Field Excursions from the 2021 GSA Section Meetings
The 2021 GSA Northeastern, Southeastern, joint North-Central/South-Central, and Cordilleran Section Meet-ings were held virtually in spring 2021 during continued restrictions on travel and large gatherings due to COVID-19. Eleven groups put together field guides, taking participants on treks to states from Connecticut to Nevada in the United States, to Mexico, and to Italy, and covering topics as varied as bedrock geologic map-ping, geochemistry, paleodrainage, barrier islands, karst, spring systems, a southern Appalachian transect, Ordo-vician and Mississippian stratigraphy, high-energy events, Cretaceous arc granites and dextral shear zones, and Mesoproterozoic igneous rocks. This volume serves as a valuable resource for those wishing to discover, learn more about, and travel through these geologically fascinating areas.
Hypogenic karst of the Great Basin†
*Emails: [email protected]; [email protected]; [email protected].
*Emails: [email protected]; [email protected]; [email protected].
*Emails: [email protected]; [email protected]; [email protected].
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Published:September 24, 2021
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CiteCitation
Louise D. Hose*, Harvey R. DuChene*, Daniel Jones, Gretchen M. Baker*, Zoë Havlena, Donald Sweetkind, Doug Powell, 2021. "Hypogenic karst of the Great Basin", Field Excursions from the 2021 GSA Section Meetings, Joan Florsheim, Christian Koeberl, Matthew P. McKay, Nancy Riggs
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ABSTRACT
Discoveries in the 1980s greatly expanded speleologists’ understanding of the role that hypogenic groundwater flow can play in developing caves at depth. Ascending groundwater charged with carbon dioxide and, especially, hydrogen sulfide can readily dissolve carbonate bedrock just below and above the water table. Sulfuric acid speleogenesis, in which anoxic, rising, sulfidic groundwater mixes with oxygenated cave atmosphere to form aggressive sulfuric acid (H2SO4) formed spectacular caves in Carlsbad Caverns National Park, USA. Cueva de Villa Luz in Mexico provides an aggressively active example of sulfuric acid speleogenesis processes, and the Frasassi Caves in Italy preserve the results of sulfuric acid speleogenesis in its upper levels while sulfidic groundwater currently enlarges cave passages in the lower levels.
Many caves in east-central Nevada and western Utah (USA) are products of hypogenic speleogenesis and formed before the current topography fully developed. Wet climate during the late Neogene and Pleistocene brought extensive meteoric infiltration into the caves, and calcite speleothems (e.g., stalactites, stalagmites, shields) coat the walls and floors of the caves, concealing evidence of the earlier hypogenic stage. However, by studying the speleogenetic features in well-established sulfuric acid speleogenesis caves, evidence of hypogenic, probably sulfidic, speleogenesis in many Great Basin caves can be teased out. Compelling evidence of hypogenic speleogenesis in these caves include folia, mammillaries, bubble trails, cupolas, and metatyuyamunite. Sulfuric acid speleogenesis signs include hollow coralloid stalagmites, trays, gypsum crust, pseudoscallops, rills, and acid pool notches. Lehman Caves in Great Basin National Park is particularly informative because a low-permeability capstone protected about half of the cave from significant meteoric infiltration, preserving early speleogenetic features.
- Basin and Range Province
- Cambrian
- Carlsbad Caverns
- Castile Formation
- caves
- Cretaceous
- Eddy County New Mexico
- Europe
- field trips
- fluid flow
- Great Basin
- ground water
- Guadalupe Mountains
- guidebook
- inorganic acids
- Italy
- Jurassic
- karst
- landform evolution
- Lechuguilla Cave
- Mesozoic
- Mexico
- Middle Cretaceous
- Nevada
- New Mexico
- North America
- Paleozoic
- Permian
- road log
- solution features
- Southern Europe
- speleology
- sulfuric acid
- United States
- Utah
- speleogenesis
- Great Basin National Park
- Notch Peak Limestone
- Lehman Caves
- Pole Canyon Limestone
- Frasassi Caves
- Calcare Massicio Formation
- Cueva de Villa Luiz
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