{"title":"Monte Nerone地区(意大利翁布里亚-亚平宁地区)侏罗纪首次发现的放光翼类Lepisosteiformes遗迹","authors":"M. Romano, A. Cipriani, S. Fabbi, P. Citton","doi":"10.3301/IJG.2018.28","DOIUrl":null,"url":null,"abstract":"Since the early nineteenth century, the structural high of Mt. Nerone in the Umbria-Marche Sabina Domain (UMS – Central/Northern Apennines, Italy) attracted scholars from all over Europe due to the wealth of fossil fauna preserved in a stunningly well-exposed Mesozoic sedimentary succession. Several geopalaeontological studies were focused on the abundant and diverse invertebrate fauna, whereas contributions dealing with Mesozoic vertebrates were to date virtually lacking. Recently, the first material referable to hybodont sharks, consisting of an articulated crushing dentition, was described from the area and referred to Asteracanthus cf. A. magnus. In this contribution, we report the first evidence of ginglymodians actinopterygians from the Upper Jurassic of Mt. Nerone. The material is represented by seven highly tritorial isolated teeth collected from three classic fossiliferous localities of the area (i.e. Pian del Sasso, Fosso Pisciarello, I Ranchi). The general morphology of the material under study allow us to conservatively refer the teeth to the Neoginglymodi, a clade formed by Lepisosteiformes and Semionotiformes. The occurrence of durophagous organisms, to date represented by hybodont sharks and lepisosteiformes fishes, reveals interesting palaeoecological scenarios characterizing the pelagic carbonate platform-basin system of Mt. Nerone, which were most likely triggered by large-scale geodynamic processes. The complex submarine palaeotopography, inheritance of the Western Tethys Early Jurassic rifting, aroused the establishment of new infaunal and epifaunal communities opening up unexplored trophic niches for durophagous predators. 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引用次数: 7
摘要
自19世纪初以来,Umbria Marche Sabina地区(UMS–意大利亚平宁山脉中部/北部)的Nerone山构造高地吸引了来自欧洲各地的学者,因为在一个暴露得惊人的中生代沉积序列中保存了丰富的动物化石。一些地质地质学研究集中在丰富多样的无脊椎动物区系上,而迄今为止几乎缺乏对中生代脊椎动物的研究。最近,该地区描述了第一个与hybodont鲨鱼有关的材料,该材料由一个铰接的破碎齿列组成,并被称为Asteracantus cf.A.magnus。在这篇文章中,我们报道了Nerone山上侏罗纪中首次发现的金藻-放线菌的证据。该材料的代表是从该地区的三个典型化石产地(即Pian del Sasso、Fosso Pisciarello和i Ranchi)采集的七颗高度三角孤立的牙齿。所研究材料的一般形态使我们能够保守地将牙齿称为Neoginglymodi,这是一个由Lepisoteiformes和Seminotiformes形成的分支。迄今为止,以hybodont鲨鱼和lepisoteiformes鱼类为代表的硬食性生物的出现,揭示了Nerone山上层碳酸盐岩平台-盆地系统的有趣古生态场景,这些场景很可能是由大规模地球动力学过程引发的。复杂的海底古地形继承了西特提斯-早侏罗世裂谷作用,引发了新的海底和表动物群落的建立,为食肉动物开辟了未经探索的营养生态位。UMS域的特殊地球动力学环境,主要由相互连接的结构高点和低点组成,以及以圆尾类、鸵鸟类、泥足类、腕足类、甲壳类动物和腹足类为特征的各种无脊椎动物的相对进化,吸引了特提斯域的hybodontids和食豆性的格纹蝶,影响了它们在晚侏罗世的扩散。
First remains of Lepisosteiformes actinopterygians from the Jurassic of Monte Nerone area (Umbria-Marche Apennine, Italy)
Since the early nineteenth century, the structural high of Mt. Nerone in the Umbria-Marche Sabina Domain (UMS – Central/Northern Apennines, Italy) attracted scholars from all over Europe due to the wealth of fossil fauna preserved in a stunningly well-exposed Mesozoic sedimentary succession. Several geopalaeontological studies were focused on the abundant and diverse invertebrate fauna, whereas contributions dealing with Mesozoic vertebrates were to date virtually lacking. Recently, the first material referable to hybodont sharks, consisting of an articulated crushing dentition, was described from the area and referred to Asteracanthus cf. A. magnus. In this contribution, we report the first evidence of ginglymodians actinopterygians from the Upper Jurassic of Mt. Nerone. The material is represented by seven highly tritorial isolated teeth collected from three classic fossiliferous localities of the area (i.e. Pian del Sasso, Fosso Pisciarello, I Ranchi). The general morphology of the material under study allow us to conservatively refer the teeth to the Neoginglymodi, a clade formed by Lepisosteiformes and Semionotiformes. The occurrence of durophagous organisms, to date represented by hybodont sharks and lepisosteiformes fishes, reveals interesting palaeoecological scenarios characterizing the pelagic carbonate platform-basin system of Mt. Nerone, which were most likely triggered by large-scale geodynamic processes. The complex submarine palaeotopography, inheritance of the Western Tethys Early Jurassic rifting, aroused the establishment of new infaunal and epifaunal communities opening up unexplored trophic niches for durophagous predators. The particular geodynamic setting of the UMS Domain, consisting of predominantly interconnected structural highs and lows, and the relative evolution of a diverse invertebrate fauna characterized by terebratulid, ostreids, limids, brachiopods, crustaceans, and gastropods, attracted both hybodontids anddurophagous ginglymodians in the Tethyan Realm, influencing their dispersal during the Late Jurassic.
期刊介绍:
The Italian Journal of Geosciences (born from the merging of the Bollettino della Società Geologica Italiana and the Bollettino del Servizio Geologico d''Italia) provides an international outlet for the publication of high-quality original research contributions in the broad field of the geosciences.
It publishes research papers, special short papers, review papers, discussion-and-replies for their rapid distribution to the international geosciences community.
The journal is firstly intended to call attention to the Italian territory and the adjacent areas for the exceptional role they play in the understanding of geological processes, in the development of modern geology and the Earth sciences in general.
The main focus of the journal is on the geology of Italy and the surrounding sedimentary basins and landmasses, and on their relationships with the Mediterranean geology and geodynamics. Nevertheless, manuscripts on process-oriented and regional studies concerning any other area of the World are also considered for publication.
Papers on structural geology, stratigraphy, sedimentology, basin analysis, paleontology, ecosystems, paleoceanography, paleoclimatology, planetary sciences, geomorphology, volcanology, mineralogy, geochemistry, petrology, geophysics, geodynamics, hydrogeology, geohazards, marine and engineering geology, modelling of geological process, history of geology, the conservation of the geological heritage, and all related applied sciences are welcome.