Abstract
The cockle Cerastoderma edule is one of the most common macrofauna species in the Wadden Sea areas of the North Sea. Cockle population dynamics are influenced by various abiotic and biotic factors such as temperature, food availability, and inter- and intraspecific competition. Cockles play an important role in the food web of the Wadden Sea, for instance, large shellfish-eating birds, such as oystercatchers and common eiders, use the cockle C. edule and the blue mussel Mytilus edulis as a main diet component. However, the populations of shellfish-eating bird species have been declining dramatically across the Wadden Sea since the beginning of the 21st century. While there are detailed monitoring programs in blue mussels due to commercial interests, little information is known about the stocks and long-term dynamics of cockles in the German Wadden Sea. To fill this gap, in 2005 a local conservation society (“Der Mellumrat e.V.”) initiated a study to sample cockles at one transect per year south of the island of Mellum, which was extended by 5 more transects in 2011. In addition to the spatial analysis, we analyzed the long-term variability in cockle population dynamics. Min/max autocorrelation factor analysis (MAFA) revealed a decline in cockle abundance, while no clear length trends were found. Canonical and spearman correlation analyses exposed significant correlations between cockle abundance and length and chlorophyll a, mussel bank area as well as oystercatcher and common eider populations. This study clearly shows that there is an urgent need for comprehensive time series of cockle data to analyze and explain ecological long-term changes in cockle population dynamics in relation to environmental changes and to point out how parts of the Wadden Sea food web, such as shellfish-eating birds are affected by these changes.
Highlights
Marine ecosystems, especially shallow coastal ecosystems such as the Wadden Sea have undergone drastic changes during the last century (e.g., Beukema, 1992; Kröncke et al, 2001; Meyer et al, 2016)
Changes were caused by several factors including the anthropogenic induced sea surface temperature (SST) increase of 1.5–2.0◦C since 1950
Median cockle abundance increased from HWL to low water line (LWL) until the sampling distance of 750 m, where highest median of mean abundances of 687 ind./m2, and highest interquartile range were found
Summary
Especially shallow coastal ecosystems such as the Wadden Sea have undergone drastic changes during the last century (e.g., Beukema, 1992; Kröncke et al, 2001; Meyer et al, 2016). Abiotic changes are followed by secondary effects such as habitat loss or changes in food webs (Lotze et al, 2005; Reise, 2005; Harley et al, 2006). Due to their relatively sessile habit and limited ability to move, benthic species are valuable indicators in long-term studies for environmental changes and disturbances (Schückel et al, 2015; Ghodrati Shojaei et al, 2016; Clare et al, 2017; Beukema and Dekker, 2020b). Magalhães et al (2016) stated, that temperature is only one of several factors, influencing cockle recruitment success, which is highly site-dependent
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