Mustapha Amzil , Mostafa Oukassou , Jens N. Lallensack , Hendrik Klein , Omar Zafaty , Hafid Saber , André Charrière , Christian Meyer , Gerard D. Gierliński
{"title":"中阿特拉斯(摩洛哥)侏罗纪中期红床的新恐龙足迹:摄影测量在人类学和地质遗产保护中的应用","authors":"Mustapha Amzil , Mostafa Oukassou , Jens N. Lallensack , Hendrik Klein , Omar Zafaty , Hafid Saber , André Charrière , Christian Meyer , Gerard D. Gierliński","doi":"10.1016/j.pgeola.2024.06.004","DOIUrl":null,"url":null,"abstract":"<div><p><span>The El Mers I and II formations (Middle Jurassic, Bathonian) are geological units outcropping in the folded Middle Atlas of Morocco rich in body and trace fossils of dinosaurs. The numerous tracksites of these units have been little studied and are severely affected by ongoing erosion (</span><em>e.g.</em>, seasonal flooding) and, to a lesser degree, human activities (<em>e.g.</em><span>, urbanisation). The aim of this project is to fully document and interpret the dinosaur tracks of two historic sites and four new sites discovered in the El Mers area using digital photogrammetry<span>. The ichnofauna comprises abundant tracks and trackways of theropod and sauropod dinosaurs as well as of probable crocodylomorph tracks. The theropod tracks include several footprints of high anatomical fidelity, but the majority of the discovered tracks are identified to be penetrative tracks, with one site preserving abundant swim tracks. The sites preserve both small and enormous sauropod tracks. The enormous sauropod tracks are among the largest known worldwide, with a pes track length of up to 130 cm. The obtained 3D models are compared with site maps created by analogue mapping performed more than 15 years ago of the historical sites, revealing how erosion has both destructed surfaces and exposed new ones. The application of photogrammetry allows for the rapid collection of accurate high-resolution data with sustainable costs. The resulting 3D models can be used in research to digitally conserve threatened sites, and as a basis for knowledge transfer to the public. The present contribution encourages the intellectual, logistical, and social involvement of the local population to collaborate with scientists for the conservation of the rich geological heritage. Furthermore, scientific investigations in this area could shift from academic-only research to research focused on conservation and geotourism initiatives that involve local communities.</span></span></p></div>","PeriodicalId":49672,"journal":{"name":"Proceedings of the Geologists Association","volume":"135 4","pages":"Pages 458-480"},"PeriodicalIF":1.2000,"publicationDate":"2024-08-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"New dinosaur tracks from the Middle Jurassic red beds of the Middle Atlas (Morocco): Application of photogrammetry to ichnology and conservation of geological heritage\",\"authors\":\"Mustapha Amzil , Mostafa Oukassou , Jens N. Lallensack , Hendrik Klein , Omar Zafaty , Hafid Saber , André Charrière , Christian Meyer , Gerard D. Gierliński\",\"doi\":\"10.1016/j.pgeola.2024.06.004\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><p><span>The El Mers I and II formations (Middle Jurassic, Bathonian) are geological units outcropping in the folded Middle Atlas of Morocco rich in body and trace fossils of dinosaurs. The numerous tracksites of these units have been little studied and are severely affected by ongoing erosion (</span><em>e.g.</em>, seasonal flooding) and, to a lesser degree, human activities (<em>e.g.</em><span>, urbanisation). The aim of this project is to fully document and interpret the dinosaur tracks of two historic sites and four new sites discovered in the El Mers area using digital photogrammetry<span>. The ichnofauna comprises abundant tracks and trackways of theropod and sauropod dinosaurs as well as of probable crocodylomorph tracks. The theropod tracks include several footprints of high anatomical fidelity, but the majority of the discovered tracks are identified to be penetrative tracks, with one site preserving abundant swim tracks. The sites preserve both small and enormous sauropod tracks. The enormous sauropod tracks are among the largest known worldwide, with a pes track length of up to 130 cm. The obtained 3D models are compared with site maps created by analogue mapping performed more than 15 years ago of the historical sites, revealing how erosion has both destructed surfaces and exposed new ones. The application of photogrammetry allows for the rapid collection of accurate high-resolution data with sustainable costs. The resulting 3D models can be used in research to digitally conserve threatened sites, and as a basis for knowledge transfer to the public. The present contribution encourages the intellectual, logistical, and social involvement of the local population to collaborate with scientists for the conservation of the rich geological heritage. 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引用次数: 0
摘要
El Mers I 和 II 地层(中侏罗世,巴吞纪)是摩洛哥褶皱的中阿特拉斯地区出露的地质单元,富含恐龙化石和痕迹化石。对这些地层的众多足迹研究甚少,并受到持续侵蚀(如季节性洪水)和人类活动(如城市化)的严重影响。该项目的目的是利用数字摄影测量技术全面记录和解释在埃尔梅尔斯地区发现的两个历史遗址和四个新遗址的恐龙足迹。恐龙足迹包括大量的兽脚类恐龙和长脚类恐龙的足迹,以及可能的鳄形目恐龙足迹。兽脚类恐龙的足迹包括几个解剖学保真度很高的脚印,但大部分已发现的足迹被确定为穿透性足迹,其中一个地点保留了大量游泳足迹。这些地点保留了小型和大型兽脚类足迹。巨大的长脚类动物足迹是世界上已知最大的足迹之一,其足迹长度可达130厘米。获得的三维模型与 15 年前对历史遗址进行的模拟测绘绘制的遗址地图进行了比较,揭示了侵蚀是如何破坏地表和暴露新地表的。摄影测量技术的应用能够以可持续的成本快速收集精确的高分辨率数据。由此产生的三维模型可用于研究,对受到威胁的遗址进行数字化保护,并作为向公众传授知识的基础。目前的贡献鼓励当地居民在智力、后勤和社会方面参与进来,与科学家合作保护丰富的地质遗产。此外,该领域的科学研究可以从纯粹的学术研究转向以保护和地质旅游为重点的研究,让当地社区参与其中。
New dinosaur tracks from the Middle Jurassic red beds of the Middle Atlas (Morocco): Application of photogrammetry to ichnology and conservation of geological heritage
The El Mers I and II formations (Middle Jurassic, Bathonian) are geological units outcropping in the folded Middle Atlas of Morocco rich in body and trace fossils of dinosaurs. The numerous tracksites of these units have been little studied and are severely affected by ongoing erosion (e.g., seasonal flooding) and, to a lesser degree, human activities (e.g., urbanisation). The aim of this project is to fully document and interpret the dinosaur tracks of two historic sites and four new sites discovered in the El Mers area using digital photogrammetry. The ichnofauna comprises abundant tracks and trackways of theropod and sauropod dinosaurs as well as of probable crocodylomorph tracks. The theropod tracks include several footprints of high anatomical fidelity, but the majority of the discovered tracks are identified to be penetrative tracks, with one site preserving abundant swim tracks. The sites preserve both small and enormous sauropod tracks. The enormous sauropod tracks are among the largest known worldwide, with a pes track length of up to 130 cm. The obtained 3D models are compared with site maps created by analogue mapping performed more than 15 years ago of the historical sites, revealing how erosion has both destructed surfaces and exposed new ones. The application of photogrammetry allows for the rapid collection of accurate high-resolution data with sustainable costs. The resulting 3D models can be used in research to digitally conserve threatened sites, and as a basis for knowledge transfer to the public. The present contribution encourages the intellectual, logistical, and social involvement of the local population to collaborate with scientists for the conservation of the rich geological heritage. Furthermore, scientific investigations in this area could shift from academic-only research to research focused on conservation and geotourism initiatives that involve local communities.
期刊介绍:
The Proceedings of the Geologists'' Association is an international geoscience journal that was founded in 1859 and publishes research and review papers on all aspects of Earth Science. In particular, papers will focus on the geology of northwestern Europe and the Mediterranean, including both the onshore and offshore record. Following a long tradition, the PGA will focus on: i) a range of article types (see below) on topics of wide relevance to Earth Sciences ii) papers on aspects of Earth Science that have societal relevance including geoconservation and Earth management, iii) papers on palaeoenvironments and palaeontology of the Mesozoic and Cenozoic, iv) papers on aspects of Quaternary geology and climate change, and v) papers on the history of geology with particular reference to individuals that have shaped the subject. These topics will also steer the content of the themes of the Special Issues that are published in the PGA.