreal mixedwood habitat near Manitouwadge, Ontario. Marten tracks were more common in uncut areas than in younger stands. Lynx tracks were most abundant on sites that were logged 20–30 years ago and were absent in uncut areas and stands less than 5 years old. Counts of red fox tracks were lowest in uncut stands and showed no consistent pattern among years of our survey with respect to stand age in second-growth forest. Hare tracks were most abundant in 20- and 30-year-old stands, and least abundant in stands less than 5 years old. Red squirrels were most common in uncut areas, but similar high values were also found in 20- and 30-year-old sites during 3 years when populations in the area were depressed. No selection of stands by age was seen for ermine. Numbers of tracks were significantly correlated with live captures of marten, hare, and red squirrels. Our results suggested that track abundance can be used as an index of habitat preferences and population trends. Highest counts were achieved in December for marten, red squirrel, and ermine, likely as a result of several types of over-winter mortality and inactivity in cold weather, which may have reduced counts in January and March. As a result of high and nonhomogeneous variance among transects and years, nonparametric statistical analysis was required. Transect length for fox and lynx should be substantially longer than 1 km (probably 3–5 km) to avoid numerous zero results.
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14

Edwards, Mark A., and Graham J. Forbes. "Food Habits of Ermine, Mustela erminea, in a Forested Landscape." Canadian Field-Naturalist 117, no. 2 (April 1, 2003): 245. http://dx.doi.org/10.22621/cfn.v117i2.703.

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Most research pertaining to the diet of North American weasels has been conducted in agricultural areas and may not be representative of diets in forested regions. Ermine carcasses (N = 155) collected from trappers during a two-week harvest (16-30 November 1996) in forested New Brunswick were analyzed for food habits. The contents of 81 stomachs and 98 gastrointestinal tracts (N = 179) were considered as separate eating events and used in the calculation of the percent frequency of occurrence. Results suggest that soricids (28.0%), arvicolines (24.6%), and cricetines (17.3%) comprised two-thirds of their autumn diet. At a species or genus level, the Deer Mouse (Peromyscus maniculatus) (17.3%) and shrews (Sorex spp.) (28.0%) were shown to have the highest percent occurrence. Squirrels, including the Red Squirrel (Tamiasciurus hudsonicus) and the Eastern Chipmunk (Tamius striatus), comprised 11.2% of the Ermine’s diet; a value higher than has previously been reported.
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15

Harris, Arthur H. "A Late-Pleistocene Occurrence of Ermine (Mustela erminea) in Southeastern New Mexico." Southwestern Naturalist 38, no. 3 (September 1993): 279. http://dx.doi.org/10.2307/3671434.

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16

Eger, Judith L. "Patterns of geographic variation in the skull of Nearctic Ermine (Mustela erminea)." Canadian Journal of Zoology 68, no. 6 (June 1, 1990): 1241–49. http://dx.doi.org/10.1139/z90-185.

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A. H. Macpherson suggested that much of the current geographic diversity in species and species groups of arctic mammals resulted from isolation in glacial refugia during the Wisconsin glacial stage. The present study evaluates this refugium hypothesis using a statistical assessment of geographic variation in 13 craniometric characters of Nearctic Mustela erminea. There is significant geographic variation among samples of North American ermine. Most of the skull character variance in this species reflects differences in size and is clinal. Variation in skull size is better explained by temperature and precipitation variables than by geographic distance, suggesting that environmentally ordered selection for size has been superimposed on any size differentiation that occurred during isolation in refugia. Variation in skull shape shows a relatively low correlation with climatic variables, and partitioning tests on shape variation reveal discontinuities consistent with the refugium hypothesis. Distinctive groups of samples reflect possible refugial populations in Eastern Beringia, in periglacial refugia south of the Wisconsin ice in eastern North America, and in one or more western North American refugia.
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17

Niemelä, Pekka, and Simo Örmä. "Lady with an “Ermine”." Source: Notes in the History of Art 35, no. 4 (June 2016): 302–10. http://dx.doi.org/10.1086/688924.

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18

Raymond, Michel, Jean-François Robitaille, Pierre Lauzon, Réal Vaudry, Jean-Francois Robitaille, and Real Vaudry. "Prey-Dependent Profitability of Foraging Behaviour of Male and Female Ermine, Mustela Erminea." Oikos 58, no. 3 (August 1990): 323. http://dx.doi.org/10.2307/3545223.

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19

Eger, Judith L. "Erratum: Patterns of geographic variation in the skull of Nearctic Ermine (Mustela erminea)." Canadian Journal of Zoology 68, no. 11 (November 1, 1990): 2455. http://dx.doi.org/10.1139/z90-341.

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20

Boček, Vít. "THE ETYMOLOGY OF THE SLAVONIC NAME FOR ERMINE (MUSTELA ERMINEA) II: A NEW PROPOSAL." Studia Linguistica Universitatis Iagellonicae Cracoviensis 135, no. 3 (2018): 171–76. http://dx.doi.org/10.4467/20834624sl.18.015.8851.

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21

Boček, Vít. "THE ETYMOLOGY OF THE SLAVONIC NAME FOR ERMINE (MUSTELA ERMINEA) I: MATERIAL AND EXISTING THEORIES." Studia Linguistica Universitatis Iagellonicae Cracoviensis 135, no. 3 (2018): 161–70. http://dx.doi.org/10.4467/20834624sl.18.014.8850.

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22

Vaudry, Real, Michel Raymond, and Jean-Francois Robitaille. "The capture of voles and shrews by male and female ermine Mustela erminea in captivity." Ecography 13, no. 4 (December 1990): 265–68. http://dx.doi.org/10.1111/j.1600-0587.1990.tb00618.x.

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23

Gómez Rabal, Ana, and Alberto Montaner. "Sobre el adjetivo mediolatino armelinus y su parentela románica: una posible etimología árabe." Romanistisches Jahrbuch 70, no. 1 (November 18, 2019): 318–34. http://dx.doi.org/10.1515/roja-2019-0017.

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Abstract In Medieval Latin, the adjective armelinus, -na and the noun armelinus are attested in notarial documents and other texts from different regions of Western Europe, in a wide chronology. At first glance, both the name and the adjective are related to the classical Latin demonym Armenius, but this etymon does not explain several aspects of its form and function. The present paper reviews all the etymological hypotheses suggested so far and arrives at the proposal that armelinus could be the result of the adaptation of the Andalusian Arabic armaní ~ arminí ‘Armenian (tissue)’, after converging semantically with armini ~ ermini, derived from the Latin armenius ‘(skin of the) Mustela ermine’. The authors suggest that both terms – adjective and noun – could arise in the territories corresponding to the linguistic domain of Catalan and that they passed from there to Italy and the rest of Western Europe.
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Rothschild, Miriam. "IS THE BUFF ERMINE (SPILOSOMA LUTEA (HUF.)) A MIMIC OF THE WHITE ERMINE (SPILOSOMA LVBRICIPEDA (L.))?" Proceedings of the Royal Entomological Society of London. Series A, General Entomology 38, no. 7-9 (April 2, 2009): 159–64. http://dx.doi.org/10.1111/j.1365-3032.1963.tb00772.x.

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25

Orgelfinger, Gail. "The Strange Case of Ermine de Reims." Digital Philology: A Journal of Medieval Cultures 5, no. 1 (2016): 127–30. http://dx.doi.org/10.1353/dph.2016.0001.

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26

Shell, Janice, and Grazioso Sironi. "Cecilia Gallerani: Leonardo's Lady with an Ermine." Artibus et Historiae 13, no. 25 (1992): 47. http://dx.doi.org/10.2307/1483456.

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27

O'Doherty, N. J., and R. J. Gorlin. "The ermine phenotype: Pigmentary-hearing loss heterogeneity." American Journal of Medical Genetics 30, no. 4 (August 1988): 945–52. http://dx.doi.org/10.1002/ajmg.1320300412.

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28

Fletcher, Q. E., and R. Boonstra. "Do captive male meadow voles experience acute stress in response to weasel odour?" Canadian Journal of Zoology 84, no. 4 (April 2006): 583–88. http://dx.doi.org/10.1139/z06-033.

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The hormonal stress response is adapted to deal with acute (short-term) stressors; however, chronic (long-term) stressors have negative effects on survival and fitness. Field and laboratory evidence suggest that voles respond behaviourally to predator odours. However, it is unknown whether voles mount an acute hormonal stress response to predator odour. We determined whether reproductively active, captive male meadow voles ( Microtus pennsylvanicus (Ord, 1815)) mounted a more pronounced hormonal stress response to weasel odour (ermine, Mustela erminea L., 1758), one of their principal mammalian predators, than to nonpredator and control odours. We compared the corticosterone response of captive voles to weasel, jumping mouse ( Zapus hudsonius (Zimmermann, 1780)), and control odours following acute (20 min) exposure. The hormonal stress response to the treatment odours did not differ, indicating that captive male voles in the reproductive season do not mount an acute stress response to predator odour. We hypothesize that voles do not respond to weasel odour because, independent of other stimuli, olfactory signals are not reliable enough to outweigh the costs, such as suppression of reproduction and reproductive behaviour, associated with a response.
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Cossentine, J. E., and U. Kuhlmann. "STATUS OF AGENIASPIS FUSCICOLLIS (HYMENOPTERA: ENCRYTIDAE), AN INTRODUCED PARASITOID OF THE APPLE ERMINE MOTH (LEPIDOPTERA: YPONOMEUTIDAE)." Canadian Entomologist 132, no. 5 (October 2000): 685–89. http://dx.doi.org/10.4039/ent132685-5.

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The apple ermine moth, Yponomeuta malinellus Zeller, is a univoltine pest species that defoliates apple, Malus domestics (Borkh) (Rosaceae), in the temperate region of the Palaearctic. First instars overwinter within a communal hibernaculum beneath the covering of the egg batch (Kock 1998). In spring, larvae emerge to initially mine apple leaves and subsequently feed externally within a communal tent (Menken et al. 1992). During heavy infestations, the communal tents may envelop the entire apple tree, resulting in total defoliation (Parker and Schmidt 1985). There have been several accidental introductions and subsequent eradications of the apple ermine moth in eastern North America (Hewitt 1917; Parker and Schmidt 1985) but, by 1989, the pest was found in the Fraser River Valley in British Columbia, in Whatcom county, Washington, and in northwestern Oregon (Antonelli 1991; Unruh et al. 1993).
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Boyes, Douglas, and Peter W. H. Holland. "The genome sequence of the white ermine, Spilosoma lubricipeda Linnaeus 1758." Wellcome Open Research 6 (October 14, 2021): 271. http://dx.doi.org/10.12688/wellcomeopenres.17190.1.

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We present a genome assembly from an individual male Spilosoma lubricipeda (the white ermine; Arthropoda; Insecta; Lepidoptera; Erebidae). The genome sequence is 587 megabases in span. The majority of the assembly is scaffolded into 30 chromosomal pseudomolecules, with the Z sex chromosome assembled.
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Boyes, Douglas, and Peter W. H. Holland. "The genome sequence of the white ermine, Spilosoma lubricipeda Linnaeus 1758." Wellcome Open Research 6 (October 14, 2021): 271. http://dx.doi.org/10.12688/wellcomeopenres.17190.1.

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We present a genome assembly from an individual male Spilosoma lubricipeda (the white ermine; Arthropoda; Insecta; Lepidoptera; Erebidae). The genome sequence is 587 megabases in span. The majority of the assembly is scaffolded into 30 chromosomal pseudomolecules, with the Z sex chromosome assembled.
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Lee Lyman, R. "Identification and palaeoenvironmental significance of late-Quaternary ermine (Mustela erminea) in the central Columbia Basin, Washington, northwestern USA." Holocene 14, no. 4 (May 2004): 553–62. http://dx.doi.org/10.1191/0959683604hl731rp.

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Sedalischev, Viktor T., Valeriy A. Odnokurtsev, and Innokentiy M. Okhlopkov. "Causes of the Decrease in the Number of Ermine (Mustela Erminea L., 1758) and Pelt Procurement in Yakutia." Achievements in the Life Sciences 8, no. 2 (October 2014): 112–17. http://dx.doi.org/10.1016/j.als.2015.01.004.

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34

Gamberg, Mary, and James L. Atkinson. "Prey Hair and Bone Recovery in Ermine Scats." Journal of Wildlife Management 52, no. 4 (October 1988): 657. http://dx.doi.org/10.2307/3800926.

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35

Löfstedt, C., W. M. Herrebout, and J. W. Du. "Evolution of the ermine moth pheromone tetradecyl acetate." Nature 323, no. 6089 (October 1986): 621–23. http://dx.doi.org/10.1038/323621a0.

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36

Beers, E. H., and T. Unruh. "Apple Ermine Moth Dose Response Bioassay to Guthion, 1991." Insecticide and Acaricide Tests 17, no. 1 (January 1, 1992): 1. http://dx.doi.org/10.1093/iat/17.1.1a.

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Abstract This test was conducted with adult female AEM. Pupae were collected from infested sites in western Washington in Jul, left to emerge in cages, sexed, and shipped to Wenatchee. Moths were kept cool until the beginning of the bioassay. Fresh, unsprayed apple leaves were dipped in a concentration series of Guthion 35 WP and allowed to dry. Leaves with dried residue were wrapped around the interior of a shell vial (1-2 leaves/vial). Two adult female moths were introduced into each vial. Mortality was evaluated at 24, 48, 72, 96, and 192 h post-treatment. Fifty moths were tested at each concentration. Moths which were injured during handling were omitted from die analyses. Both dead and moribund moths were included in mortality counts.
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Dubay, Shelli, Matthew J. Buchholz, Robert Lisiecki, Todd Huspeni, Tim Ginnett, Luke Haen, and Phil Borsdorf. "Prevalence and Intensity of Nematode Parasites in Wisconsin Ermine." Journal of Parasitology 100, no. 5 (October 2014): 616–22. http://dx.doi.org/10.1645/13-486.1.

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Menken, S. B. J., W. M. Herrebout, and J. T. Wiebes. "Small Ermine Moths (Yponomeuta): Their Host Relations and Evolution." Annual Review of Entomology 37, no. 1 (January 1992): 41–66. http://dx.doi.org/10.1146/annurev.en.37.010192.000353.

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Reid, D. G., and C. J. Krebs. "Limitations to collared lemming population growth in winter." Canadian Journal of Zoology 74, no. 7 (July 1, 1996): 1284–91. http://dx.doi.org/10.1139/z96-143.

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Abstract:
We investigated the roles of ermine predation and temperature and snowfall regimes in limiting population growth of collared lemmings (Dicrostonyx kilangmiutak) at low densities (< 3/ha) in winters between 1987 and 1992 at Pearce Point, Northwest Territories, Canada. We estimated winter population growth, for four study populations, as the instantaneous weekly rate of population change from late August to early in the subsequent June. Population growth was not significantly related to the intensity of ermine predation, based on data from two winters. Variance in rates of growth among five winters was significantly explained by a combination of (i) cold intensity in autumn, i.e., the mean daily temperature in September and October, when lemmings change from summer to winter morphology, and (ii) the insulative potential of the snow, i.e., centimetre-days of snow cover per degree-day of frost from November through March, when lemmings potentially breed. Arvicoline winter nests were strongly associated with remnant snow in spring, indicating selection for areas with deepest snow. Low autumn temperatures and shallow winter snow appear to be strong limiting factors in winter, and may prolong the period of low density of Dicrostonyx populations.
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Dawson, Natalie G., Andrew G. Hope, Sandra L. Talbot, and Joseph A. Cook. "A multilocus evaluation of ermine (Mustela erminea ) across the Holarctic, testing hypotheses of Pleistocene diversification in response to climate change." Journal of Biogeography 41, no. 3 (October 31, 2013): 464–75. http://dx.doi.org/10.1111/jbi.12221.

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41

Cairns, David K. "Ermine Visitation to Black Guillemot Colonies in Northeastern Hudson Bay." Condor 87, no. 1 (February 1985): 144–45. http://dx.doi.org/10.2307/1367146.

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LEE, Jang-Hoon, and Robert W. PEMBERTON. "Parasitoid complex of the bird cherry ermine mothYponomeuta evonymellusin Korea." Entomological Research 39, no. 3 (May 2009): 201–6. http://dx.doi.org/10.1111/j.1748-5967.2009.00219.x.

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Longfield, C. E. "LARVA OF THE WHITE ERMINE MOTH SWIMMING ACROSS A STREAM." Proceedings of the Royal Entomological Society of London. Series A, General Entomology 11, no. 1-2 (April 2, 2009): 21. http://dx.doi.org/10.1111/j.1365-3032.1936.tb00852.x.

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Menken, S. B. J. "Biochemical genetics and systematics of small ermine moths (Lepidoptera, Yponomeutidae)." Journal of Zoological Systematics and Evolutionary Research 20, no. 2 (April 27, 2009): 131–43. http://dx.doi.org/10.1111/j.1439-0469.1983.tb00258.x.

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45

Brown, David Alan. "Leonardo and the Ladies with the Ermine and the Book." Artibus et Historiae 11, no. 22 (1990): 47. http://dx.doi.org/10.2307/1483398.

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46

Mowat, D. "Natural control of the Small Ermine Moth Yponomeuta padella (L.)." Agriculture, Ecosystems & Environment 52, no. 2-3 (February 1995): 93–102. http://dx.doi.org/10.1016/0167-8809(94)00547-r.

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47

Keshelava, Grigol. "Analysis of a “Lady with an Ermine” by Leonardo Da Vinci." Advances in Historical Studies 10, no. 01 (2021): 1–6. http://dx.doi.org/10.4236/ahs.2021.101001.

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Löfstedt, Christer, and Jan N. C. van der Pers. "Sex pheromones and reproductive isolation in four european small ermine moths." Journal of Chemical Ecology 11, no. 5 (May 1985): 649–66. http://dx.doi.org/10.1007/bf00988574.

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Fung, Suen-Ying, and Wim M. Herrebout. "Coumarins inPrunus mahaleb and its herbivore, the small ermine mothYponomeuta mahalebellus." Journal of Chemical Ecology 13, no. 10 (October 1987): 2041–47. http://dx.doi.org/10.1007/bf01041730.

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Zarate, Yuri A., M. Cristina Pacheco, Kevin E. Bove, Robert Gorlin, Huiquan Zhao, and Robert J. Hopkin. "Phenotypic and microscopic description of a new case of Ermine phenotype." American Journal of Medical Genetics Part A 149A, no. 6 (June 2009): 1253–56. http://dx.doi.org/10.1002/ajmg.a.32815.

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