A? microbialite carbonate crust at the Permian–Triassic boundary in South China, and its palaeoenvironmental significance S Kershaw, T Zhang, G Lan Palaeogeography, Palaeoclimatology, Palaeoecology 146 (1-4), 1-18, 1999 | 246 | 1999 |
Microbialites and global environmental change across the Permian–Triassic boundary: a synthesis S Kershaw, S Crasquin, Y Li, PY Collin, MB Forel, X Mu, A Baud, Y Wang, ... Geobiology 10 (1), 25-47, 2012 | 230 | 2012 |
Relative sea-level fall since the last interglacial stage: Are coasts uplifting worldwide? K Pedoja, L Husson, V Regard, PR Cobbold, E Ostanciaux, ME Johnson, ... Earth-Science Reviews 108 (1-2), 1-15, 2011 | 190 | 2011 |
Classification and geological significance of biostromes S Kershaw Facies 31 (1), 81-91, 1994 | 156 | 1994 |
The applications of stromatoporoid palaeobiology in palaeoenvironmental analysis S Kershaw Palaeontology 41, 509-544, 1998 | 128 | 1998 |
Holocene tectonic uplift patterns in northeastern Sicily: evidence from marine notches in coastal outcrops D Rust, S Kershaw Marine Geology 167 (1-2), 105-126, 2000 | 113 | 2000 |
Parameterization of stromatoporoid shape S Kershaw, R Riding Lethaia 11 (3), 233-242, 1978 | 97 | 1978 |
Modern carbonate ooids preserve ambient aqueous REE signatures F Li, GE Webb, TJ Algeo, S Kershaw, C Lu, AM Oehlert, Q Gong, ... Chemical Geology 509, 163-177, 2019 | 88 | 2019 |
Shallow-marine dysoxia across the Permian–Triassic boundary: evidence from pyrite framboids in the microbialite in South China W Liao, Y Wang, S Kershaw, Z Weng, H Yang Sedimentary Geology 232 (1-2), 77-83, 2010 | 86 | 2010 |
Stromatoporoid palaeobiology and taphonomy in a Silurian biostrome on Gotland, Sweden S KERSHAW Palaeontology 33 (3), 681-705, 1990 | 85 | 1990 |
Stromatoporoid growth form and taxonomy in a Silurian biostrome, Gotland S Kershaw Journal of Paleontology, 1284-1295, 1981 | 78 | 1981 |
Stromatoporoid‐coral intergrowths in a Silurian biostrome S Kershaw Lethaia 20 (4), 371-380, 1987 | 76 | 1987 |
Cavities and cryptic faunas beneath non‐reef stromatoporoids S Kershaw Lethaia 13 (4), 327-338, 1980 | 73 | 1980 |
Early Triassic stromatolites in a siliciclastic nearshore setting in northern Perth Basin, Western Australia: geobiologic features and implications for post-extinction … ZQ Chen, Y Wang, S Kershaw, M Luo, H Yang, L Zhao, Y Feng, J Chen, ... Global and Planetary Change 121, 89-100, 2014 | 69 | 2014 |
Palaeozoic stromatoporoid taphonomy: ecologic and environmental significance S Kershaw, FR Brunton Palaeogeography, Palaeoclimatology, Palaeoecology 149 (1-4), 313-328, 1999 | 63 | 1999 |
Molecular records of microbialites following the end-Permian mass extinction in Chongyang, Hubei Province, South China L Chen, Y Wang, S Xie, S Kershaw, M Dong, H Yang, H Liu, TJ Algeo Palaeogeography, Palaeoclimatology, Palaeoecology 308 (1-2), 151-159, 2011 | 52 | 2011 |
Permian–Triassic boundary microbialites at Zuodeng section, Guangxi Province, South China: geobiology and palaeoceanographic implications Y Fang, ZQ Chen, S Kershaw, H Yang, M Luo Global and Planetary Change 152, 115-128, 2017 | 50 | 2017 |
Geochemical and facies evidence for palaeoenvironmental change during the Late Ordovician Hirnantian glaciation in South Sichuan Province, China T Zhang, S Kershaw, Y Wan, G Lan Global and Planetary Change 24 (2), 133-152, 2000 | 49 | 2000 |
Factors controlling the growth of stromatoporoid biostromes in the Ludlow of Gotland, Sweden S Kershaw, M Keeling Sedimentary geology 89 (3-4), 325-335, 1994 | 46 | 1994 |
Geochemistry of post-extinction microbialites as a powerful tool to assess the oxygenation of shallow marine water in the immediate aftermath of the end-Permian mass extinction PY Collin, S Kershaw, N Tribovillard, MB Forel, S Crasquin International Journal of Earth Sciences 104, 1025-1037, 2015 | 45 | 2015 |