Effects of ecotourism on eastern yellow robin (Eopsaltria australis) vocal behaviour
Dominique A. Potvin A B , Madeline K. Anderson A and Alexis L. Levengood AA School of Science and Engineering, University of the Sunshine Coast, 1 Moreton Parade, Petrie, Qld 4502, Australia.
B Corresponding author. Email: dpotvin@usc.edu.au
Australian Journal of Zoology 68(1) 1-8 https://doi.org/10.1071/ZO20102
Submitted: 23 December 2020 Accepted: 8 February 2021 Published: 19 February 2021
Abstract
Ecotourism attempts to provide sustainable tourism with a focus on experiencing natural areas to foster environmental appreciation. However, it is often seen as a paradox, since associated infrastructure and activity can have detrimental effects on wildlife. One aspect that has been overlooked in this context is the potential impact of ecotourists on vocal behaviour, especially of birds. Many birds are susceptible to anthropogenic noise, avoiding noisy areas, or changing vocal activity within them. We used passive recording techniques to quantify vocal behaviours of a native Australian songbird, the eastern yellow robin, at an ecotourist resort to investigate how tourist presence might affect vocal behaviours. We found that during peak tourism seasonal periods, robins sang fewer songs, and these songs were shorter. However, this same pattern was observed on weekdays compared with weekends, when tourist numbers are generally lower. This seemingly contradictory pattern may be explained by the fact that maintenance of the resort grounds occurred predominantly on weekdays, with noise levels comparable to those detected during periods of high tourism. Thus, ecotourism infrastructure can have layered effects on bird vocal activity: tourist numbers as well as maintenance practices should be considered within the context of local wildlife conservation.
Keywords: bioacoustics, noise, birdsong, tourism, Eopsaltria australis, behaviour, anthropogenic effects.
References
Arroyo-Solís, A., Castillo, J. M., Figueroa, E., López-Sánchez, J. L., and Slabbekoorn, H. (2013). Experimental evidence for an impact of anthropogenic noise on dawn chorus timing in urban birds. Journal of Avian Biology 44, 288–296.| Experimental evidence for an impact of anthropogenic noise on dawn chorus timing in urban birds.Crossref | GoogleScholarGoogle Scholar |
Australian Bureau of Statistics (2016). 2016 Census QuickStats: Fraser Island. Available at: https://quickstats.censusdata.abs.gov.au/census_services/getproduct/census/2016/quickstat/SSC31091[accessed 2 October 2020].
Berglund, B., Hassmén, P., and Job, R. F. S. (1996). Sources and effects of low‐frequency noise. The Journal of the Acoustical Society of America 99, 2985–3002.
| Sources and effects of low‐frequency noise.Crossref | GoogleScholarGoogle Scholar | 8642114PubMed |
Bermudez-Cuamatzin, E., Rios-Chelen, A. A., Gil, D., and Garcia, C. M. (2011). Experimental evidence for real-time song frequency shift in response to urban noise in a passerine bird. Biology Letters 7, 36–38.
| Experimental evidence for real-time song frequency shift in response to urban noise in a passerine bird.Crossref | GoogleScholarGoogle Scholar | 20610421PubMed |
Blickley, J. L., and Patricelli, G. L. (2010). Impacts of anthropogenic noise on wildlife: research priorities for the development of standards and mitigation. Journal of International Wildlife Law and Policy 13, 274–292.
| Impacts of anthropogenic noise on wildlife: research priorities for the development of standards and mitigation.Crossref | GoogleScholarGoogle Scholar |
Boncoraglio, G., and Saino, N. (2007). Habitat structure and the evolution of bird song: a meta-analysis of the evidence for the acoustic adaptation hypothesis. Functional Ecology 21, 134–142.
| Habitat structure and the evolution of bird song: a meta-analysis of the evidence for the acoustic adaptation hypothesis.Crossref | GoogleScholarGoogle Scholar |
Bottrill, C. G., and Pearce, D. G. (1995). Ecotourism: towards a key elements approach to operationalising the concept. Journal of Sustainable Tourism 3, 45–54.
| Ecotourism: towards a key elements approach to operationalising the concept.Crossref | GoogleScholarGoogle Scholar |
Boyd, R., Goodwin, I., Ruming, K., and Davies, S. (2004). River of sand – a geological perspective on the evolution of Fraser Island and surrounding seabed. In ‘A 2020 Vision for Fraser Island: A New Focus for the Great Sandy World Heritage Area Conference’. (Fraser Island Defenders Organisation: Noosa, Australia.) Available at: https://web.archive.org/web/20130510190805/http://www.docstoc.com/docs/32989037/RIVER-OF-SAND-%E2%80%93-A-GEOLOGICAL-PERSPECTIVE-ON-THE-EVOLUTION-OF [accessed 15 December 2020].
Brown, T. J., and Handford, P. (2003). Why birds sing at dawn: the role of consistent song transmission. The Ibis 145, 120–129.
| Why birds sing at dawn: the role of consistent song transmission.Crossref | GoogleScholarGoogle Scholar |
Buckley, R. (2004). Impacts of ecotourism on birds. In ‘Environmental Impacts of Ecotourism’. (Ed. R. Buckley.) pp. 187–209. (CABI: UK.)
Buckley, R. (2009). Evaluating the net effects of ecotourism on the environment: a framework, first assessment and future research. Journal of Sustainable Tourism 17, 643–672.
| Evaluating the net effects of ecotourism on the environment: a framework, first assessment and future research.Crossref | GoogleScholarGoogle Scholar |
Burger, J., and Gochfeld, M. (1998). Effects of ecotourists on bird behaviour at Loxahatchee National Wildlife Refuge, Florida. Environmental Conservation 25, 13–21.
| Effects of ecotourists on bird behaviour at Loxahatchee National Wildlife Refuge, Florida.Crossref | GoogleScholarGoogle Scholar |
Buxton, R. T., Galvan, R., McKenna, M. F., White, C. L., and Seher, V. (2017a). Visitor noise at a nesting colony alters the behavior of a coastal seabird. Marine Ecology Progress Series 570, 233–246.
| Visitor noise at a nesting colony alters the behavior of a coastal seabird.Crossref | GoogleScholarGoogle Scholar |
Buxton, R. T., McKenna, M. F., Mennitt, D., Fristrup, K., Crooks, K., Angeloni, L., and Wittemyer, G. (2017b). Noise pollution is pervasive in U.S. protected areas. Science 356, 531–533.
| Noise pollution is pervasive in U.S. protected areas.Crossref | GoogleScholarGoogle Scholar | 28473587PubMed |
Catchpole, C. K., and Slater, P. J. B. (2008). ‘Bird Song.’ 2nd edn. (Cambridge University Press: Cambridge, UK.)
Chace, J. F., and Walsh, J. J. (2006). Urban effects on native avifauna: a review. Landscape and Urban Planning 74, 46–69.
| Urban effects on native avifauna: a review.Crossref | GoogleScholarGoogle Scholar |
Curry, C. M., Des Brisay, P. G., Rosa, P., and Koper, N. (2018). Noise source and individual physiology mediate effectiveness of bird songs adjusted to anthropogenic noise. Scientific Reports 8, 3942.
| Noise source and individual physiology mediate effectiveness of bird songs adjusted to anthropogenic noise.Crossref | GoogleScholarGoogle Scholar | 29500452PubMed |
Das, M., and Chatterjee, B. (2015). Ecotourism: a panacea or a predicament? Tourism Management Perspectives 14, 3–16.
| Ecotourism: a panacea or a predicament?Crossref | GoogleScholarGoogle Scholar |
Debus, S. J. S. (2006). Breeding biology and behaviour of the scarlet robin Petoica multicolorand eastern yellow robin Eopsaltria australisin remnant woodland near Armidale, New South Wales. Corella 30, 59–65.
Debus, S. J. S., and Ford, H. A. (2012). Responses of eastern yellow robins Eopsaltria australisto translocation into vegetation remnants in a fragmented landscape. Pacific Conservation Biology 18, 194–202.
| Responses of eastern yellow robins Eopsaltria australisto translocation into vegetation remnants in a fragmented landscape.Crossref | GoogleScholarGoogle Scholar |
Diamantis, D. (1999). The concept of ecotourism: evolution and trends. Current Issues in Tourism 2, 93–122.
| The concept of ecotourism: evolution and trends.Crossref | GoogleScholarGoogle Scholar |
Dominoni, D. M., Greif, S., Nemeth, E., and Brumm, H. (2016). Airport noise predicts song timing of European birds. Ecology and Evolution 6, 6151–6159.
| Airport noise predicts song timing of European birds.Crossref | GoogleScholarGoogle Scholar | 27648232PubMed |
Elmes, G. (2010). Fraser Island Discussion Paper. Queensland Government Report from the office of the Minister for Climate Change and Sustainability. Brisbane. Available at: http://savefraserislanddingoes.com/pdf/Fraser%20Island%20Discussion%20paper%20and%20recommendations%2023.8.10.pdf
Francis, C. D., Ortega, C. P., and Cruz, A. (2011). Different behavioural responses to anthropogenic noise by two closely related passerine birds. Biology Letters 7, 850–852.
| Different behavioural responses to anthropogenic noise by two closely related passerine birds.Crossref | GoogleScholarGoogle Scholar | 21613284PubMed |
Fuller, R. A., Warren, P. H., and Gaston, K. J. (2007). Daytime noise predicts nocturnal singing in urban robins. Biology Letters 3, 368–370.
| Daytime noise predicts nocturnal singing in urban robins.Crossref | GoogleScholarGoogle Scholar | 17456449PubMed |
Grabarczyk, E. E., and Gill, S. A. (2019). Anthropogenic noise affects male house wren response to but not detection of territorial intruders. PLoS One 14, e0220576.
| Anthropogenic noise affects male house wren response to but not detection of territorial intruders.Crossref | GoogleScholarGoogle Scholar | 31365593PubMed |
Henwood, K., and Fabrick, A. (1979). A quantitative analysis of the dawn chorus: temporal selection for communicatory optimization. American Naturalist 114, 260–274.
| A quantitative analysis of the dawn chorus: temporal selection for communicatory optimization.Crossref | GoogleScholarGoogle Scholar |
Karp, D. S., and Root, T. L. (2009). Sound the stressor: how hoatzins (Opisthocomus hoazin) react to ecotourist conversation. Biodiversity and Conservation 18, 3733.
| Sound the stressor: how hoatzins (Opisthocomus hoazin) react to ecotourist conversation.Crossref | GoogleScholarGoogle Scholar |
Keast, A. (1993). Song structures and characteristics: members of a eucalypt forest bird community compared. Emu 93, 259–268.
| Song structures and characteristics: members of a eucalypt forest bird community compared.Crossref | GoogleScholarGoogle Scholar |
Keast, A. (1994). The annual cycle in a vocalization context: a comparison of the eastern yellow robin Eopsaltria australisand jacky winter Microeca leucophaea. Emu 94, 230–238.
| The annual cycle in a vocalization context: a comparison of the eastern yellow robin Eopsaltria australisand jacky winter Microeca leucophaea.Crossref | GoogleScholarGoogle Scholar |
Keyel, A. C., Reed, S. E., Nuessly, K., Cinto-Mejia, E., Barber, J. R., and Wittemyer, G. (2018). Modeling anthropogenic noise impacts on animals in natural areas. Landscape and Urban Planning 180, 76–84.
| Modeling anthropogenic noise impacts on animals in natural areas.Crossref | GoogleScholarGoogle Scholar |
Kight, C. R., and Swaddle, J. P. (2011). How and why environmental noise impacts animals: an integrative, mechanistic review. Ecology Letters 14, 1052–1061.
| How and why environmental noise impacts animals: an integrative, mechanistic review.Crossref | GoogleScholarGoogle Scholar | 21806743PubMed |
Lackey, M. A., Morrison, M. L., Loman, Z. G., Fisher, N., Farrell, S. L., Collier, B. A., and Wilkins, R. N. (2011). Effects of road construction noise on the endangered golden-cheeked warbler. Wildlife Society Bulletin 35, 15–19.
| Effects of road construction noise on the endangered golden-cheeked warbler.Crossref | GoogleScholarGoogle Scholar |
Leventhall, G., Pelmear, P., and Benton, S. (2003). A review of published research on low frequency noise and its effects. Available at: http://www.defra.gov.uk/environment/noise/research/lowfrequency/pdf/lowfreqnoise.pdf[accessed 15 December 2020].
Luther, D. A., and Derryberry, E. P. (2012). Birdsongs keep pace with city life: changes in song over time in an urban songbird affects communication. Animal Behaviour 83, 1059–1066.
| Birdsongs keep pace with city life: changes in song over time in an urban songbird affects communication.Crossref | GoogleScholarGoogle Scholar |
Marchant, S. (1984). Nest-records of the eastern yellow robin Eopsaltria australis. Emu 84, 167–174.
| Nest-records of the eastern yellow robin Eopsaltria australis.Crossref | GoogleScholarGoogle Scholar |
McMullen, H., Schmidt, R., and Kunc, H. P. (2014). Anthropogenic noise affects vocal interactions. Behavioural Processes 103, 125–128.
| Anthropogenic noise affects vocal interactions.Crossref | GoogleScholarGoogle Scholar | 24333298PubMed |
Montague, M. J., Danek-Gontard, M., and Kunc, H. P. (2013). Phenotypic plasticity affects the response of a sexually selected trait to anthropogenic noise. Behavioral Ecology 24, 343–348.
| Phenotypic plasticity affects the response of a sexually selected trait to anthropogenic noise.Crossref | GoogleScholarGoogle Scholar |
Morton, E. S. (1975). Ecological sources of selection on avian sounds. American Naturalist 109, 17.
| Ecological sources of selection on avian sounds.Crossref | GoogleScholarGoogle Scholar |
Parris, K. M., and McCarthy, M. A. (2013). Predicting the effect of urban noise on the active space of avian vocal signals. American Naturalist 182, 452–464.
| Predicting the effect of urban noise on the active space of avian vocal signals.Crossref | GoogleScholarGoogle Scholar |
Potvin, D. A. (2017). Coping with a changing soundscape: avoidance, adjustments and adaptations. Animal Cognition 20, 9–18.
| Coping with a changing soundscape: avoidance, adjustments and adaptations.Crossref | GoogleScholarGoogle Scholar | 27215574PubMed |
Potvin, D. A., and Mulder, R. A. (2013). Immediate, independent adjustment of call pitch and amplitude in response to varying background noise by silvereyes (Zosterops lateralis). Behavioral Ecology 24, 1363–1368.
| Immediate, independent adjustment of call pitch and amplitude in response to varying background noise by silvereyes (Zosterops lateralis).Crossref | GoogleScholarGoogle Scholar |
Potvin, D. A., Parris, K. M., and Mulder, R. A. (2011). Geographically pervasive effects of urban noise on frequency and syllable rate of songs and calls in silvereyes (Zosterops lateralis). Proceedings of the Royal Society B: Biological Sciences 278, 2464–2469.
| Geographically pervasive effects of urban noise on frequency and syllable rate of songs and calls in silvereyes (Zosterops lateralis).Crossref | GoogleScholarGoogle Scholar | 21208948PubMed |
Shannon, G., McKenna, M. F., Angeloni, L. M., Crooks, K. R., Fristrup, K. M., Brown, E., Warner, K. A., Nelson, M. D., White, C., Briggs, J., McFarland, S., and Wittemyer, G. (2016). A synthesis of two decades of research documenting the effects of noise on wildlife. Biological Reviews of the Cambridge Philosophical Society 91, 982–1005.
| A synthesis of two decades of research documenting the effects of noise on wildlife.Crossref | GoogleScholarGoogle Scholar | 26118691PubMed |
Thomas, R. J. (2002). The costs of singing in nightingales. Animal Behaviour 63, 959–966.
| The costs of singing in nightingales.Crossref | GoogleScholarGoogle Scholar |
Towsey, M., Zhang, L., Cottman-Fields, M., Wimmer, J., Zhang, J., and Roe, P. (2014). Visualization of long-duration acoustic recordings of the environment. Procedia Computer Science 29, 703–712.
| Visualization of long-duration acoustic recordings of the environment.Crossref | GoogleScholarGoogle Scholar |
Warrington, M. H., Curry, C. M., Antze, B., and Koper, N. (2018). Noise from four types of extractive energy infrastructure affects song features of savannah sparrows. The Condor 120, 1–15.
| Noise from four types of extractive energy infrastructure affects song features of savannah sparrows.Crossref | GoogleScholarGoogle Scholar |
Zanette, L. (2001). Indicators of habitat quality and the reproductive output of a forest songbird in small and large fragments. Journal of Avian Biology 32, 38–46.
| Indicators of habitat quality and the reproductive output of a forest songbird in small and large fragments.Crossref | GoogleScholarGoogle Scholar |