| Paik et al. (2004) |
Dinosaur egg-bearing deposits (Upper Cretaceous) of Boseong, Korea: occurrence, palaeoenvironments, taphonomy, and preservation |
| Choi and Kim (2006) |
Occurrence of Changshania (Trilobita, Cambrian) in the Taebaeksan Basin, Korea and its stratigraphic and paleogeographic significance |
| Lee et al. (2008) |
Cambrian-Ordovician trilobite family Missisquoiidae Hupé, 1955: Systematic revision and palaeogeographical considerations based on cladistic analysis |
| Lee et al. (2010) |
Paleoenvironmental implications of an extensive maceriate microbialite bed in the Furongian Chaomidian Formation, Shandong Province, China |
| Lee et al. (2014) |
Calcified microbial reefs in Cambrian Series 2, North China Platform: Implications for the evolution of Cambrian calcified microbes |
| Chen et al. (2014) |
Formative mechanisms, depositional processes, and geological implications of Furongian (late Cambrian) reefs in the North China Platform |
| Lee et al. (2015) |
The earliest Phanerozoic carbonate hardground (Cambrian Stage 5, Series 3): Implications to the paleoseawater chemistry and early adaptation of hardground fauna |
| Lee et al. (2016) |
A new Middle Ordovician bivalve–siliceous sponge–microbe reef-building consortium from North China |
| Lee et al. (2016) |
Early recovery of sponge framework reefs after Cambrian archaeocyath extinction: Zhangxia Formation (early Cambrian Series 3), Shandong, North China |
| Lee et al. (2018) |
Late Cambrian missing link in macroborer evolution preserved in intraclasts |
| Hong et al. (2018) |
The earliest evolutionary link of metazoan bioconstruction: Laminar stromatoporoid–bryozoan reefs from the Middle Ordovician of Korea |
| Lee et al. (2019) |
Lithistid sponge-microbial reefs, Nevada, USA: Filling the late Cambrian ‘reef gap’ |
| Riding et al. (2019) |
Influence of dissolved oxygen on secular patterns of marine microbial carbonate abundance during the past 490 Myr |
| Pham et al. (2021) |
Keratose sponge–microbial consortia in stromatolite-like columns and thrombolite-like mounds of the Lower Ordovician (Tremadocian) Mungok Formation, Yeongwol, Korea |
| Lee and Riding (2021) |
Keratolite–stromatolite consortia mimic domical and branched columnar stromatolites |