Article ID Journal Published Year Pages File Type
4549666 Journal of Sea Research 2015 8 Pages PDF
Abstract

•We have demonstrated the adaptation of foraging red knots in a megatidal environment.•The use of prey items differs significantly during the tidal cycle depending on benthic assemblages.•We identified a new, significant prey for the red knot, Donax vittatus.•This paper suggests that a waders' diet study should include all benthic assemblages used by birds.

The feeding ecology of the red knot has been widely studied across its wintering range. Red knots mainly select bivalves and gastropods, with differences between sites due to variation in prey availability. The shorebird's diet is also influenced or controlled by the tidal regime. The aim of this paper is to demonstrate the adaptation of foraging red knots to the megatidal environment. The variation in their diet during tidal cycles was studied in the bay of Saint-Brieuc, a functional unit for this species. The method used combined macrofauna, distribution of foraging birds and diet data. Comparative spatial analyses of macrofauna and distribution of foraging red knots have shown that the bay's four benthic assemblages are exploited by birds. By analysing droppings, we highlighted that bivalve molluscs are the main component of their diet, as shown in most overwintering sites. Fifteen types of prey were identified and Donax vittatus was discovered to be a significant prey item. The relative proportion of each main prey item differs significantly depending on the benthic assemblage used to forage. All available benthic assemblages and all potential feeding resources can be used during a single tidal cycle, reflecting an adaptation to megatidal conditions. This approach develops accurate knowledge about the feeding ecology of birds which managers need in order to identify optimal areas for the conservation of waders based on the areas and resources actually used by the birds.

Related Topics
Physical Sciences and Engineering Earth and Planetary Sciences Oceanography
Authors
, , , , ,