Prey selection has never been determined in an elasmobranch, primarily because of the large
home ranges possessed by adults making accurate quantification of prey in the environment
problematic. Juvenile lemon sharks spend their first few years of life within protected nursery
grounds, enabling the first quantification of prey selection due to the restricted area that they
inhabit. Growth and survival of juvenile lemon sharks strongly influences adult fitness and
recruitment, and therefore prey selection may play an important role in the life history of
lemon sharks. The selection of a preferred species or size of prey by juvenile lemon sharks
was determined by comparing the proportions of prey in the diet with proportions of prey in
the environment at Bimini, Bahamas, between March 2000 and March 2003. The diet of
lemon sharks was quantitatively described from the analysis of 642 shark stomachs (54.7 ±
0.3 cm precaudal length PCL, mean ± S.E., range 43.5 to 90.0 cm), of which 396 (62 %)
contained food items. The main prey of juvenile lemon sharks at Bimini were mojarras (69%
index of relative importance, IRI), parrotfish (5.5 % IRI), swimming crabs (5.1 %) and
barracuda (3.1 % IRI). The yellowfin mojarra Gerres cinereus was the main prey of lemon
sharks regardless of location, season, shark size or sex. Contingency table analysis revealed
the diet of juvenile lemon sharks to be specific to location (χ² = 65.54, p < 0.0001), but
homogeneous with season (χ² = 17.91, p = 0.118), shark size (χ² = 64.36, Ρ = 0.057) and
shark sex (χ² = 13.21, Ρ = 0.354). Prey sizes were measured where possible, or calculated
using least squares linear regression equations relating bone or carapace dimensions with
original size. Original size was obtained for 350 dietary items, with 85 % calculated using
bone regressions. Juvenile lemon sharks demonstrated no significant spatial or temporal
variation in the size of prey consumed (Kolmogorov-Smirnov and Student's t-tests, Ρ > 0.05),
but juveniles over 60.0 cm PCL consumed significantly larger prey than smaller sharks
(ANOVA, Ρ < 0.001). Bone-length regressions also enabled a more accurate estimate of meal
size (2.17 ± 0.17 % BW, mean± S.E., range 0.01 to 21.4 % BW, n = 407) and subsequently
daily ration, 1.31 - 1.80% BW (depending on shark size), in comparison to traditional back-calculation techniques. Forty-three blocknets, 540 seine nets and 498 trawls were closed to
sample mangrove and seagrass communities, resulting in the capture, identification and
measurement of 216,150 fish and macro invertebrates. Catches were extrapolated over the
entire study area providing an estimate of population sizes. Prey preference was estimated
using chi-square residuals and a traditional electivity index. Values and rankings of selection
varied with technique, but both revealed similar trends in prey preference. Proportions of prey
families and prey sizes in the diet of lemon sharks from Bimini were significantly different to
those found in the environment (χ², Ρ < 0.001 and Kolmogorov-Smirnov test, Ρ < 0.001
respectively). Lemon sharks demonstrated a preference for slower moving prey that were
easier to capture (e.g. mojarras, toadfish, parrotfish and filefish), while avoiding larger, faster
and harder to catch prey. Yellowfin mojarra were consumed in proportion to the distribution
of fish lengths in the environment, suggesting that their importance in the diet may be due to
preferred sizes in the environment as well as their ease of capture. Lemon shark diet was
closely correlated with mangrove communities, demonstrating the importance of mangroves
and the need for their protection in the Bahamas. The degree of selection exhibited by
juvenile lemon sharks was greatest when prey were more abundant (off South Bimini and in
the wet season), suggesting that lemon sharks conform to the optimal foraging theory.
Date of Award | 2003 |
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Original language | English |
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Awarding Institution | |
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SPATIAL AND TEMPORAL VARIATION IN DIET AND PREY PREFERENCE OF NURSERY-BOUND JUVENILE LEMON SHARKS (Negaprion brevirostris) AT BIMINI, BAHAMAS
NEWMAN, S. P. (Author). 2003
Student thesis: PhD