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Molecular characterization of fossil palynomorphs by transmission micro-FTIR spectroscopy: Implications for hydrocarbon source evaluation

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Title Molecular characterization of fossil palynomorphs by transmission micro-FTIR spectroscopy: Implications for hydrocarbon source evaluation
 
Creator DUTTA, S
HARTKOPF-FRODER, C
WITTE, K
BROCKE, R
MANN, U
 
Subject Palynomorph
Micro-FTIR spectroscopy
Macromolecular composition
Hydrocarbon source potential
MACROMOLECULAR-COMPOSITION
NEOPROTEROZOIC ACRITARCHS
PROTEROZOIC ACRITARCHS
BIOLOGICAL AFFINITIES
INFRARED-SPECTROSCOPY
MACERALS
COAL
KEROGEN
INSIGHTS
MICROSPECTROSCOPY
 
Description Transmission micro-FTIR spectroscopy has been conducted to elucidate the macromolecular structure of well-preserved fossil palynomorphs including prasinophycean algae, megaspores, chitinozoans, and scolecodonts. Plant and arthropod cuticles which may be present in palynological residues have also been investigated. Important differences are noted among these palynomorph groups regarding the intensities of CHx, C=O and aromatic C=C absorptions. Tasmanites, Leiosphaeridia, and plant cuticles are characterized by stronger aliphatic CH stretching (3000-2800 cm(-1)), strong CH3 (1460-1450 cm(-1)), and intense C=O group (1710-1700 cm(-1)) absorptions. Aromatic C=C stretching (1610-1560 cm(-1)) absorptions are less intense and aromatic CH out of plane (900-750 cm(-1)) absorptions are absent. In contrast chitinozoans, scolecodonts, and arthropod cuticles show intense aromatic C=C stretching (1620-1560 cm(-1)) and aromatic CH out of plane (900-750 cm(-1)) absorptions. Aliphatic CH stretching (3000-2800 cm(-1)) and C=O group (1710-1700 cm(-1)) absorptions are less intense. Megaspores are characterized by stronger aliphatic CH stretching (3000-2800 cm(-1)), strong CH3 (1460-1450 cm(-1)), and moderate aromatic C=C stretching (1610-1560 cm(-1)) and C=O group (17101700 cm(-1)) absorptions. The CH2/CH3 intensity ratio has been used to assess the relative chain length and degree of branching. The aliphatic components in Tasmanites, Leiosphaeridia, and plant cuticles are longest chained and least branched whereas those in chitinozoans, scolecodonts, and arthropod cuticles are shortest chained and most branched. Megaspores show intermediate CH2/CH3 ratio. The present study demonstrates that palynomorphs differ in functional group chemistry and this spectroscopic technique can be useful to assign biological affinity of enigmatic palynomorphs. Furthermore, micro-FTIR spectroscopy provides insights into the hydrocarbon generating potential of different fossil palynomorph groups. (C) 2013 Elsevier B.V. All rights reserved.
 
Publisher ELSEVIER SCIENCE BV
 
Date 2014-10-16T14:14:57Z
2014-10-16T14:14:57Z
2013
 
Type Article
 
Identifier INTERNATIONAL JOURNAL OF COAL GEOLOGY, 11513-23
http://dx.doi.org/10.1016/j.coal.2013.04.003
http://dspace.library.iitb.ac.in/jspui/handle/100/15758
 
Language en