type of prey. However, this might differ according to the energy requirements of bats at the specific time. Field studies or experiments applying multiple methods might reveal more detailed information on the use of aquatic resources by bats. For example, video recordings can compliment acoustic monitoring to estimate the number of different bats flying at the same time, or tracking of individuals might reveal how they distribute their time among different habitats.
For ecological studies, but also conservation, especially concerning endangered species, it
is essential to investigate competition for aquatic insects between bats and other terrestrial
consumers (e.g., birds, lizards, arthropods). It would also be interesting to do similar studies in
drier areas, where aquatic resources might be a limiting factor, and possibly predict and even
prevent the indirect effects of climate change on these regions.
Abbott IM, Sleeman DP, Harrison S (2009) Bat activity affected by sewage effluent in Irish rivers. Biological Conservation 142(12): 2904-2914.
Abdennadher A, Ramírez F, Romdhane MS, Ruiz X, Jover L, Sanpera C (2011) Little Egret (Egretta garzetta) as a bioindicator of trace element pollution in Tunisian aquatic ecosystems. Environmental Monitoring and Assessement 175: 677-684.
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.
Ahlén I, Baagøe HJ, Bach L (2009) Behavior of Scandinavian bats during migration and foraging at sea. Journal of Mammalogy 90(6): 1318-1323.
Aihartza J, Almenar D, Salsamendi E, Goiti U, Garin I (2008) Fishing behaviour in the long-fingered bat Myotis capaccinii (Bonaparte, 1837): an experimental approach. Acta Chiropterologica 10(2): 287-301.
Aizpurua O, Garin I, Alberdi A, Salsamendi E, Baagøe H, Aihartza J (2013) Fishing Long-Fingered Bats (Myotis capaccinii) Prey regularly upon exotic fish. Plos One 8(11).
Akamatsu F, Toda H, Okino T (2004) Food source of riparian spiders analyzed by using stable isotope ratios.
Ecological Research 19(6): 655-662.
Akasaka T, Akasaka M, Nakamura F (2012) Scale-independent significance of river and riparian zones on three sympatric Myotis species in an agricultural landscape. Biological Conservation 145(1): 15-23.
Akasaka T, Akasaka M, Yanagawa H (2010) Relative importance of the environmental factors at site and landscape scales for bats along the riparian zone. Landscape and Ecological Engineering 6(2): 247-255.
Akasaka T, Nakano D, Nakamura F (2009) Influence of prey variables, food supply, and river restoration on the foraging activity of Daubenton's bat (Myotis daubentonii) in the Shibetsu River, a large lowland river in Japan.
Biological Conservation 142(7): 1302-1310.
Alcamo J, Florke M, Marker M (2007) Future long-term changes in global water resources driven by socio-economic and climatic changes. Hydrological Sciences Journal-Journal Des Sciences Hydrologiques 52(2): 247-275.
Aldridge HDJN, Brigham RM (1991) Factors influencing foraging time in 2 aerial insectivores - the bird Chordeiles-minor and the bat Eptesicus fuscus. Canadian Journal of Zoology-Revue Canadienne de Zoologie 69(1): 62-69.
Aldridge HDJN, Rautenbach IL (1987) Morphology, echolocation and resource partitioning in insectivorous bats.
Journal of Animal Ecology 56(3): 763-778.
Almenar D, Aihartza J, Goiti U, Salsamendi E, Garin I (2006) Habitat selection and spatial use by the trawling bat Myotis capaccinii (Bonaparte, 1837). Acta Chiropterologica 8(1): 157-167.
Almenar D, Aihartza J, Goiti U, Salsamendi E, Garin I (2008) Diet and prey selection in the trawling long-fingered bat. Journal of Zoology 274(4): 340-348.
Almenar D, Aihartza J, Goiti U, Salsamendi E, Garin I (2009) Foraging behavior of the long-fingered bat Myotis capaccinii: implications for conservation and management. Endangered species research 8: 69-78.
Almenar D, Aihartza J, Goiti U, Salsamendi E, Garin I (2011) Reproductive and age classes do not change spatial dynamics of foraging long-fingered bats (Myotis capaccinii). European Journal of Wildlife Research 57(4): 929-937.
Almenar D, Aihartza J, Goiti U, Salsamendi E, Garin I (2013) Hierarchical patch choice by an insectivorous bat through prey availability components. Behavioral Ecology and Sociobiology 67(2): 311-320.
Andreas M, Reiter A, Benda P (2012) Dietary composition, resource partitioning and trophic niche overlap in three forest foliage-gleaning bats in Central Europe. Acta Chiropterologica 14(2): 335-345.
Arlettaz R (1996) Feeding behaviour and foraging strategy of free-living mouse-eared bats, Myotis myotis and Myotis blythii. Animal Behaviour 51(1): 1-11.
Auguie B (2012) gridExtra: functions in Grid graphics. R package version 0.9.1. http://CRAN.R-project.org/package=gridExtra
Barataud M (2002) The world of bats. Acoustic identification of French bats. Editions: Sittelle. 47pp.
Barclay RMR (1991) Population-structure of temperate zone insectivorous bats in relation to foraging behavior and energy demand. Journal of Animal Ecology 60(1): 165-178.
Barclay RMR (1985) Foraging behavior of the African insectivorous bat, Scotophilus leucogaster. Biotropica 17(1):
65-70.
Barclay RMR, Dolan M-A, Dyck A (1991) The digestive efficiency of insectivorous bats. Canadian Journal of Zoology 69(7): 1853-1856.
Bartels P, Cucherousset J, Steger K, Eklov P, Tranvik LJ, Hillebrand H (2012) Reciprocal subsidies between freshwater and terrestrial ecosystems structure consumer resource dynamics. Ecology 93(5): 1173-1182.
Bartonička T, Rehak Z, Andreas M (2008) Diet composition and foraging activity of Pipistrellus pygmaeus in a floodplain forest. Biologia 63(2): 266-272.
Bartonička T, Zukal J (2003) Flight activity and habitat use of four bat species in a small town revealed by bat detectors. Folia Zoologica 52(2): 155-166.
Bartrons M, Papes M, Diebel MW, Gratton C, Vander Zanden MJ (2013) Regional-level inputs of emergent aquatic insects from water to land. Ecosystems 16: 1353-1363.
Bastian HV (1988) The occurrence and migration of Nathusius pipistrelle (Pipistrellus nathusii keyserling and blasius, 1839) in Baden-Wurttemberg. Zeitschrift für Säugetierkunde-International Journal of Mammalian Biology 53(4): 202-209.
Bat Conservation Trust (2007) Bat Surveys – Good Practice Guidelines. Bat Conservation Trust, London. 82p.
Bates ME, Stamper SA & Simmons JA (2008) Jamming avoidance response of big brown bats in target detection.
Journal of Experimental Biology 211(1): 106-113.
Baumgärtner D, Mortl M, Rothhaupt KO (2008) Effects of water-depth and water-level fluctuations on the macroinvertebrate community structure in the littoral zone of Lake Constance. Hydrobiologia 613: 97-107.
Baumgärtner D, Rothhaupt KO (2003) Predictive length-dry mass regressions for freshwater invertebrates in a pre-alpine lake littoral. International Review of Hydrobiology 88(5): 453-463.
Baxter CV, Fausch KD, Murakami M, Chapman PL (2004) Fish invasion restructures stream and forest food webs by interrupting reciprocal prey subsidies. Ecology 85(10): 2656-2663.
Baxter CV, Fausch KD, Saunders WC (2005) Tangled webs: reciprocal flows if invertebrate prey link streams and riparian zones. Freshwater Biology 50: 201-220.
Bergeson SM, Carter TC, Whitby MD (2013) Partitioning of foraging resources between sympatric Indiana and little brown bats. Journal of Mammalogy 94(6): 1311-1320.
Bioacoustics Research Program (2011) Raven Pro: Interactive Sound Analysis Software (Version 1.4) [Computer software]. Ithaca, NY: The Cornell Lab of Ornithology. Available from http://www.birds.cornell.edu/raven Biscardi S, Russo D, Casciani V, Cesarini D, Mei M, Boitani L (2007) Foraging requirements of the endangered
long-fingered bat: the influence of micro-habitat structure, water quality and prey type. Journal of Zoology 273(4): 372-381.
Bobori DC, Salvarina I, Michaloudi E (2013) Fish dietary patterns in the eutrophic Lake Volvi (East Mediterranean).
Journal of Biological Research-Thessaloniki 19: 139-149.
Böhm SM, Wells K Kalko EKV (2011) Top-down control of herbivory by birds and bats in the canopy of temperate broad-leaved aaks (Quercus robur). Plos One 6(4): 8.
Bohmann K, Monadjem A, Lehmkuhl Noer C, Rasmussen M, Zeale MRK, Clare E, Jones G, Willerslev E, Gilbert MTP (2011) Molecular diet analysis of two African free-tailed bats (Molossidae) using high throughput sequencing. Plos One 6(6): e21441.
Bordignon MO (2006) Activity pattern and foraging behavior of bulldog-bat Noctillo leporinus (Linnaeus,) (Chiroptera, Noctilionidae) in Guaratuba Bay, Parana State, Brazil. Revista Brasileira De Zoologia 23(1): 50-57.
Borrell A, Abad-Oliva N, Gómez-Campos E, Giménez J, Aguilar A (2012) Discrimination of stable isotopes in fin whale tissues and application to diet assessment in cetaceans. Rapid Communications in Mass Spectrometry 26:
1596-1602.
Borror DJ, Triplehorn CA, Johnson NF (1989) An introduction to the study of insects. Saunders College Publishing.
875 pp.
Brack VJr, Whitaker JO (2001) Foods of the northern myotis, Myotis septentrionalis, from Missouri and Indiana, with notes on foraging. Acta Chiropterologica 3(2): 203-210.
Braun M, Dieterlen F (2003) Die Säugetiere Baden-Württembergs Band 1. Allgemeiner Teil, Fledermäuse (Chiroptera). Eugen Ulmer GmbH & Co. 687pp.
Brenna JT (2011) Animal studies of the functional consequences of suboptimal polyunsaturated fatty acid status during pregnancy, lactation and early post-natal life. Maternal and Child Nutrition 7(2): 59-79.
Briers RA, Cariss HM, Geoghegan R, Gee JHR (2005) The lateral extent of the subsidy from an upland stream to riparian lycosid spiders. Ecography 28(2): 165-170.
Brigham RM, Aldridge H, Mackey RL (1992) Variation in habitat use and prey selection by yuma bats, Myotis yumanensis. Journal of Mammalogy 73(3): 640-645.
Britton ARC, Jones G, Rayner JMV, Boonman AM, Verboom B (1997) Flight performance, echolocation and foraging behaviour in pond bats, Myotis dasycneme (Chiroptera: Vespertilionidae). Journal of Zoology 241:
503-522.
Broders HG, Forbes GJ, Woodley S, Thompson ID (2006) Range extent and stand selection for roosting and foraging in forest-dwelling northern long-eared bats and little brown bats in the Greater Fundy Ecosystem, New Brunswick. Journal of Wildlife Management 70(5): 1174-1184.
Brooks RT (2009) Habitat-associated and temporal patterns of bat activity in a diverse forest landscape of southern New England, USA. Biodiversity and Conservation 18(3): 529-545.
Brunner E, Domhof S, Langer F (2002) Nonparametric analysis of longitudinal data in factorial experiments. Wiley, New York, 261 pp.
Burns A (2013) Craseonycteris thonglongyai, (On-line) Animal Diversity. http://animaldiversity.ummz.umich.edu Cabana G, Rasmussen JB (1996) Comparison of aquatic food chains using nitrogen isotopes. Proceedings of the
National Academy of Sciences USA 93: 10844-10847.
Calvert AW, Neiswenter SA (2012) Bats in riparian-restoration sites along the lower Colorado river, Arizona.
Southwestern Naturalist 57(3): 340-342.
Carmel Y, Safriel U (1998) Habitat use by bats in a Mediterranean ecosystem in Israel - Conservation implications.
Biological Conservation 84(3): 245-250.
Catenazzi A, Donnelly MA (2008) Sea lion Otaria flavescens as host of the common vampire bat Desmodus rotundus. Marine Ecology Progress Series 360: 285-289.
Caut S, Angulo E, Courchamp F (2009) Variation in discrimination factors (Δ15N and Δ13C): the effect of diet isotopic values and applications for diet reconstruction. Journal of Applied Ecology 46: 443-453.
Chanmugam P, Donovan J, Wheeler CJ, Hwang DH (1983) Differences in the lipid composition of fresh water prawn (Macrobrachium rosenbergii) and marine shrimp. Journal of Food Science 48: 1440-1441.
Ciechanowski M (2002) Community structure and activity of bats (Chiroptera) over different water bodies.
Mammalian Biology 67(5): 276-285.
Ciechanowski M, Zając T, Biłas A, Dunajski R (2007) Spatiotemporal variation in activity of bat species differing in hunting tactics: effects of weather, moonlight, food abundance, and structural clutter. Canadian Journal of Zoology 85(12): 1249-1263.
Ciechanowski M, Zajac T, Bilas A, Dunajski R (2009) Nathusius' pipistrelles Pipistrellus nathusii (Chiroptera) reveal different temporal activity patterns in wooded and open riparian sites. Mammalia 73(2): 105-109.
Clare EL, Barber BR, Sweeney BW, Hebert PDN, Fenton MB (2011) Eating local: influences of habitat on the diet of little brown bats (Myotis lucifugus). Molecular Ecology 20(8): 1772-1780.
Clare EL, Symondson WOC, Broders Η, Fabianek F, Fraser EE, MacKenzie A, Boughen A, Hamilton R, Willis CKR, Martinez-Nuñez F, Menzies AK, Norquay KJO, Brigham M, Poissant J, Rintoul J, Barclay MR, Reimer JP (2013) The diet of Myotis lucifugus across Canada: assessing foraging quality and diet variability. Molecular Ecology: 1-15.
Coleman JL, Barclay RMR (2013) Prey availability and foraging activity of grassland bats in relation to urbanization.
Journal of Mammalogy 94(5): 1111-1122.
Collier KJ, Bury S, Gibbs M (2002) A stable isotope study of linkages between stream and terrestrial food webs through spider predation. Freshwater Biology 47(9): 1651-1659.
Corbet PS (1964) Temporal patterns of emergence in aquatic insects. The Canadian Entomologist 96: 264-279.
Corbett RJM, Chambers CL, Herder MJ (2008) Roosts and activity areas of Nyctinomops macrotis in northern Arizona. Acta Chiropterologica 10(2): 323-329.
Costa LD, Lourenco EC, Luz JL, de Carvalho APF, Esberard CEL (2011) Activity of two species of free-tailed bats over a stream in southeastern Brazil. Acta Chiropterologica 13(2): 405-409.
Čmrlec K, Ivković M, Šemnički P, Mihaljević Z (2013) Emergence phenology and microhabitat distribution of aquatic diptera community at the outlets of barrage lakes: effect of temperature, substrate and current velocity.
Polish Journal of Ecology 61(1): 135-144.
Cryan PM, Stricker CA, Wunder MB (2012) Evidence of cryptic individual specialization in an opportunistic insectivorous bat. Journal of Mammalogy 93(2): 381-389.
Davis AM, Pusey BJ, Thorburn DC, Dowe JL, Morgan DL, Burrows D (2010) Riparian contributions to the diet of terapontid grunters (Pisces: Terapontidae) in wet-dry tropical rivers. Journal of Fish Biology 76(4): 862-879.
Dechmann DKN, Heucke SL, Giuggioli L, Safi K, Voigt CC, Wikelski M (2009) Experimental evidence for group hunting via eavesdropping in echolocating bats. Proceedings of the Royal Society B-Biological Sciences
Dechmann DKN, Kranstauber B, Gibbs D, Wikelski M (2010) Group Hunting-A Reason for Sociality in Molossid Bats? Plos One 5(2).
Dechmann DKN, Wikelski M, Varga K, Yohannes E, Fiedler W, Safi K, Burkhard W-D, O'Mara MT (2014) Tracking post-hibernation and early migration does not reveal the expected sex-differences in a 'female-migrating' bat. Plos One. In press.
DeJong J (1994) Habitat use, home-range and activity pattern of the northern bat, Eptesicus nilssoni, in a hemiboreal coniferous forest. Mammalia 58(4): 535-548.
DeJong J, Ahlén I (1991) Factors affecting the distribution pattern of bats in uppland, central Sweden. Holarctic Ecology 14(2): 92-96.
DesMarais DJ, JM Mitchell, WG Meinschein, JM Hayes (1980) The carbon isotope biogeochemistry of the individual hydrocarbons in bat guano and the ecology of the insectivorous bats in the region of Carlsbad, New Mexico. Geochimica et Cosmochimica Acta 44: 2075-2086.
Dietz M, Encarnacao JA, Kalko EKV (2006) Small scale distribution patterns of female and male Daubenton's bats (Myotis daubentonii). Acta Chiropterologica 8(2): 403-415.
Di Salvo I, Russo D, Sara M (2009) Habitat preferences of bats in a rural area of Sicily determined by acoustic surveys. Hystrix-Italian Journal of Mammalogy 20(2): 137-146.
Diserud OH, Stur E, Aagaard K (2013) How reliable are Malaise traps for biomonitoring? –A bivariate species abundance model evaluation using alpine Chironomidae (Diptera). Insect conservation and diversity 6: 561-571.
Duvergé PL, Jones G, Rydell J, Ransome RD (2000) Functional significance of emergence timing in bats. Ecography 23(1): 32-40.
EC Habitat Directive (1992) Council Directive 92/43/EEC of the conservation of natural habitats and of wild fauna and flora. Official Journal of the European Communities. No L206/7. 44pp.
Encarnação JA, Becker NI, Ekschmitt K (2010) When do Daubenton's bats (Myotis daubentonii) fly far for dinner?
Canadian Journal of Zoology 88(12): 1192-1201.
Encarnação JA, Dietz M, Kierdorf U (2004) Reproductive condition and activity pattern of male Daubenton's bats (Myotis daubentonii) in the summer habitat. Mammalian Biology 69(3): 163-172.
Encarnação JA, Dietz M (2006) Estimation of food intake and ingested energy in Daubenton's bats (Myotis daubentonii) during pregnancy and spermatogenesis. European Journal of Wildlife Research 52: 221-227.
Encarnação JA, Kierdorf U, Wolters V (2006) Seasonal variation in nocturnal activity of male Daubenton's bats, Myotis daubentonii (Chiroptera: Vespertilionidae). Folia Zoologica 55(3): 237-246
Encarnação JA, Kierdorf U, Holweg D, Jasnoch U, Wolters V (2005) Sex-related differences in roost-site selection by Daubenton's bats Myotis daubentonii during the nursery period. Mammal Review 35(3-4): 285-294.
Erickson JL, West SD (2002) The influence of regional climate and nightly weather conditions on activity patterns of insectivorous bats. Acta Chiropterologica 4(1): 17-24.
Eurobats Report (2010) National Report on Bat Conservation in Greece. -Inf.Eurobats.MoP6.44. 8pp.
Eurobats Report (2014) National report on bat conservation in the Federal Republic of Germany 2010-2013.
Inf.Eurobats.MoP7.20. 64pp.
Farina JM, Salazar S, Wallem KP, Witman JD, Ellis JC (2003) Nutrient exchanges between marine and terrestrial ecosystems: the case of the Galapagos sea lion Zalophus wollebaecki. Journal of Animal Ecology 72(5): 873-887.
Fellers GM, Pierson ED (2002) Habitat use and foraging behavior of Townsend's big-eared bat (Corynorhinus townsendii) in coastal California. Journal of Mammalogy 83(1): 167-177.
Fenton MB (2003) Eavesdropping on the echolocation and social calls of bats. Mammal Review 33(3-4): 193-204.
Fenton MB, Bell GP (1979) Echolocation and feeding-behavior in 4 species of Myotis (Chiroptera). Canadian Journal of Zoology-Revue Canadienne de Zoologie 57(6): 1271-1277.
Fenton MB, Merriam HG, Horoyd GL (1983) Bats of Kootenay, Glacier, and Mount Revelstoke national parks in Canada: identification by echolocation calls, distribution, and biology. Canadian Journal of Zoology 61: 2503-2508.
Fenton MB, Rautenbach IL, Chipese D, Cumming MB, Musgrave MK, Taylor JS, Volpers T (1993) Variation in foraging behavior, habitat use, and diet of large slit-faced bats (Nycteris grandis). Zeitschrift für Säugetierkunde-International Journal of Mammalian Biology 58(2): 65-74.
Fenton MB, Simmons N (2014) Bats: A World of Science and Mystery. University of Chicago Press 240pp.
Flaherty EA, Ben-David M, Smith WP (2010) Diet and food availability: implications for foraging and dispersal of Prince of Wales northern flying squirrels across managed landscapes. Journal of Mammalogy 91: 79-91.
Flaquer C, Puig-Montserrat X, Goiti U, Vidal F, Curco A, Russo D (2009) Habitat selection in Nathusius' pipistrelle (Pipistrellus nathusii): the importance of wetlands. Acta Chiropterologica 11(1): 149-155.
Flavin DA, Biggane SS, Shiel CB, Smiddy P, Fairley JS (2001) Analysis of the diet of Daubenton's bat Myotis daubentonii in Ireland. Acta Theriologica 46(1): 43-52.
Fledermausschutz Thurgau (2014) Die Thurgauische Koordinationsstelle für Fledermausschutz http://www.fledermausschutz-tg.ch
Finlay JC, Vredenburg VT (2007) Introduced trout sever trophic connections in watersheds: Consequences for a declining amphibian. Ecology 88(9): 2187-2198.
Fontaneto D, Tommaseo-Ponzetta M, Galli C, Risé P, Glew RH, Paoletti MG (2011) Differences in fatty acid composition between aquatic and terrestrial insects used as food in human nutrition. Ecology of Food and Nutrition 50(4): 351–367.
Fukui D, Murakami M, Nakano S, Aoi T (2006) Effect of emergent aquatic insects on bat foraging in a riparian forest. Journal of Animal Ecology 75(6): 1252-1258.
France RL (1994) Nitrogen isotopic composition of marine and freshwater invertebrates. Marine Ecology Progress Series 115: 205-207.
Francl KE (2008) Summer bat activity at woodland seasonal pools in the northern Great Lakes region. Wetlands 28(1): 117-124.
Frick WF, Hayes JP, Heady PA (2008b) Island biogeography of bats in Baja California, Mexico: patterns of bat species richness in a near-shore archipelago. Journal of Biogeography 35(2): 353-364.
Frick WF, Stepanian PM, Kelly JF, Howard KW, Kuster CM, Kunz TH, Chilson PB (2012) Climate and weather impact timing of emergence of bats. Plos One 7(8): e42737.
Fry B (2008) Stable isotope ecology. Springer. 308pp.
Fry B, Chumchal MΜ (2011) Sulfur stable isotope indicators of residency in estuarine fish. Limnology and Oceanography 56(5): 1563-1576.
Gajdošik M, Gaisler J (2004) Diet of two Eptesicus bat species in Moravia (Czech Republic) Folia Zoologica 53(1):
7-16. fatty acids (EPA+DHA) from aquatic to terrestrial ecosystems. Ch. 8 in: Lipids in aquatic ecosystems. Eds. Arts MT, Brett MT, Kainz MJ. Springer.
Gloor S, Stutz H-PB, Ziswiler V (1995) Nutritional habits of the noctule bat Nyctalus noctula (Schreber, 1774) in Switzerland. Myotis 32-33: 231-242.
Gonsalves L, Lamb S, Webb C, Law B, Monamy V (2013) Do mosquitoes influence bat activity in coastal habitats?
Wildlife Research 40(1): 10-24.
Gonsalves L, Law B, Webb C, Monamy V (2013) Foraging Ranges of Insectivorous Bats Shift Relative to Changes in Mosquito Abundance. Plos One 8(5).
Goiti U, Vecin P, Garin I, Salona M, Aihartza JR (2003) Diet and prey selection in Kuhl's pipistrelle Pipistrellus kuhlii (Chiroptera : Vespertilionidae) in south-western Europe. Acta Theriologica 48(4): 457-468.
Gratton C, Donaldson J, Vander Zanden MJ (2008) Ecosystem linkages between lakes and the surrounding terrestrial landscape in northeast Iceland. Ecosystems 11(5): 764-774.
Gratton C, Vander Zanden MJ (2009) Flux of aquatic insect productivity to land: comparison of lentic and lotic ecosystems. Ecology 90(10): 2689-2699.
Greenwood MJ, McIntosh AR (2008) Flooding impacts on responses of a riparian consumer to cross-ecosystem subsidies. Ecology 89(6): 1489-1496.
Greig HS, Kratina P, Thompson PL, Palen WJ, Richardson JS, Shurin JB (2012) Warming, eutrophication, and predator loss amplify subsidies between aquatic and terrestrial ecosystems. Global Change Biology 18(2): 504-514.
Grey J, Kelly A, Ward S, Sommerwerk N, Jones RI (2004) Seasonal changes in the stable isotope values of lake-dwelling chironomid larvae in relation to feeding and life cycle variability. Freshwater Biology 49: 681-689.
Griffin DR (2001) Return to the magic well: Echolocation behavior of bats and responses of insect prey. Bioscience 51(7): 555-556.
Griffiths SR, Donato DB, Lumsden LF, Coulson G (2014) Hypersalinity reduces the risk of cyanide toxicosis to insectivorous bats interacting with wastewater impoundments at gold mines. Ecotoxicology and Environmental Safety 99: 28-34.
Grindal SD, Morissette JL, Brigham RM (1999) Concentration of bat activity in riparian habitats over an elevational gradient. Canadian Journal of Zoology-Revue Canadienne de Zoologie 77(6): 972-977.
Hagen EM, Sabo JL (2011) A landscape perspective on bat foraging ecology along rivers: does channel confinement and insect availability influence the response of bats to aquatic resources in riverine landscapes? Oecologia 166(3): 751-760.
Hagen EM, Sabo JL (2012) Influence of river drying and insect availability on bat activity along the San Pedro River, Arizona (USA). Journal of Arid Environments 84: 1-8.
Hagen EM, Sabo JL (2014) Temporal variability in insectivorous bat activity along two desert streams with contrasting patterns of prey availability. Journal of Arid Environments 102: 104-112.
Hatch SK, Connelly EE, Divoll TJ, Stenhouse IJ, Williams KA (2013) Offshore observations of eastern red bats (Lasiurus borealis) in the Mid-Atlantic United States using multiple survey methods. Plos One 8(12).
Haupt M, Schmidt S (2007) Small scale activity patterns of Eptesicus nilssonii - an indication of habitat preference or interspecific processes? Acta Chiropterologica 9(2): 503-516.
Hebert CE, Wassenaar LI (2005) Feather stable isotopes in western North American waterfowl: spatial patterns, underlying factors, and management applications. Wildlife Society Bulletin 33(1): 92-102.
Hinweise LUBW (2013) Hinweise zur Veröffentlichung von Geodaten für die Artengruppe der Fledermäuse.
Landesanstalt für Umwelt, Messungen und Naturschutz Baden-Württemberg. Referat 25-Arten-und Flächenschutz, Landschaftspflege. 23pp.
Hoekman D, Bartrons M, Gratton C (2011) Ecosystem linkages revealed by experimental lake-derived isotope signal in heathland food webs. Oecologia 170: 735-743.
Huxel GR, McCann K (1998) Food web stability: The influence of trophic flows across habitats. American Naturalist 152(3): 460-469.
Hwang YT, Millar JS, Longstaffe FJ (2007) Do δ15N and δ13C values of feces reflect the isotopic composition of diets in small mammals? Canadian Journal of Zoology 85: 388-396.
Holloway GL, Barclay RMR (2000) Importance of prairie riparian zones to bats in southeastern Alberta. Ecoscience 7(2): 115-122.
Hope PR, Bohmann K, Gilbert MT, Zepeda-Mendoza ML, Razgour O, Jones G (2014) Second generation sequencing and morphological faecal analysis reveal unexpected foraging behaviour by Myotis nattereri (Chiroptera, Vespertilionidae) in winter. Frontiers in Zoology 11: 39-
Ibáñez C, Juste J, Garcia-Mudarra JL, Agirre-Mendi PT (2001) Bat predation on nocturnally migrating birds.
Proceedings of the National Academy of Sciences of the United States of America 98(17): 9700-9702.
Iverson SJ (2009) Tracing aquatic food webs using fatty acids: from qualitative indicators to quantitative determination. in Lipids in Aquatic Ecosystems. Arts MT, Brett MT, Kainz MJ (eds). Springer
Ivkovic M, Milisa M, Previsic A, Popijac A, Mihaljevic Z (2013) Environmental control of emergence patterns: Case study of changes in hourly and daily emergence of aquatic insects at constant and variable water temperatures.
International Review of Hydrobiology 98(2): 104-115.
IUCN (2013) IUCN Red List of Threatened Species. Version 2013.1. www.iucnredlist.org. Downloaded on 11 July 2013.
Jaberg C, Blant JD (2003) Spatio-temporal utilisation of roosts by the parti-coloured bat Vespertilio murinus L., 1758 in Switzerland. Mammalian Biology 68(6): 341-350.
Jackrel SL, Matlack RS (2010) Influence of surface area, water level and adjacent vegetation on bat use of artificial water sources. American Midland Naturalist 164(1): 74-79.
Jensen ME, Miller LA (1999) Echolocation signals of the bat Eptesicus serotinus recorded using a vertical microphone array: effect of flight altitude on searching signals. Behavioral Ecology and Sociobiology 47(1-2):
60-69.
Johnston VE, McDermott F, Tămaş T (2010) A radiocarbon dated bat guano deposit from N.W. Romania:
Implications for the timing of the Little Ice Age and Medieval Climate Anomaly. Palaeogeography, Palaeoclimatology, Palaeoecology 291: 217-227.
Johnson JB, Ford WM, Edwards JW, Menzel MA (2010) Bat community structure within riparian areas of
Jones G (1990) Prey selection by the greater horseshoe bat (Rhinolophus ferrumequinum): optimal foraging by echolocation? Journal of Animal Ecology 59(2): 587-602.
Jones LD, Cooper RW, Harding RS (1972) Composition of mealworm Tenebrio molitor larvae. Journal of Zoo Animal Medicine 3(4): 34-41.
Jones G, Rayner JMV (1988) Flight performance, foraging tactics and echolocation in free-living Daubenton's bats Myotis daubentoni (Chiroptera: Vespertilionidae). Journal of Zoology 215(1): 113-132.
Jones G, Rayner JMV (1988) Flight performance, foraging tactics and echolocation in free-living Daubenton's bats Myotis daubentoni (Chiroptera: Vespertilionidae). Journal of Zoology 215(1): 113-132.