The origin of chondritic macromolecular organic matter: A carbon and nitrogen isotope study

被引:174
作者
Alexander, CMO [1 ]
Russell, SS
Arden, JW
Ash, RD
Grady, MM
Pillinger, CT
机构
[1] Open Univ, Dept Earth Sci, Planetary Sci Unit, Milton Keynes MK7 6AA, Bucks, England
[2] Carnegie Inst Washington, Dept Terr Magnetism, Washington, DC 20025 USA
[3] Univ Oxford, Dept Earth Sci, Oxford OX1 3PR, England
关键词
D O I
10.1111/j.1945-5100.1998.tb01667.x
中图分类号
P3 [地球物理学]; P59 [地球化学];
学科分类号
0708 ; 070902 ;
摘要
The N and C abundances and isotopic compositions of acid-insoluble carbonaceous material in thirteen primitive chondrites (five unequilibrated ordinary chondrites, three CM chondrites, three enstatite chondrites, a CI chondrite and a CR chondrite) have been measured by stepped combustion. While the range of C isotopic compositions observed is only similar to delta(13)C = 30 parts per thousand, the N isotopes range from delta(15)N approximate to -40 to 260 parts per thousand. After correction for metamorphism, presolar nanodiamonds appear to have made up a fairly constant 3-4 wt% of the insoluble C in all the chondrites studied. The apparently similar initial presolar nanodiamond to organic C ratios, and the correlations of elemental and isotopic compositions with metamorphic indicators in the ordinary and enstatite chondrites, suggest that the chondrites all accreted similar organic material. This original material probably most closely resembles that now found in Renazzo and Semarkona. These two meteorites have almost M-shaped N isotope release profiles that can be explained most simply by the superposition of two components, one with a composition between delta(15)N = -20 and -40 parts per thousand and a narrow combustion interval, the other having a broader release profile and a composition of delta(15)N approximate to 260 parts per thousand. Although isotopically more subdued, the CI and the three CM chondrites all appear to show vestiges of this M-shaped profile. How and where the components in the acid-insoluble organics formed remains poorly constrained. The small variation in nanodiamond to organic C ratio between the chondrite groups limits the local synthesis of organic matter in the various chondrite formation regions to at most 30%. The most (15)N-rich material probably formed in the interstellar medium, and the fraction of organic N in Renazzo in this material ranges from 40 to 70%. The isotopically light component may have formed in the solar system, but the limited range in nanodiamond to total organic C ratios in the chondrite groups is consistent with most of the organic material being presolar.
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页码:603 / 622
页数:20
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