Passing rail traffic reduces bat activity

AbstractRail transport is expanding, with a global increase in infrastructure of up to one-third predicted by 2050. Greater reliance on rail is expected to benefit the environment at a planetary level, by mitigating transport-related carbon emissions. However, smaller-scale, more direct consequences for wildlife are unclear, as unlike roads, railway impacts on animal ecology are rarely studied. As a group, bats frequently interact with transport networks due to their broad distribution and landscape-scale movements. Additionally, their nocturnality, and use of echolocation mean bats are likely to be affected by light and noise emitted by trains. To investigate whether passing trains affect bat activity levels, we monitored the two most abundant UK species using ultrasonic detectors at 12 wooded rail-side sites in southern England. Activity fell by ≥ 30–50% each time a train passed, for at least two minutes. Consequently, activity was reduced for no less than one-fifth of the time at sites with median rail traffic, and two-thirds or more of the time at the busiest site. Such activity changes imply repeated evasive action and/or exclusion from otherwise favourable environments, with potential for corresponding opportunity or energetic costs. Hence, disturbance by passing trains may disadvantage bats in most rail-side habitats.

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Canopy and edge activity of bats in a quaking aspen (Populus tremuloides) forest

Canadian Journal of Zoology ◽

10.1139/z2012-049 ◽

2012 ◽

Vol 90 (7) ◽

pp. 798-807 ◽

Cited By ~ 3

Author(s):

T.W. Pettit ◽

K.T. Wilkins

Keyword(s):

Populus Tremuloides ◽

High Frequency ◽

Regression Tree ◽

Low Frequency ◽

Tree Height ◽

Quaking Aspen ◽

Activity Levels ◽

Forest Canopies ◽

Bat Activity ◽

Cart Analysis

Characteristics of edges affect the behavior of species that are active in and near edges. Forest canopies may provide edge-like habitat for bats, though bat response to edge orientation has not been well examined. We sampled bat activity in quaking aspen ( Populus tremuloides Michx.) forest canopies and edges in Heber Valley, Utah, during summer 2009 using Anabat detectors. Categorization and regression tree (CART) analysis of echolocation characteristics (e.g., frequency, duration) identified two guilds based on characteristic frequency (i.e., high- and low-frequency guilds). We used linear regression to compare characteristics of canopy and edge vegetation (e.g., tree height, diameter at breast height) to bat activity levels. Activity levels of high-frequency bats did not respond differentially to edge vegetation; low-frequency bat activity seemed to respond to canopy height. Activity levels of high-frequency bats were significantly greater than low-frequency bats in both edges and canopies. We detected significantly more bat activity in forest edges than in forest canopies, indicating the importance of edges to bats in forests.

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Seasonal Activity Patterns of Two Species of Nyctophilus Bats Based on Mist-Net Captures.

Australian Mammalogy ◽

10.1071/am98349 ◽

1998 ◽

Vol 20 (3) ◽

pp. 349

Author(s):

R.M. Brigham ◽

F. Geiser

Keyword(s):

Activity Patterns ◽

Activity Cycle ◽

Activity Levels ◽

Seasonal Activity ◽

Daily Torpor ◽

Bat Activity ◽

Annual Activity ◽

A Site ◽

Mist Net

We evaluated the annual activity cycle of Nytophilus gouldi and N. geoffroyi using 82 nights of mist-netting data from a site near Armidale in northern NSW. Our purpose was to assess whether these bats hibernated or used short bouts of daily torpor combined with foraging on at least some nights. During the cold months of the year (May - August) bat activity levels inferred from net captures was very low providing support for the hypothesis that these bats use daily torpor and at least sometimes actively forage as opposed to entering hibernation.

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Publisher Correction to: The response of pollen-transport networks to landscape-scale climate variation

Polar Biology ◽

10.1007/s00300-018-2304-7 ◽

2018 ◽

Vol 41 (8) ◽

pp. 1651-1651

Author(s):

Christine Urbanowicz ◽

Ross A. Virginia ◽

Rebecca E. Irwin

Keyword(s):

Landscape Scale ◽

Climate Variation ◽

Transport Networks ◽

Pollen Transport

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Concentration of bat activity in riparian habitats over an elevational gradient

Canadian Journal of Zoology ◽

10.1139/z99-062 ◽

1999 ◽

Vol 77 (6) ◽

pp. 972-977 ◽

Cited By ~ 77

Author(s):

S D Grindal ◽

J L Morissette ◽

R M Brigham

Keyword(s):

Elevational Gradient ◽

Relative Activity ◽

Activity Levels ◽

Riparian Areas ◽

Habitat Types ◽

Bat Activity ◽

Prey Resources ◽

Riparian Habitats ◽

Mist Net ◽

Capture Rates

Riparian areas are generally assumed to represent important foraging areas for insectivorous bats, but this contention has rarely been formally quantified. To test this assumption, we used bat detectors to compare the relative activity levels of a community of temperate-zone bat species between riparian (lake) and upland (cutblock) habitats at three different elevations (ranging from 540 to 1800 m) in a forested area of southern British Columbia. In addition, we also investigated the sex and age class distributions of bats (based on mist-net captures) between riparian and upland habitats among the elevational zones. Bat activity levels were significantly greater in riparian than upland areas (10 and 40 times greater for foraging and commuting activity, respectively). Capture rates were greater in riparian areas and biased towards females, suggesting that female bats may preferentially select riparian areas, probably because of the abundant prey resources typically associated with this habitat. Captures of females also predominated at lower elevations, whereas males were captured more often in higher elevation zones. Our data support the assumption that riparian habitats represent important foraging and probably drinking areas for bats. The sex bias and differences in capture rates and activity levels need to be considered when designing bat surveys in different habitat types or over elevational gradients.

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Anthropogenic noise alters bat activity levels and echolocation calls

Global Ecology and Conservation ◽

10.1016/j.gecco.2014.11.002 ◽

2015 ◽

Vol 3 ◽

pp. 62-71 ◽

Cited By ~ 36

Author(s):

Jessie P. Bunkley ◽

Christopher J.W. McClure ◽

Nathan J. Kleist ◽

Clinton D. Francis ◽

Jesse R. Barber

Keyword(s):

Anthropogenic Noise ◽

Activity Levels ◽

Echolocation Calls ◽

Bat Activity

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A simulation model of a traction network taking into account the variable resistance of the contact line and a given power profile of the electric vehicle in MatLAB Simulink

Journal of Physics Conference Series ◽

10.1088/1742-6596/2061/1/012042 ◽

2021 ◽

Vol 2061 (1) ◽

pp. 012042

Author(s):

E A Spiridonov ◽

M A Mayboroda

Keyword(s):

Initial Data ◽

Simulation Model ◽

Contact Line ◽

Building Blocks ◽

Rail Transport ◽

Electric Transport ◽

Transport Networks ◽

Traction Network ◽

Power Profile ◽

Vehicle Motion

Abstract The article describes an approach to the development of a simulation model of an electric transport traction network, taking into account the change in the resistance of the contact wire when the vehicle is moving. The advantage of the model is that it is executed using the building blocks of Simulink, visually reflects the topology of the traction network, and can be used for modeling both trolleybus and rail transport networks. As the initial data for the model, both standardized drive cycles and experimentally obtained modes of vehicle motion can be used.

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An investigation of urban bat ecology in Baltimore, Maryland

10.32469/10355/69936 ◽

2019 ◽

Author(s):

◽

Ela Sita Carpenter

Keyword(s):

Species Richness ◽

Census Data ◽

Urban Landscape ◽

Acoustic Monitoring ◽

Activity Levels ◽

Baltimore County ◽

Vacant Lots ◽

Bat Activity ◽

Socioeconomic Variables ◽

Neighborhood Scale

In North America, bats are a taxon of concern that play an important role in insect control, and their response to urbanization varies. I wanted to discover if evaluating environmental and socioeconomic variables present in an urban landscape can help determine what bat species were present and how active these species were. Research occurred in Baltimore, Maryland, a 'shrinking' city in the eastern US, which had no prior research on the bat community. For my first project, I used active acoustic monitoring to evaluate how bat activity levels (amount of detected acoustic sequences) and the bat community varied along both a direct and indirect rural to urban gradient. Nine sites along the Gwynns Falls watershed in Baltimore County and City were used the gradient. Over 1,500 sequences (detection files) were recorded from six species and I found that the direct and indirect measures of urbanization gradient used are not a predictor of bat presence and activity. For my next project I used passive acoustic monitoring to record bat activity at 32 vacant lots within Baltimore City to determine which environmental and socioeconomic variables best predict bat species richness and activity at these small, informal, understudied urban greenspaces. Environmental and socioeconomic data was obtained using on-site measures, GIS, and US Census data. There were no predictors for overall species richness. Canopy-associated measures at both the site and neighborhood scale, streetlights, site distance from water and the urban core, residential race and income, old housing, and rental housing were all common predictors of bat species' activity levels. Species relationships with these predictors varied and some species had additional predictors, suggesting that bats use the urban landscape to different degrees. Some larger lots could potentially be managed to have vegetation structural complexity (allowing both canopy cover and open space to accommodate bat species with different traits), but many lots are too small to do this. Vacant lots closer to water and larger patches of forests have the most potential to be managed for bats.

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