PATTERNS OF PREY BIOMASS CONSUMPTION BY SMALL ODONTOCETES IN THE NORTHEASTERN COAST OF VENEZUELA

Authors

DOI:

https://doi.org/10.15359/revmar.1.14

Keywords:

Atlantic ocean, distribution, food/prey, ecosystem, habitat

Abstract

 

Trophic relationships are conditioned by population dynamics of interacting species in the community (species present, food web connections among them, and the strength of interactions), and on the consequences of these species interactions depend various ecosystem processes such as productivity and nutrient flux. Odontocetes target a wide range of prey items and are adapted to feeding at different depths. The aim of this report is to describe the patterns of prey consumption by small odontocetes, incorporating natural predatory patterns into a potential management scheme of strategic food sources, for both human and marine predators. Using the geo-statistical analysis tool of ArcGIS 9.2, maps illustrating the intensity and location of prey consumption were made for species with a sighting index (SPUE) > 0.15. The biomass consumption emphasized the differences in habitat use by species. The trends in distribution of prey biomass removal by odontocetes particularly suggest a stratification of prey consumption primarily in shelf waters, with a prey biomass that is comprised basically by demersal fish and small pelagics (including Sardinella aurita), and into transition-oceanic depths where most of the predatory pattern would potentially rely on pelagic - mesopelagic squid and myctophids. Overall the spatial tendencies in regionalization presented in this contribution will serve as a base-line to assess ecosystem health and evaluate management scenarios.

Author Biography

Lenin Enrique Oviedo-Correa, Proyecto Golfo de la Ballena, Biotropica

Proyecto Delphinus, Isla de Margarita

References

Acevedo, R., Oviedo, L. & Silva N. (2007). Identification of key areas for the conservation of misticete cetaceans in the waters near Margarita Island, Venezuela. Memoria Fundación Salle Cien. Nat., 167, 73-88.

Ballance T. L., Pittman R. L., & Fiedler P. C. (2006). Oceanographic influence of seabirds and cetaceans of the Eastern Tropical Pacific: a review. Prog. Oceanograp., 69, 360-390.

Barlow J., Kahru M. & Mitchel B.G. (2008). Cetacean biomass, prey consumption and primary production requirements in the California Current ecosystem. Mar. Ecol. Prog. Ser., 371, 285-295.

Begon, M., Townsend, C. R. & J. L. Harper. (2006) Ecology: from individuals to ecosystems. 4th ed. Blackwell Publishing, U.K.

Bearzi,G., Agazzi, S., Goncalvo, J., Costa, M., Bonizzoni , S., Politi, E., Piroddi, C., & Reeves, R. (2008). Overfishing and the disappearance of short beak common dolphin from western Greece. Endangered Species Res., 5, 1-12.

Cañadas A.R., Sagarminga R. & Garcia-Tiscar S. (2002). Cetacean distribution related with depth and slope in the Mediterranean waters off southern Spain. Deep Sea Res. Part I, 49 (11), 2053-2073.

Coll, M., Lotze, H.K., Romanuk, T.N. (2008). Structural Degradation in Mediterranean Sea Food Webs: Testing Ecological Hypotheses Using Stochastic and Mass-Balance Modelling. Ecosystems, 11, 939-960.

Costa, D.P. (2002). Energetics, pp. 387-394. In: Perrin W. F., Wursig B. and Thewissen J. G.. M. (eds.). Encyclopedia of Marine Mammals. San Diego: Academic Press.

Davis R.W., Fargion G.S., May N., Leming T.D., Baumgartner M., Evans W.E., Hansen L.J. & Mullin K. (1998). Physical habitat of cetaceans along the continental slope in the north-central and western Gulf of Mexico. Mar. Mam. Sci., 14, 490-507.

Doksæter, L., Olsen, E., Nøttestad, L. & Fernö, A. (2008). Distribution and feeding ecology of dolphins along the Mid- Atlantic Ridge between Iceland and The Azores. Deep Sea Res. Part II, 55, 2053-2073.

Fernández, M. & Oviedo L. (2009). Distribution and abundance of Delphinus delphis off the southern Pacific Coast of Costa Rica. Paper SC/SM3 presented to the IWC 60th Scientific Committee, June, Madeira, Portugal.

Fernández, M., Oviedo L., Echeverría, D. & Goodman S. (2007). Cooccurrence of cetaceans indicator species in up-welling modified waters and tropical warm waters off Osa Peninsula, Costa Rica, Paper presented at the XVIII Biennial Conference on the Biology of Marine Mammals, Cape Town, South Africa. (unpublished). 4pp. [Available from the author].

Forcada, J. (2002). Distribution, pp 327-333. In: Perrin W. F., Wursig, B. and Thewissen, J. G. M. (eds.). Encyclopedia of Marine Mammals. San Diego: Academic Press.

Freón, P. El Khattabi, M., Mendoza, J. & Guzmán, R. (1997). Unexpected reproductive strategy of Sardinella aurita off the coast of Venezuela. Mar. Biol., 128, 363-372.

Heithaus, M. R. & Dill, L. M. (2002). Feedings Strategies and Tactics. Encyclopedia of Marine Mammals. In: Perrin W. F., Wursig B. and Thewissen J. G.. M. (eds.), San Diego; Academic Press.

Hui C.A. (1979). Undersea topography and distribution of dolphins of the genus Delphinus in the southern-California Bight. J. Mamma., 60, 521-527.

Hui C.A. (1985). Undersea topography and the comparative distribution of two pelagic cetaceans. Fish. Bull., 83, 472-475.

Ingram, S.N., Walshe, L., Johnston, D. & Rogan, E. (2007). Habitat partitioning and the influence of benthic topography and oceanography on the distribution of fin and minke whales in the Bay of Fundy, Canada. J. Mar. Biol. Assoc., UK, 87, 149-156.

Naveira, J. L. (1996). El orden cetacea en la región nor-oriental de Venezuela. MSc. Thesis. Universidad de Oriente, Cumana, Venezuela.

Pauly D. & Zeller D. (2003). The global fishery crisis as a rationale for improving the FAO’s database of fisheries statistic. Part 1. Fisheries Center Research Report, Vol 11, 85 pp.

Pauly, D., Trites A. W., Capuli, E. & Christensen, V. (1998). Diet composition and trophic levels of marine mammals. ICES J. Mar. Sci., 55, 467-81.

Perez, M. A. & McAlister, W. B. (1993). Estimates of food consumption by marine mammals in the eastern Bering Sea. NOAA Technical Memorandum NMFSAFSC-14. US Deptartment of Commerce, Seattle, WA.

Pianka, E.R. (1974). Niche overlap and diffuse competition. Proc. Natl. Acad. Sci. USA, 71, 2141-2145.

Pusineri, C., Chancollon, O., Ringelstein, J & Ridoux, V. (2008). Feeding niche segregation among the northeast Atlantic community of top predators. Mar. Ecol. Prog. Ser., 361, 21-34.

Read, A. J. & Brownstein C. R. (2003). Considering other consumers : fisheries, predators, and Atlantic herring in the Gulf of Maine. Conservation Ecology, 7, 2. [online, URL: http://www.consecol.org/vol7/iss1/art2]

Trites, A. W. & Pauly D. (1998).Estimating mean body masses of marine mammals from maximum body lengths. Can. J. Zool., 76, 886-896.

Weir, C. R., Pollock, C., Cronin, C. & Taylor, S. (2001). Cetaceans of the Atlantic Frontier, north and west of Scotland. Cont. Shelf Res., 21, 1047-1071.

Wirsing, A. J., Heithaus, M. R., Frid, A. & Dill L. M. (2008). Seascapes of fear: evaluating sublethal predator effects experienced and generated by marine mammals. Mar. Mamma. Sci., 24, 1-15

Würsig, B. (2002). Ecology, Overview, pp 367-370. In: Perrin W.F., Wursig B. and Thewissen J. G.. M. (eds.). Encyclopedia of Marine Mammals. San Diego: Academic Press.

Zar, J.H. (1996). Biostatistical analysis. London: Prentice-Hall International (UK) Ltd.

Published

2009-12-21

How to Cite

Oviedo-Correa, L. E. (2009). PATTERNS OF PREY BIOMASS CONSUMPTION BY SMALL ODONTOCETES IN THE NORTHEASTERN COAST OF VENEZUELA. Revista Ciencias Marinas Y Costeras, 1, 245-257. https://doi.org/10.15359/revmar.1.14

Issue

Section

Scientific articles

How to Cite

Oviedo-Correa, L. E. (2009). PATTERNS OF PREY BIOMASS CONSUMPTION BY SMALL ODONTOCETES IN THE NORTHEASTERN COAST OF VENEZUELA. Revista Ciencias Marinas Y Costeras, 1, 245-257. https://doi.org/10.15359/revmar.1.14

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