Resource partitioning by four species of elasmobranchs (Batoidea: Urolophidae) in coastal waters of temperate Australia |
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Authors: | M E Platell I C Potter K R Clarke |
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Institution: | (1) School of Biological Sciences and Biotechnology, Division of Science, Murdoch University, Murdoch, Western Australia 6150, Australia e-mail: platell.central.murdoch.edu.au FAX: +61 8 9360 6303, AU;(2) Plymouth Marine Laboratory, Prospect Place, West Hoe. Plymouth PL1 3DH, Devon, England, GB |
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Abstract: | Four species of stingarees (Urolophus lobatus, U. paucimaculatus, Trygonoptera personata and T. mucosa) were abundant in samples collected from over sandy substrates in four regions along ∼200 km of the lower west coast of Australia
in each season between summer 1990/1991 and winter 1992. The main aim of this study was to determine whether these four species
were segregated by habitat, size, sex and/or diet, thereby reducing the potential for intra- and interspecific competition.
The densities of U. lobatus and T. personata were almost invariably greater in deep, offshore waters (20 to 35 m) than in shallow, inshore waters (5 to 15 m), while those
of U. paucimaculatus were greatest in the southernmost region, irrespective of depth, and those of T. mucosa were highest at the single inshore site at which the water was deep. None of these species was segregated by either size
or sex. The volumetric dietary compositions of the two Urolophus species, which consisted predominantly of various crustaceans, and those of the two species of Trygonoptera, which consisted mainly of different polychaetes, were significantly different from each other. The two Urolophus species initially fed largely on amphipods, mysids and carid decapods but, with increasing size, U. lobatus started to ingest teleosts and U. paucimaculatus commenced feeding on errant polychaetes and penaeid decapods. The contribution of errant polychaetes to the diets of T. personata rose progressively from 0% in the smallest fish to 90% in the largest fish, thereby accounting for a concomitant progressive
decline in dietary breadth and for intraspecific dietary overlap typically to occur only between successive size classes.
In contrast, the volumetric contribution of sedentary polychaetes to the diets of T. mucosa remained high (65 to 80%) throughout life, which accounts for the relatively low and constant dietary breadth of most size
classes and a significant overlap in the diets of all but one pair of size classes. The diets of each of the four stingaree
species occasionally differed between sites and sometimes underwent seasonal changes, presumably reflecting spatial and temporal
differences in the types of prey in the environment. Since the ratios of benthic to epibenthic prey in the diets of the two
Trygonoptera species were greater than in those of the two Urolophus species, the first two species apparently forage deeper into the substrate. The combination of partial segregation of the
four stingaree species among habitats and the differences in the dietary compositions and feeding strategies of these species,
would presumably facilitate the co-existence of these batoid elasmobranchs when they are abundant in the same general region.
Received: 29 October 1997 / Accepted: 25 March 1998 |
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