Size-related isotopic trends in Maastrichtian planktic foraminifera of DSDP Core 44-390A (Appendix B), supplement to: Houston, Ryan M; Huber, Brian T (1998): Evidence of photosymbiosis in fossil taxa? Ontogenetic stable isotope trends in some Late Cretaceous planktonic foraminifera. Marine Micropaleontology, 34(1-2), 29-46

Stable isotope analyses were performed on ontogenetic dissections of four taxa of low latitude Late Cretaceous planktonic foraminifera from DSDP Hole 390A. The species studied include Planoglobulina acervulinoides, Planoglobulina multicamerata, Pseudoguembelina palpebra, and Racemiguembelina fructic...

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Bibliographic Details
Main Authors: Houston, Ryan M, Huber, Brian T
Format: Dataset
Language:English
Published: PANGAEA - Data Publisher for Earth & Environmental Science 1998
Subjects:
DEPTH, sediment/rock
Sample code/label
Sample comment
Size fraction
Mass
Specimen count
Racemiguembelina fructicosa, δ13C
Racemiguembelina fructicosa, δ18O
Pseudoguembelina palpebra, δ13C
Pseudoguembelina palpebra, δ18O
Planoglobulina acervulinoides, δ13C
Planoglobulina acervulinoides, δ18O
Planoglobulina multicamerata, δ13C
Planoglobulina multicamerata, δ18O
Drilling/drill rig
DSDP/ODP/IODP sample designation
Isotope ratio mass spectrometry
Leg44
Glomar Challenger
Deep Sea Drilling Project DSDP
Planktonic foraminifera
Online Access:https://dx.doi.org/10.1594/pangaea.679418
https://doi.pangaea.de/10.1594/PANGAEA.679418
Description
Summary:Stable isotope analyses were performed on ontogenetic dissections of four taxa of low latitude Late Cretaceous planktonic foraminifera from DSDP Hole 390A. The species studied include Planoglobulina acervulinoides, Planoglobulina multicamerata, Pseudoguembelina palpebra, and Racemiguembelina fructicosa. Delta18O and delta13C data indicate a deeper surface water paleohabitat for P. multicamerata than the other three taxa, and ontogenetic increases in delta18O values suggest all these taxa underwent vertical migrations from shallow to deeper surface waters. Changes in delta13C values through ontogeny include sharp increases in delta13C composition in the juvenile size intervals, a decrease in the rate of delta13C change through intermediate size intervals, and reversals to a negative trend in delta13C values in terminal size intervals. The intermediate and terminal growth changes in delta13C signals are similar to ontogenetic trends observed in some extant and Paleogene planktonic foraminifera and may result from decreasing metabolic rates through ontogeny or endosymbiont digestion prior to gametogenesis. The ontogenetic delta13C increases of 1.04‰, 0.76‰, 0.83‰, and 0.77‰ in R. fructicosa, P. palpebra, P. acervulinoides, and P. multicamerata, respectively, may indicate the presence of photosymbionts. However, our review and critique of the current literature discussing photosymbiont effects on stable isotope values in living and fossil planktonic foraminifera suggests that conclusions regarding the presence of photosymbionts in fossil taxa may be more equivocal than previously thought.

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