Computer Science – Sound
Scientific paper
May 2001
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2001gecoa..65.1583v&link_type=abstract
Geochimica et Cosmochimica Acta, vol. 65, Issue 10, pp.1583-1599
Computer Science
Sound
6
Scientific paper
The O, C, and Sr isotope compositions of teeth from ten species, belonging to five families, and three orders of sharks were measured to determine the influence of habitat, diet, and possible species-specific fractionation effects on the isotopic composition of biogenic phosphate from fish. The sharks were recently caught in subtropical waters off the KwaZulu-Natal (KZN) coast of South Africa, as well as from cold waters in Prince William Sound (PWS), Alaska, and Victor Bay (VB), Nunavut, Canada. 18 O values of tooth phosphate ( 18 O P ) range from 20.9 to 23.5 for the KZN sharks. For most species the range in measured 18 O P values is about 0.6 , but it may be as high as 1.1 for different teeth from a single shark. Dentine and enameloid within individual teeth have no apparent differences in 18 O P values. The 18 O P values of the KZN shark teeth reflect the typical habitat of the studied species, primarily the thermal structure of the water column off KZN at depths between 20 and 280 m. The 18 O P values of teeth from different Greenland sharks from VB and Pacific sleeper sharks from PWS are very homogeneous, averaging 25.8 and 24.7 , respectively. These values appear to be in equilibrium with deep (>500 m) ocean waters in each case at temperatures of about -0.3°C or less. There is little discernable evidence for species-specific fractionation effects for the oxygen isotope composition of phosphate in the studied marine fish. The oxygen isotope composition of carbonate in apatite averages about 9.1 higher than corresponding 18 O P values, in agreement with equilibrium fractionation between carbonate and phosphate, but with a large variance (1 = ±1.5 ). 18 O C values also vary by up to 1 between enameloid and dentine within single teeth, but in a non-systematic way. Differences in 13 C values between carbonate in enameloid and dentine is also large (up to 8 ) but the 13 C values vary systematically. Enameloid is always enriched in 13 C compared to dentine and the 13 C content increases with developmental stage of the teeth. 13 C values measured for enameloid (1.6 to 4.8 ) appear to approach equilibrium with dissolved inorganic carbon in seawater. In contrast, 13 C values for dentine range from -6.4 to -2.3 for KZN sharks, and -9.0 to -10.8 for the cold-water sleeper sharks, and are compatible with a predominantly dietary carbon source. The 87 Sr/ 86 Sr ratios of teeth from KZN sharks as well as those from PWS and VB are uniform, averaging 0.709167. Sr content varies from 1270 to 2100 ppm, a range that is similar to that in well preserved fossilized teeth. Seawater Sr is thus clearly incorporated in vivo. Concentrations of Sm and Nd are in the ppb range and contrast the ppm range in fossilized teeth, indicating a postmortem incorporation of rare earth elements in apatite of the teeth.
Benz G. W.
Cliff Gerald
Hegner Ernst
Vennemann Torsten Walter
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