The influence of fish behaviour on search strategies of Common Murres Uria aalge in the Northwest Atlantic

Davoren, Gail K. and Montevecchi, William A. and Anderson, John T. (2003) The influence of fish behaviour on search strategies of Common Murres Uria aalge in the Northwest Atlantic. Marine Ornithology, 31 (2). pp. 123-131. ISSN 2074-1235

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Abstract

Although distribution patterns of seabirds at sea have been described for decades, it remains difficult to identify the mechanisms underlying these patterns. For instance, researchers focusing on prey dispersion as the primary determinant of seabird distribution have found high variability in the spatial overlap of bird and prey aggregations, partially due to the scale-dependent nature of such associations. We conducted a study to identify how the behaviour of capelin Mallotus villosus, the primary prey species of all vertebrate predators in the Northwest Atlantic, influences the search tactics of Common Murres Uria aalge while acting as central-place foragers during chick-rearing. The study was conducted from 1998-2002 on and around Funk Island, the largest colony of murres in eastern Canada (∼ 400 000 breeding pairs , situated on the northeast coast of Newfoundland. We made direct measurements of (1) the distribution, a bundance and spatial and temporal persistence of capelin aggregations within the foraging range from the colony (∼ 100 km) in combination with (2) bio-physical habitat characteristics associated with capelin aggregations, and (3) individual- and population-level arrival and departure behaviour of murres from the colony. During July of 2000, capelin were found to be persistently abundant within specific 2.25 km blocks of transect ("hotspots"). Further study revealed that capelin persisted in hotspots due to bio-physical characteristics suitable for demersal spawning and for staging areas and foraging areas prior to and after spawning. Directions of return and departure flights of murres measured from the colony did not match during the same observation period (∼ 1h), indicating that murres departing the colony did not use information on prey distribution provided by the flight paths of flocks returning to the colony (Information Center Hypothesis). Specific, commuting routes (regular flight paths) of murres toward and away from capelin hotspots, however, were obvious at sea, and feeding murres consistently marked the location of these hotspots. This provided excellent conditions for murres to locate capelin from memory and by cueing to activities of conspecifics (local enhancement). Hotspots were persistent across years in this region, presumably allowing marine predators to learn the locations of hotspots, resulting in the use of traditional feeding grounds through generations. Hotspots of predators and prey promote energy transfer among trophic levels, a key ecosystem process. Human predators also concentrate fishing activities within these areas and, thus, there is a need to identify hotspots for protection. Persistent hotspots would be particularly amenable to the design of marine protected areas defined by the habitats of marine predators and their prey.

Item Type: Article
URI: http://research.library.mun.ca/id/eprint/571
Item ID: 571
Keywords: Capelin; Common Murre; Foraging; Information centre; Mallotus villosus; Prey dispersion; Uria aalge
Department(s): Science, Faculty of > Biology
Humanities and Social Sciences, Faculty of > Psychology
Science, Faculty of > Psychology
Date: 2003
Date Type: Publication

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