Spatial characterization of cretaceous Western Interior Seaway paleoceanography using foraminifera, fuzzy sets and Dempster–Shafer theory

GeoResJ Pub Date : 2017-12-01 DOI:10.1016/j.grj.2017.10.001
Samuel N. Lockshin , Margaret M. Yacobucci , Peter Gorsevski , Andrew Gregory
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引用次数: 5

Abstract

The spatial paleoceanography of the entire Western Interior Seaway (WIS) during the Cenomanian-Turonian Oceanic Anoxic Event (OAE2) has been reconstructed quantitatively for the first time using Geographic Information Systems. Models of foraminiferal occurrences—derived from Dempster–Shafer theory and driven by fuzzy sets of stratigraphic and spatial data—reflect water mass distributions during a brief period of rapid biotic turnover and oceanographic changes in a greenhouse world. Locality data for four benthic and one planktic foraminiferal species and lithologic and geochemical data from sites distributed throughout the WIS were compiled from four ammonoid biozones of the upper Cenomanian and lower Turonian stages. Of the 14 environmental parameters included in the dataset, percent silt, percent total carbonate, and depositional environment (essentially water depth) were associated with foraminiferal occurrences. The inductive Dempster–Shafer belief models for foraminiferal occurrences reveal the positions of northern and southern water masses consistent with the oceanographic gyre circulation pattern that dominated in the seaway during the Cenomanian/Turonian Boundary Event. The water-mixing interface in the southwestern part of the WIS was mostly restricted to the Four Corners region of the US, while the zone of overlap of northern and southern waters encompassed a much larger area along the eastern margin, where southern waters occasionally entered from the tropics. In addition to its paleospatial significance, this study introduces a rigorous, quantitative methodology with which to analyze paleontological occurrence data, assess the degree of uncertainty and prioritize regions for additional data collection.

Abstract Image

基于有孔虫、模糊集和Dempster-Shafer理论的白垩纪西部内陆海道古海洋学空间表征
利用地理信息系统(gis)首次定量重建了西诺曼—土伦期海洋缺氧事件(OAE2)期间整个西部内陆海道(WIS)的空间古海洋学。基于Dempster-Shafer理论并由模糊的地层和空间数据驱动的有孔虫发生模型反映了温室世界中生物快速更替和海洋变化期间的水质量分布。收集了4种底栖生物和1种浮游有孔虫的位置资料,以及分布在整个WIS的上塞诺曼期和下Turonian期4个氨类生物带的岩性和地球化学资料。在数据集中包含的14个环境参数中,粉砂百分比、总碳酸盐百分比和沉积环境(主要是水深)与有孔虫产状相关。有孔虫产状的归纳Dempster-Shafer信念模型揭示了北部和南部水团的位置与Cenomanian/Turonian边界事件期间主导海道的海洋环流环流模式相一致。WIS西南部的水混合界面主要局限于美国的四角地区,而南北水域的重叠区则在东部边缘覆盖了更大的区域,南部水域偶尔从热带进入。除了具有古空间意义外,本研究还引入了一种严格的定量方法,用于分析古生物发生数据,评估不确定性程度并优先考虑额外数据收集的区域。
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