Ancient Hunters and the Lake Stanley Causeway: A Pilot Study

古代猎人和斯坦利湖堤道：试点研究

基本信息

批准号：
0829324
负责人：
John O'Shea
金额：
$ 2.5万
依托单位：
Regents of the University of Michigan - Ann Arbor
依托单位国家：
美国
项目类别：
Standard Grant
财政年份：
2008
资助国家：
美国
起止时间：
2008-08-01 至 2010-07-31
项目状态：
已结题

来源：
https://www.nsf.gov/awardsearch/showAward?AWD_ID=0829324&HistoricalAwards=false
关键词：
Ancient Hunters Lake Stanley Causeway

项目摘要

With National Science Foundation support, Dr. John M. O'Shea and a team of colleagues will conduct an initial field season to investigate ancient archaeological sites located beneath Lake Huron. The team brings together students and faculty from Anthropology, Naval Engineering and Computer Science in a collaborative effort to investigate camps, settlement and caribou ambush sites that have been submerged and protected by the waters of Lake Huron. With the retreat of the continental ice sheets, the early Great Lakes experienced a series of rapid rises and drops of water level. Roughly ten thousand years ago, the lakes reached an extremely low level, perhaps 100 meters lower than modern lake levels, which is termed the Lake Stanley Phase. At that time, the basin of modern Lake Huron held two lakes, separated by a large ridge of land running northwest to southeast across the basin. The causeway was some ten miles wide and presented a mix of sandy shorelines, rocky outcrops and open stands of spruce. Given its orientation it seems likely that it would have provided an important route for the annual migrations of the caribou herds, and natural ambush points for early hunters. With the further withdrawal of the continental ice sheets and changes in lake outlets, this unique landscape disappeared beneath the waters of Lake Huron, preserving the traces of the early hunters.The survey will employ a novel layered strategy to locate ancient sites. This search strategy includes sophisticated environmental modeling, acoustic survey with side scan sonar, acoustic and visual survey using autonomous underwater vehicles (AUVs), site inspection and sampling using remote operated vehicles (ROVs) and the potential direct examination of sites by archaeologists trained in the use of SCUBA. The Lake Stanley survey will provide important new information at both theoretical and substantive levels. The intellectual merit of the research is the potential for recovering intact sites from a time period that is very poorly known on land in the Great Lakes region. It will be the first time that submerged occupation sites of Lake Stanley age have been found in the deep waters of the Great Lakes and will allow an entire range of current models for Late Paleo-Indian and Early Archaic settlement and subsistence practices to be tested.The broader impacts of the study are that it will result in the creation of simulation models of early communities and the ancient landscape that will provide an important tool for both research and public education, and will test the utility of a search approach that may be broadly applicable to underwater archaeological searches in many parts of the world. Additionally, the research will almost certainly result in the discovery of shipwrecks, aircraft and other items of historic importance lost in the depths of Lake Huron. Finally, the research program will foster the collaborative interaction of computer scientists, naval engineers and archaeologists as they adapt existing capabilities, equipment and approaches to a novel research problem. These interdisciplinary benefits will be spread among faculty, graduate students and undergraduates in all three programs.

在国家科学基金会的支持下，约翰·M·奥谢 (John M. O'Shea) 博士和同事团队将进行首次实地考察，以调查位于休伦湖下方的古代考古遗址。该团队汇集了人类学、海军工程和计算机科学专业的学生和教师，共同调查被休伦湖水域淹没和保护的营地、定居点和驯鹿伏击地点。随着大陆冰盖的退缩，早期五大湖经历了一系列水位的快速上升和下降。大约一万年前，湖泊达到极低的水位，可能比现代湖泊水位低100米，这被称为斯坦利湖阶段。当时，现代休伦湖盆地有两个湖泊，中间被一条从西北到东南横跨盆地的大山脊隔开。堤道宽约十英里，呈现出沙质海岸线、岩石露头和开阔的云杉林的混合体。考虑到它的方向，它很可能为驯鹿群的年度迁徙提供了一条重要的路线，并为早期猎人提供了天然的伏击点。随着大陆冰盖的进一步消退和湖泊出口的变化，这一独特的景观消失在休伦湖的水下，保留了早期狩猎者的痕迹。这项调查将采用一种新颖的分层策略来定位古代遗址。该搜索策略包括复杂的环境建模、使用侧扫声纳进行声学调查、使用自主水下航行器（AUV）进行声学和视觉调查、使用遥控潜水器（ROV）进行现场检查和采样，以及由接受过相关培训的考古学家对遗址进行潜在的直接检查。使用水肺潜水。斯坦利湖调查将在理论和实质性层面提供重要的新信息。这项研究的智力价值在于有可能恢复五大湖地区陆地上鲜为人知的那个时期的完整遗址。这将是首次在五大湖深水中发现斯坦利湖时代的水下占领遗址，并将允许测试当前古印度晚期和早期古风定居和生存实践的整个模型。这项研究更广泛的影响在于，它将创建早期社区和古代景观的模拟模型，这将为研究和公共教育提供重要工具，并将测试可广泛应用的搜索方法的实用性。适用于水下在世界许多地方进行考古搜寻。此外，这项研究几乎肯定会发现休伦湖深处遗失的沉船、飞机和其他具有历史意义的物品。最后，该研究计划将促进计算机科学家、海军工程师和考古学家之间的协作互动，因为他们将现有的能力、设备和方法应用于新的研究问题。这些跨学科的好处将在所有三个项目的教师、研究生和本科生中传播。