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1. Using mobile acoustic monitoring and false‐positive N‐mixture models to estimate bat abundance and population trends.

2. Preference for hibernacula microclimates varies among 3 bat species susceptible to white-nose syndrome.

3. White adipose tissue remodeling in Little Brown Myotis (Myotis lucifugus) with white-nose syndrome.

4. Little Brown Bats (Myotis lucifugus ) Are Resistant to SARS-CoV-2 Infection.

5. Changes in roosting decisions and group structure following parturition in little brown myotis (Myotis lucifugus)

6. White-nose syndrome restructures bat skin microbiomes

7. Impact of putatively beneficial genomic loci on gene expression in little brown bats (Myotis lucifugus, Le Conte, 1831) affected by white‐nose syndrome.

8. Characterizing diurnal roosts of male Little Brown Myotis (Myotis lucifugus) during summer.

9. Heterogenous effects of bat declines from white‐nose syndrome on arthropods.

10. Using PIT tags to infer bat reproductive status and parturition date: busy nights during lactation.

11. Impact of putatively beneficial genomic loci on gene expression in little brown bats (Myotis lucifugus, Le Conte, 1831) affected by white‐nose syndrome

13. Factors influencing the detection and occupancy of little brown bats (Myotis lucifugus).

14. Seasonal phenology of the little brown bat (Myotis lucifugus) at 60° N.

15. The best watering hole in town: Characteristics of ponds used by an endangered bat in an urbanizing boreal landscape

16. Factors influencing the detection and occupancy of little brown bats (Myotis lucifugus)

17. Seasonal phenology of the little brown bat (Myotis lucifugus) at 60° N

18. MOVEMENTS OF LITTLE BROWN MYOTIS FROM AUTUMN TRANSITION ROOSTS TO HIBERNACULA NEAR JUNEAU, ALASKA.

19. Female little brown bats require both building and natural roosts in a mountainous environment with short summers.

20. Landscape predictors and spatial distribution of little brown myotis (Myotis lucifugus) coastal foraging habitat along the Northern Gulf of Alaska.

21. Environmental control reduces white‐nose syndrome infection in hibernating bats.

22. Effects of bat white-nose syndrome on hibernation and swarming aggregations of bats in Ontario.

23. Contact-independent exposure to Rhodococcus rhodochrous DAP96253 volatiles does not improve the survival rate of Myotis lucifugus (little brown bats) affected by White-nose Syndrome.

24. Female little brown bats require both building and natural roosts in a mountainous environment with short summers

25. White-nose syndrome restructures bat skin microbiomes

26. Far-reaching displacement effects of artificial light at night in a North American bat community

27. Contact-independent exposure to Rhodococcus rhodochrous DAP96253 volatiles does not improve the survival rate of Myotis lucifugus (little brown bats) affected by White-nose Syndrome

28. COULD WHITE-NOSE SYNDROME MANIFEST DIFFERENTLY IN MYOTIS LUCIFUGUS IN WESTERN VERSUS EASTERN REGIONS OF NORTH AMERICA? A REVIEW OF FACTORS.

29. Little brown bat activity patterns and conservation implications in agricultural landscapes in boreal Yukon, Canada.

30. Oral Sampling of Little Brown Bat (Myotis lucifugus) Maternity Colonies for SARS-CoV-2 in the Northeast and Mid-Atlantic, USA.

31. Little brown Myotis roosts are spatially associated with foraging resources on Prince Edward Island

32. Roost fidelity partially explains maternity roosting association patterns in Myotis lucifugus.

33. Rapidly declining body size in an insectivorous bat is associated with increased precipitation and decreased survival.

34. Pseudogymnoascus destructans invasion stage impacts the skin microbial functions of highly vulnerable Myotis lucifugus.

35. Little brown Myotis roosts are spatially associated with foraging resources on Prince Edward Island.

36. Population sizes and activity patterns of little brown myotis in Yellowstone National Park.

37. What is winter? Modeling spatial variation in bat host traits and hibernation and their implications for overwintering energetics

38. Resistance in persisting bat populations after white-nose syndrome invasion.

39. Population dynamics of little brown bats (Myotis lucifugus) at summer roosts: Apparent survival, fidelity, abundance, and the influence of winter conditions

40. Turning to the dark side: LED light at night alters the activity and species composition of a foraging bat assemblage in the northeastern United States

41. Individual Variation in Parturition Timing within and among Years for a Bat Maternity Colony

42. Disease‐related population declines in bats demonstrate non‐exchangeability in generalist predators.

43. Cooling of bat hibernacula to mitigate white‐nose syndrome.

44. Hibernacula microclimate and declines in overwintering bats during an outbreak of white‐nose syndrome near the northern range limit of infection in North America

45. Disease‐related population declines in bats demonstrate non‐exchangeability in generalist predators

46. Drivers of variation in species impacts for a multi-host fungal disease of bats.

47. Similar hibernation physiology in bats across broad geographic ranges.

48. A male Little Brown Myotis (Myotis lucifugus) recaptured after 28 years at the same site in southwest Saskatchewan, Canada.

49. Transcriptional host–pathogen responses of Pseudogymnoascus destructans and three species of bats with white-nose syndrome

50. Major histocompatibility complex variation is similar in little brown bats before and after white‐nose syndrome outbreak

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