Highly dealkylated copper and nickel etioporpyfrins in marine sediments

Copper porphyrins have been recognized as natural constituents of marine sediments only within the past 5 years (Palmer and Baker, 1978, Science201, 49–51). In that report it was suggested that these pigments may derive from and be markers for oxidized terrestrial organic matter redeposited in the m...

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Bibliographic Details
Main Authors: Baker, Earl W, Louda, William
Format: Dataset
Language:English
Published: PANGAEA 1984
Subjects:
42-380A
42-381
43-387
44-391A
44-391C
47-397
47-397A
47-398D
57-440B
63-467
63-471
64-474
64-474A
64-479
64-481A
Black Sea
Deep Sea Drilling Project
DRILL
Drilling/drill rig
DSDP
Glomar Challenger
Leg42
Leg43
Leg44
Leg47
Leg57
Leg63
Leg64
North Atlantic/BASIN
North Atlantic/CONT RISE
North Atlantic/SEAMOUNT
North Pacific/FAN
North Pacific/GAP
North Pacific/Gulf of California/BASIN
North Pacific/TRENCH
Pacific
North Atlantic
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.763356
https://doi.org/10.1594/PANGAEA.763356
Description
Summary:Copper porphyrins have been recognized as natural constituents of marine sediments only within the past 5 years (Palmer and Baker, 1978, Science201, 49–51). In that report it was suggested that these pigments may derive from and be markers for oxidized terrestrial organic matter redeposited in the marine environment. In the present study we describe the distribution of copper porphyrins in sediments from several north Pacific and Gulf of California DSDP/IPQD sites (Legs 56,63,64). These allochthonous pigments have now been found to be accompanied by identical arrays of highly dealkylated nickel etioporphyrins. Evaluation of data from this and past studies clearly reveals that there is a strong carbon-number distribution similarity betweeen coincident Cu and Ni etioporphyrins. This homology match is taken as reflecting a common source for the tetrapyrrole ligands of this population of Cu and Ni chelates. Predepositional generation of these highly dealkylated etioporphyrins is concluded from the occurrence of these pigments in sediments continuing essentially all stages of in situ chlorophyll diagenesis (cf. Baker and Louda, 1983). That is, their presence is not regulated by the in situ diagenetic continuum. Thus, the highly dealkylated Cu and Ni etioporphyrins represent an 'allochthonous' background over which 'autochthonous' (viz. marine produced) chlorophyll derivatives are deposited and are undergoing in situ diagenesis.

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