File:"Liesegang banding" in quartzose sandstone (Upper Paleozoic; quarry near Crossville, Tennessee, USA) 2 (40280403530).jpg
原始文件 (3,993 × 2,535像素,文件大小:5.07 MB,MIME类型:image/jpeg)
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描述"Liesegang banding" in quartzose sandstone (Upper Paleozoic; quarry near Crossville, Tennessee, USA) 2 (40280403530).jpg |
“Liesegang banding” in sandstone from the Upper Paleozoic of Tennessee, USA. Irregular, reddish or brownish or orangish-brown iron oxide banding is commonly seen in many porous rocks, particularly sandstones and pebbly sandstones. These have been almost universally referred to as “Liesegang banding”, representing precipitation lines of iron-rich minerals (e.g., hematite, limonite, goethite, etc.) at & along groundwater chemical interfaces. But, according to Neil Wells of Kent State University, the original concept of Liesegang banding (Liesegang, 1896) does not match up with what is seen in the rock record (see Wells et al., 2003). True Liesegang banding refers to parallel bands of precipitate formed by diffusion along a single chemical gradient during one event. What's seen in the rock record often consists of sets of irregularly concentric iron bands, with different sets of bands quite frequently oriented in different directions, and showing cross-cutting and dissolution of older sets. Iron banding in the rock record is clearly the result of numerous precipitation events over long periods of time by moving groundwater (Wells et al., 2003). Iron mineralization along these bands appears to be induced by the presence of either a redox interface (change from reducing to oxidizing conditions in the groundwater) or a pH interface (change in acidity). Because Neil Wells is the first (apparently) to point out that what geologists have been calling Liesegang banding really isn’t, a renaming seems to be in order. It was jokingly suggested in 2003 that the iron banding discussed above be called “Wells Banding”. I’m all for that. From Diemer et al. (2012) - Building Stone Walking Tour of Uptown Charlotte: The 1.5 acre urban pocket park known as the Green is located between the 400 block of South Tryon and South College Streets, immediately west of the Charlotte Convention Center. Designed by Wagner Murray Architects of Charlotte, it was completed in 2002 and sits directly on top of a 7-level underground parking structure. Sandstone blocks in the retaining wall This fine-grained quartz sandstone was quarried near Crossville, Tennessee. Red iron staining highlights cross-bedding on some specimens. The high quartz content of this sandstone, deposited along the coast of an inland sea that covered most of North America in the Mississippian, about 340 million years ago, has made it a desirable and durable building stone. It is called a fieldstone because it has been left in its natural state. Provenance: quarry near Crossville, Cumberland County, east-central Tennessee, USA Locality: building stone in wall at "The Green", College Street & 2nd Street, downtown Charlotte, North Carolina, USA References: Liesegang, R.E. 1896. Ueber einige Eigenschaften von Gal-lerten [On some properties of gelatin]. Naturwissenschaftliche Wochenschrift 11: 353-362. (see also: Liesegang, R.E. 1945. Geologische Bänderungen durch Diffusion und Kapillarität [Geologic banding by diffusion and capillarity]. Chemie der Erde, Zeitschrift der Chemischen, Mineralogie, Petrographie, Geologie und Bodenkunde 15: 420-423.) Wells, N.A., D.A. Waugh & A.M. Foos. 2003. Some notes and hypotheses concerning iron and iron remobilization features in the Sharon Formation (Summit County, Ohio). in Pennsylvanian Sharon Formation, past and present: sedimentology, hydrogeology, and historical and environmental significance, a field guide to Gorge Metro Park, Virginia Kendall Ledges in the Cuyahoga Valley National Park, and other sites in northeast Ohio. Ohio Division of Geological Survey Guidebook 18: 33-37. |
日期 | |
来源 | "Liesegang banding" in quartzose sandstone (Upper Paleozoic; quarry near Crossville, Tennessee, USA) 2 |
作者 | James St. John |
许可协议
这幅图片原始出处为Flickr的https://flickr.com/photos/47445767@N05/40280403530 ,作者为James St. John 。经机器人FlickreviewR 2在2019年12月6日审查后确定为采用cc-by-2.0的协议授权使用。 |
2019年12月6日
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3 11 2012
摄影器材 简体中文(已转写)
曝光时间 简体中文(已转写)
0.003125 秒
8
6.2 毫米
80
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5,311,171 字节
2,535 像素
3,993 像素
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相机制造商 | Canon |
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相机型号 | Canon PowerShot D10 |
曝光时间 | 1/320秒(0.003125) |
光圈值 | f/8 |
感光度(ISO) | 80 |
数据生成日期时间 | 2012年11月3日 (六) 13:42 |
镜头焦距 | 6.2毫米 |
图像标题 | |
宽度 | 4,000 px |
高度 | 3,000 px |
每色彩组分位数 |
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像素构成 | RGB |
方向 | 正常 |
色彩组分数 | 3 |
水平分辨率 | 180 dpi |
垂直分辨率 | 180 dpi |
使用软件 | Adobe Photoshop Elements 13.0 (Macintosh) |
文件修改日期时间 | 2018年5月13日 (日) 15:25 |
YCbCr位置 | 重叠 |
Exif版本 | 2.21 |
数字化日期时间 | 2012年11月3日 (六) 13:42 |
每个色彩组分意义 |
|
图像压缩模式 | 3 |
APEX快门速度 | 8.3125 |
APEX光圈 | 6 |
APEX曝光补偿 | 0 |
最大光圈 | 2.96875 APEX(f/2.8) |
测光模式 | 多区 |
闪光灯 | 闪光灯未点亮、闪光灯强制关闭 |
支持的Flashpix版本 | 1 |
色彩空间 | sRGB |
焦平面X分辨率 | 16,460.905349794 |
焦平面Y分辨率 | 16,483.516483516 |
焦平面分辨率单位 | 英寸 |
感光方法 | 单芯片彩色区域传感器 |
文件来源 | 数码相机 |
自订图像处理 | 普通处理 |
曝光模式 | 自动曝光 |
白平衡 | 自动白平衡 |
数字变焦比率 | 1 |
场景拍摄类型 | 风景 |
使用的镜头 | 6.2-18.6 mm |
元数据最后修改日期 | 2018年5月13日 (日) 11:25 |
原始文件唯一ID | ECD50709369F733F175420C735D1217E |