Book contents
- Frontmatter
- Dedication
- Contents
- Acknowledgements
- List of contributors
- List of abbreviations
- 1 Tourism, cetaceans and sustainable development
- Part I The historical and contemporary contexts
- Part II Human dimensions of whale-watching
- Part III Ecological dimensions of whale-watching
- Part IV Sustainable management: insights and issues
- 18 The socioeconomic, educational and legal aspects of whale-watching
- 19 Vigilance, resilience and failures of science and management
- 20 Insights from agent-based modelling to simulate whale-watching tours
- 21 Cetacean-watching in developing countries
- 22 Kaikoura (New Zealand)
- 23 Management of dusky dolphin tourism at bKaikoura, New Zealand
- 24 Save the whales Part II
- 25 Time to rethink
- Index
- Plate Section
- References
19 - Vigilance, resilience and failures of science and management
Spinner dolphins and tourism in Hawai'i
from Part IV - Sustainable management: insights and issues
Published online by Cambridge University Press: 05 April 2014
Book contents
- Frontmatter
- Dedication
- Contents
- Acknowledgements
- List of contributors
- List of abbreviations
- 1 Tourism, cetaceans and sustainable development
- Part I The historical and contemporary contexts
- Part II Human dimensions of whale-watching
- Part III Ecological dimensions of whale-watching
- Part IV Sustainable management: insights and issues
- 18 The socioeconomic, educational and legal aspects of whale-watching
- 19 Vigilance, resilience and failures of science and management
- 20 Insights from agent-based modelling to simulate whale-watching tours
- 21 Cetacean-watching in developing countries
- 22 Kaikoura (New Zealand)
- 23 Management of dusky dolphin tourism at bKaikoura, New Zealand
- 24 Save the whales Part II
- 25 Time to rethink
- Index
- Plate Section
- References
Summary
Introduction
This chapter provides a brief overview of the complex relationship between tourism operations in Hawai'i and spinner dolphins – informed by what is known about the specialized behaviour and habitat needs of these animals. The chapter begins by introducing readers to the biology and behavioural ecology of Hawaiian spinner dolphins and illustrates why chronic harassment from unregulated tourism operations jeopardizes their extraordinary lifestyle. A brief retrospective on what is known about the tourism industry in Hawai'i and spinner dolphins is presented, illustrating how both science and management have failed to study and protect this species over the past 15 years. A brief prospectus follows, and argues for precautionary management. Finally, a comparison with historical accounts of how human–bear relationships have been managed in the US over time reiterates that these issues have been faced previously in other systems, and that the management of dolphin–human interactions in Hawai'i, and indeed elsewhere, has not been informed by the lessons of history.
Spinner dolphins
Spinner dolphins are small odontocete cetaceans found globally in subtropical and tropical oceans (Perrin, 1998). Spinners are widely distributed in the Pacific, where at least four subspecies are recognized (Perrin, 1998). One form – Stenella longirostris longirostris – often referred to as Gray's spinner dolphin or the Hawaiian spinner dolphin, is the most widely distributed (Perrin, 1998). Hawaiian spinners are easily identified visually by their distinctive long narrow beak, striking three-part grey colour pattern (dark grey dorsal cape, light grey lateral fields and white or light grey ventral surfaces) and behaviourally by their characteristic longitudinal aerial spins (Perrin, 1998). Hawaiian spinners use both pelagic and coastal habitats, and in many places in the Pacific Islands Region, spinner dolphins are found during daylight hours in shallow (< 50 m) and sheltered bays. In these locations spinner dolphins socialize, care for their young and exhibit a stereotypical behaviour referred to as resting.
- Type
- Chapter
- Information
- Whale-watchingSustainable Tourism and Ecological Management, pp. 275 - 292Publisher: Cambridge University PressPrint publication year: 2014
References
, , , , & (2006). Patterns of genetic diversity of the Hawaiian spinner dolphin (Stenella longirostris). Atoll Research Bulletin 543, 65–73.Google Scholar
, , ., et al. (2010). Rolling stones and stable homes: social structure, habitat diversity and population genetics of the Hawaiian spinner dolphin (Stenella longirostris). Molecular Ecology 19(4), 732–748.CrossRefGoogle ScholarPubMed
& (2005). False killer whale dorsal fin disfigurements as a possible indicator of long-line fishery interactions in Hawaiian waters. Pacific Science 59(4), 593–601.CrossRefGoogle Scholar
(2006). Cetacean abundance in Hawaiian waters estimated from a summer/fall survey in 2002. Marine Mammal Science 22, 446–464.CrossRefGoogle Scholar
& (2003). Wildlife–human interactions in National Parks in Canada and the USA. National Park Service and US Department of the Interior. Utah Regional Depository. Paper 424. Retrieved from .
(2004). When good animals love bad habitats: ecological traps and the conservation of animal populations. Conservation Biology 18(6), 1482–1491.CrossRefGoogle Scholar
, & (1999). The laws governing marine mammal conservation in the United States. In Jr & (Eds), Conservation and Management of Marine Mammals. Washington, DC: Smithsonian Institute Press.Google Scholar
, & (2009). Ecology and conservation of common bottlenose dolphins. Tursiops truncatus in the Mediterranean Sea. Mammal Review 39(2), 92–123. .CrossRefGoogle Scholar
& (2003). Evaluating impacts of nature-based tourism on cetaceans. In , & (Eds), Marine Mammals: Fisheries, tourism and management issues. Melbourne: CSIRO Publishing, pp. 229–256.Google Scholar
, , , et al. (2006a). Decline in relative abundance of bottlenose dolphins exposed to long-term disturbance. Conservation Biology 20, 1791–1798.CrossRefGoogle ScholarPubMed
, , & . (2006b). Interpreting short-term behavioural responses to disturbance within a longitudinal perspective. Animal Behaviour 72, 1149–1158.CrossRefGoogle Scholar
(2004). Prey caloric value and predator energy needs: Foraging predictions for wild spinner dolphins. Marine Biology 145, 435–444.CrossRefGoogle Scholar
& (2003). Prey dynamics affect foraging by a pelagic predator (Stenella longirostris) over a range of spatial and temporal scales. Behavioral Ecology and Sociobiology 53, 364–373.Google Scholar
& . (2009). Cooperative prey herding by the pelagic dolphin, Stenella longirostris. Journal of the Acoustical Society of America 125(1), 125–137.CrossRefGoogle ScholarPubMed
(2006). Do (Not) Feed the Bears: The Fitful History of Wildlife and Tourists in Yellowstone. Lawrence, KS: University Press of Kansas.
& (2008). Precautionary harvest policies and the uncertainty paradox. Fisheries Research 94(3), 367–372.CrossRefGoogle Scholar
, , , et al. (2011). US Pacific marine mammal stock assessments: 2010. US Department of Commerce, NOAA. Technical Memorandum, NMFS-SWFSC-476.
(1998). The role of vigilance in the survival and reproductive strategies of desert baboons. Behaviour 135(4), 431–452.CrossRefGoogle Scholar
(2007). Effect of spinner dolphin presence on level of swimmer and vessel activity in Hawai'ian bays. Tourism in Marine Environments 4(1), 1–14.CrossRefGoogle Scholar
& (2009). Effects of vessels and swimmers on behavior of Hawaiian spinner dolphins (Stenella longirostris) in Kealake'akua, Honaunau, and Kauhako bays, Hawai'i. Marine Mammal Science 25, 430–440.CrossRefGoogle Scholar
, & (2009). An approach for regional threat assessment under IUCN Red List criteria that is robust to uncertainty: The Fiordland bottlenose dolphins are critically endangered. Biological Conservation 142(8), 1570–1579.CrossRefGoogle Scholar
, , , et al. (2009). Survival rates for a declining population of bottlenose dolphins in Doubtful Sound, New Zealand: An information theoretic approach to assessing the role of human impacts. Aquatic Conservation-Marine and Freshwater Ecosystems 19(6), 658–670.CrossRefGoogle Scholar
, & (2005). Patterns of use of Maku'a Beach, O’ahu, Hawai'i, by spinner dolphins (Stenella longirostris) and potential effects of swimmers on their behavior. Aquatic Mammals 31(4), 403–412.CrossRefGoogle Scholar
(1998). Reversal of the burden of proof in fisheries management. Science 279, 821–822.CrossRefGoogle Scholar
(2007). Hawaiian spinner dolphins and the growing dolphin watching activity in Oahu. Journal of the Marine Biological Association of the UK 87(1), 109–112.CrossRefGoogle Scholar
. (2005). Protecting spinner dolphins in the main Hawaiian Islands from human activities that cause ‘take,’ as defined in the Marine Mammal Protection Act and its implementing regulations, or to otherwise adversely affect the dolphins. Federal Register 70, 57923–57926.Google Scholar
. (2006). Protection of marine mammals; notice of intent to prepare an environmental impact statement. Federal Register 71, 57923–57926.Google Scholar
. (2012). Process for Distinguishing Serious from Non-Serious Injury of Marine Mammals. National Marine Fisheries Service Policy Directive PD 02–238. Department of Commerce, National Oceanic & Atmospheric Administration, National Marine Fisheries Service, Office of Protected Resources.
& (1995). Sustained vigilance and animal performance. Animal Behaviour 49(5), 1259–1267.CrossRefGoogle Scholar
(1991). Annotated checklist of the marine mammals of Micronesia. Micronesica 24, 217–230.Google Scholar
& . (2004). Tourism and the precautionary principle. Journal of Sustainable Tourism 12, 461–479.CrossRefGoogle Scholar
, , , & (2011). What's the catch? Patterns of cetacean bycatch and depredation in Hawaii-based pelagic longline fisheries. Marine Ecology .CrossRef
(2001). The Hawaiian spinner dolphinStenella longirostris: Effects of tourism. MSc thesis, Texas A&M University, Galveston, TX. 91 pp.Google Scholar
& . (2005). Non-recovery of two spotted and spinner dolphin populations in the eastern tropical Pacific Ocean. Marine Ecology Progress Series 291, 1–21.CrossRefGoogle Scholar
, , & (2009). Economic values of dolphin excursions in Hawaii: a stated choice analysis. Marine Resource Economics 24(1), 61–76.CrossRefGoogle Scholar
(2006). A hard days night: Spinner dolphins need their rest too. Ka Pili Kai 28, 9–11.Google Scholar
, , , & . (2008). Diversity, relative abundance and stock structure of odontocete cetaceans in the waters of American Samoa, 2003–2006. Journal of Cetacean Research and Management 10(1), 59–66.Google Scholar
, , , & (2005). Spinner dolphins in a remote Hawaiian atoll: Social grouping and population structure. Behavioral Ecology 16(4), 675–685.CrossRefGoogle Scholar
(2004). Occurrence and behavior of Hawaiian spinner dolphins (Stenella longirostris) along Oahu's leeward and south shores. Aquatic Mammals 30(2), 237–250.CrossRefGoogle Scholar
& (2003). Directionality in the whistles of Hawaiian spinner dolphins (Stenella longirostris): a signal feature to cue direction of movement?. Marine Mammal Science 19(2), 249–264.CrossRefGoogle Scholar
, & (1999). The evolution of North American attitudes toward marine mammals. In & (Eds), Conservation and Management of Marine Mammals. Washington, DC: Smithsonian Institute Press, pp. 10–47.Google Scholar
& (1990). Behavioral decisions made under the risk of predation: A review and prospectus. Canadian Journal of Zoology 68(4), 619–640.CrossRefGoogle Scholar
, & . (1993). Uncertainty, resource exploitation, and conservation: Lessons from history. Science 260, 17–36.CrossRefGoogle ScholarPubMed
(2006). The short-term behavioural reactions of bottlenose dolphins to interactions with boats in Doubtful Sound, New Zealand. Marine Mammal Science 22(4), 802–818.CrossRefGoogle Scholar
& (2008). The long-term consequences of short-term responses to disturbance: Experiences from whalewatching impact assessment. International Journal of Comparative Psychology 20, 228–236.Google Scholar
, , , et al. (2008). The resilience of animal behaviour to disturbance. Document SC/60/WW9. Santiago: Scientific Committee of the International Whaling Commission.
, , & (2009). Vessel traffic disrupts the foraging behavior of southern resident killer whales Orcinus orca. Endangered Species Research 6, 211–221.CrossRefGoogle Scholar
(1948). The breakdown of vigilance during prolonged visual search. Quarterly Journal of Experimental Psychology 1, 6–21.CrossRefGoogle Scholar
, , , et al. (2011). To beg or not to beg? Testing the effectiveness of enforcement and education activities aimed at reducing human interactions at a hotspot near Sarasota Bay, Florida. Abstract. 19th Biennial Conference on the Biology of Marine Mammals, 27 November–2 December, Tampa, FL.
(2003). Comments on the increasing frequency with which marine mammals are being subjected to taking by harassment through directed human–marine mammal interactions. Letter to Vice Admiral Conrad C. Lautenbacher, Jr., Ph.D., USN (Ret.) Under Secretary for Oceans and Atmosphere Department of Commerce 14th and Constitution Avenue, N.W., Room 5128 Washington, DC 20230. Dated 6 May 2003.
, , & . (2000). The use of time/area closures to reduce bycatches of harbour porpoises: Lessons from the Gulf of Maine sink gillnet fishery. Journal of Cetacean Research and Management 2, 135–141.Google Scholar
. (1992). Joan P. Ocean, Case Nos. SW910586MM & SW910587MM (NOAA Sept. 17, 1992) (notice of violation & assessment).
, , & (1994). The Hawaiian Spinner Dolphin. Berkeley, CA: University of California Press.Google Scholar
, , , & (2008). Spinner dolphin (Stenella longirostris) resting habitat in Samadai Reef (Egypt, Red Sea) protected through tourism management. Journal of the Marine Biological Association of the UK 89, 211–216.CrossRef
, , & (Eds) (2009). Whale Watching Worldwide: Tourism numbers, expenditures and expanding economic benefits. Report to International Fund for Animal Welfare. Melbourne: Economists at Large. Available at: .
(1994). Social organization and social behavior of Hawaiian spinner dolphins (Stenella longirostris). PhD dissertation, University of California, Santa Cruz.
, & . (2004). Delphinid abundance, distribution and habitat use off the western coast of the island of Hawai'i. Southwest Fisheries Science Center Administrative Report LJ-04–02C. 28 pp. Available from SWFSC, PO Box 271, La Jolla, CA 92038.
(1995). Aspects of behavioral ecology of spinner dolphins (Stenella longirostris) in the nearshore waters of Mo‘orea, French Polynesia. PhD Thesis, University of California, Santa Cruz.
(2008). The looming crisis: Interactions between marine mammals and fisheries. Journal of Mammalogy 89, 541–548.CrossRefGoogle Scholar
(2012). Conservation biology. In , & (Eds), Marine Mammal Ecology and Conservation. Oxford: Oxford University Press, pp. 340–359.Google Scholar
& . (2000). Status of marine mammals in the United States. Conservation Biology 14, 929–940.CrossRefGoogle Scholar
, & . (2006). Bycatch of marine mammals in U.S. and global fisheries. Conservation Biology 20, 163–169.CrossRefGoogle ScholarPubMed
& (2002). Management options to reduce boat disturbance on foraging black guillemots (Cepphus grylle) in the Bay of Fundy. Biological Conservation 108, 265–271.CrossRefGoogle Scholar
, & (2000). A Review of the Literature Pertaining to Swimming with Wild Dolphins. Report to the U.S. Marine Mammal Commission, Maryland.Google Scholar
(2008). Ungulate flight responses to human disturbance: a review and meta-analysis. Biological Conservation 141(9), 2159–2173. .CrossRef
(2005). Group wants limits on dolphin access: increased water traffic is disrupting the natural processes of spinner dolphins. Honolulu Star Bulletin, Honolulu US Census Bureau. Retrieved from: (accessed 16 May, 2007).
(2002). Environmental regulatory decision making under uncertainty. Research in Law and Economics 20, 76.Google Scholar
, , , & (2008). Tourism affects the behavioural budget of the common dolphin Delphinus sp. in the Hauraki Gulf, New Zealand. Marine Ecology Progress Series 355, 287–295.CrossRefGoogle Scholar
& (1993). The uses of statistical power in conservation biology: The vaquita and northern spotted owl. Conservation Biology 7(3), 489–500.CrossRefGoogle Scholar
, , & (2000). Incorporating uncertainty into management models for marine mammals. Conservation Biology 14, 1243–1252.CrossRefGoogle Scholar
, , , . & (2007). Lessons from monitoring trends in abundance of marine mammals. Marine Mammal Science 23(1): 157–175.
, , , et al. (2012). Pre-dictive modeling of spinner dolphin (Stenella longi-rostris) resting habitat in the main Hawaiian Islands. PLoS ONE 7, e43167. .CrossRefGoogle ScholarPubMed
& (2002). Incidence and strandings genetic diversity of the Hawaiian spinner dolphin (Stenella longirostris), in Saipan Lagoon. Micronesica 34, 249–260.Google Scholar
, , , et al. (2010). Risso's dolphins alter daily resting pattern in response to whale watching at the Azores. Marine Mammal Science 27(2), 366–381. .CrossRefGoogle Scholar
, , & . (2007). Depletion of spotted and spinner dolphins in the eastern tropical Pacific: Modeling hypotheses for their lack of recovery. Marine Ecology Progress Series 343, 1–14.CrossRefGoogle Scholar
, & (2012). Social and be-havioural factors in cetacean responses to overexploitation: Are odontocetes less ‘resilient’ than mysticetes?Journal of Marine Biology 2012, 1–15. .CrossRefGoogle Scholar
, & (2006). Estimating relative energetic costs of human disturbance to killer whales (Orcinus orca). Biological Conservation 133(3), 301–311.CrossRefGoogle Scholar
, & (2009). The role of social aggregations and protected areas in killer whale conservation: The mixed blessing of critical habitat. Biological Conservation 142, 709–719.CrossRefGoogle Scholar
- 9
- Cited by