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RESEARCH ARTICLE
Contents Vol 23(1)

Mapping foraging habitat for migratory shorebirds in their Australian non-breeding grounds and prioritising sites for conservation and management

Amanda Lisson A D , Kathryn H. Taffs B and Leslie Christidis C
+ Author Affiliations
- Author Affiliations

A School of Environment, Science and Engineering, Southern Cross University, PO Box 157, Lismore, NSW 2480, Australia.

B Southern Cross Geoscience and School of Environment, Science and Engineering, Southern Cross University, PO Box 157, Lismore, NSW 2480, Australia.

C National Marine Science Centre, Southern Cross University, PO Box 4321, Coffs Harbour, NSW 2450, Australia.

D Corresponding author. Email: lacebark66@gmail.com

Pacific Conservation Biology 23(1) 32-42 https://doi.org/10.1071/PC16011
Submitted: 2 March 2016  Accepted: 31 July 2016   Published: 26 September 2016

Abstract

Shorebird populations are declining worldwide as a result of the loss of the intertidal habitats upon which they depend. Conservation status is particularly dire for shorebirds on the East Asian–Australasian Flyway. While the flyway transects many international boundaries and involves numerous bilateral conservation agreements, management of remaining habitat at a local scale is imperative to conserving these species. Coastal habitat is affected by multiple anthropogenic stressors, including loss and degradation due to increasing demand for coastal land. In Australia, migration coincides with the summer holiday season when shorebirds are significantly impacted by human disturbance. Managers are frequently required to make trade-offs between wildlife conservation and anthropogenic land uses and when specific quantitative shorebird habitat data and mapping are absent, human interests will naturally take precedence. This paper demonstrates a method for mapping and prioritising management of shorebird non-breeding habitat using an Australian coastal site, the Richmond River estuary. Foraging habitat was surveyed and mapped using GIS with a range of attributes including habitat types, foraging values, disturbance levels and specific foraging distribution of each species. The results highlighted several important foraging areas that were impacted by disturbance and would require intervening management actions to reduce impacts on shorebirds. The GIS data created provide local managers with an effective tool to consider shorebird habitat in the decision-making process. This method could be replicated at other important shorebird habitat sites, leading to enhanced conservation of these declining species.

Additional keywords: East Asian–Australasian Flyway.


References

ABER (2006). Richmond River Estuary Processes Study Executive Summary. Report for Richmond River County Council, Lismore.

Aharon-Rotman, Y. (2015). Challenges within the annual cycle of long-distance migratory waders along the East Asian–Australasian Flyway. Ph.D. thesis, Deakin University, Melbourne.

Amano, T., Székely, T., Koyama, K., Amano, H., and Sutherland, W. J. (2010). A framework for monitoring the status of populations: an example from wader populations in the East Asian–Australasian flyway. Biological Conservation 143, 2238–2247.
A framework for monitoring the status of populations: an example from wader populations in the East Asian–Australasian flyway.Crossref | GoogleScholarGoogle Scholar |

Barter, M. A. (2006). The Yellow Sea – a vitally important staging region for migratory shorebirds. In ‘Waterbirds around the World’. (Eds G. C. Boere, C. A. Galbraith, and D. A. Stroud.) pp. 663–667. (The Stationery Office Ltd: Edinburgh.)

Beale, C. M., and Monaghan, P. (2004). Human disturbance: people as predation-free predators? Journal of Applied Ecology 41, 335–343.
Human disturbance: people as predation-free predators?Crossref | GoogleScholarGoogle Scholar |

Bennett, V. J., Fernández-Juricic, E., Zollner, P. A., Beard, M. J., Westphal, L., and Fisher, C. L. L. (2011). Modelling the responses of wildlife to human disturbance: an evaluation of alternative management scenarios for black-crowned night-herons. Ecological Modelling 222, 2770–2779.
Modelling the responses of wildlife to human disturbance: an evaluation of alternative management scenarios for black-crowned night-herons.Crossref | GoogleScholarGoogle Scholar |

Birdlife Australia (2015). What is the Shorebirds 2020 Program? Pamphlet. Melbourne.

Camaclang, A. E., Maron, M., Martin, T. G., and Possingham, H. P. (2015). Current practices in the identification of critical habitat for threatened species. Conservation Biology 29, 482–492.
Current practices in the identification of critical habitat for threatened species.Crossref | GoogleScholarGoogle Scholar | 25472827PubMed |

Clemens, R. S., Herrod, A., and Weston, M. A. (2014). Lines in the mud; revisiting the boundaries of important shorebird areas. Journal for Nature Conservation 22, 59–67.
Lines in the mud; revisiting the boundaries of important shorebird areas.Crossref | GoogleScholarGoogle Scholar |

Conklin, J. R., and Verkuil, Y. I. (2014). Prioritizing migratory shorebirds for conservation. Action on the East Asian–Australasian Flyway. WWF-Hong Kong.

Conklin, J. R., Lok, T., Melville, D. S., Riegen, A. C., Schuckard, R., Piersma, T., and Battley, P. F. (2016). Declining adult survival of New Zealand bar-tailed godwits during 2005–2012 despite apparent population stability. Emu 116, 147–157.
Declining adult survival of New Zealand bar-tailed godwits during 2005–2012 despite apparent population stability.Crossref | GoogleScholarGoogle Scholar |

Cornelius, C., Navarrete, S. A., and Marquet, P. A. (2001). Effects of human activity on the structure of coastal marine bird assemblages in central Chile. Conservation Biology 15, 1396–1404.
Effects of human activity on the structure of coastal marine bird assemblages in central Chile.Crossref | GoogleScholarGoogle Scholar |

DECC (2008). Best practice guidelines for managing threatened beach-nesting shorebirds. Department of Environment & Climate Change, Sydney.

DECCW (2010a). Northern Rivers regional biodiversity management plan. National Recovery Plan for the Northern Rivers Region. Department of Environment, Climate Change and Water NSW, Sydney.

DECCW (2010b). Shorebirds of northern New South Wales. Department of Environment, Climate Change and Water, Sydney.

DotE (2015). EPBC Act Policy Statement 3.21 – Industry guidelines for avoiding, assessing and mitigating impacts on EPBC Act listed migratory shorebird species. Commonwealth of Australia.

Esser, W., Vöge, S., and Exo, K. -M. (2008). Day–night activity of intertidal invertebrates and methods to estimate prey accessibility for shorebirds. Senckenbergiana Maritima 38, 115–122.
Day–night activity of intertidal invertebrates and methods to estimate prey accessibility for shorebirds.Crossref | GoogleScholarGoogle Scholar |

Frid, A., and Dill, L. M. (2002). Human-caused disturbance stimuli as a form of predation risk. Conservation Ecology 6, 11.

Glover, H. K., Weston, M. A., Maguire, G. S., Miller, K. K., and Christie, B. A. (2011). Towards ecologically meaningful and socially acceptable buffers: response distances of shorebirds in Victoria, Australia, to human disturbance. Landscape and Urban Planning 103, 326–334.
Towards ecologically meaningful and socially acceptable buffers: response distances of shorebirds in Victoria, Australia, to human disturbance.Crossref | GoogleScholarGoogle Scholar |

Google Earth (2015). Ballina, NSW. (Version 7.1.2.2041.) Google Inc. 2013. Available at: https://www.google.com/earth/ [accessed 12 March 2015].

Goss-Custard, J. D., Warwick, R. M., Kirby, R., McGrorty, S., Clarke, R. T., Pearson, B., Rispin, W. E., Durell, S. E. A. L. V. D., and Rose, R. J. (1991). Towards predicting wading bird densities from predicted prey densities in a post-barrage Severn Estuary. Journal of Applied Ecology 28, 1004–1026.
Towards predicting wading bird densities from predicted prey densities in a post-barrage Severn Estuary.Crossref | GoogleScholarGoogle Scholar |

Goss-Custard, J. D., Triplet, P., Sueur, F., and West, A. D. (2006). Critical thresholds of disturbance by people and raptors in foraging wading birds. Biological Conservation 127, 88–97.
Critical thresholds of disturbance by people and raptors in foraging wading birds.Crossref | GoogleScholarGoogle Scholar |

Harrington, B. A. (2003). Shorebird management during the non-breeding season – an overview of needs, opportunities, and management concepts. Wader Study Group Bulletin.

Hydrosphere Consulting (2011). Coastal zone management plan for the Richmond River Estuary. Ballina, NSW.

Kirby, J. S., Stattersfield, A. J., Butchart, S. H. M., Evans, M. I., Grimmett, R. F. A., Jones, V. R., O’Sullivan, J., Tucker, G. M., and Newton, I. (2008). Key conservation issues for migratory land- and waterbird species on the world’s major flyways. Bird Conservation International 18, S49–S73.
Key conservation issues for migratory land- and waterbird species on the world’s major flyways.Crossref | GoogleScholarGoogle Scholar |

Koch, S. L., and Paton, P. W. (2014). Assessing anthropogenic disturbances to develop buffer zones for shorebirds using a stopover site. Journal of Wildlife Management 78, 58–67.
Assessing anthropogenic disturbances to develop buffer zones for shorebirds using a stopover site.Crossref | GoogleScholarGoogle Scholar |

Lafferty, K. D. (2001). Birds at a southern California beach: seasonality, habitat use and disturbance by human activity. Biodiversity and Conservation 10, 1949–1962.
Birds at a southern California beach: seasonality, habitat use and disturbance by human activity.Crossref | GoogleScholarGoogle Scholar |

MacKinnon, J., Verkuil, Y. I., and Murray, N. J. (2012). IUCN situation analysis on east and southeast Asian intertidal habitats, with particular reference to the Yellow Sea (including the Bohai Sea). Occasional Paper of the IUCN Species Survival Commission No. 47. IUCN: Gland, Switzerland, and Cambridge, UK.

Nebel, S., Porter, J. L., and Kingsford, R. T. (2008). Long-term trends of shorebird populations in eastern Australia and impacts of freshwater extraction. Biological Conservation 141, 971–980.
Long-term trends of shorebird populations in eastern Australia and impacts of freshwater extraction.Crossref | GoogleScholarGoogle Scholar |

Piersma, T. (2012). What is habitat quality? Dissecting a research portfolio on shorebirds. In ‘Birds and Habitat – Relationships in a Changing Landscape’. (Ed. R. J. Fuller.) pp. 383–407. (Cambridge University Press: England.)

Piersma, T., Lok, T., Chen, Y., Hassell, C. J., Yang, H. Y., Boyle, A., Slaymaker, M., Chan, Y. C., Melville, D. S., Zhang, Z. W., and Ma, Z. (2016). Simultaneous declines in summer survival of three shorebird species signals a flyway at risk. Journal of Applied Ecology 53, 479–490.
Simultaneous declines in summer survival of three shorebird species signals a flyway at risk.Crossref | GoogleScholarGoogle Scholar |

Priest, B. (2004). Shorebird conservation in Australia – community conservation action. In ‘Status and Conservation of Shorebirds in the East Asian–Australasian Flyway – Proceedings of the Australasian Shorebirds Conference, Canberra, Australia, 13–15 December 2003’. (Ed. P. Straw.) pp. 110–114. Wetlands International Global Series 18, Sydney.

QWSG (2010). Double-banded plover. Available at: http://waders.org.au/about-waders/shorebird-identification/waders-regularly-seen-in-australia/double-banded-plover/ [accessed 3 December 2015].

Rogers, D., Battley, P., Piersma, T. G. V., and Rogers, K. (2006a). High-tide habitat choice: insights from modelling roost selection by shorebirds around a tropical bay. Animal Behaviour 72, 563–575.
High-tide habitat choice: insights from modelling roost selection by shorebirds around a tropical bay.Crossref | GoogleScholarGoogle Scholar |

Rogers, D., Piersma, T., and Hassell, C. (2006b). Roost availability may constrain shorebird distribution: exploring the energetic costs of roosting and disturbance around a tropical bay. Biological Conservation 133, 225–235.
Roost availability may constrain shorebird distribution: exploring the energetic costs of roosting and disturbance around a tropical bay.Crossref | GoogleScholarGoogle Scholar |

Rohweder, D. A. (2000). Day–night habitat use by five species of migratory shorebird in the Richmond River Estuary, northern New South Wales, Australia. Ph.D thesis, Southern Cross University, Lismore.

Rohweder, D. A. (2007). Changes in the summer population of shorebirds in the Tweed River Estuary, northern New South Wales between 1987 and 2003. Australian Zoologist 34, 125–132.
Changes in the summer population of shorebirds in the Tweed River Estuary, northern New South Wales between 1987 and 2003.Crossref | GoogleScholarGoogle Scholar |

Rohweder, D. A., and Lewis, B. D. (2001). Day–night habitat use by double-banded plovers Charadrius bicinctus in the Richmond River Estuary, northern New South Wales. Corella 26, 33–37.

Ryder, D., Mika, S., Richardson, M., Schmidt, J., and Fitzgibbon, B. (2015). Richmond Ecohealth Project 2014: assessment of river and estuarine condition. Final Technical Report. University of New England, Armidale.

Schneider, T. (2013). The use of Victoria’s sandy shores by domestic dogs (Canis familiaris). B.Env.Sc.(Honours) thesis, Deakin University, Melbourne.

Smith, P. (1991). The biology and management of Waders (Suborder Charadrii) in NSW. NPWS, Hurstville, NSW.

Straw, P. J., Gosbell, K. B., and Minton, C. (2006). Shorebird research in the East Asian–Australasian Flyway: looking to the future. In ‘Waterbirds around the World. A Global Overview of the Conservation, Management and Research of the World’s Waterbird Flyways, Edinburgh, Scotland, 2006’. (Eds G. C. Boere, C. A. Galbraith, and D. A. Stroud.) pp. 328–331. (The Stationary Office Ltd: Edinburgh.)

Thomas, K., Kvitek, R. G., and Bretz, C. (2003). Effects of human activity on the foraging behavior of sanderlings Calidris alba. Biological Conservation 109, 67–71.
Effects of human activity on the foraging behavior of sanderlings Calidris alba.Crossref | GoogleScholarGoogle Scholar |

van Gils, J. A., Spaans, B., Dekinga, A., and Piersma, T. (2006). Foraging in a tidally structured environment by red knots (Calidris canutus): ideal, but not free. Ecology 87, 1189–1202.
Foraging in a tidally structured environment by red knots (Calidris canutus): ideal, but not free.Crossref | GoogleScholarGoogle Scholar | 16761598PubMed |

van Polanen Petel, T., and Bunce, A. (2012). Understanding beach users’ behavior, awareness, and attitudes to shorebird conservation in central Queensland: tools for effective shorebird conservation. Coastal Management 40, 501–509.
Understanding beach users’ behavior, awareness, and attitudes to shorebird conservation in central Queensland: tools for effective shorebird conservation.Crossref | GoogleScholarGoogle Scholar |

Vorstius, A. C., and Spray, C. J. (2015). A comparison of ecosystem services mapping tools for their potential to support planning and decision-making on a local scale. Ecosystem Services 15, 75–83.
A comparison of ecosystem services mapping tools for their potential to support planning and decision-making on a local scale.Crossref | GoogleScholarGoogle Scholar |

Weston, M. A., McLeod, E. M., Blumstein, D. T., and Guay, P. J. (2012). A review of flight-initiation distances and their application to managing disturbance to Australian birds. Emu 112, 269–286.
A review of flight-initiation distances and their application to managing disturbance to Australian birds.Crossref | GoogleScholarGoogle Scholar |

Williams, K. J., Weston, M. A., Henry, S., and Maguire, G. S. (2009). Birds and beaches, dogs and leashes: dog owners’ sense of obligation to leash dogs on beaches in Victoria, Australia. Human Dimensions of Wildlife 14, 89–101.
Birds and beaches, dogs and leashes: dog owners’ sense of obligation to leash dogs on beaches in Victoria, Australia.Crossref | GoogleScholarGoogle Scholar |

Wingism (2014). AU Tides Pro – Tide predictions for Australia. App showing tide heights and times for specific locations around Australia (Version 5.2).