Preferred orientation of the trace fossil Entradichnus meniscus in eolian dune strata (Djadokhta Formation) at Tugrikiin Shiree,southern Mongolia and its paleoecological implications |
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| Authors: | Koji Seike Hitoshi Hasegawa Niiden Ichinnorov |
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| Institution: | 1. Department of Earth and Planetary Science, University of Tokyo, 7‐3‐1 Hongo, Bunkyo‐ku, Tokyo, Japan (email: seike@ipc.pari.go.jp);2. Coastal Sediments and Process Research Group, Port and Airport Research Institute, 3‐1‐1 Nagase, Yokosuka, Kanagawa, Japan;3. Department of Natural History Science, Graduate school of Science, Hokkaido University, N10, W8, Kita‐ku, Sapporo, Japan, and;4. Paleontological Center, Mongolian Academy of Sciences, Enkhtaivan Avenue‐63, Ulaanbaatar, Mongolia |
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| Abstract: | Eolian sand dune deposits of the Upper Cretaceous Djadokhta Formation at Tugrikiin Shiree, southern Mongolia, yield not only dinosaur skeletal remains but also numerous trace fossils produced by invertebrates. This paper describes the trace fossil Entradichnus meniscus, a long unlined and unbranched trail that is filled with meniscate laminae and occurs characteristically in positive epirelief. The trail is straight to gently meandering, parallel to the foreset laminae of the eolian dunes, and exhibits a significant preferred orientation parallel to the depositional dip of the cross‐stratification laminae. In addition, almost all the crescentic internal laminae of the trail show concave down‐dips. These features indicate that the trails were produced beneath the slipface of eolian dunes by the downward burrowing of the trace‐makers. This occurrence mode of E. meniscus of the Mongolian Cretaceous is very similar to that described from the Jurassic eolian dune deposits in North America. Hence, the downward burrowing of the E. meniscus animal might be a common feature in arid eolian dune deposits at least during the Jurassic and Cretaceous, and possibly reflecting a behavioral response to the morphology of large sand dunes under an arid climate. |
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| Keywords: | desert environment ichnology paleoecology trace fossil |
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