Maxwell Alexander Lechte
Maxwell Alexander Lechte
Department of Earth and Planetary Sciences, McGill University
Verified email at - Homepage
Cited by
Cited by
Sub–ice shelf ironstone deposition during the Neoproterozoic Sturtian glaciation
M Lechte, M Wallace
Geology 44 (11), 891-894, 2016
Cryogenian iron formations in the glaciogenic Kingston Peak Formation, California
MA Lechte, MW Wallace, A van Smeerdijk Hood, N Planavsky
Precambrian Research 310, 443-462, 2018
Origin of the Neoproterozoic Fulu iron formation, South China: Insights from iron isotopes and rare earth element patterns
V Busigny, NJ Planavsky, E Goldbaum, MA Lechte, L Feng, TW Lyons
Geochimica et Cosmochimica Acta 242, 123-142, 2018
Sedimentary and tectonic history of the Holowilena Ironstone, a Neoproterozoic iron formation in South Australia
MA Lechte, MW Wallace
Sedimentary Geology 329, 211-224, 2015
Long-term evolution of terrestrial inputs from the Ediacaran to early Cambrian: Clues from Nd isotopes in shallow-marine carbonates, South China
GY Wei, HF Ling, GA Shields, T Chen, M Lechte, X Chen, C Qiu, H Lei, ...
Palaeogeography, Palaeoclimatology, Palaeoecology 535, 109367, 2019
Subglacial meltwater supported aerobic marine habitats during Snowball Earth
MA Lechte, MW Wallace, A van Smeerdijk Hood, W Li, G Jiang, ...
Proceedings of the National Academy of Sciences 116 (51), 25478-25483, 2019
Glacio-marine iron formation deposition in a c. 700 Ma glaciated margin: insights from the Chuos Formation, Namibia
MA Lechte, MW Wallace, KH Hoffmann
Geological Society, London, Special Publications 475 (1), 9-34, 2019
Iron-rich carbonate tidal deposits, Angepena Formation, South Australia: A redox-stratified Cryogenian basin
B O'Connell, MW Wallace, A vS Hood, MA Lechte, NJ Planavsky
Precambrian Research 342, 105668, 2020
Manganese-rich deposits in the Mesoproterozoic Gaoyuzhuang Formation (ca. 1.58 Ga), North China Platform: Genesis and paleoenvironmental implications
H Fang, D Tang, X Shi, M Lechte, M Shang, X Zhou, W Yu
Palaeogeography, Palaeoclimatology, Palaeoecology 559, 109966, 2020
The formation of marine red beds and iron cycling on the Mesoproterozoic North China Platform
D Tang, J Ma, X Shi, M Lechte, X Zhou
American Mineralogist: Journal of Earth and Planetary Materials 105 (9 …, 2020
Neoproterozoic syn‐glacial carbonate precipitation and implications for a snowball Earth
AS Hood, DE Penman, MA Lechte, MW Wallace, JA Giddings, ...
Geobiology, 2021
New multicellular marine macroalgae from the early Tonian of northwestern Canada
KM Maloney, GP Halverson, JD Schiffbauer, S Xiao, TM Gibson, ...
Geology 49 (6), 743-747, 2021
A pulsed oxygenation in terminal Paleoproterozoic ocean: Evidence from the transition between the Chuanlinggou and Tuanshanzi formations, North China
B Wei, D Tang, X Shi, M Lechte, L Zhou, X Zhou, H Song
Geochemistry, Geophysics, Geosystems 22 (5), e2020GC009612, 2021
Macrofossils from the Tonian Dolores Creek Formation of the Wernecke Mountains, Yukon
K Maloney, G Halverson, T Gibson, M Lechte, A Millikin, J Murphy, ...
GAC-MAC-IAH Québec 2019, 2019
Precambrian sedimentology: Open session on recent advancements in paleogeographic and paleoenvironmental reconstructions in deep time
A Ielpi, G Halverson, M Lechte
GAC-MAC-IAH Québec 2019, 2019
Tectono-stratigraphy and facies architecture of the Tonian Hematite Creek and Katherine groups, Wernecke Mountains, Yukon
T Gibson, G Halverson, F Macdonald, V Cumming, M Kunzmann, ...
GAC-MAC-IAH Québec 2019, 2019
Ironstones of the Katherine Group, Yukon: marine iron cycling in the early Neoproterozoic
M Lechte, G Halverson, M Wallace, A van Smeerdijk Hood, T Gibson, ...
GAC-MAC-IAH Québec 2019, 2019
Cryogenian iron formations: glaciation and oxygenation
M Lechte
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