2022 Highlight of IGCP 679
An international working group led by Prof. Vandona Prasad (co-leader of IGCP 679) of Birbal Sahni Institute of Palaeoscience of India discovered: Southeast Asian Dipterocarp origin and diversification driven by Africa-India floristic interchange. This research result was published on Jan. 28, 2022 in Science.
Bansal, M., et al. (2022). Southeast Asian Dipterocarp origin and diversification driven by Africa-India floristic interchange. Science 375(6579): 455–460. https://www.science.org/doi/10.1126/science.abk2177
Dipterocarpaceae are a pantropical, obligate megathermal angiosperm family comprising more than 500 species grouped into three subfamilies with an intercontinental disjunct distribution: Monotoideae inAfrica, Madagascar, and South America; Pakaraimaeoideae in South America; and Dipterocarpoideae in the Seychelles, India, and Southeast Asia. A specific combination of morphological and ecological characteristics determined the ecological success of Dipterocarpoideae and enabled them to out-shade the canopy of other tree families, which led to their dominance in the mature forests of Southeast Asia. So that dipterocarps have been the major source for timber extraction across Southeast Asia over the past 50 years, which has led to their overexploitation and has left many formerly superabundant species critically endangered.
Eight valuable fossil pollen types were recovered from the Late Cretaceous Maastrichtian of Sudan and the Paleocene and early Eocene of India, and are referable to five living genera of the subfamily Dipterocarpoideae (Dipterocarpus, Dryobalanops, Shorea, Vateriopsis, andVatica) and one genus of the subfamily Monotoideae (Monotes). This research suggests that Dipterocarpaceae ranks the family as one of the first obligate megathermal eudicot clades to originate in the mid-Cretaceous (102.9 Ma) of Africa, and diversified to Dipterocarpoideae at ~94.6 Ma and Monotoideae with at 72.1 Ma in adapting to tropical wet seasonal and dry seasonal habitats, respectively. Further diversification in Dipterocarpoideae corresponded with the development of more wet seasonal and perhumid climates across tropical Africa since the Santonian-Coniacian, and they may have contributed to the first multistoried rainforests. ith the northward shift journey of the India plate, Dipterocarpoideae first dispersed to India. The Cenozoic finalcollision of India with Eurasian continent aided their dispersal and diversification in Asian tropical forests.
IGCP 679 Publication list 2023 :
Research papers
1) Abdel Gawad, M.K., P rez-Garc a, A., Hirayama, R., Mohesn, S., Tantawy, A., and Abu El-Kheir, G. (2023). The First Side-Necked Turtle (Pleurodira, Bothremydidae) from the Campanian (Late Cretaceous) of Egypt. Diversity 15, 284; 1-11. https://doi.org/10.3390/d15020284
2) Abioui, M., Abia, E.H., Benssaou, M., Bessa, A.Z.E., Abdelrahman, K., 2023. Iron–Titanium sands of the Atlantic beaches between Tan-Tan and Tarfaya (southwest Morocco): Characterisation and origin. Proceedings of the Geologists' Association.
3) Amiot, R., Golovneva, L.B., Godefroit, P., Goedert, J., Garcia, G., L cuyer, C., Fourel, F., Herman, A.B., Spicer, R.A., 2023. High-Latitude Dinosaur Nesting Strategies during the Latest Cretaceous in North-Eastern Russia. Diversity 15, 565. https://doi.org/10.3390/d15040565
4) Bajpai, S., Datta, D., Pandey, P., Ghosh, T., Kumar, K., Bhattacharya, D., 2023. Fossils ofthe oldestdiplodocoid dinosaur suggest India was a major centre for neosauropod radiation. Scientific Reports, 13(1), 12680.
5) Brazeau, M.D., Yuan, H., Giles, S., Jerve, A.L., Zorig, E., Ariunchimeg, Y., Sansom, R.S., Atwood, R.C., 2023. A well-preserved ‘placoderm’ (stem-group Gnathostomata) upper jaw from the Early Devonian of Mongolia clarifies jaw evolution. Royal Society Open Science 10:221452.
6) Buffetaut, E., Angst, D., Tong, H., 2023. A new enantiornithine bird from Upper Cretaceous non-marine deposits at Villespassans (H rault, southern France). Annales de Pal ontologie 109, 102585. https://doi.org/10.1016/j.annpal.2022.102585
7) Cavin, L., Tong, H., Buffetaut, E., Wongko, K., Suteethorn, V., Deesri, U., 2023. The First Fossil Coelacanth from Thailand. Diversity 15, 286. https://doi.org/10.3390/d15020286
8) Choi, S.,Kim,H.J., Paik, I.S., Park, Y., Jung, H.M., Xu, X., 2023, Turtle eggs from the Lower Cretaceous Hasandong Formation (South Korea) with relict aragonite under significant thermal maturity. Journal of Vertebrate Paleontology, DOI: 10.1080/02724634.2023.2183866.
9) Choi, Y., Gihm, Y.S., 2023. Post-collisional sedimentation of the Early Mesozoic Munamdong Formation in South Korea. Geological Journal 58: 224–246. https://doi.org/10.1002/gj.4588
10) Colocar, R.D.A.,De Leo, H.R.R., Pagbilao, V.T.M., Arpa, M.C.B., Quea?o, K.L., 2023. Characterization of the Angat Ophiolite: New insights from bulk major and trace element geochemistry and petrographic analysis. Journal of Physics: Conference Series, IOP Publishing, Volume 2621, Article 012006. Doi:10.1088/1742-6596/2621/1/012006. 2023
11) Colpaert, C.P.A.-M., Li, G., 2023. Upper Jurassic to Lower Cretaceous benthic foraminifera from South Tibet (Tethyan Himalayas): Systematic, biostratigraphic, and palaeoecologic implications. Revue de Micropal ontologie 78: 100713. https://doi.org/10.1016/j.revmic.2023.100713
12) Dhiman, H., Verma, V., Singh, L.R., Miglani, V., Jha, D.K., Sanyal, P., Tandon, S.K., Prasad, G.V.R. 2023. New Late Creatceous titanosaur sauropod dinosaur egg clutches from lower Narmada valley, India: Palaeobiology and taphonomy. Plos One, 18(1), e0278242.
13) Efremenko, V.D., 2023. Experience of application of statistical methods to assess the taxonomical and morphological diversity of the Early Cretaceous belemnites in Northern Siberia. Geology and mineral resources of Siberia N 3 (55), 89–100 (In Russian, English astract).
14) Frau, C., 2023a. The systematic affinities between the Lower Cretaceous Ammonoidea Protacanthoplites abichi (Anthula, 1900) and Acanthohoplites aschiltaensis (Anthula, 1900). European Journal of Taxonomy 888, 137–158. https://doi.org/10.5852/ejt.2023.888.2237
15) Frau, C., 2023b. Upper Aptian ammonites from Roussillon, southern France. Fossil Imprint 79, 89–101.
16) Frau, C., Bryers, O., Redfern, J., 2023a. The first record of the extinct nautiloid Aulaconautilus Spath, 1927 (Pseudonautilidae, Nautilida) in the lower Cretaceous of the Morocco Atlantic margin. Journal of African Earth Sciences 105107. https://doi.org/10.1016/j.jafrearsci.2023.105107
17) Frau, C., Bulot, L.G., 2023a. What’s behind a name: The taxonomic status of Helicancylus Gabb, 1869 and Hamiticeras Anderson, 1938 (Ammonoidea, Lower Cretaceous). Journal of Paleontology 97, 566–576. https://doi.org/10.1017/jpa.2023.15
18) Frau, C., Bulot, L.G., 2023b. An account of the lower Aptian ammonites of the Niveau Goguel (= OAE 1a) in the Vocontian Basin, SE France. Cretaceous Research 149, 105556. https://doi.org/10.1016/j.cretres.2023.105556
19) Frau, C., Delanoy, G., Baudouin, C., 2023b. A new insight into the lower Aptian Roloboceratinae Casey, 1961 (Douvilleiceratidae, Ammonoidea) from southern France. STRATA, s rie 2e 59, 1–21.
20) Frau, C., Fuhr, M., 2023. Arpavoniceras buloti gen. et sp. nov.; a new lower Hauterivian heteromorphic ammonoid from southern France and its place in the evolution of Cretaceous ammonites. Cretaceous Research 151, 105628. https://doi.org/10.1016/j.cretres.2023.105628
21) Frau, C., Tendil, A.J.B., Lanteaume, C., 2023c. New insights into the Platform-to-basin Anatomy of the Urgonian Bas-Vivarais Domain (Lower Cretaceous; SE France). Journal of Geography, Environment and Earth Science International 27, 19–47. https://doi.org/10.9734/jgeesi/2023/v27i9703
22) Garilli, V., Corrao, M., Grippi, S., Leotta, C., Sorbello, G., Galletti, L., Cillari, A., Guzzetta, D., Pollina, F., Sander, P.M., Buffetaut, E., 2023. Ground Penetrating Radar to detect dinosaur bones within a Cretaceous hard limestone in Sicily. Cretaceous Research 150, 105582.https://doi.org/10.1016/j.cretres.2023.105582
23) Ghosh, T., Bajpai, S., Kumar, K., Maurya, A. S., Bhattacharya, D., 2023. First Early Cretaceous sharks from India. Historical Biology, 1–9.
24) Ghoshmaulik, S., Bhatacharya, S.K., Hazra, M., Roy, P., Khan, M.L., Liang, M.C., Lizuka, Y., Hsiao, S-Y, Lee, D.G., Sarkar, A. 2023. Triple oxygen isotopes in intertrappean fossil woods: Evidence of higher tropical rainfall during Deccan Volcanism. Chemical Geology 634, 121599.
25) Gihm Y. S., 2023. Physical and chemical depositional processes when volcanoes meet lacustrine environments: the Cretaceous Imjado Volcanics, Jeungdo, southwestern Korea. Geological society special publication 520: 491–506.
26) Guinot, G., Hautier, L., Sambou, B.S., Sarr, R., Martin, J.E., 2023. The Upper Cretaceous elasmobranch fauna from Senegal. Cretaceous Research 146, 105480. https://doi.org/10.1016/j.cretres.2023.105480
27) Hong, S.Y., Lee, Y.N., Kong, D.Y., Jung, S.H., 2023. The discovery ofWupus agilisin South Korea and a new quantitative analysis of intermediate ichnospecies between non-avian theropods and birds. Cretaceous Research, 105785. https://doi.org/10.1016/j.cretres.2023.105785
28) Ito, T., Matsuoka, A., Yokoyama, H., 2023, Spirally-Coiled Radiolarians in the Latest Jurassic-Earliest Cretaceous. Paleontological Research, 28 (1), 68–70.
29) Kapur, V.V., Sagar, R., Kumar, K., Chadha, A.S., Lourembam, R.S., Mishra, A., Sharma, A., 2023. Palaeobiological and geochemical aspects of reptilian coprolites from Maastrichtian Deccan volcano-sedimentary intertrappean deposits of central India. ESS open archive. DOI: 10.22541/essoar.168167286.66007656/v1
30) Kim, D.H., Lee, Y.N., Ko, H., Park, J.Y., Kim, S.H., Lee, S., Jung, S.H., Kong, D.Y., 2023. The firstadocid turtle in South Korea (Lower Cretaceous) and the early evolution of the Adocidae. Cretaceous Research 151:105665. https://doi.org/10.1016/j.cretres.2023.105665
31) Kosenko I.N., Pestchevitskaya E.B., Efremenko V.D., Metelkin E.K., Yan P.A., Rodchenko A.P., Nikitenko B.L., Mirzabaev D.A., 2023. Turga Lagerstatte (Middendorf's Outcrop, Eastern Transbaikalia, Barremian-Aptian): Stratigraphic Range and Palaeoenvironments. Russian Geology and Geophysics 64(11), 1358–1358.
32) Kubo, K., Kobayashi, Y., Chinzorig, T., Tsogtbaatar, K., 2023. A new alvarezsaurid dinosaur (Theropoda, Alvarezsauria) from the Upper Cretaceous Baruungoyot Formation of Mongolia provides insights for bird-like sleeping behavior in non-avian dinosaurs. PLOS ONE 18:e0293801. https://doi.org/10.1371/journal.pone.0293801
33) Kumar, S., Hazra, T, Spicer, R.A., Hazra, M., Spicer, T.E.V., Bera, S., Khan, M.A., 2023.Coryphoid palms from the K-Pg boundary of central India and their biogeographical implications: Evidence from megafossil remains. Plant Diversity 45: 80-97.
34) Latif, M.A.U., Ehsan, M., Ali, M., Ali, A., Bessa, A.Z.E., Abioui, M., 2023. The assessment of reservoir potential of Permian to Eocene reservoirs of Minwal-Joyamair fields, upper Indus basin, Pakistan. Heliyon 9(6).
35) Lebedeva N.K., 2023. Taxonomic Diversity of Cenomanian–Turonian Dinocysts in the Northern Hemisphere: Some Aspects of Paleobiogeography and Paleoclimatology. Stratigraphy and Geological Correlation 31(3), 186–190.
36) Lee, K., Gihm, Y.S., 2023. Downstream changes in floodplain sedimentation and their effects on channel avulsion in stream-dominated alluvial fans: The cretaceous Duwon Formation in the southern Korean Peninsula. Sedimentary Geology 456, 106473.
37) Lee, K., Gihm, Y.S., 2023. Overbank sedimentation and its influence on channel avulsion: examples of the Cretaceous Tando and Namyang basins in the mid-western part of the Korean Peninsula. Geosciences Journal 27, 531–551.
38) Lee, Y.I., Lee, J.I., Choi, Y.S., 2023. Provenance analysis of the Cretaceous Gyeongsang Basin, SE Korea: A synthesis and tectonic implications for active continental margin tectonics in East Asia. Earth-Science Reviews 238, 104334. https://doi.org/10.1016/j.earscirev.2023.104334R
39) Leila, M, Sen, S., Ganguli, S.S., Moscariello, A., Abioui, M., 2023. Integrated petrographical and petrophysical evaluation for reservoir management of the Upper Miocene Qawasim sandstones in West Dikirnis, onshore Nile Delta, Egypt. Geoenergy Science and Engineering 226: 211789.
40) Lenen, L., Fradet, A., Schaeffer, P., Gomez, B., Adam, P., 2023. Sulfurized diterpenoids in amber as diagenetic indicators of sulfate-reducing processes in past depositional environments. Organic & Biomolecular Chemistry 21, 768–774. https://doi.org/10.1039/D2OB02017C
41) Letulle, T., Gaspard, D., Da?ron, M., Arnaud-Godet, F., Vin?on-Laugier, A., Suan, G., L cuyer, C., 2023. Multi-proxy assessment of brachiopod shell calcite as a potential archive of seawater temperature and oxygen isotope composition. Biogeosciences 20, 1381–1403. https://doi.org/10.5194/bg-20-1381-2023
42) Lourembam, R.S., Dhiman, H., Prasad, G.V.R. 2023. Preservation of Membrana Testacea in titanosaurid dinosaur eggshells from the Upper Cretaceous Deccan volcano-sedimentary strata of Central India. Geological Magazine 160: 361–371. https:// doi.org/10.1017/S0016756822000978
43) Li, G. First Discovery of the Spinicaudatan Genus Carapacestheria Shen, 1994 in Asia. Paleontological Research 28(1), 71-81, (5 April 2023) https://doi.org/10.2517/PR220025
44) Li, G., 2023. New spinicaudatan species (Crustacea) of the Lower Cretaceous (Valanginian–Hauterivian) Jehol Biota from northern Hebei, China. Cretaceous Research 143: 105425. https://doi.org/10.1016/j.cretres.2022.105425
45) Li, G., 2023. Discovery of important taxonomic characters of the type species of the Late Triassic clam shrimp Anyuanestheria (Crustacea: Spinicaudata) from Jiangxi. Acta Palaeontologica Sinica 62(3): 389–397. https://doi.org/10.19800/j.cnki. aps.2022031
47) Li, S., Grasby, S.E., Xing, Y., Jarzembowski, E.A., Wang, Q.F., Zhang, H.C., Wan, X.Q., Wang, B., Mercury contents and isotope ratios in marine and terrestrial archives across the Cretaceous/Paleocene boundary. Earth-Science Reviews: 104635. https://doi.org/10.1016/j.earscirev.2023.104635
48) Li, X., Suzuki, N., Meng, J., Matsuoka, A., Baumgartner, P O., Wang, C., 2023. Constraints on the expanse of Greater India in the Early Cretaceous from radiolarians. Earth and Planetary Science Letters 622, 118413.
49) Lim, V., Buffetaut, E., Tong, H., Cavin, L., Pann, K., Ngoeun, P.P., 2023. The First Dinosaur from the Kingdom of Cambodia: A Sauropod Fibula from the Lower Cretaceous of Koh Kong Province, South-Western Cambodia. Fossils 1, 49–59. https://doi.org/10.3390/fossils1010006
50) Liu, H., Beutel, R.G., Makarov, K.V., Jarzembowski, E.A., Xiao, C.T., Luo, C.H., 2023. The first larval record of Migadopinae (Coleoptera: Adephaga: Carabidae) from mid-Cretaceous Kachin amber, northern Myanmar. Cretaceous Research 142: 105413. https://doi.org/10.1016/j.cretres.2022.105413
51) Liu, H., Makarov, K.V., Jarzembowski, E.A., Xiao, C.P., Luo, C.H., 2023. Cretoloricera electra gen. et sp. nov., the oldest record of Loricerini (Coleoptera: Adephaga: Carabidae: Loricerinae) from mid-Cretaceous Kachin amber. Cretaceous Research 148: 105540. https://doi.org/10.1016/j.cretres.2023.105540
52) Luo, C.H., Poinar, G.O., Xu, C.P., Zhuo, D, Jarzembowski, E.A., Wang, B., 2023. Widespread mermithid nematode parasitism of Cretaceous insects. eLife 12: e86283. https://doi.org/10.7554/eLife.86283
53) Malkani, M.S., 2023. A glance on the Mineral Deposits and Stratigraphic Sequential Variations and Structures in different sections of Indus Basin (Pakistan): New titanosaurian sauropod dinosaurs from the latest Maastrichtian Vitakri Formation of Pakistan. Open Journal of Geology 13, 1069-1138. https://doi.org/10.4236/ojg.2023.1310046
54) Malkani, M.S., 2023. Geology and Mineral Deposits of Saraikistan (South Punjab, Koh Sulaiman Range) of Pakistan: A Tabular Review of Recently Discovered Biotas from Pakistan and Paleobiogeographic Link: Phylogeny and Hypodigm of Poripuchian Titanosaurs from Indo-Pakistan. Open Journal of Geology 13, 900-958.https://doi.org/10.4236/ojg.2023.138040
55) Masse, J.P., Frau, C., Fenerci-Masse, M., 2024. Pachytraga gracilis sp. nov. (Hippuritida, Caprinidae) from the Barremian of the Sub-Alpine region (SE France). Evolutionary and biogeographic implications for the genus Pachytraga Paquier. Cretaceous Research 153, 105706. https://doi.org/10.1016/j.cretres.2023.105706
56) Menkem, E.F., Yem, M., Ndongue, C., Kwetche, P.G.F., Martin, J.E., Ngatcha, B.N., Ekodeck, G.E., 2023. Sedimentary characteristics and geophysical architecture of the Cretaceous Bambalo claystone formation (Mayo Oulo-Lere Basin, North Cameroon). Geosystems and Geoenvironment 2, 100121. https://doi.org/10.1016/j.geogeo.2022.100121
57) Metelkin, E., Kosenko, I., 2023. Aptian–Albian Oysters from the Southwestern Spurs of the Gissar Ridge. Part 3. Genus Oscillopha Malchus. Paleontological Journal 57(5): 491-499.
58) Michel, J., Lanteaume, C., Massonnat, G., Borgomano, J., Tendil, A.J.B., Bastide, F., Frau, C., L onide, P., Rebelle, M., Barbier, M., Danquigny, C., Rolando, J.P., 2023. Questioning carbonate facies model definition with reference to the Lower Cretaceous Urgonian platform (SE France Basin). Bulletin de la Soci t G ologique de France 194, 13. https://doi.org/10.1051/bsgf/2023009
59) Mikul ?, R., Bub k, M., Elbra, T., Ko?? k, M., Pruner, P., Schnabl, P., ?ifnerov , K..,2023., The Jurassic–Cretaceous boundary in the Kurovice section (Southern Moravia, Czech Republic): trace fossils, stable isotopes, and magnetic susceptibility. Ichnos: 1–17.
60) N meth, K., 2023. Volcanic geoheritage in the light of volcano geology. El Hierro Island Global Geopark: Diversity of Volcanic Heritage for Geotourism; D niz-P ez, J., P rez, NM, Eds: 1-24.
61) Nikitenko B.L., Pestchevitskaya E.B., Kashirtsev V.A., Fursenko E.A., Popov A.Yu., Khafaeva S.N., Bragin, V.Yu., 2023. Microfossils, High-Resolution Stratigraphy, Geochemistry and Lithology of the Upper Jurassic and Lower Cretaceous (Urdyuk-Khaya and Paksa Formations) in the Nordvik Peninsula, Anabar Bay, Laptev Sea. Russian Geology and Geophysics 64(11), 1323–1346.
62) Omori, H., Ando, H., Muramiya, Y., Utagawa, F., Kuma, R., Yoshida, H., 2023. Large ammonoid shellbed and huge calcareous concretion bed in shallow-marine fine sandstone of the lower Coniacian Ashizawa Formation, Futaba Group, Northeast Japan. Journal of the Geological Society of Japan 129, 105–124 (in Japanese with English abstract).
63) Pochat-Cottilloux, Y., Perrier, V., Amiot, R., Martin, J.E., 2023a. A peirosaurid mandible from the Albian–Cenomanian (Lower Cretaceous) of Algeria and the taxonomic content of Hamadasuchus (Crocodylomorpha, Peirosauridae). Papers in Palaeontology 9, e1485. https://doi.org/10.1002/spp2.1485
64) Pochat-Cottilloux, Y., Rinder, N., Perrichon, G., Adrien, J., Amiot, R., Hua, S., Martin, J.E., 2023b. The neuroanatomy and pneumaticity of Hamadasuchus (Crocodylomorpha, Peirosauridae) from the Cretaceous of Morocco and its paleoecological significance for altirostral forms. Journal of Anatomy 243, 371–393. https://doi.org/10.1111/joa.13887
65) Qin, Z.H., Xi, D.P., Shi, Z.Y., Wan, X.Q., 2023. Ostracod biostratigraphy of Lower Cretaceous lacustrine sequences in northern Hebei, North China: A revision. Cretaceous Research 141: 105340. https://doi.org/10.1016/j.cretres.2022.105340
66) Qu, J., Jarzembowski, E.A., Xiao, C.T., Luo, C.H., 2023. Trapezioceps longelytrum, a new genus and species of soldier beetle (Coleoptera: Cantharidae) from mid-Cretaceous Kachin amber of northern Myanmar. Cretaceous Research 151: 105654.
67) Rozbaeva, G.L., Agalakov, S.E., Marinov, V.A., Dubrovina, L.A., Loshachenko, Y.V., Smirnova, E.V., Malyshev, N.A., Komissarov, D.K., Igol'nikov, A.E. 2023. A new stratigraphic scheme of the Ryazanian–Aptian strata of the Payakh petroleum accumulation zone. Neftegasovaa geologia. Teoria i practika 18(1) 1–27 (In Russian, English astract).
68) Samant, B., Pronzato, R., Mohabey, D.M., Cubeddu, T., Stocchino, G.A., Jangale, K., Thalal, P., Dhobale, A., Manconi, R. 2023. The oldest birotule-bearing freshwater sponges from the Upper Cretaceous–lower Paleocene Deccan volcanic-associated sediments of India. Acta Palaeontologica Polonica 68 (1): 167–174.
69) Szives, O., Moreno-Bedmar, J.A., Aguirre-Urreta, B., Company, M., Frau, C., L pez-Horgue, M., Pictet, A., Ploch, I., Salazar, C., Barrag n, R., Latil, J.-L., Lehmann, J., Robert, E., Reboulet, S., 2023. Report on the 7th International Meeting of the IUGS Lower Cretaceous Ammonite Working Group, the Kilian Group (Warsaw, Poland, 21st August 2022): State of the art on the current Standard Ammonite Zonation of the Western Tethyan Mediterranean Province. Cretaceous Research 153, 105716. https://doi.org/10.1016/j.cretres.2023.105716
70) Tada, S., Tsuihiji, T., Matsumoto, R., Hanai, T., Iwami, Y., Tomita, N., Sato, H., Tsogtbaatar, K., 2023.Evolutionary process toward avian-like cephalic thermoregulation system in Theropoda elucidated based on nasal structures. Royal Society Open Science 10:220997. https://doi.org/10.1098/rsos.220997
71) Tanabe, M., Aoki, K., Chiba, K., Saneyoshi, M., Kodaira, S., Nishido, H., Mainbayar, B., Tsogtbaatar, K., Ishigaki, S.,2023. Apatite U–Pb dating of dinosaur teeth from the Upper Cretaceous Nemegt Formation in the Gobi Desert, Mongolia: Contribution to depositional age constraints. Island Arc 32:e12488.
72) Teng, X., Li, G., 2023. Clam shrimp Nothocarapacestheria from the Lower Jurassic of the Junggar Basin, northwestern China. Geological Society, London, Special Publications 538(1): SP538-2021-2158. https://orcid.org/0000-0002-5048-5355
73) Tihelka, E., Jarzembowski, E.A., Azar, D., Huang, D.Y., Cai, C.Y., 2023.An unusual artematopodid beetle from Early Cretaceous Wealden amber (Coleoptera: Elateroidea: Artematopodidae). Palaeoentomology 6(5): 455–458-455–458. https://orcid.org/0000-0002-5048-5355
74) Thakre, D., Samant, B., Mohabey, D.M., Manchester, S.R., Sangode, S. 2023. Palynology of the uppermost Cretaceous to lowermost Paleocene Deccan volcanic associated sediments of the Mandla Lobe, Central India. Palynology. https://doi.org/10.1080//01916122.2023.2288669
75) Tong, H., Buffetaut, E., M chin, P., M chin-Salessy, A., Claude, J., 2023. A Solemys Skull from the Late Cretaceous of Southern France. Diversity 15, 58. https://doi.org/10.3390/d15010058
76) Verma, S.K., Bajpai, S., Yadav, R., Roy, A., Abhayanand Singh Maurya, 2023. Potentialfaunal evidence for western epicontinental seaway along the Narmada rift in peninsular India during the latest Cretaceous (Maastrichtian). Cretaceous Research, 105789. https://doi.org/10.1016/j.cretres.2023.105789.
77) Xue, Y., Li, G., Teng, X., 2023. The discovery of clam shrimp (Spinicaudata) from the Hekou Group of Lanzhou, Northwest China: Implications for Taxonomy and Biotratigraphy. Cretaceous Research 155, 105781. https://orcid.org/0000-0002-5048-5355
78) Zhuang, Y.H., Liu, Y., Ran, H., Jarzembowski, E.A., Zhang, Q.Q., 2023.A new species and one new wing type of the iron maiden ants from Kachin amber (Hymenoptera: Formicidae: Zigrasimecia). Cretaceous Research 154: 105742. https://doi.org/10.1016/j.cretres.2023.1057420
79) Zhou, L.J., Wang, H., Jarzembowski, E.A., Xiao, C.T., 2023. A new genus of whip scorpion (Arachnida: Thelyphonida: Thelyphonidae) from mid-Cretaceous Kachin amber of northern Myanmar. Cretaceous Research 153: 105702. https://doi.org/10.1016/j.cretres.2023.1057020
80) Zhou, Z.H., Xi, D.P., Sun, L.X., Zhao, J., Yang, W.S., Ye, Y.Q., Meng, X.Y.. Wan, X.Q., 2023. Late Cretaceous (Santonian to Campanian) Palynological Records and Paleoclimatic Significance from Borehole ZKY2-1, Songliao Basin. Minerals 13(3): 338. https://doi.org/10.3390/min13030338
Edited books
1) Lee, Y.N., Jacobs, L.L., Currie, P.J., Barsbold, R., 2023. Narrative of the Korea-Mongolia International Dinosaur Expedition (KID) 2006-2010 with scientific result. In Lee, Y.N. (ed.), Windows into sauropsid and synapsid evolution (Essays in honor of Louis L. Jacobs). Dinosaur Science Center Press, South Korea, pp. 233-251.
2) Paulina-Carabajal, A., Ulloa-Guaiquin, K., Filippi, L.S., Mendez, A.H.,Lee, Y.N., 2023. First record of an abelisaurid (Dinosauria, Theropoda) natural endocast, and comments on skull roof ornamentation. In: Lee, Y.N. (Ed.), Windows into Sauropsid and Synapsid Evolution. Dinosaur Science Center Press, pp. 130-139.
3) Ryan, M.J., Micucci, L., Rizo, H., Sullivan, C., Lee, Y.N., Evans, D.C., 2023. A new Late Cretaceous leptoceratopsid (Dinosauria: Ceratopsia) from the Oldman Formation (Campanian) of Alberta, Canada. In: Lee, Y.N. (Ed.), Windows into Sauropsid and Synapsid Evolution. Dinosaur Science Center Press, pp. 151-165.
4) Tanaka, K., Zelenitsky, D.K., Therrien, F., Lee, Y.-N., Kubota, K., Kobayashi, Y., Funston, G.F., Tsogtbaatar, K., 2023. Description and review of non-avian dinosaur eggs from Cretaceous deposits of the Mongolian Gobi Desert; pp. 176–210 in Y.-N. Lee (ed.), Windows into sauropsid and synapsid evolution (Essays in honor of Louis L. Jacobs). Dinosaur Science Center Press, South Korea, pp. 176-210.
Popular book:
Bardet, N., Houssaye, A., Jouve, S., Vincent, P., 2023. Ocean Life in the Time of Dinosaurs. Princeton University Press. 208pp
