Bart J. Kowallis , Eric H. Christiansen , Brent H. Everett , Kevin D. Crowley , Charles W. Naeser , Donald S. Miller , Alan L. Deino
{"title":"犹他州西南部中侏罗世卡梅尔组蚀变火山灰床中可能的次生磷灰石裂变径迹年龄标准","authors":"Bart J. Kowallis , Eric H. Christiansen , Brent H. Everett , Kevin D. Crowley , Charles W. Naeser , Donald S. Miller , Alan L. Deino","doi":"10.1016/1359-0189(93)90192-C","DOIUrl":null,"url":null,"abstract":"<div><p>Secondary age standards are valuable in intra- and interlaboratory calibration. At present very few such standards are available for fission track dating that is older than Tertiary. Several altered volcanic ash beds occur in the Middle Jurassic Carmel Formation in southwestern Utah. The formation was deposited in a shallow marine/sabhka environment. Near Gunlock, Utah, eight ash beds have been identified. Sanidines from one of the ash beds (GUN-F) give a single-crystal laser-probe <sup>40</sup>Ar/<sup>39</sup>Ar age of 166.3±0.8 Ma (2<em>σ</em>). Apatite and zircon fission track ages range from 152–185 Ma with typically 15–20 Ma errors (2σ). Track densities in zircons are high and most grains are not countable. Apatites are fairly common in most of the ash beds and have reasonable track densities ranging between 1.2–1.5 × 10<sup>6</sup> tracks/cm<sup>2</sup>. Track length distributions in apatites are unimodal, have standard deviations <1<em>μ</em>m, and mean track lengths of about 14–14.5 μm. High Cl apatites (F:Cl:OH ratio of 39:33:28) are particularly abundant and large in ash GUN-F, and are fairly easy to concentrate, but the concentrates contain some siderite, most of which can be removed by sieving. GUN-F shows evidence of some reworking and detriaal contamination based on older single grain <sup>40</sup>Ar/<sup>39</sup>Ar analyses and some rounding of grains, but the apatite population appears to be largely uncontaminated. At present BJK has approximately 12 of apatite separate from GUN-F.</p></div>","PeriodicalId":82207,"journal":{"name":"Nuclear Tracks And Radiation Measurements","volume":"21 4","pages":"Pages 519-524"},"PeriodicalIF":0.0000,"publicationDate":"1993-10-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://sci-hub-pdf.com/10.1016/1359-0189(93)90192-C","citationCount":"11","resultStr":"{\"title\":\"Possible secondary apatite fission track age standard from altered volcanic ash beds in the middle Jurassic Carmel Formation, Southwestern Utah\",\"authors\":\"Bart J. Kowallis , Eric H. Christiansen , Brent H. Everett , Kevin D. Crowley , Charles W. Naeser , Donald S. Miller , Alan L. Deino\",\"doi\":\"10.1016/1359-0189(93)90192-C\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><p>Secondary age standards are valuable in intra- and interlaboratory calibration. At present very few such standards are available for fission track dating that is older than Tertiary. Several altered volcanic ash beds occur in the Middle Jurassic Carmel Formation in southwestern Utah. The formation was deposited in a shallow marine/sabhka environment. Near Gunlock, Utah, eight ash beds have been identified. Sanidines from one of the ash beds (GUN-F) give a single-crystal laser-probe <sup>40</sup>Ar/<sup>39</sup>Ar age of 166.3±0.8 Ma (2<em>σ</em>). Apatite and zircon fission track ages range from 152–185 Ma with typically 15–20 Ma errors (2σ). Track densities in zircons are high and most grains are not countable. Apatites are fairly common in most of the ash beds and have reasonable track densities ranging between 1.2–1.5 × 10<sup>6</sup> tracks/cm<sup>2</sup>. Track length distributions in apatites are unimodal, have standard deviations <1<em>μ</em>m, and mean track lengths of about 14–14.5 μm. High Cl apatites (F:Cl:OH ratio of 39:33:28) are particularly abundant and large in ash GUN-F, and are fairly easy to concentrate, but the concentrates contain some siderite, most of which can be removed by sieving. GUN-F shows evidence of some reworking and detriaal contamination based on older single grain <sup>40</sup>Ar/<sup>39</sup>Ar analyses and some rounding of grains, but the apatite population appears to be largely uncontaminated. 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引用次数: 11
摘要
中学年龄标准在实验室内部和实验室间校准中是有价值的。目前很少有这样的标准可用于比第三纪更早的裂变径迹定年。犹他州西南部中侏罗统卡梅尔组中出现了几处蚀变火山灰床。该组沉积于浅海/沙布卡环境。在犹他州的冈洛克附近,已经发现了八个火山灰床。其中一个灰层(GUN-F)的碱基给出了单晶激光探针40Ar/39Ar年龄为166.3±0.8 Ma (2σ)。磷灰石和锆石裂变径迹年龄范围为152 ~ 185 Ma,典型误差为15 ~ 20 Ma (2σ)。锆石的径迹密度高,多数颗粒不可计数。磷灰石在大多数灰层中相当普遍,其轨道密度在1.2-1.5 × 106轨道/cm2之间。磷灰石中径迹长度呈单峰分布,标准差为1μm,平均径迹长度约为14 ~ 14.5 μm。高Cl磷灰石(F:Cl:OH比为39:33:28)在灰分gunf -F中含量特别丰富,体积特别大,且相当容易富集,但精矿中含有一定的菱铁矿,通过筛分可除去大部分菱铁矿。根据较老的单粒40Ar/39Ar分析和一些磨圆的颗粒,GUN-F显示出一些改造和碎屑污染的证据,但磷灰石种群似乎大部分未受污染。目前BJK有大约12个磷灰石从GUN-F分离出来。
Possible secondary apatite fission track age standard from altered volcanic ash beds in the middle Jurassic Carmel Formation, Southwestern Utah
Secondary age standards are valuable in intra- and interlaboratory calibration. At present very few such standards are available for fission track dating that is older than Tertiary. Several altered volcanic ash beds occur in the Middle Jurassic Carmel Formation in southwestern Utah. The formation was deposited in a shallow marine/sabhka environment. Near Gunlock, Utah, eight ash beds have been identified. Sanidines from one of the ash beds (GUN-F) give a single-crystal laser-probe 40Ar/39Ar age of 166.3±0.8 Ma (2σ). Apatite and zircon fission track ages range from 152–185 Ma with typically 15–20 Ma errors (2σ). Track densities in zircons are high and most grains are not countable. Apatites are fairly common in most of the ash beds and have reasonable track densities ranging between 1.2–1.5 × 106 tracks/cm2. Track length distributions in apatites are unimodal, have standard deviations <1μm, and mean track lengths of about 14–14.5 μm. High Cl apatites (F:Cl:OH ratio of 39:33:28) are particularly abundant and large in ash GUN-F, and are fairly easy to concentrate, but the concentrates contain some siderite, most of which can be removed by sieving. GUN-F shows evidence of some reworking and detriaal contamination based on older single grain 40Ar/39Ar analyses and some rounding of grains, but the apatite population appears to be largely uncontaminated. At present BJK has approximately 12 of apatite separate from GUN-F.
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