Abstract
Ungulates suffer greatly from a variety of biting flies, the results of which decrease their feeding and resting time and force them to move to lower-quality habitats and unvegetated areas. This in turn leads to weight loss in adults, lower milk production in mothers, and growth retardation in young. An ungulate’s first line of defense against blood-sucking flies is its insect-repelling behaviors that include head waving, ear flapping, tail flicking, and foot stamping. Ungulates also can respond to a biting fly attack by gathering into larger groups to lessen the number of flies per individual (dilution effect) and by finding microhabitats with lower temperatures and stronger winds, where fewer biting flies are found. In this paper, I considered the insect-repelling behaviors of goitered gazelles to better understand the protection strategies of wild ungulates against fly attacks to enhance the management of domestic animals. I found that (a) goitered gazelles demonstrated the highest rate of insect-repelling behavior during the hot and windless summer months, which was the most favorable time of year for biting fly activity; (b) smaller body-sized fawns and sub-adults performed fly defensive behaviors significantly less often than adults, while there were no differences in repelling behavior rates between adult males and females in spite of the discrepancy in their body sizes; (c) goitered gazelles increased their group sizes through the summer months of high biting fly activity; and (d) during summer, the gazelles used landscape features to find elevated and unvegetated sites with lower temperatures and higher wind speeds to lower fly activity. Blood-sucking fly activity is very likely a powerful environmental factor under which ungulate hosts significantly modify their behaviors in order to escape the pain and harassment—and lessen the costs—from biting fly attacks.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Allan SA (2001) Biting flies (class Insecta: order Diptera). In: Samuel WM, Pybus MJ, Kocan AA (eds) Parasitic diseases of wild mammals, 2nd edn. State University Press, Ames, pp 18–45
Altmann J (1974) Observational study of behavior: sampling methods. Behav 49:227–267
Anderson JR, Nilssen AC, Folstad I (1994) Mating behavior and thermoregulation of the reindeer warble fly, Hypoderma tarandi L. (Diptera: Oestridae). J Insect Behav 7:679–706
Baldacchino F, Porciani A, Bernard C, Jay-Robert P (2013) Spatial and temporal distribution of Tabanidae in the Pyrenees Mountains: influence of altitude and landscape structure. Bull Entomol Res 104:1–11
Baldacchino F, Puech L, Manon S, Hertzog LR, Jay-Robert P (2014) Biting behaviour of Tabanidae on cattle in mountainous summer pastures, Pyrenees, France, and effects of weather variables. Bull Entomolog Res 104:471–479
Baylis M (1996) Effect of defensive behaviour by cattle on the feeding success and nutritional state of the tsetse fly, Glossina pallidipes (Diptera: Glossinidae). Bull Entomol Res 86(4):329–336
Beer R (2003) The handbook of Tibetan Buddhist symbols. Serindia Publications, Inc., Chicago
Biewener AA (2005) Biomechanical consequences of scaling. J Exper Biol 208(9):1665–1676
Blank DA (1985) Peculiarities of social and reproductive behaviour of Gazella subgutturosa in the Iliisky Valley. Zool Zhu 64:1059–1070 (in Russian, English abstract)
Blank DA (1990) Persian gazelle. In: Kovshar AF (ed) Rare animals of desert regions. Nauka Press of Kazakh SSR, Alma-Ata, USSR, pp 56–80 (in Russian)
Blank DA (1998) Mating behavior of the Persian gazelle Gazella subgutturosa Guldenstaedt, 1780. Mammalia 62(4):409–419
Blank DA (2018) Vigilance, staring and escape running in antipredator behavior of goitered gazelle. Behav Proc 157:408–416
Blank D, Yang W (2014) Behavioral responses of goitered gazelle (Gazella subgutturosa) to parasitic activity of botflies. J Parasitol 100(1):66–72
Blank D, Yang W, Xia C, Xu W (2012) Grouping pattern of the goitered gazelle, Gazella subgutturosa (Cetartiodactyla: Bovidae) in Kazakhstan. Mammalia 76(2):149–155
Brindley EL, Bullock DJ, Maisels F (1989) Effects of rain and fly harassment on the feeding behaviour of free-ranging feral goats. Appl Anim Behav Sci 24:31–41
Caro TM, Lombardo L, Goldizen AW, Kelly M (1995) Tail-flagging and other antipredator signals in white-tailed deer: new data and synthesis. Behav Ecol 6(4):442–450
Cepeda-Palacios R, Scholl PJ (2000) Factors affecting the larvipositional activity of Oestrus ovis gravid females (Diptera: Oestridae). Vet Parasit 91:93–105
Collins WB, Urnss PJ (1982) Mule deer and elk responses to horsefly attacks. Northwest Sci 56:299–303
Daly EW, Johnson PT (2011) Beyond immunity: quantifying the effects of host anti-parasite behavior on parasite transmission. Oecol 165(4):1043–1050
Dougherty CT, Knapp FW, Burrus PB, Willis DC, Cornelius PL (1994) Moderation of grazing behaviour of beef cattle by stable flies (Stomoxys calcitrans L.). Appl Anim Behav Sci 40(2):113–127
Dougherty CT, Knapp FW, Burrus PB, Willis DC, Cornelius PL (1995) Behavior of grazing cattle exposed to small populations of stable flies (Stomoxys calcitrans L.). Appl Anim Behav Sci 42:231–248
Downes CM, Theberge JB, Smith SM (1986) The influence of insects on the distribution, microhabitat choice, and behavior of the Burwash caribou herd. Can J Zool 64:622–629
Duncan P, Cowtan P (1980) An unusual choice of habitat helps Camargue horses to avoid bloodsucking horse-flies. Biol Behav 5:55–60
Duncan P, Vigne N (1979) The effect of group size in horses on the rate of attacks by blood-sucking flies. Anim Behav 27:13–33
Eicher SD, Morrow-Tesch JL, Albright JL, Williams RE (2001) Tail-docking alters fly numbers, fly-avoidance behaviors, and cleanliness, but not physiological measures. J Dairy Sci 84:1822–1828
El-Laithy SM (2013) Effect of fly annoyance on buffalo behavior and milk production. Global Veter 10(4):472–479
Espmark Y (1967) Observations of defence reactions to oestrid flies by semidomestic forest reindeer (Rangifer tarandus L.) in Swedish Lapland. Zool Beitr 14:155–167
Fauchald P, Rødven R, Bårdsen BJ, Langeland K, Tveraa T, Yoccoz NG, Ims RA (2007) Escaping parasitism in the selfish herd: age, size and density-dependent warble fly infestation in reindeer. Oikos 116(3):491–499
Fedosenko AK, Blank DA (2005) Ovis ammon. Mammalian Spe 773:1–15
Folstad I, Nilssen AC, Halvorsen O, Andersen J (1989) Why do mail reindeer (Rangifer t. tarandus) have higher abundance of second and third instar larvae of Hypoderma tarandi than females? Oikos 55:87–92
Gibson G, Torr SJ (1999) Visual and olfactory responses of haematophagous Diptera to host stimuli. Med Vet Entomol 13:3–23
Hagemoen RIM, Reimers E (2002) Reindeer summer activity pattern in relation to weather and insect harassment. J Animal Ecol 71:883–892
Hargrove JW (1980) The effect of model size and ox odour on the alighting response of Glossina morsitans Westwood and G. pallidipes Austen (Diptera: Glossinidae). Bull Entomol Res 70:229–234
Harris JA, Hillerton JE, Morant SV (1987) Effect on milk production of controlling muscid flies, and reducing fly-avoidance behaviour, by the use of Fenvalerate ear tags during the dry period. J Dairy Res 54:165–171
Hart BL (1990) Behavioral adaptations to pathogens and parasites: five strategies. Neurosci Biobehav Rev 14:273–294
Hart BL (1992) Behavioral adaptations to parasites: an ecological approach. J Parasitol 78:256–265
Hart BL (1994) Behavioural defense against parasites: interaction with parasite invasiveness. Parasitol 109(S1):139–151
Hart BL (2000) Role of grooming in biological control of ticks. Ann N Y Acad Sci 916(1):565–569
Hart BL, Hart LA (1994) Fly switching by Asian elephants: tool use to control parasites. Anim Behav 48:35–45
Hart BL, Hart LA, Mooring MS, Olubayo R (1992) Biological basis of grooming behavior in antelope: the body-size, vigilance and habitat principles. Anim Behav 44:615–631
Helle T (1980) Abundance of warble fly (Oedemagena tarandi) larvae in semi-domestic reindeer (Rangifer tarandus) in Finland. - report from the Kevo subarctic Research Station, 16. 1
Helle T, Aspi J (1984) Do sandy patches help reindeer against insects? Rep Kevo Subarctic Res Stat 19:57–62
Helle T, Aspi J, Lempa K, Taskinen E (1992) Strategies to avoid biting flies by reindeer: field experiments with silhouette traps. Ann Zool Fennici 29:69–74
Hirth DH, McCullough DR (1977) Evolution of alarm signals in ungulate with special reference to white-tailed deer. Am Nat 111(977):31–42
Horváth G, Blahó M, Kriska G, Hegedüs R, Gerics B, Farkas R, Åkesson S (2010) An unexpected advantage of whiteness in horses: the most horsefly-proof horse has a depolarizing white coat. Proc R Soc B 277:1643–1650
Hughes RD, Duncan P, Dawson J (1981) Interactions between Camargue horses and horseflies (Diptera: Tabanidae). Bull Entomol Res 71:227–242
Keiper RR, Berger DJ (1982) Refuge-seeking and pest avoidance by feral horses in desert and island environments. Appl Anim Ethol 9:111–120
Kingswood C, Blank DA (1996) Gazella subgutturosa. Mamm Spe 518:1–10
Lomonovich MI, Yakovenko ZV (1963) Climate. In: the Ili Valley and its natural resources. Alma-Ata: pp. 22-39 (in Russian)
Lott DF, Hart BL (1979) Applied ethology in a nomadic cattle culture. Appl Anim Ethol 5:309–319
Matherne ME, Cockerill K, Zhou Y, Bellamkonda M, Hu DL (2018) Mammals repel mosquitoes with their tails. J Experimen Biol 221. https://doi.org/10.1242/jeb.178905
Mohamed-Ahmed MM, Mihok S (2009) Alighting of Tabanidae and muscids on natural and simulated hosts in the Sudan. Bull Entomol Res 99(6):561–571
Moore J (2002) Parasites and the behavior of animals. oxford series in ecology and evolution. Oxford University Press, Oxford
Mooring MS, Hart BL (1992) Animal grouping for protection from parasites: selfish herd and encounter-dilution effects. Behaviour 123(3–4):173–193
Mooring MS, Fitzpatrick TA, Fraser IC, Benjamin JE, Reisig DD, Nishihira TT (2003) Insect-defense behavior by desert bighorn sheep. Southwest Nat 48(4):635–643
Mooring MS, Blumstein DT, Reisig DD, Osborne ER, Niemeyer JM (2007) Insect- repelling behaviour in bovids: role of mass, tail length, and group size. Biol J Linn Soc 91(3):383–392
Moorter BV, Gaillard JM, McLoughlin PD, Delorme D (2009) Maternal and individual effects in selection of bed sites and their consequences for fawns survival at different spatial scales. Oecol 159:669–678
Mörschel FM (1999) Use of climatic data to model the presence of oestrid flies in caribou herds. J Wildl Manag 63:588–593
Mörschel FM, Klein DR (1997) Effects of weather and parasitic insects on behaviour and group dynamics of caribou of the delta herd, Alaska. Can J Zool 75:1659–1670
Mullens BA, Lii KS, Mao Y, Meyer JA, Peterson NG, Szijj CE (2006) Behavioural responses of dairy cattle to the stable fly, Stomoxys calcitrans, in an open field environment. MedVet Entomol 20:122–137
Muzari MO, Skerratt LF, Jones RE, Duran TL (2010) Alighting and feeding behaviour of tabanid flies on horses, kangaroos and pigs. Veterinary Parasitol 170:104–111
Olson BT, Winddels SK, Moen RA, McCann NP (2016) Moose modify bed sites in response to high temperatures. Alces 52:153–160
Pickens LG, Miller RW (1980) Biology and control of the face fly, Musca autumnalis (Diptera: Muscidae). J Med Entomol 17:195–210
Pollard RH, Ballard WB, Noel LE, Cronin MA (1996) Parasitic insect abundance and microclimate of gravel pads and tundra within the Prudhoe Bay oil field, Alaska, in relation to use by caribou, Rangifer tarandus granti. Can Field-Naturalist, Ottawa ON 110(4):649–658
Ralley WE, Galloway TD, Crow GH (1993) Individual and group behaviour of pastured cattle in response to attack by biting flies. Can J Zool 71:725–734
Raymond HL, Rousseau F (1987) Abundance of horse flies (Diptera, Tabanidae) and reactions of cattle in a traditional form of French-Guiana. Acta Oecologica-Oecologia Applicata 8:125–134
Riegel GT (1979) The fly whisk. Bull Entomol Soc Am 25:196–199
Rødven R, Männikkö I, Ims RA, Yoccoz NG, Folstad I (2009) Parasite intensity and fur coloration in reindeer calves–contrasting artificial and natural selection. J Anim Ecol 78(3):600–607
Rubenstein DI, Hohmann ME (1989) Parasites and social behavior of island feral horses. Oikos 55:312–320
Rutberg AT (1987) Horse fly harassment and the social behavior of feral ponies. Ethol 75:145–154
Schmidtmann ET (1985) The face fly, Musca autumnalis De Geer, and aggregation behavior in Holstein cows Vet Parasit 18: 203–208
Schmidtmann ET, Valla ME (1982) Face-fly pest intensity, fly-avoidance behavior (bunching) and grazing time in Holstein heifer. Appl Anim Ethol 8:429–438
Siegfried WR (1990) Tail length and biting insects of ungulates. J Mamm 71(1):75–78
Skarin A, Danell Ö, Bergström R, Moen J (2004) Insect avoidance may override human disturbances in reindeer habitat selection. Rangifer 24(2):95–103
Sokolov VE, Prichodiko VI, Smirin VM (1981) Postures and distinctive movements in behavior of musk deer (Moschus moschiferus), part 2. Zool Zhurnal 60(10):1553–1561 (in Russian, English abstract)
Solomahka AI (1990) Parasite-host relationships of warble fly (Oedemanga tarandi L.) and reindeer (Rangifer tarandi L.). - Rangifer, Special Issue No 3: 391–394
Thomas DC, Kiliaan HPL (1990) Warble infestations in some Canadian caribou and their significance. Rangifer 3:409–417
Torr SJ, Mangwiro TNC (2000) Interactions between cattle and biting flies: effects on the feeding rate of tsetse. MedVet Entomol 14:400–409
Torr SJ, Prior A, Wilson PJ, Schofield S (2007) Is there safety in numbers? The effect of cattle herding on biting risk from tsetse flies. Med Vet Entomol 21(4):301–311
Vale GA (1982) The trap-oriented behaviour of tsetse flies (Glossinidae) and other Diptera. Bull Entomol Res 72:71–93
Vistnes II, Nellemann C, Jordhøy P, Støen OG (2008) Summer distribution of wild reindeer in relation to human activity and insect stress. Polar Biol 31(11):1307–1317
Walsh NE, Fancy SG, McCabe TR, Pank LF (1992) Habitat use by the porcupine caribou herd during predicted insect harassment. J Wildl Manag 56:465–473
Warnes ML, Finlayson LH (1987) Effect of host behaviour on host preference in Stomoxys calcitrans. Med Vet Entomol 1:53–57
Weladji RB, Holand Ø, Almøy T (2003) Use of climatic data to assess the effect of insect harassment on the autumn weight of reindeer (Rangifer tarandus) calves. J Zool Lond 260:79–85
Woollard TH, Bullock DJ (1987) Effects of headfly (Hydrotaea irritans fallen) infestations and repellents on ear-flicking and head-shaking behaviour of farmed red deer (Cervus elaphus L.). Appl Anim Behav Sci 19:41–49
Acknowledgments
I thank the Chinese Academy of Sciences (CAS) for The Strategic Priority Research Program (XDA20020101) for granting my work and creating all the conditions necessary for writing this paper. I am very grateful to the Institute of Zoology, formerly the Academy of Sciences of Kazakhstan, which gave me the opportunity to study goitered gazelles in their natural environment over a 10-year period. I am grateful to Ms. Patricia Johnston for her useful suggestions and remarks and constant help in English editing of this manuscript.
Author information
Authors and Affiliations
Corresponding author
Additional information
Publisher’s note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Rights and permissions
About this article
Cite this article
Blank, D.A. Insect-repelling behavior in goitered gazelles: responses to biting fly attack. Eur J Wildl Res 66, 43 (2020). https://doi.org/10.1007/s10344-020-01382-1
Received:
Revised:
Accepted:
Published:
DOI: https://doi.org/10.1007/s10344-020-01382-1