Impacts of Passage Manipulation on Cave Climate: Conservation Implications for Cave-Dwelling Bats

Human disturbance has caused declines in populations of many cave-dwelling bats and other cave-obligate organisms. Cave gating has been used to eliminate human disturbance, but few studies have assessed its impact on internal cave climate. We recorded ambient (air) and substrate (rock) temperatures...

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Published inWildlife Society bulletin Vol. 34; no. 1; pp. 137 - 143
Main Authors MARTIN, KEITH W, LESLIE, DAVID M, PAYTON, MARK E, PUCKETTE, WILLIAM L, HENSLEY, STEVE L
Format Journal Article
LanguageEnglish
Published Oxford, UK Blackwell Publishing Ltd 01.03.2006
The Wildlife Society
Subjects
Ambient temperature
Bats
cave climate
cave conservation
cave gating
cave protection
Caves
Climate
Environmental protection
Fish
gray bats
Human influences
Mytosis grisescens
Oklahoma
Seasons
Summer
Wildlife conservation
Wildlife ecology
Wildlife management
Wildlife Research and Management
Winter
Oklahoma
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Summary:Human disturbance has caused declines in populations of many cave-dwelling bats and other cave-obligate organisms. Cave gating has been used to eliminate human disturbance, but few studies have assessed its impact on internal cave climate. We recorded ambient (air) and substrate (rock) temperatures at specified distances within the entrances of 3 gated and 3 open-passage caves in northeastern Oklahoma during summers 1999 and 2000 and winters 1999–2000 and 2000–2001. No differences occurred in ambient and substrate temperatures at any distance or season between gated and open-passage caves. We also monitored long-term (6 weeks) and seasonal (summer and winter) climate variables at specific distances inside 2 caves (OK-13 and OK-220) before and after modifications of their cave passages/entrances. Ambient and substrate temperatures before and after cave manipulation differed in only 1 of 12 observations in summer but in 9 of 12 observations in winter. We also monitored cave climate 7 days immediately before and after passage modification. Differences occurred at all 8 observations and at 4 of 12 observations before and after entrance and passage manipulation at OK-13 and OK-220, respectively. Airflow did not differ when monitored 7 days before and 7 days after instillation of an internal gate system in the passage of cave OK-220. Our data indicate that caves with modified entrances and passages show no changes in ambient and substrate temperatures in summer and only slight changes in winter. Although temperature changes during winter were statistically different, we posit that their biological implications on endemic cave fauna are minimal. (WILDLIFE SOCIETY BULLETIN 34(1):137–143; 2006)
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ArticleID:WSB4341
E‐mail
kmartin@rsu.edu
Mark Payton
is a Professor of Statistics, Oklahoma State University. He received his Ph.D. and M.S. from Oklahoma State University. His expertise and areas of interest include experimental design and analysis of biological data.
William (Bill) Puckette
Keith Martin
(left) is Department Head of Mathematics and Science and Assistant Professor of Biology at Rogers State University in Claremore, Okla. He received his Ph.D. From Oklahoma State University in 2001 and has concentrated his research on federally listed endangered species of bats in eastern Oklahoma since 1990.
is leader of the Oklahoma Cooperative Fish and Wildlife Research Unit at Oklahoma State University. He received his Ph.D. from Oregon State University in 1982 and has served The Wildlife Society as Associate Editor of the Journal of Wildlife Management, member of the Editorial Panel of the Wildlife Society Bulletin, and past‐President of the Oklahoma Chapter.
David M. (Chip) Leslie, Jr.
Steve L. Hensley
(center) received an M.S. from Oklahoma State University and has previously worked as a biologist for the U.S. Army Corps of Engineers in St. Louis, Mo. and the Ecological Services Office of the USFW Service in Tulsa, Okla. He is currently the manager of the Ozark Plateau National Wildlife Refuge, Vian, Okla.
(right) teaches science at Poteau High School in Poteau, Okla. He received his BS and MS (Geology) from the University of Arkansas. He has worked extensively with private and government agencies throughout the southern Ozark Plateau region to monitor and protect federally listed endangered species of bats for the past 25 years.
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ISSN:0091-7648
1938-5463
DOI:10.2193/0091-7648(2006)34[137:IOPMOC]2.0.CO;2