Weathering of Ordinary Chondrites from Oman

Weathering of Ordinary Chondrites from Oman

1 2 Weathering of ordinary chondrites from Oman: Correlation 14 3 of weathering parameters with C terrestrial ages and a 4 refined weathering scale 5 6 7 Florian J. ZURFLUH1*, Beda A. HOFMANN1,2, Edwin GNOS3, Urs EGGENBERGER1 8 and A. J. Timothy JULL4 9 10 1 Institut für Geologie, Universität Bern, Baltzerstrasse 1 + 3, CH-3012 Bern, Switzerland 11 2 Naturhistorisches Museum der Burgergemeinde Bern, Bernastrasse 15, CH-3005 Bern, 12 Switzerland 13 3 Muséum d’histoire naturelle de la Ville de Genève, 1 Route de Malagnou, CP 6434 CH- 14 1211 Genève 6, Switzerland 15 4 NSF-Arizona AMS Laboratory, The University of Arizona, 1118 East Fourth St., Tucson, 16 Arizona 85721, USA 17 * Corresponding author. E-mail address: [email protected] 18 19 Key words: 20 Weathering scale, meteorite weathering and contamination, 14C terrestrial ages, handheld 21 XRF, hot desert, Oman | downloaded: 4.10.2021 22 23 Short title: 24 Weathering parameters of ordinary chondrites from Oman 25 https://doi.org/10.7892/boris.99735 source: 1 25 Abstract 26 We have investigated 128 14C dated ordinary chondrites from Oman for macroscopically 27 visible weathering parameters, for thin section based weathering degrees and for chemical 28 weathering parameters as analyzed with handheld XRF (HHXRF). These 128 14C dated 29 meteorites show an abundance maximum of terrestrial age at 19.9 ka, with a mean of 21.0 ka 30 and a pronounced lack of samples between 0 and 10 ka. The weathering degree is evaluated 31 in thin section using a refined weathering scale based on the current W0-W6 classification of 32 Wlotzka (1993), with five newly included intermediate steps resulting in a total of nine 33 (formerly six) steps. We find significant correlations between terrestrial ages and several 34 macroscopic weathering parameters. The correlation of various chemical parameters 35 including Sr and Ba with terrestrial age is not very pronounced. The microscopic weathering 36 degree of metal and sulfides with newly added intermediate steps shows the best correlation 37 with 14C terrestrial ages, demonstrating the significance of the newly defined weathering 38 steps. We demonstrate that the observed 14C terrestrial age distribution can be modeled from 39 the abundance of meteorites with different weathering degrees, allowing the evaluation of an 40 age-frequency distribution for the whole meteorite population. 41 2 41 42 INTRODUCTION 43 44 The majority of meteorites available for scientific study are finds, affected to variable degree 45 by terrestrial weathering. Most of these meteorites are recovered from hot deserts where 46 weathering rates are lower than in more humid areas. Several studies have been performed to 47 quantify terrestrial alteration of hot desert meteorites by Mössbauer spectroscopy (Bland et 48 al. 1998), geochemical investigations (Al-Kathiri et al. 2005; Crozaz et al. 2003; Hezel et al. 49 2011) or iron isotope analyses (Saunier et al. 2010). Many of the applied methods for 50 quantifying the amount of weathering are relatively expensive and time consuming and thus 51 not applicable to large numbers of hot desert meteorites. To obtain weathering information 52 for large collections (hundreds to thousands of samples), in this study we tested several 53 schemes for the assessment of the degree of weathering. A need for relatively simple ways to 54 quantify weathering by several methods was originally proposed by Gooding (1986) due to 55 the large amounts of samples found in Antarctica. These meteorites are classified by a 56 weathering index, using the macroscopically visible degree of rustiness into categories A, B 57 and C (Cassidy 1980). For meteorites with evaporitic deposits a lower-case “e” was proposed 58 (Velbel 1988). This scheme allows a rapid estimation of weathering, but the resulting 59 classification is rather crude. Also, the physical meaning of the weathering categories is not 60 clear (Gooding 1989; Ikeda and Kojima 1991; Losiak and Velbel 2011). When large numbers 61 of meteorites were becoming discovered in hot deserts, classification of the weathering using 62 thin sections was proposed, with scales ranging from A to C (Jull et al. 1990), A to E (Jull et 63 al. 1991) or A to D (Jull et al. 1993). A slight modification was then proposed with 64 weathering grades W0 to W6 (Wlotzka 1993). This system is currently in use for non- 65 Antarctic meteorites. However, the original publication is an abstract containing limited 66 details and several ambiguities. In this study we use a refined weathering scale, which is 67 compatible with Wlotzka (1993), but additionally dividing grades W3 and W4 into three and 68 two subgrades, respectively. 69 The determination of terrestrial ages is crucial for understanding of accumulation rates and 70 weathering timescales. Meteorites from hot deserts survive shorter time spans than meteorites 71 from Antarctica and can therefore be dated by the use of cosmogenic 14C (e.g., Jull 2006). 3 72 Terrestrial age dating of meteorites also allows determining minimum ages of accumulation 73 areas and geomorphological studies. If a large population from an accumulation area is dated, 74 calculation of meteorite flux is possible (Bland et al. 1996; Zolensky et al. 2006). Since 75 meteorites record conditions from the environment, paleoclimatic studies could be performed 76 using meteorites since their pre-terrestrial composition is well-defined by falls and they are 77 found in all areas on Earth (Bland 2006). One of the features recognized is the contamination 78 of hot desert meteorites with terrestrial Sr and Ba (Al-Kathiri et al. 2005; Crozaz et al. 2003; 79 Nazarov et al. 2004a; Saunier et al. 2010; Shih et al. 2002; Stelzner et al. 1999). Initial 80 concentrations in ordinary chondrites are 9 to 11 µg/g Sr and 3 to 5 µg/g Ba (Wasson and 81 Kallemeyn 1988). Even within some decades the concentrations of these elements can 82 increase by a factor of two as observed in samples from the Holbrook 1912 fall collected in 83 1968 (Gibson and Bogard 1978). Previous studies of meteorites from Oman showed a 84 correlation of weathering features including bulk geochemical parameters with 14C terrestrial 85 ages of meteorites (Al-Kathiri et al. 2005) and the common involvement of highly saline 86 porewaters in the weathering process (Zurfluh et al. 2013). Samples from ancient meteorite 87 showers usually show a wide variation in degree of weathering. Individuals from the large 88 meteorite strewn field JaH 073 in central Oman (terrestrial age 14.4 ka based on 10Be and 14C 89 data of several stones) vary from W2 to W4 (Gnos et al. 2009). 90 Access to many complete individuals of ordinary chondrites from Oman allowed us to 91 perform studies on weathering and contamination including macroscopic, microscopic, 92 environmental and chemical parameters and also to identify patterns that are dependent on 93 local geography or geological situation. In this study, we investigate correlations between 94 weathering parameters and 14C terrestrial ages of ordinary chondrites from Oman. 95 96 SAMPLES AND ANALYSES 97 98 Ordinary chondrites from Oman 99 For this study, ordinary chondrites (OC) found in the hot desert of Oman by the Omani-Swiss 100 meteorite search expeditions in the years 2001 to 2010 (Hofmann et al. 2004) were 101 investigated. Some of these meteorites (found 2001 to 2003) were part of earlier research (Al- 4 102 Kathiri et al. 2005). Since the present investigation aims to show the variation of weathering 103 and terrestrial ages of a whole meteorite population, samples from large meteorite showers 104 like JaH 073 and JaH 091 also were used. Meteorites are carefully documented in the field 105 including a description of the soil surface. Samples were packed without direct contact in 106 polypropylene bags for transportation. During the unpacking process, gloves were worn to 107 preclude contamination. The adhering soil was removed using pressurized air. Meteorites 108 were cut using isopropanol and standard rectangular or round polished thin sections were 109 prepared from representative parts of the meteorite samples. Usually, thin section chips were 110 taken along profiles from exterior to interior of the meteorite including varnished surfaces. 111 Meteorites usually weather from outside to inside. Larger meteorites often have relatively 112 fresh “cores” and weathered outer parts. Representative parts are supposed to be samples 113 from core and rim. Most of the samples originate from the transition of exposed towards 114 buried areas. They were investigated under optical microscope and electron microscopes 115 (scanning electron microscope, SEM with EDS: Zeiss EVO50 and electron microprobe, 116 EMP: Jeol JX-8200). 117 118 Terrestrial age determination 119 Our first set of measurements included 50 14C analyses of meteorites selected on the base of 120 weathering grade (Al-Kathiri et al. 2005). The next phase of our study involved 78 samples 121 that were selected using the following criteria: (1) all individual samples found on the Jabin 122 plateau (approximately 21° 0-24’N / 28° 22-26’E) west of the Wahibah sands in the meteorite 123 recovery area Ramlat al Wahibah (RaW), an area underlain by lithified dune sands with a 124 maximum age of about 120 ka (Preusser et al. 2002; Radies et al. 2004); (2) all LL chondrites 125 of the campaigns from 2001 to 2009; and (3) selected samples covering a profile of around 126 300 km length from the Arabian sea to areas as distant from the sea as possible, including all 127 stages of the modified weathering degree. Meteorites with masses between 200 g and 2000 g 128 were selected. Samples from recognized strew fields were avoided since average 14C 129 saturation values used for the terrestrial age calculations are only valid for objects <100 to 130 150 cm in diameter.

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