Oxygen and carbon isotope ratios related to growth line patterns in skeletons of Lophelia pertusa (L) (Anthozoa, Scleractinia): Implications for determination of linear extension rates

Patterns of growth lines and the composition of stable oxygen and carbon is otopes were studied in skeletons of the deep-water scleractinian Lophelia p ertusa in longitudinal and transverse sections of corallites. delta(18)O sh owed a significant, positive linear correlation with delta(13)C. A gradual depletion of O-18 and C-13 was found in the theca, both towards the coralli te edge within single growth layers, and across growth layers from the thec a surface. delta(18)O was negatively correlated with the rate of linear ext ension. These results indicated that isotopic fractionation in Lophelia is controlled by kinetic isotope effects. The range of delta(18)O was 3.5 time s larger than expected for aragonite precipitating in isotopic equilibrium with ambient sea water. However, the shape of the delta(18)O curve along th e growth axis in the septa was almost parallel with the curve of sea water temperatures. This correspondence map be caused by a relation between growt h rate and temperature or other environmental variables correlated with tem perature. The delta(18)O curve fitted best with the temperature curve when the pronounced growth lines were assigned to the first quarter of the year. A 6 year growth line chronology was established for corallites in one colo ny. Between 10 and 14 fine lines were counted between pairs of the more pro nounced annual lines in the septa. An average linear extension rate of 5.5 mm/yr was suggested based on measured distances between distal ends of adja cent growth layers in the theca. Colonies of Lophelia from one locality wer e kept alive in aquarium for 18 months before analysis. Direct measurements on these corallites showed that the linear extension decreased to 2.6 mm/y r.