Regulation of feeding mode by the sand dollar Dendraster excentricus in a shallow estuarine habitat

The sand dollar Dendraster excentricus is a facultative suspension feeder, which is relatively rare within the Order Clypeasteroida. Field studies of regulation of its feeding mode have been mostly conducted in exposed coastal habitats, where they are typically observed in an inclined position and oriented parallel to each other during suspension feeding. Physical (current speed and direction, reduction of drag and lift) and biological factors (increased efficiency of capture of particulates, and density) have been associated with regulation of its feeding mode in exposed coastal systems. We simultaneously measured the role of physical and biological factors in regulating the selection mode for feeding under varying tidal conditions in a shallow estuary in Baja California, Mexico. We used photographic records and direct sampling in fixed plots to determine the relationship between feeding behavior and environmental conditions. Current direction and speed, tidal level, density and content of organic matter in the water column and sediments were measured with respect to feeding mode (prone or inclined) and orientation relative to prevailing currents during spring and neap tides. Multiple regression analysis indicated that the percentage of inclined sand dollars was strongly and positively correlated only with tidal level at the densities found in the estuary (mean < 180 individuals m− 2); there was no relationship with current velocity, density, and organic matter content of the water. The prone position, indicative of deposit feeding, was largely limited to low tidal levels. We used circular statistics to determine whether the orientation of inclined sand dollars was correlated with current direction and speed. Sand dollars were only oriented parallel to the prevailing currents during the strongest currents of spring tides (> 20 cm s− 1). We did not observe the predominant oral:aboral configuration found in exposed coastal systems, which may be attributed to the relatively low densities of sand dollars in the exposed coastal environment (30–180 individuals m− 2), compared to protected coastal habitats (up to 1000 individuals m− 2). Our results suggest that regulation of the feeding mode of sand dollars in shallow and hydrodynamically complex estuarine systems differs from the feeding mode found in exposed coastal environments.