Where: Nei Mongol, China (41.5° N, 118.9° E: paleocoordinates 43.8° N, 121.0° E)
• coordinate based on nearby landmark
• small collection-level geographic resolution
When: Yixian Formation (Jehol Group), Late/Upper Barremian (130.0 - 125.5 Ma)
• The Yixian Formation can be subdivided into five units, in ascending order, Lujiatun unit, Lower Lava, Jianshangou unit, Upper Lava, Dawangzhangzi unit, Jingangshan unit, and Huanghuashan unit. Most of the Jehol fossils from the Yixian Formation are preserved in four beds, that is, the Lujiatun bed (recalculated age is 124.0 ± 1.0/1.3 Ma, He et al., 2006), the Jianshangou bed (125.43 ± 0.50/0.88 Ma, Swisher et al., 1999), the Dawangzhangzi bed, and Jinggangshan bed (~122 Ma, Smith et al., 1995).U-Pb dating suggests that the Huangbanjigou section ranges from 124.9 ± 1.7 Ma to 122.8 ± 1.6 Ma (Yang et al., 2007). Chang et al. (2017) obtained Ar/Ar ages of 125.8 ± 1.0 Ma and 126.0 ± 0.8 Ma from the Lujiatun Unit, the lowest part of the Yixian Formation, below the lacustrine shales.
•He et al. (2004) reported a 40Ar/39Ar age of 120.3 ± 0.7 Ma for a tuff layer in the lower part of the Jiufotang Formation, and Chang et al. (2009) obtained a 40Ar/39Ar age of 122.1 ± 0.3 Ma for a tuff layer from the lowermost part of the Jiufotang Formation. Yu et al. (2021) dated an ash bed just above the Yixian/Jiufotang formation boundary to 122.0 ± 0.9 Ma and three tuff beds from the Xiaotaizi section to 118.9 ± 0.8 Ma, 118.8 ± 0.6 Ma, and 118.6 ± 1.1 Ma. These ages suggest that the Jiufotang Formation in Jianchang Basin was deposited at ca. 122.0–118.9 Ma.
•Olierrok et al. (2019) used a selection of U-Pb and 40Ar-39Ar geochronology to place the Barremian–Aptian boundary (the base of the Chron M0r) between 123.8 and 121.8 Ma. The GTS 2020 uses an age of 121.4 Ma for the base of the Aptian, and multiproxy orbital tuning gives an age of 120.2 Ma for the Barremian-Aptian boundary (Leandro et al., 2022). Therefore, the Yixian Formation should be entirely Late Barremian, with the Jiufotang Formation deposited in the Early Aptian (or latest Barremian at its base).
• bed-level stratigraphic resolution
Environment/lithology: lacustrine - large; lithified, tuffaceous mudstone
Size classes: macrofossils, mesofossils
Preservation: adpression
Collection methods: Material at Capital Normal University, Beijing
Primary reference: B. L. Zhang, D. Ren, and H. Pang. 2008. New dragonflies (Insecta: Odonata: Gomphaeschnidae) from the Yixian Formation in Inner Mongolia, China. Progress in Natural Science 18:59-64 [M. Clapham/M. Clapham]more details
Purpose of describing collection: taxonomic analysis
PaleoDB collection 125656: authorized by Matthew Clapham, entered by Matthew Clapham on 15.03.2012
Creative Commons license: CC BY (attribution)
Taxonomic list
Insecta | |
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Sophoaeschna frigida n. gen. n. sp., Falsisophoaeschna generalis n. gen. n. sp.
Falsisophoaeschna generalis n. gen. n. sp. Zhang et al. 2008 true dragonfly CNUOD- NN2004065-1,2 Part and Counter Part
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Cimbrophlebia rara n. sp.12
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Trapezitergum grande n. gen. n. sp.18
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Cretodascillus sinensis n. gen. n. sp.3
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Antiqusolidus maculatus n. gen. n. sp.7
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Pulcherhybosorus tridentatus n. gen. n. sp.13
Pulcherhybosorus tridentatus n. gen. n. sp.13 Yan et al. 2012 scavenger scarab beetle CNU-COL-NN2011002
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Thayeralinus glandulifer n. sp.9, Thayeralinus giganteus n. sp.9, Paleowinus fossilis n. sp.9, Paleowinus chinensis n. sp.9, Paleowinus mirabilis n. sp.9
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Oregramma sp.16, Oregramma aureolusa n. sp.16, Ithigramma sp.16, Ithigramma multinervia n. gen. n. sp.16
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Ghilarella elegantula n. sp.6
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Acephialtitia colossa n. gen. n. sp.5
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Flexicorpus acutirostratus17 Yao et al. 2014 true bug CNU-Het-IN2010081, 173 (not sure if two "173" specimens are different)
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Cretophasmomima melanogramma n. sp.11
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Sinochresmoda magnicornia n. gen. n. sp.19
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