Variation in life history traits in the little brown bat, Myotis lucifugus (chiroptera: vespertilionidae)

Reynolds, D. Scott

January 1999

Thesis (Ph.D.)--Boston University / PLEASE NOTE: Boston University Libraries did not receive an Authorization To Manage form for this thesis or dissertation. It is therefore not openly accessible, though it may be available by request. If you are the author or principal advisor of this work and would like to request open access for it, please contact us at open-help@bu.edu. Thank you. / This thesis examines the intrinsic and extrinsic factors that influence the reproductive strategy of a temperate insectivorous bat, Myotis lucifugus. Body composition was measured using both direct analysis (dehydration and fat extraction) and total body electrical conductivity (TOBEC) analysis. Changes in body composition during the reproductive season show that both fat and mineral stores are mobilized during lactation. However, the changes were small relative to the level of reproductive effort supporting the hypothesis that small insectivorous bats use direct-costing to meet the costs of reproduction. An increase in size of the digestive tract suggests that increased foraging capacity is an important component of this strategy. Changes in body composition in young bats show a two-week period of linear postnatal growth followed by a rapid transition to adult body composition. By the end of August, young bats had achieved a mass-specific body composition similar to post-lactating adult females, although they had a smaller body mass. Body composition did not influence any of the reproductive traits investigated in the present study. Young bats born early in the parturition period had a higher postnatal growth rate, suggesting that time-dependent effects influence reproductive strategy in Myotis lucifugus. Sex-dependent influences suggest that maternal costs are higher when producing female young: female offspring 1) had a higher postnatal growth rate, 2) had more body fat at weaning, 3) were born earlier and remained with the mother longer than male offspring. High levels of precipitation during early pregnancy resulted in a delayed parturition period and a male-biased sex-ratio at birth. High levels of precipitation in late summer increased overwinter recapture rate in adult females. Low ambient temperature in early summer reduced the reproductive rate and level of reproductive synchrony. Low temperatures in late summer reduced overwinter recapture rate in yearling bats. These extrinsiv factors may influence the energy budget of M. lucifugus by increasing thermoregulatory costs and reducing foraging opportunity or prey availability. Thus intrinsic factors influenced some of the within-season variation in reproductive traits, whereas extrinsic factors primarily affected between-year variation. / 2031-01-02

Myotis lucifugus

Brown bats

Spectral and temporal characteristics of echolocation calls in pregnant and lactating big brown bats / Echolocation in pregnant and lactating big brown bats

Clarke, Alexa

January 2023

While they are pregnant and rearing pups, bats continue to leave their roosts to forage for food. Many bats use echolocation vocalizations as part of this process. Other mammalian species including primates experience changes in vocal characteristics during pregnancy and lactation. As echolocation is a vital tool for spatial navigation and prey detection in most bats, investigating echolocation characteristics during pregnancy through lactation may provide new insight into how reproduction, pregnancy and pup rearing influence vocalizations. We measured changes in mass and recorded echolocation calls of pregnant (n = 21) and non-pregnant (n = 2) female wild-caught big brown bats (Eptesicus fuscus) released by hand into roost emergence-like flight. Recording began ~15 days prepartum and ended when the last bat reached 34 days postpartum, when pups were expected to be weaned. Analyses were completed using MATLAB and R, primarily with repeated measures ANOVAs focused on echolocation calls present in the ~562 ms before and ~562 ms after take-off. Based on vocal changes experienced by humans during pregnancy and post-birth, correlations found between bat echolocation call characteristics and the effects of differences in mass on bat echolocation, we predicted that female bats in late-stage pregnancy would emit calls of shorter duration, longer pulse interval, narrower bandwidth, and lower centroid frequency compared to calls emitted by the same bat post-parturition and compared to non-pregnant bats, while source level remained unchanged. We found that pulse interval and source level did not change while pregnant/lactating or control bats were in flight, and that increases in call duration and decreases in centroid frequency and bandwidth in flight began in pregnancy and continued through the lactation period while remaining unchanged for the control bats. / Thesis / Master of Science (MSc) / The goals of this study were to see if big brown bats change the way that they echolocate while they are pregnant and/or nursing pups, and what changes occur. We did this by recording the vocal sounds bats made while they were pregnant and after they had given birth, and looking to see if there were any changes in the duration of echolocation calls, the time between individual sounds, the range of sound frequencies in each call, the central sound frequency in each call, and each call’s sound pressure level over this time and compared to non-pregnant/nursing female big brown bats. We found that echolocation call duration increases over pregnancy and nursing pups, while frequency range and the centre frequency decreases.

echolocation

big brown bats

Eptesicus fuscus

pregnancy

lactation

roost emergence

Changing Relationship Between Temperature and Pathogen Growth on Bats with White-nose Syndrome

Fife, Josh

22 April 2024

Emerging infectious diseases (EID) pose significant threats to biodiversity. Human influence over the environment has increased opportunities for the introduction of novel pathogens to naïve hosts, potentially leading to host extinction. Understanding mechanisms of host persistence is critical for effectively conserving species affected by EIDs. Our study investigated the disease dynamics of white-nose syndrome (WNS), caused by the fungal pathogen Pseudogymnoascus destructans (Pd), in little brown bats (Myotis lucifugus) across a spatiotemporal gradient. We explored the relationship between bat roosting temperatures and Pd growth rates across three phases of pathogen invasion comprising years since WNS has been present at sites: invasion (0-3), established (4-8), and endemic (9+ years). Data used by this study comes from a combination of field-based data collection in New York where WNS has been present the longest and data from a long-running project which includes from other locations in the Northeast and Midwest regions of the United States. Our results reveal a weakening interaction between temperature and fungal growth rates time with WNS progresses. We additionally observed a decrease in early hibernation fungal loads and variation in infection prevalence over time, suggesting the onset of a coevolutionary relationship between bats and Pd. This study highlights the importance of investigating changing disease dynamics when understanding the reasonings for host persistence. / Master of Science / Emerging infectious diseases threaten species with the risk of extinction. Human activities have altered habitats which has increased the spread of new pathogens to vulnerable host populations. This research focuses on white-nose syndrome (WNS), an emerging disease caused by the fungal pathogen Pseudogymnoascus destructans (Pd). The arrival of Pd to North America resulted in widespread declines in little brown bat (Myotis lucifugus) populations, however, some populations persist at stable or growing rates. This study aims to investigate how the relationship between the growth rate of Pd and bat hibernation temperature may have changed over time. We used a combination of contemporary data collected in New York and a long-running dataset that documents the invasion and establishment of Pd across the Northeast and Midwestern regions of the United States to investigate fungal growth rates during different phases of Pd invasion: invasion, established, and endemic phases. Our results indicate the relationship between temperature and pathogen growth rate has weakened over time, suggesting potential changes in the host-pathogen relationship. Additionally, we found changes in fungal loads and infection prevalence throughout hibernation, suggesting the foundation of a coevolutionary relationship between bats and Pd. This research highlights the importance of understanding changes in disease dynamics to help understand how other species at risk of emerging infectious diseases may be able to persist.

disease ecology

disease dynamics

white-nose syndrome

host persistence

little brown bats

Myotis lucifugus