Polycyclic aromatic hydrocarbons and amino acids in meteorites and ice samples from LaPaz Icefield, Antarctica

We have analyzed ice samples and meteorites from the LaPaz region of Antarctica to investigate the composition of polycyclic aromatic hydrocarbons (PAHs) and amino acids with the goal to understand whether or not there is a compositional relationship between the two reservoirs. Four LL5 ordinary chondrites (OCs) and one CK carbonaceous chondrite were collected as part of the 2003/2004 ANSMET season. Ice samples collected from directly underneath the meteorites were extracted. In addition, exhaust particles from the snowmobiles used during the expedition were collected to investigate possible contributions from this source. The meteorite samples, the particulate matter and solid-state extracts of the ice samples and the exhaust filters were subjected to two-step laser mass spectrometry (L2MS) to investigate the PAH composition. For amino acids analysis, the meteorites were extracted with water and acid hydrolyzed, and the extracts were analyzed with offline OPA/NAC derivatization combined with liquid chromatography with UV fluorescence detection and time of flight mass spectrometry (LC-FD/ToF-MS). PAHs in the particulate matter of the ice were found to be qualitatively similar to the meteorite samples, indicating that micron-sized grains of the meteorite may be embedded in the ice samples. The concentration levels of dissolved PAHs in all the ice samples were found to be below the detection limit of the L2MS. The PAH composition of the snowmobile exhaust is significantly different to the one in particulate matter, making it an unlikely source of contamination for Antarctic meteorites. The amino acids glycine, ?-alanine and ?-amino-n-butyric acid that were detected at concentrations of 3 to 19 parts per billion (ppb) are probably indigenous to the Antarctic meteorites. Some of the LaPaz ice samples were also found to contain amino acids at concentration levels of 1 to 33 parts per trillion (ppt), in particular ?-aminoisobutyric acid (AIB), an abundant non-protein amino acid of extraterrestrial origin found in some carbonaceous chondrites. We hypothesize that this amino acid could have been extracted from Antarctic micrometeorites and the particulate matter of the meteorites during the concentration procedure of the ice samples.

[1]  P. Masclet,et al.  Evidence for the presence of polycyclic aromatic hydrocarbons in the polar atmosphere and in the polar ice of Greenland , 1995 .

[2]  C. T. Pillinger,et al.  Aromatic moieties in meteoritic macromolecular materials: analyses by hydrous pyrolysis and δ13C of individual compounds , 2000 .

[3]  K. Harada,et al.  Molecular Distribution of Monocarboxylic Acids in Asuka Carbonaceous Chondrites from Antarctica , 1999, Origins of life and evolution of the biosphere.

[4]  R. Ogasawara,et al.  Dipeptides and Diketopiperazines in the Yamato-791198 and Murchison Carbonaceous Chondrites , 2002, Origins of life and evolution of the biosphere.

[5]  R. Zenobi,et al.  Laser Mass Spectrometric Analysis of Organic Atmospheric Aerosols. 1. Characterization of Emission Sources , 2000 .

[6]  P. Masclet,et al.  Polycyclic aromatic hydrocarbons in the polar ice of greenland. Geochemical use of these atmospheric tracers , 1994 .

[7]  P. E. Hare,et al.  Amino acids in a carbonaceous chondrite from Antarctica , 2005, Journal of Molecular Evolution.

[8]  Aimin Fang,et al.  Recovery of 5354 Meteorites in Grove Mountains, Antarctica, by the 22nd Chinese Antarctic Research Expedition , 2006 .

[9]  C. Ponnamperuma,et al.  Amino Acids in the Yamato-74662 Meteorite, an Antarctic Carbonaceous Chondrite , 1979 .

[10]  A. Shimoyama,et al.  Dicarboxylic Acids in the Murchison and Yamato-791198 Carbonaceous Chondrites , 1994 .

[11]  R. Zenobi,et al.  Laser mass spectrometric analysis of polycyclic aromatic hydrocarbons with wide wavelength range laser multiphoton ionization spectroscopy. , 1998, Analytical chemistry.

[12]  Michel Maurette,et al.  A Search for Extraterrestrial Amino Acids in Carbonaceous Antarctic Micrometeorites , 1998, Origins of life and evolution of the biosphere.

[13]  D P Glavin,et al.  A search for endogenous amino acids in martian meteorite ALH84001. , 1998, Science.

[14]  J. Bada,et al.  A search for endogenous amino acids in the Martian meteorite EETA79001. , 1995, Geochimica et cosmochimica acta.

[15]  L Becker,et al.  Polycyclic aromatic hydrocarbons (PAHs) in Antarctic Martian meteorites, carbonaceous chondrites, and polar ice , 1997, Optics & Photonics.

[16]  K. Harada,et al.  Search for nucleic acid bases in carbonaceous chondrites from Antarctica. , 1990 .

[17]  R. Zare,et al.  Search for Past Life on Mars: Possible Relic Biogenic Activity in Martian Meteorite ALH84001 , 1996, Science.

[18]  J L Bada,et al.  The origin of organic matter in the Martian meteorite ALH84001. , 1999, Earth and planetary science letters.

[19]  R. Zare,et al.  Application of Two-Step Laser Mass Spectrometry to Cosmogeochemistry: Direct Analysis of Meteorites , 1988, Science.

[20]  K. Harada,et al.  Carboxylic acids in the Yamato-791198 carbonaceous chondrites from Antarctica , 1986 .

[21]  J. Bada,et al.  Extraterrestrial Organic Compounds in Meteorites , 2002 .

[22]  James H. Doty,et al.  Amino acid analyses of Antarctic CM2 meteorites using liquid chromatography‐time of flight‐mass spectrometry , 2006 .

[23]  K. Harada,et al.  Isotopic evidence from an Antarctic carbonaceous chondrite for two reaction pathways of extraterrestrial PAH formation , 2000 .

[24]  S. Pizzarello,et al.  Amino Acids in an Antarctic Carbonaceous Chondrite , 1979, Science.

[25]  K. Harada,et al.  Analyses of carboxylic acids and hydrocarbons in Antarctic carbonaceous chondrites, Yamato-74662 and Yamato-793321. , 1989 .

[26]  K. Harada,et al.  Amino acid depleted carbonaceous chondrites (C2) from Antarctica , 1984 .

[27]  P. Ehrenfreund,et al.  Amino acids in Antarctic CM1 meteorites and their relationship to other carbonaceous chondrites , 2007 .

[28]  Susan Taylor,et al.  Concentration and variability of the AIB amino acid in polar micrometeorites: Implications for the exogenous delivery of amino acids to the primitive Earth , 2004 .

[29]  K. Harada,et al.  Hydrocarbons in the Yamato-791198 Carbonaceous Chondrite from Antarctica , 1988 .

[30]  Keizo Yanai,et al.  AMINO ACIDS FROM THE YAMATO-791198 CARBONACEOUS CHONDRITE FROM ANTARCTICA , 1985 .

[31]  P. E. Hare,et al.  Organic Analysis of the Antarctic Carbonaceous Chondrites , 1981 .

[32]  S. Pizzarello The Chemistry of Life′s Origin: A Carbonaceous Meteorite Perspective , 2006 .

[33]  J. Bada,et al.  Determination of alpha-dialkylamino acids and their enantiomers in geological samples by high-performance liquid chromatography after derivatization with a chiral adduct of o-phthaldialdehyde. , 1995, Journal of chromatography. A.

[34]  J. W. Beck,et al.  Isotopic evidence for extraterrestrial organic material in the Martian meteorite, Nakhla , 2000 .

[35]  C. Emmenegger Analysis of polycyclic aromatic hydrocarbons and humic-like substances in the environment , 2006 .

[36]  J. Beck,et al.  Isotopic evidence for a terrestrial source of organic compounds found in martian meteorites Allan Hills 84001 and Elephant Moraine 79001. , 1998, Science.

[37]  B. Morrical,et al.  Quantitative analysis of polycyclic aromatic hydrocarbons in water in the low-nanogram per liter range with two-step laser mass spectrometry. , 2003, Analytical chemistry.

[38]  P. Masclet,et al.  Polycyclic aromatic hydrocarbon deposition on the ice sheet of Greenland. Part I: superficial snow , 2000 .

[39]  J L Bada,et al.  The origin of organic matter in the Martian meteorite ALH84001. , 1999, Advances in space research : the official journal of the Committee on Space Research.

[40]  Ralph P. Harvey,et al.  The Origin and Significance of Antarctic Meteorites , 2003 .

[41]  Keizo Yanai,et al.  Amino acids in the Yamato carbonaceous chondrite from Antarctica , 1979, Nature.

[42]  M. Sephton,et al.  Organic compounds in carbonaceous meteorites. , 2002, Natural product reports.

[43]  Pascale Ehrenfreund,et al.  Indigenous amino acids in primitive CR meteorites , 2007 .

[44]  P. Ehrenfreund,et al.  Amino acid composition, petrology, geochemistry, 14C terrestrial age and oxygen isotopes of the Shişr 033 CR chondrite , 2007 .

[45]  R. Zare,et al.  Evidence for the extraterrestrial origin of polycyclic aromatic hydrocarbons in the Martian meteorite ALH84001. , 1998, Faraday discussions.

[46]  R. Zare,et al.  Organic compounds in the Forest Vale, H4 ordinary chondrite. , 1992, Geochimica et cosmochimica acta.

[47]  M. Keynes Organic compounds in carbonaceous meteorites , 2002 .