Dongjie Tang
Title
Cited by
Cited by
Year
Extremely low oxygen concentration in mid-Proterozoic shallow seawaters
D Tang, X Shi, X Wang, G Jiang
Precambrian Research 276, 145-157, 2016
722016
Organic carbon isotope gradient and ocean stratification across the late Ediacaran-Early Cambrian Yangtze Platform
XQ Wang, XY Shi, GQ Jiang, DJ Tang
Science China Earth Sciences 57 (5), 919-929, 2014
382014
Increase of seawater Mo inventory and ocean oxygenation during the early Cambrian
X Wang, X Shi, X Zhao, D Tang
Palaeogeography, Palaeoclimatology, Palaeoecology 440, 621-631, 2015
292015
Mass-occurrence of oncoids at the Cambrian Series 2–Series 3 transition: implications for microbial resurgence following an early Cambrian extinction
W Zhang, X Shi, G Jiang, D Tang, X Wang
Gondwana Research 28 (1), 432-450, 2015
262015
Ferruginous seawater facilitates the transformation of glauconite to chamosite: An example from the Mesoproterozoic Xiamaling Formation of North China
D Tang, X Shi, G Jiang, X Zhou, Q Shi
American Mineralogist 102 (11), 2317-2332, 2017
232017
Mesoproterozoic biogenic thrombolites from the North China platform
D Tang, X Shi, G Jiang
International Journal of Earth Sciences 102 (2), 401-413, 2013
212013
A pulse of oxygen increase in the early Mesoproterozoic ocean at ca. 1.57–1.56 Ga
M Shang, D Tang, X Shi, L Zhou, X Zhou, H Song, G Jiang
Earth and Planetary Science Letters 527, 115797, 2019
202019
Formation of shallow-water glaucony in weakly oxygenated Precambrian ocean: An example from the Mesoproterozoic Tieling Formation in North China
D Tang, X Shi, J Ma, G Jiang, X Zhou, Q Shi
Precambrian Research 294, 214-229, 2017
202017
Sunspot cycles recorded in Mesoproterozoic carbonate biolaminites
D Tang, X Shi, G Jiang
Precambrian Research 248, 1-16, 2014
192014
Microfabrics in Mesoproterozoic microdigitate stromatolites: evidence of biogenicity and organomineralization at micron and nanometer scales
D Tang, X Shi, G Jiang, W Zhang
Palaios 28 (3), 178-194, 2013
192013
Morphological association of microbially induced sedimentary structures (MISS) as a paleoenvironmental indicator: an example from the proterozoic succession of the southern …
DJ Tang, XY Shi, G Jiang, XQ Wang
Microbial mats in siliciclastic depositional systems through time: Tulsa …, 2011
182011
Iodine content of the carbonates from the Doushantuo Formation and shallow ocean redox change on the Ediacaran Yangtze Platform, South China
H Wei, X Wang, X Shi, G Jiang, D Tang, L Wang, Z An
Precambrian Research 322, 160-169, 2019
172019
Stratiform siderites from the Mesoproterozoic Xiamaling Formation in North China: Genesis and environmental implications
D Tang, X Shi, G Jiang, T Wu, J Ma, X Zhou
Gondwana Research 58, 1-15, 2018
172018
Organomineralization in Mesoproterozoic giant ooids
D Tang, X Shi, Q Shi, J Wu, G Song, G Jiang
Journal of Asian Earth Sciences 107, 195-211, 2015
162015
Nitrogen isotope evidence for redox variations at the Ediacaran-Cambrian transition in South China
X Wang, X Shi, D Tang, W Zhang
The Journal of Geology 121 (5), 489-502, 2013
162013
Environment controls on Mesoproterozoic thrombolite morphogenesis: a case study from the North China Platform
T Dongjie, S Xiaoying, J Ganqing, P Yunpeng, Z Wenhao, W Yuan, L Min
Journal of palaeogeography 2 (3), 275-296, 2013
132013
Stepwise oxygenation of early Cambrian ocean controls early metazoan diversification
X Zhao, X Wang, X Shi, D Tang, Q Shi
Palaeogeography, Palaeoclimatology, Palaeoecology 504, 86-103, 2018
112018
Growth mechanisms and environmental implications of carbonate concretions from the~ 1.4 Ga Xiamaling Formation, North China
AQ Liu, DJ Tang, XY Shi, LM Zhou, XQ Zhou, MH Shang, Y Li, HY Song
Journal of Palaeogeography 8 (1), 1-16, 2019
102019
Nitrogen cycle perturbations linked to metazoan diversification during the early Cambrian
D Xu, X Wang, X Shi, D Tang, X Zhao, L Feng, H Song
Palaeogeography, Palaeoclimatology, Palaeoecology 538, 109392, 2020
92020
微生物席成因构造形态组合的古环境意义: 以华北南缘中—新元古代为例
汤冬杰, 史晓颖 [1, 李涛, 赵贵生
地球科学: 中国地质大学学报 36 (006), 1033-1043, 2011
92011
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