Chemotaxonomic classi®cation of fossil leaves from the Miocene Clarkia lake deposit, Idaho, USA based on n-alkyl lipid distributions and principal component analyses
نویسندگان
چکیده
Fossil leaves which show excellent preservation of lipids and other organic compounds are preserved in abundance at the Miocene Clarkia lake deposit in northwestern Idaho, USA. Eighty three fossils from nine genera which are commonly found at the site, namely Quercus, Platanus, Magnolia, Pseudofagus, Fagus, Cocculus, Taxodium, Metasequoia and Sequoia were investigated to assess whether their chemical compositions can be used in chemotaxonomic comparisons. Chromatographically separated n-alkane and n-alkanol sub-fractions were examined by GC and GC/MS to establish whether characteristic distributions were evident between fossils and distinct from the enclosing sediment. Chemotaxonomic comparisons were performed between the individual fossil specimens and six sediments using the nalkane and n-alkanol pro®les and principal component analysis (PCA). Characteristic distributions were observed for certain genera, e.g. Platanus and Quercus, which were reproducible between multiple specimens of the same genus. Concentrations of the lipids in fossils were markedly greater than in the six sediments in all of the fossils except the conifers examined. These ®ndings demonstrate that n-alkyl lipid distributions from fossil leaves have chemotaxonomic utility, with potential for comparisons with modern taxa. # 2000 Elsevier Science Ltd. All rights reserved.
منابع مشابه
An rbcL sequence from a Miocene Taxodium (bald cypress).
During the past decade, ancient DNAs from both animals and plants have been successfully extracted and analyzed. Recently, the age of DNA that can be recovered and sequenced was increased manyfold by the amplification and sequencing of a DNA fragment from a Magnolia fossil obtained from the Miocene Clarkia deposit (17-20 million yr old). However, the validity of this report has been questioned ...
متن کاملNeogene Fallout Tuffs from the Yellowstone Hotspot in the Columbia Plateau Region, Oregon, Washington and Idaho, USA
Sedimentary sequences in the Columbia Plateau region of the Pacific Northwest ranging in age from 16-4 Ma contain fallout tuffs whose origins lie in volcanic centers of the Yellowstone hotspot in northwestern Nevada, eastern Oregon and the Snake River Plain in Idaho. Silicic volcanism began in the region contemporaneously with early eruptions of the Columbia River Basalt Group (CRBG), and the a...
متن کاملPrediction of mineral deposit model and identification of mineralization trend in depth using frequency domain of surface geochemical data in Dalli Cu-Au porphyry deposit
In this research work, the frequency domain (FD) of surface geochemical data was analyzed to decompose the complex geochemical patterns related to different depths of the mineral deposit. In order to predict the variation in mineralization in the depth and identify the deep geochemical anomalies and blind mineralization using the surface geochemical data for the Dalli Cu-Au porphyry deposit, a ...
متن کاملFirst mammal fossil locality from the late Miocene of Zagros, western Iran
A new and the first mammal fossil locality from the Zagros Basin of Iran is reported here. The fossil locality, known as Dimeh, is located in the Lorestan province, west of Iran. The fauna includes abundant bovid cranial remains, mostly representing boselaphines and palaeoryxoids, as well as gazelles and spiral horned antelopes. Hipparionine horses similar to Hippotherium group are also represe...
متن کاملRevision of "falco" Ramenta Wetmore and the Neogene Evolution of the Falconidae
--"Falco" ramenta Wetmore 1936 is redescribed and moved to a new genus as Pedlofiierax ramenta (Wetmore). In addition to the holotypical distal end of the tarsometatarsus, this species is now known from a complete tarsometatarsus, humerus, and coracoid from mid-Miocene (Late Hemingfordian and Early Barstovian) fossil localities in the Sheep Creek and Olcott formations, northwestern Nebraska. Pe...
متن کامل