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The European Zoological Journal Volume 90, 2023 - Issue 1
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Research Article

Factors affecting bat occupancy of boxes in managed coniferous forests

M. Jankowska-Jarek1 Department of Vertebrate Ecology and Zoology, Faculty of Biology, University of Gdańsk, Gdansk, Poland
,
M. Ciechanowski1 Department of Vertebrate Ecology and Zoology, Faculty of Biology, University of Gdańsk, Gdansk, Poland
,
K. Bidziński1 Department of Vertebrate Ecology and Zoology, Faculty of Biology, University of Gdańsk, Gdansk, Poland
&
T. Postawa2 Landscape Ecology Team, Institute of Systematics and Evolution of Animals Polish Academy of Science, Krakow, PolandCorrespondence[email protected]
Pages 454-469 | Received 19 Dec 2022, Accepted 20 May 2023, Published online: 09 Jun 2023

References

  • Adams RA, Hayes MA. 2008. Water availability and successful lactation by bats as related to climate change in arid regions of western North America. Journal of Animal Ecology 77(6):1115–1121. DOI: 10.1111/j.1365-2656.2008.01447.x.
  • Agnelli P, Maltagliati G, Ducci L, Cannicci S. 2011. Artificial Roosts for bats: Education and research. The” Be a Bat’s Friend” project of the natural history museum of the University of Florence. Hystrix, the Italian Journal of Mammalogy 22(1):215–223. DOI: 10.4404/hystrix-22.1-4540.
  • Andersson J, Domingo Gómez E, Michon S, Roberge JM. 2018. Tree cavity densities and characteristics in managed and unmanaged Swedish boreal forest. Scandinavian Journal of Forest Research 33(3):233–244. DOI: 10.1080/02827581.2017.1360389.
  • Arnold A, Braun M, Becker N, Storch V. 2000. Contribution to the trophic ecology of Daubenton’s and Nathusius’ bats in the Upper Rhine valley (SW-Germany). Carolinea 58:257–263.
  • Baagøe HJ. 1987. The Scandinavian bat fauna: Adaptive wing morphology, and free flight in the field. In: Fenton MB, Racey PA, Rayner JMV, editors. Recent advances in the study of bats. Cambridge, Mass: Cambridge University Press. pp. 57–74.
  • Baranauskas K. 2009. The use of bat boxes of two models by Nathusius’ Pipistrelle (Pipistrellus nathusii) in Southeastern Lithuania. Acta Zoologica Lithuanica 19(1):3–9. DOI: 10.2478/v10043-009-0002-y.
  • Bartonička T, Řehák Z. 2007. Influence of the microclimate of bat boxes on their occupation by the soprano pipistrelle Pipistrellus pygmaeus: Possible cause of roost switching. Acta Chiropterologica 9(2):517–526. DOI: 10.3161/1733-5329(2007)9[517:IOTMOB]2.0.CO;2.
  • Beck A. 1995. Fecal analyses of European bat species. Myotis 32(33):109–119.
  • Behr O, Helversen O, Heckel G, Nagy M, Voigt CC, Mayer F. 2006. Territorial songs indicate male quality in the sac-winged bat Saccopteryx bilineata (Chiroptera, Emballonuridae. Behavioral Ecology 17:810–817. DOI: 10.1093/beheco/arl013.
  • Berthier K, Leippert F, Fumagalli L, Arlettaz R. 2012. Massive nest-box supplementation boosts fecundity, survival and even immigration without altering mating and reproductive behaviour in a rapidly recovered bird population. PLoS One 7(4):e36028. DOI: 10.1371/journal.pone.0036028.
  • Bideguren GM, López-Baucells A, Puig-Montserrat X, Mas M, Porres X, Flaquer C. 2019. Bat boxes and climate change: Testing the risk of over-heating in the Mediterranean region. Biodiversity and Conservation 28(1):21–35. DOI: 10.1007/s10531-018-1634-7.
  • Boonman M. 2000. Roost selection by noctules (Nyctalus noctula) and Daubenton’s bats (Myotis daubentonii). Journal of Zoology 251(3):385–389. DOI: 10.1111/j.1469-7998.2000.tb01089.x.
  • Brouwer D, Henrard E. 2020. Too hot or not? The influence of colour and material on temperature and relative humidity in flat, single-chambered bat boxes in the Netherlands. Borculo: Ecologisch advies- & projectbureau NatuurInclusief.
  • Charbonnier Y, Barbaro L, Theillout A, Jactel H. 2014. Numerical and functional responses of forest bats to a major insect pest in pine plantations. PLoS One 9(10):e109488. DOI: 10.1371/journal.pone.0109488.
  • Ciechanowski M. 2002. Community structure and activity of bats (Chiroptera) over different water bodies. Mammalian Biology 67(5):276–285. DOI: 10.1078/1616-5047-00042.
  • Ciechanowski M. 2005. Utilization of artificial shelters by bats (Chiroptera) in three different types of forest. Folia Zoologica 54(1):31–37.
  • Ciechanowski M. 2015. Habitat preferences of bats in anthropogenically altered, mosaic landscapes of northern Poland. European Journal of Wildlife Research 61(3):415–428. DOI: 10.1007/s10344-015-0911-y.
  • Ciechanowski M, Jakusz-Gostomska A, Żmihorski M. 2016. Empty in summer, crowded during migration? Structure of assemblage, distribution pattern and habitat use by bats (Chiroptera: Vespertilionidae) in a narrow, marine peninsula. Mammal Research 61(1):45–55. DOI: 10.1007/s13364-015-0249-6.
  • Ciechanowski M, Jarzembowski T. 2004. The size and number of harems in the polygynous bat Pipistrellus nathusii (Keyserling and Blasius, 1839) (Chiroptera: Vespertilionidae). Mammalian Biology 69(4):277–280. DOI: 10.1078/1616-5047-00144.
  • Czenze ZJ, Noakes MJ, Wojciechowski MS. 2022. Home is where the heat is: Thermoregulation of European bats inhabiting artificial roosts and the threat of heat waves. Journal of Applied Ecology 59(8):2179–2188. DOI: 10.1111/1365-2664.14230.
  • Dietz C, Helversen O, Nill D. 2009. Bats of Britain, Europe and Northwestern Africa. A&C Black Publishers Ltd., London. pp. 400.
  • Dietz M, Hörig A. 2011. Thermoregulation of tree-dwelling temperate bats—a behavioural adaptation to force live history strategy. Journal of Vertebrate Biology 60(1):5–16. DOI: 10.25225/fozo.v60.i1.a2.2011.
  • Dietz M, Kalko EK. 2006. Seasonal changes in daily torpor patterns of free-ranging female and male Daubenton’s bats (Myotis daubentonii). Journal of Comparative Physiology B 176:223–231. DOI: 10.1007/s00360-005-0043-x.
  • Entwistle AC, Racey PA, Speakman JR. 1998. The reproductive cycle and determination of sexual maturity in male brown long-eared bats, Plecotus auritus (Chiroptera: Vespertilionidae). Journal of Zoology 244(1):63–70. DOI: 10.1111/j.1469-7998.1998.tb00007.x.
  • European Commission. 2022, February. Communication from the Commission to the European Parliament, the Council, the European Economic and Social Committee and the Committee of the regions new EU Forest Strategy for 2030. https://ec.europa.eu/environment/pdf/forests/swd_forest_strategy.pdf.
  • Flaquer C, Puig-Montserrat X, Goiti U, Vidal F, Curcó A, Russo D. 2009. Habitat selection in Nathusius’ pipistrelle (Pipistrellus nathusii): The importance of wetlands. Acta Chiropterologica 11:149–155. DOI:10.3161/150811009X465767.
  • Flaquer C, Torre I, Ruiz-Jarillo R. 2006. The value of bat-boxes in the conservation of Pipistrellus pygmaeus in wetland rice paddies. Biological Conservation 128(2):223–230. DOI: 10.1016/j.biocon.2005.09.030.
  • Fontaine A, Simard A, Dubois B, Dutel J, Elliot KH. 2021. Using mounting, orientation, and design to improve bat box thermodynamics in a northern temperate environment. Scientific Reports 11(1):1–15. DOI: 10.1038/s41598-021-87327-3.
  • The Forest Data Bank. A Database on Resources and Condition of Polish Forests. Available online: https://www.bdl.lasy.gov.pl/portal/en. Accessed April 2015.
  • Froidevaux JS, Barbaro L, Vinet O, Larrieu L, Bas Y, Molina J et al. 2021. Bat responses to changes in forest composition and prey abundance depend on landscape matrix and stand structure. Scientific Reports 11(1):1–13. DOI: 10.1038/s41598-021-89660-z.
  • Gerell-Lundberg K, Gerell R. 1994. The mating behaviour of the Pipistrelle and the Nathusius’ Pipistrelle (Chiroptera) – A comparison. Folia Zoologica 43:315–324.
  • Gottfried I, Gottfried T, Zając K. 2019. Bats use larval galleries of the endangered beetle Cerambyx cerdo as hibernation sites. Mammalian Biology 95(1):31–34. DOI: 10.1016/j.mambio.2019.01.002.
  • Graczyk R. 1967. New nesting boxes of sawdust-concrete as bats stay place. Roczniki Akademii Rolniczej w Poznaniu 38:15–19.
  • Hoeh JPS, Bakken GS, Mitchell WA, O’Keefe JM. 2018. In artificial roost comparison, bats show preference for rocket box style. PLoS ONE 13(10):e0205701. DOI: 10.1371/journal.pone.0205701.
  • Ignaszak K, Dziegielewska M. 2009. Wykorzystanie skrzynek drewnianych i trocinobetonowych przez nietoperze w Szczecinskim Parku Krajobrazowym „Puszcza Bukowa”. Studia i Materiały Centrum Edukacji Przyrodniczo-Leśnej 11(2 [21]):91–100.
  • Issel B, Issel W. 1955. Versuche zur Ansiedelung von „Waldfledermäusen” in Fledermauskästen. Forstwissenschaftliches Centralblatt 74(7):193–204. DOI: 10.1007/BF01821576.
  • Istvanko DR, Risch TS, Rolland V. 2016. Sex-specific foraging habits and roost characteristics of Nycticeius humeralis in north-central Arkansas. Journal of Mammalogy 97:1336–1344. DOI: 10.1093/jmammal/gyw102.
  • Jahelková H, Horáček I. 2011. Mating system of a migratory Bat, Nathusius’ Pipistrelle (Pipistrellus nathusii): Different male strategies*. Acta Chiropterologica 13:123–137. DOI: 10.3161/150811011X578679.
  • Jarzembowski T. 2003. Migration of the Nathusius’ pipistrelle Pipistrellus nathusii (Vespertilionidae) along the Vistula split. Acta Theriologica 48(3):301–308. DOI: 10.1007/BF03194170.
  • Kasprzyk K, Ruczyński I. 2001. The structure of bat communities roosting in bird nest boxes in two pine monocultures in Poland. Folia Zoologica 50(2):107–116.
  • Kerth G, Ebert C, Schmidtke C. 2006. Group decision making in fission–fusion societies: Evidence from two-field experiments in Bechstein’s bats. Proceedings of the Royal Society of London B: Biological Sciences 273(1602):2785–2790. DOI: 10.1098/rspb.2006.3647.
  • Kerth G, König B. 1999. Fission, fusion and nonrandom associations in female Bechstein’s bats (Myotis bechsteinii). Behaviour 136(9):1187–1202. DOI: 10.1163/156853999501711.
  • Kerth G, Weissmann K, König B. 2001. Day roost selection in female Bechstein’s bats (Myotis bechsteinii): A field experiment to determine the influence of roost temperature. Oecologia 126(1):1–9. DOI: 10.1007/s004420000489.
  • Kirby KJ, Webster SD, Antczak A. 1991. Effects of forest management on stand structure and the quantity of fallen dead wood: Some British and Polish examples. Forest Ecology and Management 43(1–2):167–174. DOI: 10.1016/0378-1127(91)90083-8.
  • Komar E, Fasel NJ, Szafrańska PA, Dechmann DKN, Zegarek M, Ruczyński I. 2022. Energy allocation shifts from sperm production to self-maintenance at low temperatures in male bats. Scientific Reports 12:2138. DOI: 10.1038/s41598-022-05896-3.
  • Kowalski M, Lesiński G. 1994. Bats occupying nest boxes for birds and bats in Poland. Nyctalus (N.F.) 5(1):19–26.
  • Krüger F, Clare EL, Symondson WO, Keišs O, Pētersons G. 2014. Diet of the insectivorous bat Pipistrellus nathusii during autumn migration and summer residence. Molecular Ecology 23(15):3672–3683. DOI: 10.1111/mec.12547.
  • Kunz TH, Lumsden LF, Fenton MB. 2003. Ecology of cavity and foliage roosting bats. In: Kunz T, Fenton MB, editors. Bat ecology. Chicago: University of Chicago Press. pp. 3–89. DOI: 10.5281/zenodo.4655329.
  • Larrieu L, Paillet Y, Winter S, Bütler R, Kraus D, Krumm F, Lachat T, Michel AK, Regnery B. 2018. Tree related microhabitats in temperate and Mediterranean European forests: A hierarchical typology for inventory standardization. Ecological Indicators 84:194–207. DOI: 10.1016/j.ecolind.2017.08.051.
  • Lesiński G, Skrzypiec-Nowak P, Janiak A, Jagnieszczak Z. 2009. Phenology of bat occurrence in boxes in central Poland. Mammalia 73(1):33–37. DOI: 10.1515/MAMM.2009.014.
  • Leuschner C, Ellenberg H. 2017. Ecology of Central European Forests. Vegetation Ecology of Central Europe. Vol. I. Springer Cham. pp. 972. DOI:10.1007/978-3-319-43042-3.
  • Lewis SE. 1995. Roost fidelity of bats: A review. Journal of Mammalogy 76(2):481–496. DOI: 10.2307/1382357.
  • Long R, Kiser W, Kiser S. 2006. Well-placed bat houses can attract bats to Central Valley farms. California Agriculture 60(2):91–94. DOI: 10.3733/ca.v060n02p91.
  • López-Baucells A, Puig-Montserrat X, Torre I, Freixas L, Mas M, Arrizabalaga A, Flaquer C. 2017. Bat boxes in urban non-native forests: A popular practice that should be reconsidered. Urban Ecosystems 20(1):217–225. DOI: 10.1007/s11252-016-0582-9.
  • Lourenço SI, Palmeirim JM. 2004. Influence of temperature in roost selection by Pipistrellus pygmaeus (Chiroptera): Relevance for the design of bat boxes. Biological Conservation 119(2):237–243. DOI: 10.1016/j.biocon.2003.11.006.
  • Mackie I, Racey PA. 2007. Habitat use varies with reproductive state in noctule bats (Nyctalus noctula): Implications for conservation. Biological Conservation 140:70–77. DOI: 10.1016/j.biocon.2007.07.031.
  • Mayle BA. 1990. A biological basis for bat conservation in British woodlands–a review. Mammal Review 20(4):159–195. DOI: 10.1111/j.1365-2907.1990.tb00111.x.
  • Naďo L, Kaňuch P. 2013. Dawn swarming in tree-dwelling bats—an unexplored behaviour. Acta chiropterologica 15(2):387–392. DOI: 10.3161/150811013X679008.
  • Otto MS, Becker NI, Encarnação JA. 2013. Cool gleaners: Thermoregulation in sympatric bat species. Mammalian Biology 78(3):212–215. DOI: 10.1016/j.mambio.2012.07.156.
  • Petersons G. 2004. Seasonal migrations of north-eastern populations of Nathusius’ bat Pipistrellus nathusii (Chiroptera). Myotis 41(42):29–56.
  • Printz L, Tschapka M, Vogeler A. 2021. The common noctule bat (Nyctalus noctula): Population trends from artificial roosts and the effect of biotic and abiotic parameters on the probability of occupation. Journal of Urban Ecology 7:juab033. DOI: 10.1093/jue/juab033.
  • Pschonny S, Leidinger J, Leitl R, Weisser WW. 2022. What makes a good bat box? How box occupancy depends on box characteristics and landscape‐level variables. Ecological Solutions and Evidence 3(1):e12136. DOI: 10.1002/2688-8319.12136.
  • Quinto J, Micó E, Martínez-Falcón AP, Galante E, Marcos-García MDLÁ. 2014. Influence of tree hollow characteristics on the diversity of saproxylic insect guilds in Iberian Mediterranean woodlands. Journal of Insect Conservation 18(5):981–992. DOI: 10.1007/s10841-014-9705-x.
  • Racey PA, Speakman JR. 1987. The energy costs of pregnancy and lactation in heterothermic bats. Symposium of the Zoological Society of London 57:107–125.
  • Rachwald A. 1992. Social organization, recovery frequency and body weight of the bat Pipistrellus nathusii from northern Poland. Myotis 30:109–118.
  • Rachwald A, Gottfried I, Gottfried T, Szurlej M. 2018. Occupation of crevice−type nest−boxes by the forest dwelling western barbastelle bat Barbastella barbastellus (Chiroptera: Vespertilionidae). Folia Zoologica 67(3−4):231–238. DOI: 10.25225/fozo.v67.i3-4.a12.2018.
  • R Core Team. 2020. R: A language and environment for statistical computing. Vienna, Austria: R Foundation for Statistical Computing. Available: https://www.R-project.org/. Accessed May 2021 18.
  • Rhodes M, Jones D. 2011. The use of bat boxes by insectivorous bats and other fauna in the greater Brisbane region. In: Law B, Eby P, Lunney D, Lumsden L, editors. The biology and conservation of Australasian bats. Sydney: Royal Zoological Society of New South Wales. pp. 424–442. DOI: 10.7882/FS.2011.043.
  • Rodrigues L, Zahn A, Rainho A, Palmeirim JM. 2003. Contrasting the roosting behaviour and phenology of an insectivorous bat (Myotis myotis) in its southern and northern distribution ranges. Mammalia 67(3):321–335. DOI: 10.1515/mamm.2003.67.3.321.
  • Ruczyński I, Bogdanowicz W. 2005. Roost cavity selection by Nyctalus noctula and N. leisleri (Vespertilionidae, Chiroptera) in Białowieża Primeval Forest, eastern Poland. Journal of Mammalogy 86(5):921–930. DOI: 10.1644/1545-1542(2005)86[921:RCSBNN]2.0.CO;2.
  • Ruczyński I, Bogdanowicz W. 2008. Summer roost selection by tree-dwelling bats Nyctalus noctula and N. leisleri: A multiscale analysis. Journal of Mammalogy 89:942–951. DOI: 10.1644/07-MAMM-A-134.1.
  • Ruczyński I, Kalko EK, Siemers BM. 2007. The sensory basis of roost finding in a forest bat, Nyctalus noctula. Journal of Experimental Biology 210(20):3607–3615. DOI: 10.1242/jeb.009837.
  • Ruczyński I, Kalko EK, Siemers BM. 2009. Calls in the forest: A comparative approach to how bats find tree cavities. Ethology 115(2):167–177. DOI: 10.1111/j.1439-0310.2008.01599.x.
  • Ruczyński I, Nicholls B, MacLeod CD, Racey PA. 2010. Selection of roosting habitats by Nyctalus noctula and Nyctalus leisleri in Białowieża Forest—adaptive response to forest management? Forest Ecology and Management 259(8):1633–1641. DOI: 10.1016/j.foreco.2010.01.041.
  • Rueegger N. 2016. Bat boxes—a review of their use and application, past, present and future. Acta Chiropterologica 18(1):279–299. DOI: 10.3161/15081109ACC2016.18.1.017.
  • Ruprecht AL. 1971. Distribution of Myotis myotis (Borkhausen, 1797) and representatives of the genus Plecotus Geoffroy, 1818 in Poland. Acta Theriologica 16(7):95–104. DOI: 10.4098/AT.arch.71-7.
  • Safi K, König B, Kerth G. 2007. Sex differences in population genetics, home range size and habitat use of the parti-colored bat (Vespertilio murinus, Linnaeus 1758) in Switzerland and their consequences for conservation. Biological Conservation 137:28–36. DOI: 10.1016/j.biocon.2007.01.011.
  • Schmidt A. 2003. Zum Orttsverhalten von Mausohren (Myotis myotis) ostbrandenburgicher Kiefernforste. Nyctalus (N.F.) 8:465–489.
  • Swift SE. 1998. Long-eared bats. London: T & AD Poyser Ltd. pp. 182.
  • Swihart RK, Gehring TM, Kolozsvary MB, Nupp TE. 2003. Responses of ‘resistant’ vertebrates to habitat loss and fragmentation: The importance of niche breadth and range boundaries. Diversity and Distributions 9(1):1–18. DOI: 10.1046/j.1472-4642.2003.00158.x.
  • Taake KH, Hildenhagen U. 1989. Nine years’ inspections of different artificial roosts for forest-dwelling bats in Northern Westfalia: Some results. In: Hának V, Horaček I, Gaisler J, editors. European Bat Research 1987. Praha: Charles University Press. pp. 487–493.
  • Thomas DW. 1988. The distribution of bats in different ages of Douglas-fir forests. The Journal of Wildlife Management 52(4):619–626. DOI: 10.2307/3800920.
  • Tillman FE, Bakken GS, O’Keefe JM. 2021. Design modifications affect bat box temperatures and suitability as maternity habitat. Ecological Solutions and Evidence 2(4):e12112. DOI: 10.1002/2688-8319.12112.
  • Turbill C, Geiser F. 2008. Hibernation by tree-roosting bats. Journal of Comparative Physiology B 178(5):597–605. DOI: 10.1007/s00360-007-0249-1.
  • Van der Hoek Y, Gaona GV, Martin K. 2017. The diversity, distribution and conservation status of the tree‐cavity‐nesting birds of the world. Diversity and Distributions 23(10):1120–1131. DOI: 10.1111/ddi.12601.
  • Vaughan N. 1997. The diets of British bats (Chiroptera). Mammal Review 27(2):77–94. DOI: 10.1111/j.1365-2907.1997.tb00373.x.
  • Vesk PA, Nolan R, Thomson JR, Dorrough JW, Mac Nally R. 2008. Time lags in provision of habitat resources through revegetation. Biological Conservation 141(1):174–186. DOI: 10.1016/j.biocon.2007.09.010.
  • Voigt CC, Lehnert LS, Popa-Lisseanu AG, Ciechanowski M, Estók P, Gloza-Rausch F et al. 2014. The trans-boundary importance of artificial bat hibernacula in managed European forests. Biodiversity and Conservation 23(3):617–631. DOI: 10.1007/s10531-014-0620-y.
  • Wojtaszyn G, Lesiński G, Rutkowski T. 2021. Seasonal dynamics of occupation of bat boxes by bats in forests of south-western Poland. Acta Zoologica Bulgarica 73(3):431–436.
  • Woś A. 1996. Zarys klimatu Polski. Poznań: Wydawnictwo Naukowe UAM. pp. 302.

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