Hostname: page-component-586b7cd67f-t7czq Total loading time: 0 Render date: 2024-11-30T16:35:18.461Z Has data issue: false hasContentIssue false

Habitat overlap between bottlenose dolphins and seabirds: a pilot study to identify high-presence coastal areas in the Tyrrhenian Sea

Published online by Cambridge University Press:  09 September 2015

Valentina Cafaro
Affiliation:
Dipartimento di Scienze Ecologiche e Biologiche, Centro Ittiogenico Sperimentale Marino, Università degli Studi della Tuscia, Borgo Le Saline, 01016 Tarquinia (VT), Italy
Dario Angeletti*
Affiliation:
Dipartimento di Scienze Ecologiche e Biologiche, Centro Ittiogenico Sperimentale Marino, Università degli Studi della Tuscia, Borgo Le Saline, 01016 Tarquinia (VT), Italy
Bruno Bellisario
Affiliation:
Dipartimento di Scienze Ecologiche e Biologiche, Centro Ittiogenico Sperimentale Marino, Università degli Studi della Tuscia, Borgo Le Saline, 01016 Tarquinia (VT), Italy
Armando Macali
Affiliation:
Dipartimento di Scienze Ecologiche e Biologiche, Centro Ittiogenico Sperimentale Marino, Università degli Studi della Tuscia, Borgo Le Saline, 01016 Tarquinia (VT), Italy
Claudio Carere
Affiliation:
Dipartimento di Scienze Ecologiche e Biologiche, Centro Ittiogenico Sperimentale Marino, Università degli Studi della Tuscia, Borgo Le Saline, 01016 Tarquinia (VT), Italy
Jessica Alessi
Affiliation:
Dipartimento di Scienze della Terra, dell'Ambiente e della Vita (DISTAV), Università degli Studi di Genova, Corso Europa, 26, 16132 Genova (GE), Italy Associazione Me.Ri.S. Mediterraneo Ricerca e Sviluppo, Via Milano 8, 92026 Favara (AG), Italy
*
Correspondence should be addressed to:D. Angeletti, Dipartimento di Scienze Ecologiche e Biologiche, Centro Ittiogenico Sperimentale Marino, Università degli Studi della Tuscia, Borgo Le Saline, 01016 Tarquinia (VT), Italy. email: [email protected]

Abstract

The identification of foraging hotspots able to support the co-existence of multiple top predators provides a potential approach to addressing protection measures for marine ecosystems. In this study, we conducted visual surveys in the central Tyrrhenian Sea to determine areas with simultaneous presence of bottlenose dolphins, four species of seabirds (Audouin's gull, Yellow-legged gull, Yelkouan shearwater and Cory's shearwater), and baitballs occurring at the surface, indicating the presence of potential prey items. We also analysed their occurrence in relation to topography (depth, slope and distance from the shore) and seabed types. Kriging analysis identified areas with simultaneous presence of several marine top predators. Dolphin distribution appeared to be linked to gentle slope (6–10 m) and muddy seabed, possibly associated with prey distribution, whereas the four seabird species were more frequent in areas with a water depth of 100–150 m, gentle slope and muddy seabed, apart from Audouin's gull, which preferred a depth of 10–20 m. Baitball distribution was linked to depth (20–40 m), gentle slope (6–10 m) and muddy seabed. The overlapping presence of bottlenose dolphins, seabirds and baitballs allowed the identification of foraging areas, presumably representing biodiversity and productivity hotspots, located in waters of 50–100 m depth at the mouths of two rivers. This approach provides a promising tool for identifying highly productive coastal areas, and should also be recommended for wider-scale surveys.

Type
Research Article
Copyright
Copyright © Marine Biological Association of the United Kingdom 2015 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

REFERENCES

Alessi, J. and Fiori, C. (2014) From science to policy – a geostatistical approach to identifying potential areas for cetacean conservation: a case study of bottlenose dolphins in the Pelagos sanctuary (Mediterranean Sea). Journal of Coastal Conservation 18, 110.Google Scholar
Alonso, H., Granadeiro, J.P., Paiva, V.H., Dias, A.S., Ramos, J.A. and Catry, P. (2012) Parent offspring dietary segregation of Cory's shearwaters breeding in contrasting environments. Marine Biology 159, 11971207.CrossRefGoogle Scholar
Arcangeli, A., Marini, L. and Crosti, R. (2013) Changes in cetacean presence, relative abundance and distribution over 20 years along a trans-regional fixed line transect in the Central Tyrrhenian Sea. Marine Ecology 34, 112121.Google Scholar
Astruc, G. (2005) Exploitation des chaines trophiques marines de Mediterranee par les populations de cetaces. Ecole Pratique des Hautes Etudes. Master thesis, Montpellier, France.Google Scholar
Azzolin, M., Galli, A., Giacoma, C., Giovannini, A., Ronchetti, F. and Papale, E. (2011) Assessing the influence of environmental and anthropogenic factors on distribution of bottlenose and striped dolphin in Ionian Greece. Biologia Marina Mediterranea 18, 172173.Google Scholar
Ballance, L.T., Pitman, R.L. and Reilly, S.B. (1997) Seabird community structure along a productivity gradient: importance of competition and energetic constraint. Ecology 78, 15021518.Google Scholar
Ballance, L.T., Pitman, R.L. and Fiedler, P.C. (2006) Oceanographic influences on seabirds and cetaceans of the eastern tropical Pacific: a review. Progress in Oceanography 69, 360390.CrossRefGoogle Scholar
Baume, O., Gauvreau, B., Bérengier, M., Junker, F., Wackernagel, H. and Chilès, J.P. (2009) Geostatistical modeling of sound propagation: principles and a field application experiment. Journal of the Acoustical Society of America 126, 28942904.Google Scholar
Baumgartner, M.F., Mullin, K.D., May, L.N. and Leming, T.D. (2001) Cetacean habitats in the northern Gulf of Mexico. Fisheries Bullettin 99, 219239.Google Scholar
Bearzi, G., Politi, E. and Notarbartolo di Sciara, G. (1999) Diurnal behavior of free-ranging bottlenose dolphins in the Kvarneric (northern Adriatic Sea). Marine Mammal Science 15, 10651097.CrossRefGoogle Scholar
Bertrand, A., Gerlotto, F., Bertrand, S., Gutierrez, M. et al. (2008) Schooling behaviour and environmental forcing in relation to anchoveta distribution: an analysis across multiple spatial scales. Progress in Oceanography 79, 264–177.CrossRefGoogle Scholar
Blanco, C., Salomon, O. and Raga, J.A. (2001) Diet of the bottlenose dolphin (Tursiops truncatus) in the western Mediterranean Sea. Journal of the Marine Biological Association of the United Kingdom 81, 10531058.CrossRefGoogle Scholar
Bourgeois, K., Vorenger, J., Faulquier, L., Legrand, J. and Vidal, E. (2011) Diet and contamination of the Yelkouan Shearwater Puffinus yelkouan in the Hyères archipelago, Mediterranean Basin, France. Journal of Ornithology 152, 947953.Google Scholar
Bost, C.A., Cotté, C., Bailleul, F., Cherel, Y., Charrassin, J.B., Guinet, C., Ainley, D.G. and Weimerskirch, H. (2009) The importance of oceanographic fronts to marine birds and mammals of the southern oceans. Journal of Marine System 78, 63376.CrossRefGoogle Scholar
Briggs, K.T., Tyler, W.B., Lewis, D.B. and Carlson, D.R. (1987) Bird communities at sea off California 1975 to 1983. Studies in Avian Biology 11, 174.Google Scholar
Burger, J. (1980) The transition to independence and post fledging parental care in seabirds. In Burger, J., Olla, B. and Winn, H. (eds) Behavior of marine organisms. Perspectives in research, volume 4: marine birds. New York, NY: Plenum Press, pp. 367447.Google Scholar
Canadas, A., Sagarminaga, R. and Garcia-Tiscara, S. (2002) Cetacean distribution related with depth and slope in the Mediterranean waters off southern Spain. Deep Sea Research Part I 49, 20532073.Google Scholar
Carrat, F. and Valleron, A.J. (1992) Epidemiologic mapping using the ‘Kriging’ method: application to an influenza-like epidemic in France. American Journal of Epidemiology 135, 12931300.Google Scholar
Cecere, J.G., Gaibani, G. and Imperio, S. (2014) Effects of environmental variability and offspring growth on the movement ecology of breeding Scopoli's shearwater Calonectris diomedea. Current Zoology 60, 622630.Google Scholar
Croll, D.A., Tershy, B.R., Hewitt, R.P., Demer, D., Fiedler, P.C., Smith, S.E., Armstrong, W., Popp, J.M., Kiekhefer, T., Lopez, V.R. and Urban, J. (1998) An integrated approach to the foraging ecology of marine birds and mammals. Deep-Sea Research II 45, 13531371.Google Scholar
Díaz López, B., Marini, L. and Polo, F. (2005) The impact of a fish farm on a bottlenose dolphin population in the Mediterranean Sea. Thalassas 21, 5358.Google Scholar
ESRI (2001) Using ArcGIS geostatistical analyst Program. Redlands, CA: ESRI Press.Google Scholar
European Commission (2008) Directive 2008/56/EC of the European Parliament and of the Council of 17 June 2008 establishing a framework for community action in the field of marine environmental policy (Marine Strategy Framework Directive). Official Journal of the European Union L164, 19.Google Scholar
European Commission (2009) Directive 2009/147/EC of the European Parliament and of the Council of 30 November 2009 on the conservation of wild birds. Official Journal of the European Union L20, 7.Google Scholar
Franklin, J. (2009) Mapping species distributions: spatial inference and prediction. Cambridge: Cambridge University Press.Google Scholar
Franks, P.J.S. (1992) Sink or swim: accumulation of biomass at fronts. Marine Ecology Progress Series 82, 112.Google Scholar
Gan, W., Chen, X., Cai, X., Zhang, J., Feng, L. and Xie, X. (2010) Spatial interpolation of precipitation considering geographic and topographic influences – A case study in the Poyang LakeWatershed, China. In Geoscience and Remote Sensing Symposium (IGARSS), 2010 I.E. International, pp. 3972–3975.Google Scholar
García, C. and Dawson, S.M. (2003) Distribution of pantropical spotted dolphins in Pacific coastal waters of Panama. Latin American Journal of Aquatic Mammals 2, 2938.Google Scholar
Gringarten, E. and Deutsch, C.V. (2001) Teacher's aide: variogram interpretation and modeling. Journal of the International Association for Mathematical Geology 33, 507534.Google Scholar
Hooker, S.K. and Gerber, L.R. (2004) Marine reserves as a tool for ecosystem based management: the potential importance of megafauna. Bioscience 54, 2739.CrossRefGoogle Scholar
Hunt, G.L. Jr, Coyle, K.O., Hoffman, S., Decker, M.B. and Flint, E.N. (1996) Foraging ecology of the short-tailed shearwaters near the Pribilof Islands, Bering Sea. Marine Ecology Progress Series 141, 111.Google Scholar
Hunt, G.L. Jr., Harrison, N.M. and Cooney, R.T. (1990) The influence of hydrographic structure and prey abundance on foraging of least auklets. Studies of Avian Biology 14, 722.Google Scholar
Hunt, G.L., Mehlum, F., Russel, R.W., Irons, D., Decker, M.B. and Becker, P.H. (1999) Physical processes, prey abundance, and the foraging ecology of seabirds. In Adams, N.J. and Slotow, R.H. (eds) 22nd International Ornithological Congress. Durban: BirdLife South Africa, pp. 2040–2056.Google Scholar
Hunt, G.L. Jr., Russel, R.W., Coyle, K.O. and Weingartner, T. (1998) Comparative foraging ecology of planktivorous auklets in relation to ocean physics and prey availability. Marine Ecology Progress Series 167, 241259.Google Scholar
Hunt, G.L. Jr. and Schneider, D.C. (1987) Scale-dependent processes in the physical and biological environment of marine birds. In Croxall, J.P. (ed.) Seabirds: feeding biology and role in marine ecosystems. Cambridge: Cambridge University Press, pp. 741.Google Scholar
Hyrenbach, K.D. and Veit, R.R. (2003) Ocean warming and seabird assemblages of the California Current System (1987–1998): response at multiple temporal scales. Deep-Sea Research II 50, 25372565.Google Scholar
Ingram, S.N. and Rogan, E. (2002) Identifying critical areas and habitat preferences of bottlenose dolphins Tursiops truncatus. Marine Ecology Progress Series 244, 247255.Google Scholar
Jaquet, N. (1996) How spatial and temporal scales influence understanding of sperm whale distribution – a review. Mammal Reviews 26, 5165.Google Scholar
Jaquet, N. and Whitehead, H. (1996) Scale-dependent correlation of sperm whale distribution with environmental features and productivity in the south Pacific. Marine Ecology Progress Series 135, 19.Google Scholar
Johnston, D.W., Westagate, A.J. and Read, A.J. (2005) Effects of fine-scale oceanographic features on the distribution and movements of harbour porpoises Phocoena phocoena in the Bay of Fundy. Marine Ecology Progress Series 295, 279293.Google Scholar
Monestiez, P., Dubroca, L., Bonnin, E., Durbec, J.P. and Guinet, C. (2006) Geostatistical modelling of spatial distribution of Balaenoptera physalus in the Northwestern Mediterranean Sea from sparse count data and heterogeneous observation efforts. Ecological Modelling 193, 615628.Google Scholar
Oro, D. (1998) Audouin's gull Larus audouinii. In Ogilvie, M.A. (ed.) The birds of the Western Palearctic updated, volume 2. Oxford: Oxford University Press, pp. 4761.Google Scholar
Petry, M.V. and Krüger, L. (2009) Diet and ingestion of synthetics by Cory's shearwater Calonectris diomedea off southern Brazil. Journal of Ornithology 150, 601606.Google Scholar
Piraino, S., Fanelli, G. and Boero, F. (2002) Variability of species’ roles in marine communities: change of paradigms for conservation priorities. Marine Biology 140, 10671074.Google Scholar
Quetglas, A., Alemany, F., Carbonell, A., Merella, P. and Sànchez, P. (1998) Some aspects of the biology of Todarodea sagittatus (Cephalopoda: Ommastrephidae) from the Balearic Sea (western Mediterranean). Scientia Marina 62, 7382.Google Scholar
Ribic, C.A. and Ainley, D.G. (1997) The relationships of seabird assemblages to physical habitat features in Pacific equatorial waters during spring 1984–1991. ICES Journal of Marine Science 54, 593599.Google Scholar
Rufino, M.M., Maynou, F., Abelló, P., Gil de Sola, L. and Yule, A.B. (2005) The effect of methodological options on geostatistical modeling of animal distribution: a case study with Liocarcinus depurator (Crustacea: Identifying areas for cetacean conservation through geostatistics Brachyura) trawl survey data. Fisheries Research 76, 252265.Google Scholar
Witt, H.H., Stempel, N., De Juana, E. and Varela, J.M. (1982) Geschlechtsunterschiede bei Korallenmowe (Larus audouinii) nach messbaren Merkmalen. Die Vogelwarte 31, 457460.Google Scholar
Santos, M.C.O., Oshima, J.E.F., Pacífico, E.S. and Silva, E. (2010) Feeding associations between Guiana dolphins, Sotalia guianensis (Van Bénèden, 1864) and seabirds in the Lagamar estuary, Brazil. Brazilian Journal of Biology 70, 917.Google Scholar
Schneider, D.C. (1991) The role of fluid-dynamics in the ecology of marine birds. Oceanography and Marine Biology Annual Review 29, 487521.Google Scholar
Schoenherr, J.L. (1991) Blue whales feeding on high concentrations of euphausiids around Monterey Submarine Canyon. Canadian Journal of Zoology 69, 583594.Google Scholar
Scott, B.E., Sharples, J., Ross, O.N., Wang, J., Pierce, G.J. and Camphuysen, C.J. (2010) Sub-surface hotspots in shallow seas: fine-scale limited locations of top predator foraging habitat indicated by tidal mixing and sub-surface chlorophyll. Marine Ecology Progress Series 408, 207226.Google Scholar
Sinopoli, M., Fanelli, E., D'Anna, G., Badalamenti, F. and Pipitone, C. (2012) Assessing the effects of trawling ban on diet and trophic level of hake, Merluccius merluccius, in the southern Tyrrhenian Sea. Scientia Marina 76, 677690.Google Scholar
Spear, L.B., Balance, L.T. and Ainley, D.G. (2001) Response of seabirds to thermal gradients in the tropical Pacific: the thermocline versus the Equatorial Front. Marine Ecology Progress Series 219, 275289.Google Scholar
Springer, A.M., McRoy, C.P. and Flint, M.V. (1996) The Bering sea green belt: shelf-edge processes and ecosystem production. Fish Oceanography Journal 5, 205223.Google Scholar
Steffens, F.E. (1993) Geostatistical estimation of animal abundance in the Kruger National Park, South Africa. In. Soares, A. (eds) Geostatistics Tróia ’92. Dordrecht: Kluwer, pp. 887897.Google Scholar
Stevick, P.T., Incze, L.S., Kraus, S.D., Rosen, S., Wolff, N. and Baukus, A. (2008) Trophic relationships and oceanography on and around a small offshore bank. Marine Ecology Progress Series 363, 1528.Google Scholar
Thiebot, J.B. and Weimerskirch, H. (2013) Contrasted associations between seabirds and marine mammals across four biomes of the southern Indian Ocean. Journal of Ornithology 154, 441453.Google Scholar
Verity, P.G. and Smetacek, V. (1996) Organism life cycles, predation, and the structure of marine pelagic ecosystems. Marine Ecology Progress Series 130, 277293.Google Scholar
Yen, P.P., Sydeman, W.J. and Hyrenbach, K.D. (2004) Marine bird and cetacean associations with bathymetric habitats and shallow-water topographies: implications for trophic transfer and conservation. Journal of Marine Systems 50, 7999.CrossRefGoogle Scholar