2016年1月—2020年12月，云南大学古生物研究院发表SCI论文69篇，英文专著一部，包括Nature（2篇）、Nature Communications（2篇）、Nature Ecology & Evolution（1篇）、PNAS（2篇）、Science Bulletin（2篇）、Current Biology（5篇）、Earth-Science Reviews（2篇）影响因子≥9的期刊论文16篇。

专著：

1. Hou, X.G., Aldridge, D., Siveter, D.J., Siveter, D.J., Cong, P.Y., Gabbott, S., Ma, X.Y., Purnell, M., Williams, M., 2017. The Cambrian Fossil of Chengjiang, China – The flowering of early animal life. Wiley Blackwell.

2020

2. Chen, H., Legg, D.A., Zhai, D.Y., Liu, Y., Hou, X.G., 2020. New data on the anatomy of fuxianhuiid arthropod Guangweicaris spinatus from the lower Cambrian Guanshan Biota, Yunnan, China. Acta Palaeontologica Polonica, 65(1): 139–148.

3. Chen, H., Parry, L.A., Vinther, J., Zhai, D.Y., Hou, X.G., Ma, X.Y., 2020. A Cambrian crown annelid reconciles phylogenomics and the fossil record. Nature, 583: 249–252.

4. Du, K.S., Ortega-Hernández, J., Yang, J., Yang, X.Y., Guo, Q.H., Li, W., He, J.F., Li, K.R., Du, J.L., Hou, J.B., Zhang, X.G., 2020. A new early Cambrian Konservat-Lagerstätte expands the occurrence of Burgess Shale-type deposits on the Yangtze Platform. Earth-Science Reviews, 211: 103409.

5. Feng, Z., Wei, H.B., Guo, Y., He, X.Y., Sui, Q., Zhou, Y., Liu, H.Y., Gou, X.D., Lv, Y., 2020. From rainforest to herbland: New insights into land plant responses to the end-Permian mass extinction. Earth-Science Reviews, 204: 103153.

6. Feng, Z., Wei, H.B., Ye, R.H., Sui, Q., Gou, X.D., Guo, Y., Liu, L.J., Yang, S.L., 2020. Latest Permian peltasperm plant from Southwest China and its paleoenvironmental implications. Frontiers in Earth Science, 8: 559430.

7. Guo, Y., Zhou, Y., Pšenička, J., Bek, J., Yang, S.L., Feng, Z., 2020. Reinvestigation of the marattialean Zhutheca densata (Gu et Zhi) Liu, Li et Hilton from the Lopingian of Southwest China, and its evolutionary implications. Review of Palaeobotany and Palynology, 282: 104310.

8. He, X.Y., Wang, S.J., Hilton, J., Galtier, J., Jiang, H.G., 2020. An advanced species of the fern Botryopteris Renault from the Permian of southwestern China. Review of Palaeobotany and Palynology, 273: 104136.

9. Howard, R.J., Hou, X.G., Edgecombe, G.D., Salge, T., Shi, X.M., Ma, X.Y., 2020. A tube-dwelling early Cambrian Lobopodian. Current Biology, 30: 1529–1536.

10. Jin, C.S., Liao, Z.W., Tang, Y.J., 2020. Sea-level changes control organic matter accumulation in the Longmaxi shales of southeastern Chongqing, China. Marine and Petroleum Geology, 119: 104478.

11. Jin, C.S., Li, C., Algeo, T.J., Wu, S.Y., Cheng, M., Zhang, Z.H., Shi, W., 2020.Controls on organic matter accumulation on the early-Cambrian western Yangtze Platform, South China. Marine and Petroleum Geology, 111: 75–87.

12. Li, Y., Williams, M., Harvey, T.H.P., Wei, F., Zhang, Y., Guo, J., Gabbott, S., Fletcher, T., Hou, X.G., Cong, P.Y., 2020. Symbiotic fouling of Vetulicola, an early Cambrian nektonic animal. Communications Biology, 3: 517.

13. Liao, H.Y., Lian, X.N., Gao, J., Cai, C.Y., Feng, Z., Huang, D.Y., 2020. Discovery of Pemphilimnadiopsis cheni (Branchiopoda: Diplostraca: Spinicaudata) from the Benxi Formation in Taiyuan, North China and its stratigraphic significance. Palaeoentomology, 3(6): 578–581.

14. Liao, H.Y., Cai, C.Y., Shen, Y.B., Sun, X.Y., Huang, D.Y., 2020. An Early Cretaceous branchiopod community in northeastern China: Discovery of daphniid (Cladocera: Anmopoda) ephippia in the early assemblage of the Jehol Biota. Cretaceous Research, 113: 104491.

15. Liu, H.Y., Wei, H.B., Chen, J., Guo, Y., Zhou, Y., Gou, X.D., Yang, S.L., Labandeira, C., Feng, Z., 2020. A Latitudinal gradient of plant–insect interactions during the late Permian in terrestrial ecosystems? New evidence from Southwest China. Global and Planetary Change, 192: 103248.

16. Liu, Y., Ortega-Hernández, J., Zhai, D.Y., Hou, X.G., 2020. A reduced labrum in a Cambrian great-appendage euarthropod. Current Biology, 30: 3057–3061.

17. Peyre de Fabrègues C., Bi S. D., Li H. Q., Li G., Yang L., Xu X. 2020. A new species of early-diverging Sauropodiformes from the Lower Jurassic Fengjiahe Formation of Yunnan Province, China. Scientific Reports, 10: 10961.

18. Yang, X.F., Kimmig, J., Lieberman, B.S., Peng, S.C., 2020. A new species of the deuterostome Herpetogaster from the early Cambrian Chengjiang biota of South China. The Science of Nature, 107: 37.

19. Zhao, J., Li, Y.J., Selden, P.A., Cong, P.Y., 2020. New occurrence of the Guanshan Lagerstätte (Cambrian Series 2, Stage 4) in the Kunming area, Yunnan, southwest China, with records of new taxa. Alcheringa, 44(3): 343–355.

 2019

20. Audo, D., Robin, N., Luque, J., Krobicki, M., Haug, J.T., Haug, C., Jauvion, C., Charbonnier, S., 2019. Palaeoecology of Voulteryon parvulus (Eucrustacea, Polychelida) from the Middle Jurassic of La Voulte-sur-Rhône Fossil-Lagerstätte (France). Scientific Reports, 9: 5332.

21. Audo, D., Schweigert, G., Charbonnier, S., 2019. A geographically and stratigraphically widespread genus of polychelidan lobsters. Annales de Paléontologie, 106(2): 102376.

22. Chen, J.B., Zhao, L.S., Algeo, T.J., Zhou, L., Zhang, L., Qiu, H., 2019. Evaluation of paleomarine redox conditions using Mo-isotope data in low-[Mo] sediments: a case study from the Lower Triassic of South China. Palaeogeography, Palaeoclimatology, Palaeoecology, 519: 178–193.

23. Chen, X.H., Ortega-Hernández, J., Wofe, J.M., Zhai, D.Y., Hou, X.G., Chen, A., Mai, H.J., Liu, Y., 2019. The appendicular morphology of Sinoburius lunaris and the evolution of the artiopodanclade Xandarellida (Euarthropoda, early Cambrian) from South China. BMC Evolutionary Biology, 19: 165.

24. Feng, Z., Bertling, M., Noll, R., Ślipiński, A., Rößler, R., 2019. Beetle borings in wood with host response in early Permian conifers from Germany. Paläontologische Zeitschrift, 93(3): 409–421.

25. He, X.Y., Wang, S.J., Wang, J., Hilton, J., 2019. The anatomically preserved tripinnate frond Rothwellopteris pecopteroides gen. et sp. nov. from the latest Permian of south china: timing the stem to crown group transition in Marattiales. International Journal of Plant Sciences, 180(8): 869–881.

26. Hou, J.B., Yang, J., Zhang, X.G., Huges, N.C., Lan, T., 2019. Trilobite-based biostratigraphy of the Xiaoshiba Lagerstätte. Fossils and Strata, 64: 173–191.

27. Jin, C.S., Li, C., Algeo, T.J., Wu, S.Y., Cheng, M., Zhang, Z.H., Shi, W., 2019. Controls on organic matter accumulation on the early-Cambrian western Yangtze Platform, South China. Marine and Petroleum Geology, 111:75–87.

28. Liao, H.Y., Shen, Y.B., Gao, J., Huang, D.Y., 2019. Pemphilimnadiopsis cheni sp. nov. (Branchiopoda: Diplostraca: Spinicaudata) from the Upper Carboniferous of East Hebei, China and its biostratigraphic significance. Palaeoentomology, 2: 381–389.

29. Liao, H.Y., Shen, Y.B., Huang, D.Y., 2019. Serrated microstructures on carapaces of Eosestheria (Branchiopoda: Diplostraca) in the Early Cretaceous Jehol Biota and discussion on the taxonomic value of these structures. Cretaceous Research, 95: 310–317.

30. Wang, X.X., Huang, X.Y., 2019. Paleohydrological changes in southeastern China from 13.1 to 2.5 ka based on a multi-proxy peat record. Palaeogeography, Palaeoclimatology, Palaeoecology, 534: 109282.

31. Wei, F., 2019. Conch size evolution of Silurian–Devonian tentaculitoids. Lethaia, 52(4): 454–463.

32. Wei, F., Zong, R.W., Gong, Y.M., 2019. Tentaculitids and their evolutionary significance in the Early Devonian Dashatian section, South China. Palaeobiodiversity and Palaeoenvironments, 99: 7–28.

33. Wei, H.B., Gou, X.D., Yang, J.Y., Feng, Z., 2019. Fungi–plant–arthropods interactions in a new conifer wood from the uppermost Permian of China reveal complex ecological relationships and trophic networks. Review of Palaeobotany and Palynology, 271: 104100.

34. Wible, J.R., Shelley, S.L., Bi, S.D., 2019. New genus and species of Djadochtatheriid multituberculate (Allotheria, Mammalia) from the Upper Cretaceous Bayan Mandahu Formation of Inner Mongolia. Annals of Carnegie Museum, 85(4): 285–327.

35. Xu, X., Gou, X.D., Wan, S., Liu, H.Y., Wei, H.B., Liu, J.R., Ding, J.H., Yang, B., Shu, Y.P., Hua, Y.P., Feng, Z., 2019. Anomozamites (Bennettitales) in China: species diversity and temporo-spatial distribution. Palaeontographica Abteilung B Palaeobotany, 300(1–6): 21–46.

36. Yang, J., Ortega-Hernández, J., Harriet, B.D., Du, K.S., Zhang, X.G., 2019. Ecdysis in a stem-group euarthropod from the early Cambrian of China. Scientific Reports, 9: 5709.

37. Yang, Y., He, X.Y., Hilton, J., Zhao, F.G., Chen, X.S., Wang, S.J., 2019. Xuanweioxylon damogouense sp. nov. a gymnosperm stem from the Lopingian (late Permian) of southwestern China and its systematic and paleoecological implications. Review of Palaeobotany and Palynology, 269: 94–103.

38. Zhai, D.Y., Edgecombe, G.D., Andrew, D.B., Mai, H.J., Hou, X.Y., Liu, Y., 2019. Fine-scale appendage structure of the Cambrian trilobitomorph Naraoia spinosa and its ontogenetic and ecological implications. Proceedings of the Royal Society B, Biological Sciences, 286(1916): 20192371.

39. Zhai, D.Y., Williams, M., Siveter, D.J., Harvey, T.H.P., Sansom, R.S., Gabbott, S.E., Siveter, D.J., Ma, X.Y., Zhou, R.Q., Liu, Y., Hou, X.G., 2019. Variation in appendages in early Cambrian bradoriids reveals a wide range of body plans in stem-euarthropods. Communications Biology, 2(1): 329.

40. Zhao, Y., Vinther, J., Parry, L.A., Wei, F., Green, E., Pisani, D., Hou, X.G., Edgecombe, G.D., Cong, P.Y., 2019. Cambrian sessile, suspension feeding stem-group ctenophores and evolution of the comb jelly body plan. Current Biology, 29(7): 112–125.

41. 魏凡，2019．滇东肖滩阶顶部“生屑磷块岩”研究．地层学杂志，43(2)：188–197．

 2018

42. Bi, S.D., Zheng, X.T., Wang, X.L., Natalie, E.C., Yang, S.L., John, R.W., 2018. An Early Cretaceous eutherian and the placental–marsupial dichotomy. Nature, 558(7710): 390–395.

43. Cong, P.Y., Edgecombe, G.D., Daley, A.C., Guo, J., Pates, S., Hou, X.G., 2018. New radiodonts with gnathobase-like structures from the Cambrian Chengjiang biota and implications for the systematics of Radiodonta. Papers in Palaeontology, 4(4): 605–621.

44. Cong, P.Y., Harvey, T.H.P., Williams, M., Siveter, D.J., Siveter, D.J., Gabbott, S.E., Li, Y.D., Wei, F., Hou, X.G., 2018. Naked chancelloriids from the lower Cambrian of China: evidence for sponge-type growth. Proceedings of the Royal Society B, Biological Sciences, 285(1881): 20180296.

45. Du, K.S., Ortega-Hernández, J., Yang, J., Zhang, X.G., 2018. A soft-bodied euarthropod from the early Cambrian Xiaoshiba Lagerstätte of China supports a new clade of basal artiopodans with dorsal ecdysial sutures. Cladistics, 35: 269–281.

46. Feng, Z., Wei, H.B., Guo, Y., Bomfleur, B., 2018. A conifer-dominated Early Triassic flora from Southwest China. Science Bulletin, 63(22): 1462–1463.

47. Guo, J., Pates, S., Cong, P.Y., Daley, A.C., Edgecombe, G.D., Chen, T.M., Hou, X.G., 2018. A new radiodont (stem Euarthropoda) frontal appendage with a mosaic of characters from the Cambrian (Series 2 Stage 3) Chengjiang Biota. Papers in Palaeontology, 5(1): 99–110.

48. Hou, X.G., Williams, M., Sansom, R.S., Derek, J.S., David, J.S., Gabbott, S.E., Harvey, T.H.P., Cong, P.Y., Liu, Y., 2018. A new xandarellid euarthropod from the Cambrian Chengjiang Biota, Yunnan Province, China. Geological Magazine, 156(8): 1375–1384.

49. Jin, C., Li, C., Algeo, T.J., O’Connell, B., Cheng, M., Shi, W., Shen, J., Planavsky, N.J., 2018. Highly heterogeneous “poikiloredox” conditions in the early Ediacaran Yangtze Sea. Precambrian Research, 311: 157–166.

50. Lan, T., Yang, J., Zhang, X.G., Hou, J.B., 2018. A new macroalgal assemblage from the Xiaoshiba Biota (Cambrian Series 2, Stage 3) of southern China. Palaeogeography, Palaeoclimatology, Palaeoecology, 499: 35–44.

51. Li, Y.J., Williams, M., Gabbott, S.E., Cong, P.Y., Hou, X.G., 2018. The enigmatic metazoan Yuyuanozoon magnificissimi from the early Cambrian Chengjiang Biota, Yunnan Province, South China. Journal of Paleontology, 92(6): 1081–1091.

52. Qi, C.S., Li, C., Gabbott, S.E., Ma, X.Y., Xie, L.H., Deng, W.F., Jin, C.S., Hou, X.G., 2018. Influence of redox conditions on animal distribution and soft-bodied fossil preservation of the Lower Cambrian Chengjiang Biota. Palaeogeography, Palaeoclimatology, Palaeoecology, 507: 180–187.

53. Yang, J., Ortega-Hernández, J., David, A.L., Lan, T., Hou, J.B., Zhang, X.G., 2018. Early Cambrian fuxianhuiids from China reveal origin of the gnathobasic protopodite in euarthropods. Nature Communications, 9: 470.

54. Zhai, D.Y., Ortega-Hernández, J., Wolfe, J.M., Hou, X.G., Cao, C.J., Liu, Y., 2018. Three-dimensionally preserved appendages in an early Cambrian stem-group pancrustacean. Current Biology, 29: 171–177.

55. 冯卓，2018．古生代植物与昆虫相互作用的化石证据——探秘深时陆地生态系统的窗口．报科技导报，36(23)：36–41．

 2017

56. Cong, P.Y., Daley, A.C., Edgecombe, G.D., Hou, X.G., 2017. The functional head of the Cambrian radiodontan (stem-group Euarthropoda) Amplectobelua symbrachiata. BMC Evolutionary Biology, 17: 208.57. Cong, P.Y., Ma, X.Y., Williams, M., 57. Siveter, D.J., Siveter, D.J., Gabbott, S.E., Zhai, D.Y., Goral, T., Edgecombe, G.D., Hou, X.G., 2017. Host-specific infestation in early Cambrian worms. Nature Ecology & Evolution, 1(10): 1465–1469.

58. Feng, Z., 2017. The late Palaeozoic plants. Current Biology, 27(17): R905–R909.

59. Feng, Z., Lv, Y., Guo, Y., Wei, H.B., Kerp, H., 2017. Leaf anatomy of a late Paleozoic cycad. Biology Letters, 13(11): 20170456.

60. Feng, Z., Wang, J., Rößler, R., Ślipiński, A., Labandeira, C., 2017. Late Permian wood-borings reveal an intricate network of ecological relationships. Nature Communications, 8: 556.

61. He, Y.Y., Cong, P.Y., Liu, Y., Edgecombe, G.D., Hou, X.G., 2017. Telson morphology of Leanchoiliidae (Arthropoda: Megacheira) highlighted by a new Leanchoilia from the Cambrian Chengjiang Biota. Alcheringa, 41(4): 581–589.

62. Hou, J.B., Hughes, N.C., Yang, J., Lan, T., Zhang, X.G., Dominguez, C., 2017. Ontogeny of the articulated Yiliangellinine trilobite Zhangshania typica from the lower Cambrian (Series 2, Stage 3) of southern China. Journal of Paleontology, 91(1): 86–99.

63. Liao, H.Y., Oscar, F.G., Shen, Y.B., Edmund, A.J., Huang, D.Y., 2017. A new afrograptid (Diplostraca: Estheriellina) from the Lower Cretaceous of southern England. Cretaceous Research, 71: 79–84.

64. Liao, H.Y., Shen, Y.B., Huang, D.Y., 2017. Conchostracans of the Middle–Late Jurassic Daohugou and Linglongta beds in NE China. Palaeoworld, 24(2): 317–330.

65. Yang, J.Y., Shen, J.J., Xu, X., Chen, Y.X., Wei, H.B., Kerp, H., Feng, Z., 2017. The bark anatomy of Ningxiaites specialis from the late Permian of China. Review of Palaeobotany and Palynology, 240: 11–21.

66. Zhai, D.Y., Smith, R.J., Peng, P., Yu, N., Ma, S.X., Li, X.Z., 2017. Cluster analyses of Ostracoda based on dimensions of body structures: Implications for taxonomic Classification. Crustaceana, 90(4): 471–502.

67. 吴迪，刘煜，赵婷，陈红，侯先光，2017．关山生物群中始海百合化石的再研究．古生物学报，56(4)：504–515．

68. 赵婷，侯先光，翟大有，吴迪，陈红，臧少刚，刘煜，2017．显微镜CT技术在澄江生物群节肢动物研究中的应用——以Misszhouia longicaudata为例．古生物学报，56(4)：476–482．

 2016

69. Cong, P.Y., Daley, A.C., Edgecombe, G.D., Hou, X.G., Chen, A., 2016. Morphology of the radiodontan Lyrarapax from the early Cambrian Chengjiang Biota. Journal of Paleontology, 90(4): 663–671.

70. Hou, X.G., Williams, M., Gabbott, S., Siveter, D.J., Siveter, D.J., Cong, P.Y., Ma, X.Y., Sansom, R., 2017. A new species of the artiopodan arthropod Acanthomeridion from the lower Cambrian Chengjiang Lagerstatte, China, and the phylogenetic significance of the genus. Journal of Systematic Palaeontology, 15(9): 733–740.

71. Jiao, D.G., Yang, J., Zhang, X.G., 2016. A superarmoured lobopodian from the Cambrian Stage 4 of southern China. Science Bulletin, 61(17): 1372–1376.

72. Liu, Y., Melzer, R.R., Haug, J.T., Haug, C., Briggs, D.E.G., Hörnig, M.K., He, Y.Y., Hou, X.G., 2016. Three-dimensionally preserved minute larva of a great-appendage arthropod from the early Cambrian Chengjiang Biota. Proceedings of the National Academy of Sciences, USA, 113(20): 5542–5546.

73. Strausfeld, N.J., Ma, X.Y., Edgecombe, G.D., Fortey, R.A., Land, M.F., Liu, Y., Cong, P.Y., Hou, X.G., 2016. Arthropod eyes: The early Cambrian fossil record and divergent evolution of visual systems. Arthropod Structure & Development, 45(2): 152–172.

74. Wang, X., Huang, X., Sachse, D, W.H., Xue, J.T., 2016. Molecular Paleoclimate Reconstructions over the Last 9 ka from a Peat Sequence in South China. PLOS ONE, 11(9): e0163650.

75. Wang, X., Huang, X., Sachse, D., Hu, Y., Xue, J.T., Meyers, P.A., 2016. Comparisons of lipid molecular and carbon isotopic compositions in two particle-size fractions from surface peat and their implications for lipid preservation. Environmental Earth Sciences, 75(15): 1–13.

76. Yang, J., Hernández, J.O., Butterfield, N.J., Liu, Y., Boyan, G.S., Hou, J.B., Lan, T., Zhang, X.G., 2016. Fuxianhuiid ventral nerve cord and early nervous system evolution in Panarthropoda. Proceedings of the National Academy of Sciences, USA, 113(11): 2988–2993.

77. Yang, J., Hernández, J.O., Hou, J.B., Lan, T., Zhang, X.G., 2016. A predatory bivalved euarthropod from the Cambrian (Stage 3) Xiaoshiba Lagerstätte, South China. Scientific Reports, 6: 27709.

78. Zhang, X.G., Smith, M.R., Yang, J., Hou, J.B., 2016. Onychophoran-like musculature in a phosphatized Cambrian lobopodian. Biology Letters, 12(9): 20160492.

79. 陈宇轩，申佳佳，刘建荣，丁家慧，韦海波，冯卓，2016．中国中生代拟合囊蕨属Marattiopsis（Marattia）的多样性和地质地理分布．古生物学报，55(1)：98–107．