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COLLABORATIVE RESEARCH: A Fully Geographically and Stratigraphically Resolved Cretaceous-Tertiary Biostratigraphic Data Base from Seymour Island, Antarctica

合作研究：南极洲西摩岛的完全地理和地层解析的白垩纪-第三纪生物地层数据库

基本信息

批准号：
0338274
负责人：
Peter Sadler
金额：
$ 9.77万
依托单位：
University of California-Riverside
依托单位国家：
美国
项目类别：
Standard Grant
财政年份：
2004
资助国家：
美国
起止时间：
2004-05-01 至 2007-04-30
项目状态：
已结题

来源：
https://www.nsf.gov/awardsearch/showAward?AWD_ID=0338274&HistoricalAwards=false
关键词：
COLLABORATIVE RESEARCH Fully Geographically Stratigraphically

项目摘要

This award supports a project to analyze faunal distribution patterns from Seymour Island, Antarctica by melding two independently developed, but complimentary, applied biostratigraphic numerical techniques developed in two previously funded pilot projects. Stratigraphic projection analysis (SPA) allows complete datasets of geographically distributed faunas to be projected into two-dimensional cross-sections. SPA was developed in Excel for the simple, tabular, Campanian-Paleocene strata of Seymour Island. This project will test the wider applicability of SPA against the nested complex of lenticular, disconformity-bound, stratal units in the Eocene of the island. The limits of spatial resolution of the disconformity surfaces will be found by projecting their positions from different geologic maps into the cross sections displaying the faunas. In the other pilot study, constrained optimization algorithms (CONOP9), developed in Visual Fortran for stratigraphic correlation in a Windows environment, proved feasible for replacing the probabilistic confidence intervals with best-fit intervals, based on parsimony criteria. The best-fit intervals extract more information and stay closer to the raw observations by exploiting the inconsistencies between individual stratigraphic sections rather than the gaps in a composite section. This project will extend the pilot study to incorporate numerous transects bootstrapped from the full SPA database for the Campanian to Paleocene strata. This combination of new methods will not only improve the resolution of the extinction event, but also test the hypothesis that there will be asymptotic limits to the rate at which the resolution can be improved by collecting more fossils. The combination of new methods and the full database will extend the fundamental analysis of gap frequency distributions to two and three dimensions. To ensure broad dissemination of the results, the project will compile a full geographically and stratigraphically resolved data base of Seymour Is. macrofaunas and make it readily accessible to users of common database, spreadsheet, and GIS programs. By gathering their findings into one easily interrogated database, the compilation will add value to the legacy of prior NSF-funded and international paleontological investigations on Seymour Is. and provide a sharper focus for future cruises. The numerical tools will be made available with the raw field data. The societal importance of analyses of global biodiversity and the refinement of the geologic time scale have both been recognized by the recent funding of global database initiatives (Paleobiology Database and Chronos). The Seymour Island database will be extractable as individual faunal assemblages or continual transects . the standard data units of these two endeavors. The Seymour Is. database will also provide easy access to the general public to one of the most remarkable fossil deposits in the southern Hemisphere. The project is a new collaboration which will train graduate students at both institutions in a wider spectrum of modern numerical methods.

该奖项支持一个项目，以分析动物群分布模式，从西摩岛，南极洲融合两个独立开发的，但互补的，应用生物地层数值技术开发的两个先前资助的试点项目。地层投影分析（SPA）允许将地理上分布的动物群的完整数据集投影到二维横截面中。 SPA是在Excel中为西摩岛的简单、表格状的坎帕尼亚-古新世地层开发的。该项目将测试SPA对岛上始新世透镜状、不整合面、地层单元嵌套复合体的更广泛适用性。通过将不同地质图上的不整合面位置投影到显示动物群的横截面上，可以发现不整合面的空间分辨率极限。在另一项试点研究中，在Windows环境下用Visual Fortran开发的用于地层对比的约束优化算法（CONOP 9）被证明是可行的，可根据简约准则用最佳拟合区间取代概率置信区间。最佳拟合区间通过利用各个地层剖面之间的不一致性而不是复合剖面中的间隙来提取更多信息并更接近原始观测。该项目将扩大试点研究，以纳入从坎帕尼亚至古新世地层的完整SPA数据库中提取的许多样带。这种新方法的结合不仅可以提高灭绝事件的分辨率，而且还可以测试假设，即通过收集更多的化石来提高分辨率的速度将存在渐近极限。新方法和完整数据库的结合将把间隙频率分布的基本分析扩展到二维和三维。为了确保广泛传播结果，该项目将汇编一个完整的西摩群岛地理和地层数据库。大型动物群，并使其易于访问的共同数据库，电子表格和地理信息系统程序的用户。通过将他们的发现收集到一个易于查询的数据库中，该汇编将为之前由NSF资助的西摩群岛古生物学调查和国际古生物学调查的遗产增加价值。并为未来的巡航提供更清晰的焦点。数字工具将与原始现场数据一起提供。最近对全球数据库计划（古生物学数据库和Chronos）的资助都认识到了全球生物多样性分析和地质年代标度细化的社会重要性。西摩岛数据库将作为单独的动物群或连续样带提取。这两种努力的标准数据单元。西摩群岛该数据库还将使公众能够方便地访问南半球最引人注目的化石矿床之一。该项目是一项新的合作，将在更广泛的现代数值方法中培训两个机构的研究生。