[meteorite-list] Fossil, Relict, or Paleo- was "Fossil" NWA 2828
From: Greg Hupe <gmhupe_at_meteoritecentral.com>
Date: Sun, 7 Jan 2007 11:06:43 -0500 Message-ID: <0f0c01c73275$d36bac80$cc135c18_at_Gregor> Hi Jeff and list, Thank you Jeff for the educating insight you have provided me, and others on this topic. The more complicated these get, the more I am drawn into all aspects of meteoritics. It certainly draws my attention away from the negative Moroccan influence I endure while acquiring these interesting "messengers" from our neighbors just outside our blue boundaries! Thank you again for all who have contributed to this very educational thread, this makes it all worth while in the long run! Best regards, Greg ==================== Greg Hupe The Hupe Collection NaturesVault (eBay) gmhupe at tampabay.rr.com www.LunarRock.com IMCA 3163 ==================== ----- Original Message ----- From: "Jeff Grossman" <jgrossman at usgs.gov> To: <Meteorite-list at meteoritecentral.com> Sent: Sunday, January 07, 2007 9:52 AM Subject: Re: [meteorite-list] Fossil, Relict, or Paleo- was "Fossil" NWA 2828 > As I was heavily involved in developing the NomCom rules, let me give > my take on this whole discussion: > > Our actions were stimulated by the Osterplana "fossil" meteorites, as > they are commonly called in the literature. For those who don't know > these, they are a group of several dozen objects embedded in > Ordovician age carbonate rocks in Sweden. Many of these have > chondritic structures, with chondrule textures clearly > visible. Others are simply dark clasts in the limestone. The only > primary meteoritic mineral left, if anything, is some chromite, and > everything else has been replaced by secondary, terrestrial > minerals. Thus, the chondrules are pseudomorphs and the chromite is > relict. Brunflo is a similar occurrence found in another quarry. > > We needed a guideline to cover the naming of these objects, but the > usual guidelines for meteorites were inadequate. These meteorites > present a continuum of cases, from ones we were comfortable calling > "fossil" meteorites (they preserve the original structure and can be > classified, mostly as L chondrites) to ones that nobody can or will > ever classify, or even prove beyond a reasonable doubt to be > meteoritic in origin. > > Now combine these occurrences with other things in the > literature. There are meteoritic clasts in some terrestrial rocks > that survive with most of their primary minerals and structures > intact. The Morokweng meteorite described in Nature by Maier et al > last year was also called a "fossil" meteorite, but only the metal > and sulfide were replaced by secondary minerals; silicates are little > altered. For the purpose of meteorite nomenclature, we would want to > treat this case like any other meteorite found on Earth... it's a > meteorite by any reckoning. I don't know the details, but perhaps > NWA 2828 is a similar case. > > We also have things around like iron shale, which I don't think > should be distinguished from cases like the Osterplana objects, as > Sterling Webb does. Both types can contain some of the chemical > signature or structure of the original meteorite and are largely > composed of secondary minerals. However, these are not fossils, as > they are not preserved in the geologic record. They are the products > of weathering meteorites at the earth's surface. But from a > nomenclature perspective, they need to be treated the same as the > Osterplana objects. > > This is why we came up with the operational term "relict > meteorite." It covers all objects that are largely altered, but > which have relict signatures indicating a meteoritic origin, > including composition, texture, isotopes, or whatever. Relict does > not mean fossil. Some relict meteorites are fossil meteorites, like > the classifiable Osterplana specimens and Brunflo, and some are not, > like a highly weathered, barely recognizable stone from the Sahara, a > piece of iron shale from Arizona, or a chip of fusion crust collected > on the Antarctic ice (like LAP 04531). Conversely, some fossil > meteorites are not relict meteorites, like the Morokweng stone. The > terms relict and fossil are independent of each other. (I have no > opinion on this term "paleometeorite" which I have not seen defined.) > > One last comment. The Wlotzka weathering scale (W0-W6) is not > applicable to anything but ordinary chondrites. This is why we can't > just extend it to W7 and use it to cover all highly weathered meteorites. > > jeff > > At 12:46 AM 1/7/2007, Mr EMan wrote: >>Under this NomCom guideline NWA2828 isn't "relict" as >>it is hardly altered and should be referred to as a >>paleo meteorite. (Note:If this gets too drawn out all >>meteoritic material is paleo as most is 4.5 billion >>years old). However, paleo is a best choice of the >>three proposed terms. >> >>My take on the three options: >> >>Relict: in petrology and geology is used to describe >>the occurrence of traces of original material after >>alteration. e.g. Serpentine is the hydrated >>alteration product of olivine and the presence of >>olivine or peridot within serpentine would be referred >>to as "relict olivine" etc. Lignite within a coal seam >>is relict lignite. NWA2828 is hardly relict under this >>definition and the NomCom guidelines. However, Relict >>is a valid incorporation of the concept into >>meteorites. Note that Relict is consistent with the >>almost complete alteration to secondary minerals. >>Where "Fossil" may include replacement of the original >>mineral. This is a subtle but important distinction. >> >>Fossil: (Greek Dug or to Dig) Obviously evolved this >>term is in wide use but rarely specified. It is >>usually descriptive of any ancient "organically" >>produced artifact; Trace, imprint, hard or soft >>tissue, premineralized, mineralized segment, >>mummified-- in some fashion altered from its original >>composition or state. By convention and to which >>source one subscribes,a fossil must be older than >>20,000 OR 2 million years, cannot be derived from a >>living species, nor produced artificially . >>(AFAIRecall). Charcoal from the wildfire caused by >>Canyon Diablo can't be fossil but is paleo. Omitting >>the organically derived stipulation "Fossil" has >>been applied for example, to describe meteorites which >>were found in Ordovician aged sediments where the >>meteorites had been completely altered. It is also >>loosely used to describe ancient geological processes >>NWA2828 doesn't meet the criteria for being fossil. >> >>Paleo: denotes "ancient" and is used to describe >>events or things that are prehistoric--prehistory as >>in what that was not recorded: also to describe a >>process, condition or state occurring before the >>present Paleosoil, paleoatmosphere, paleoclimate, etc. >>The Winona Meteorite has been called paleo and was >>associated with a paleo settlement. Under strict >>reference Wolf Creek, Canyon Diablo, Winona, Lake >>Murray -- all would be paleo meteorites, as would >>anything derived from a prehistoric event as would >>tektites however that distinction need not always be >>applied. >> >>By elimination and like it or not PALEO is a best fit >>for NWA2828. As with any science, this represents the >>discovery of yet another distinction that we need a >>new category for. Both "fossilized" and "relict" seem >>to be subsets of the term "paleo". >> >>Eman >> >> >>--- David Weir <dgweir at earthlink.net> wrote: >> >> > >> > Yea, "fossil" may be accurate or maybe not, but why >> > not use the broader >> > terminology as designated by NomCom in their latest >> > revision in which >> > this new category is proposed? >> > >> > Read it here in section 1.2(c) Relict meteorites: >> > >> > >>http://www.meteoriticalsociety.org/bulletin/nc-guidelines.htm#s12c >> > >> > This section is copied here for your convenience: >> > >> > c) Special provisions are made in these Guidelines >> > for highly altered >> > materials that may have a meteoritic origin, >> > designated relict >> > meteorites, which are dominantly (>95%) composed of >> > secondary minerals >> > formed on the body on which the object was found. >> > Examples of such >> > material may include some types of "meteorite >> > shale," "fossil >> > meteorites," and fusion crust. >> > >> > David >>______________________________________________ >>Meteorite-list mailing list >>Meteorite-list at meteoritecentral.com >>http://six.pairlist.net/mailman/listinfo/meteorite-list > > Dr. Jeffrey N. Grossman phone: (703) 648-6184 > US Geological Survey fax: (703) 648-6383 > 954 National Center > Reston, VA 20192, USA > > > ______________________________________________ > Meteorite-list mailing list > Meteorite-list at meteoritecentral.com > http://six.pairlist.net/mailman/listinfo/meteorite-list > Received on Sun 07 Jan 2007 11:06:43 AM PST |
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