- Abstract
- Affiliation
- All
- Authors
- Book Series
- DOI
- EISBN
- EISSN
- Full Text
- GeoRef ID
- ISBN
- ISSN
- Issue
- Keyword (GeoRef Descriptor)
- Meeting Information
- Report #
- Title
- Volume
- Abstract
- Affiliation
- All
- Authors
- Book Series
- DOI
- EISBN
- EISSN
- Full Text
- GeoRef ID
- ISBN
- ISSN
- Issue
- Keyword (GeoRef Descriptor)
- Meeting Information
- Report #
- Title
- Volume
- Abstract
- Affiliation
- All
- Authors
- Book Series
- DOI
- EISBN
- EISSN
- Full Text
- GeoRef ID
- ISBN
- ISSN
- Issue
- Keyword (GeoRef Descriptor)
- Meeting Information
- Report #
- Title
- Volume
- Abstract
- Affiliation
- All
- Authors
- Book Series
- DOI
- EISBN
- EISSN
- Full Text
- GeoRef ID
- ISBN
- ISSN
- Issue
- Keyword (GeoRef Descriptor)
- Meeting Information
- Report #
- Title
- Volume
- Abstract
- Affiliation
- All
- Authors
- Book Series
- DOI
- EISBN
- EISSN
- Full Text
- GeoRef ID
- ISBN
- ISSN
- Issue
- Keyword (GeoRef Descriptor)
- Meeting Information
- Report #
- Title
- Volume
- Abstract
- Affiliation
- All
- Authors
- Book Series
- DOI
- EISBN
- EISSN
- Full Text
- GeoRef ID
- ISBN
- ISSN
- Issue
- Keyword (GeoRef Descriptor)
- Meeting Information
- Report #
- Title
- Volume
NARROW
GeoRef Subject
-
all geography including DSDP/ODP Sites and Legs
-
Animas River (1)
-
Animas River basin (2)
-
Australasia
-
Australia
-
Western Australia (1)
-
-
New Zealand (1)
-
-
Canada
-
Eastern Canada
-
Quebec
-
Rouville County Quebec (1)
-
-
-
-
Colorado River (1)
-
Europe
-
Alps
-
French Alps (1)
-
North Austrian Alps (1)
-
-
Central Europe
-
Austria
-
North Austrian Alps (1)
-
-
-
Western Europe
-
France
-
French Alps (1)
-
-
-
-
Mill Creek (1)
-
North America
-
North American Cordillera (1)
-
Rocky Mountains
-
Central Rocky Mountains (2)
-
Southern Rocky Mountains (3)
-
U. S. Rocky Mountains
-
Absaroka Range (1)
-
San Juan Mountains (63)
-
Wind River Range (1)
-
-
-
Transcontinental Arch (1)
-
-
Red Mountain (2)
-
San Juan Basin (5)
-
San Juan mining district (1)
-
Sierra Nevada (2)
-
Summitville Mine (1)
-
Sunnyside Mine (2)
-
United States
-
Arizona
-
Apache County Arizona (1)
-
-
California
-
Southern California (1)
-
-
Colorado
-
Archuleta County Colorado (7)
-
Clear Creek County Colorado (1)
-
Conejos County Colorado (3)
-
Dolores County Colorado (2)
-
Gunnison River (1)
-
Hinsdale County Colorado
-
Slumgullion Landslide (3)
-
-
La Plata County Colorado (17)
-
Lake County Colorado
-
Leadville Colorado (1)
-
-
Mesa County Colorado (1)
-
Mineral County Colorado
-
Creede Colorado (1)
-
Creede mining district (5)
-
-
Montezuma County Colorado (2)
-
Needle Mountains (5)
-
Ouray County Colorado (8)
-
Pitkin County Colorado (1)
-
Rio Grande County Colorado (3)
-
Saguache County Colorado (1)
-
San Juan County Colorado
-
Silverton Caldera (10)
-
Silverton Colorado (5)
-
-
San Juan volcanic field (16)
-
San Miguel County Colorado (6)
-
Summit County Colorado (1)
-
-
Colorado Plateau (5)
-
Four Corners (2)
-
Mojave Desert (1)
-
Montana
-
Silver Bow County Montana
-
Butte Montana (1)
-
-
-
New Hampshire (1)
-
New Mexico
-
McKinley County New Mexico (1)
-
Rio Arriba County New Mexico (1)
-
San Juan County New Mexico (1)
-
Sandoval County New Mexico (1)
-
-
New York (1)
-
Paradox Basin (1)
-
Rhode Island (1)
-
Southwestern U.S. (1)
-
Tennessee
-
Polk County Tennessee (1)
-
-
U. S. Rocky Mountains
-
Absaroka Range (1)
-
San Juan Mountains (63)
-
Wind River Range (1)
-
-
Uncompahgre Uplift (2)
-
Utah
-
Piute County Utah
-
Marysvale Utah (1)
-
-
-
Washington (1)
-
Western U.S. (1)
-
Wyoming
-
Wind River Range (1)
-
-
-
-
commodities
-
bitumens (1)
-
metal ores
-
base metals (6)
-
copper ores (2)
-
gold ores (13)
-
lead ores (1)
-
lead-zinc deposits (1)
-
molybdenum ores (3)
-
platinum ores (1)
-
polymetallic ores (6)
-
silver ores (10)
-
uranium ores (2)
-
vanadium ores (2)
-
-
mineral deposits, genesis (20)
-
mineral exploration (5)
-
mineral resources (1)
-
oil and gas fields (1)
-
petroleum
-
natural gas (1)
-
-
water resources (2)
-
-
elements, isotopes
-
carbon
-
C-13/C-12 (4)
-
-
hydrogen
-
D/H (4)
-
deuterium (2)
-
-
isotope ratios (7)
-
isotopes
-
radioactive isotopes
-
Be-10 (1)
-
Pb-206/Pb-204 (2)
-
Pb-207/Pb-204 (1)
-
Pb-208/Pb-204 (1)
-
-
stable isotopes
-
C-13/C-12 (4)
-
D/H (4)
-
deuterium (2)
-
Nd-144/Nd-143 (2)
-
O-18/O-16 (11)
-
Pb-206/Pb-204 (2)
-
Pb-207/Pb-204 (1)
-
Pb-208/Pb-204 (1)
-
S-34/S-32 (2)
-
Sr-87/Sr-86 (2)
-
-
-
metals
-
alkaline earth metals
-
barium (1)
-
beryllium
-
Be-10 (1)
-
-
calcium (1)
-
magnesium (1)
-
strontium
-
Sr-87/Sr-86 (2)
-
-
-
aluminum (3)
-
copper (1)
-
gold (1)
-
hafnium (1)
-
iron (1)
-
lead
-
Pb-206/Pb-204 (2)
-
Pb-207/Pb-204 (1)
-
Pb-208/Pb-204 (1)
-
-
platinum group
-
platinum ores (1)
-
-
precious metals (2)
-
rare earths
-
dysprosium (1)
-
lanthanum (1)
-
neodymium
-
Nd-144/Nd-143 (2)
-
-
ytterbium (2)
-
-
-
oxygen
-
O-18/O-16 (11)
-
-
sulfur
-
S-34/S-32 (2)
-
-
tellurium (1)
-
-
fossils
-
burrows (1)
-
Chordata
-
Vertebrata
-
Pisces
-
Placodermi (1)
-
-
Tetrapoda
-
Reptilia
-
Diapsida
-
Lepidosauria
-
Squamata (1)
-
-
-
-
-
-
-
-
geochronology methods
-
Ar/Ar (1)
-
fission-track dating (1)
-
K/Ar (4)
-
optically stimulated luminescence (1)
-
tephrochronology (1)
-
tree rings (1)
-
U/Pb (4)
-
-
geologic age
-
Cenozoic
-
Quaternary
-
Holocene
-
upper Holocene (1)
-
-
Pleistocene
-
upper Pleistocene (3)
-
-
-
Tertiary
-
middle Tertiary (4)
-
Neogene
-
Miocene
-
lower Miocene (1)
-
-
Pliocene (3)
-
-
Paleogene
-
Eocene (1)
-
Oligocene
-
Creede Formation (1)
-
Fish Canyon Tuff (2)
-
-
Paleocene (1)
-
-
-
upper Cenozoic (1)
-
-
Mesozoic
-
Cretaceous
-
Mancos Shale (1)
-
Upper Cretaceous
-
Fruitland Formation (2)
-
Lewis Shale (1)
-
Menefee Formation (1)
-
-
-
Jurassic
-
Upper Jurassic
-
Entrada Sandstone (2)
-
-
-
Triassic
-
Upper Triassic (2)
-
-
-
Paleozoic
-
Cambrian
-
Upper Cambrian
-
Potsdam Sandstone (1)
-
-
-
Carboniferous
-
Mississippian
-
Leadville Formation (1)
-
-
Pennsylvanian (4)
-
-
Devonian
-
Upper Devonian (3)
-
-
Permian (1)
-
-
Precambrian
-
upper Precambrian
-
Proterozoic
-
Mesoproterozoic (1)
-
-
-
-
-
igneous rocks
-
igneous rocks
-
plutonic rocks
-
diorites (1)
-
granites (4)
-
monzonites (1)
-
pegmatite (1)
-
syenites (2)
-
ultramafics
-
peridotites (1)
-
-
-
volcanic rocks
-
andesites (2)
-
basalts
-
alkali basalts
-
trachybasalts (1)
-
-
-
dacites (2)
-
latite (2)
-
pyroclastics
-
ash-flow tuff (2)
-
ignimbrite (2)
-
tuff (4)
-
-
rhyodacites (1)
-
rhyolites (5)
-
trachyandesites (3)
-
trachytes (2)
-
-
-
volcanic ash (1)
-
-
metamorphic rocks
-
metamorphic rocks
-
gneisses (2)
-
metaigneous rocks (1)
-
metasedimentary rocks (1)
-
-
-
minerals
-
halides
-
fluorides (1)
-
zunyite (1)
-
-
hydrates (1)
-
minerals (9)
-
oxides
-
hematite (1)
-
-
phosphates
-
apatite (2)
-
-
silicates
-
chain silicates
-
amphibole group
-
clinoamphibole
-
hornblende (2)
-
-
-
-
framework silicates
-
feldspar group
-
alkali feldspar
-
adularia (1)
-
K-feldspar (2)
-
sanidine (1)
-
-
plagioclase
-
albite (1)
-
-
-
silica minerals
-
quartz (2)
-
-
sodalite group
-
genthelvite (1)
-
helvite (1)
-
sodalite (1)
-
-
-
orthosilicates
-
nesosilicates
-
olivine group
-
olivine (1)
-
-
titanite group
-
titanite (1)
-
-
zircon group
-
zircon (7)
-
-
-
sorosilicates
-
zunyite (1)
-
-
-
sheet silicates
-
chlorite group
-
chlorite (1)
-
-
clay minerals
-
dickite (1)
-
kaolinite (1)
-
nacrite (1)
-
smectite (3)
-
-
illite (6)
-
mica group
-
biotite (1)
-
celadonite (1)
-
glauconite (1)
-
-
sericite (4)
-
-
-
sulfates (1)
-
sulfides
-
galena (2)
-
genthelvite (1)
-
helvite (1)
-
pyrite (1)
-
pyrrhotite (1)
-
sphalerite (1)
-
-
sulfosalts (1)
-
tellurides (1)
-
vanadates (1)
-
-
Primary terms
-
absolute age (11)
-
Australasia
-
Australia
-
Western Australia (1)
-
-
New Zealand (1)
-
-
bitumens (1)
-
Canada
-
Eastern Canada
-
Quebec
-
Rouville County Quebec (1)
-
-
-
-
carbon
-
C-13/C-12 (4)
-
-
Cenozoic
-
Quaternary
-
Holocene
-
upper Holocene (1)
-
-
Pleistocene
-
upper Pleistocene (3)
-
-
-
Tertiary
-
middle Tertiary (4)
-
Neogene
-
Miocene
-
lower Miocene (1)
-
-
Pliocene (3)
-
-
Paleogene
-
Eocene (1)
-
Oligocene
-
Creede Formation (1)
-
Fish Canyon Tuff (2)
-
-
Paleocene (1)
-
-
-
upper Cenozoic (1)
-
-
Chordata
-
Vertebrata
-
Pisces
-
Placodermi (1)
-
-
Tetrapoda
-
Reptilia
-
Diapsida
-
Lepidosauria
-
Squamata (1)
-
-
-
-
-
-
-
clay mineralogy (8)
-
climate change (1)
-
crust (4)
-
crystal growth (3)
-
crystal structure (6)
-
data processing (4)
-
deformation (2)
-
diagenesis (5)
-
earthquakes (2)
-
economic geology (28)
-
engineering geology (1)
-
environmental geology (2)
-
Europe
-
Alps
-
French Alps (1)
-
North Austrian Alps (1)
-
-
Central Europe
-
Austria
-
North Austrian Alps (1)
-
-
-
Western Europe
-
France
-
French Alps (1)
-
-
-
-
faults (11)
-
folds (4)
-
foliation (1)
-
geochemistry (20)
-
geochronology (6)
-
geodesy (2)
-
geomorphology (2)
-
geophysical methods (6)
-
glacial geology (4)
-
government agencies (1)
-
ground water (5)
-
heat flow (3)
-
hydrogen
-
D/H (4)
-
deuterium (2)
-
-
hydrology (3)
-
igneous rocks
-
plutonic rocks
-
diorites (1)
-
granites (4)
-
monzonites (1)
-
pegmatite (1)
-
syenites (2)
-
ultramafics
-
peridotites (1)
-
-
-
volcanic rocks
-
andesites (2)
-
basalts
-
alkali basalts
-
trachybasalts (1)
-
-
-
dacites (2)
-
latite (2)
-
pyroclastics
-
ash-flow tuff (2)
-
ignimbrite (2)
-
tuff (4)
-
-
rhyodacites (1)
-
rhyolites (5)
-
trachyandesites (3)
-
trachytes (2)
-
-
-
inclusions
-
fluid inclusions (6)
-
-
intrusions (13)
-
isostasy (1)
-
isotopes
-
radioactive isotopes
-
Be-10 (1)
-
Pb-206/Pb-204 (2)
-
Pb-207/Pb-204 (1)
-
Pb-208/Pb-204 (1)
-
-
stable isotopes
-
C-13/C-12 (4)
-
D/H (4)
-
deuterium (2)
-
Nd-144/Nd-143 (2)
-
O-18/O-16 (11)
-
Pb-206/Pb-204 (2)
-
Pb-207/Pb-204 (1)
-
Pb-208/Pb-204 (1)
-
S-34/S-32 (2)
-
Sr-87/Sr-86 (2)
-
-
-
land use (1)
-
lava (5)
-
lineation (1)
-
magmas (7)
-
mantle (3)
-
maps (1)
-
Mesozoic
-
Cretaceous
-
Mancos Shale (1)
-
Upper Cretaceous
-
Fruitland Formation (2)
-
Lewis Shale (1)
-
Menefee Formation (1)
-
-
-
Jurassic
-
Upper Jurassic
-
Entrada Sandstone (2)
-
-
-
Triassic
-
Upper Triassic (2)
-
-
-
metal ores
-
base metals (6)
-
copper ores (2)
-
gold ores (13)
-
lead ores (1)
-
lead-zinc deposits (1)
-
molybdenum ores (3)
-
platinum ores (1)
-
polymetallic ores (6)
-
silver ores (10)
-
uranium ores (2)
-
vanadium ores (2)
-
-
metals
-
alkaline earth metals
-
barium (1)
-
beryllium
-
Be-10 (1)
-
-
calcium (1)
-
magnesium (1)
-
strontium
-
Sr-87/Sr-86 (2)
-
-
-
aluminum (3)
-
copper (1)
-
gold (1)
-
hafnium (1)
-
iron (1)
-
lead
-
Pb-206/Pb-204 (2)
-
Pb-207/Pb-204 (1)
-
Pb-208/Pb-204 (1)
-
-
platinum group
-
platinum ores (1)
-
-
precious metals (2)
-
rare earths
-
dysprosium (1)
-
lanthanum (1)
-
neodymium
-
Nd-144/Nd-143 (2)
-
-
ytterbium (2)
-
-
-
metamorphic rocks
-
gneisses (2)
-
metaigneous rocks (1)
-
metasedimentary rocks (1)
-
-
metamorphism (1)
-
metasomatism (20)
-
mineral deposits, genesis (20)
-
mineral exploration (5)
-
mineral resources (1)
-
mineralogy (10)
-
minerals (9)
-
mining geology (2)
-
North America
-
North American Cordillera (1)
-
Rocky Mountains
-
Central Rocky Mountains (2)
-
Southern Rocky Mountains (3)
-
U. S. Rocky Mountains
-
Absaroka Range (1)
-
San Juan Mountains (63)
-
Wind River Range (1)
-
-
-
Transcontinental Arch (1)
-
-
oil and gas fields (1)
-
oxygen
-
O-18/O-16 (11)
-
-
paleoclimatology (3)
-
paleogeography (3)
-
paleontology (2)
-
Paleozoic
-
Cambrian
-
Upper Cambrian
-
Potsdam Sandstone (1)
-
-
-
Carboniferous
-
Mississippian
-
Leadville Formation (1)
-
-
Pennsylvanian (4)
-
-
Devonian
-
Upper Devonian (3)
-
-
Permian (1)
-
-
palynology (1)
-
paragenesis (5)
-
petroleum
-
natural gas (1)
-
-
petrology (10)
-
phase equilibria (3)
-
plate tectonics (3)
-
pollution (3)
-
Precambrian
-
upper Precambrian
-
Proterozoic
-
Mesoproterozoic (1)
-
-
-
-
reclamation (1)
-
remote sensing (2)
-
roads (1)
-
sea-level changes (1)
-
sedimentary petrology (3)
-
sedimentary rocks
-
carbonate rocks
-
dolostone (1)
-
-
chemically precipitated rocks
-
ferricrete (1)
-
silcrete (1)
-
-
clastic rocks
-
arenite
-
quartz arenite (2)
-
-
arkose (1)
-
conglomerate (2)
-
mudstone (2)
-
red beds (2)
-
sandstone (6)
-
shale (2)
-
siltstone (2)
-
subarkose (1)
-
-
coal (2)
-
-
sedimentary structures
-
bedding plane irregularities
-
sand waves (1)
-
-
biogenic structures
-
bioturbation (1)
-
-
planar bedding structures
-
bedding (1)
-
laminations (1)
-
-
secondary structures
-
concretions (1)
-
-
-
sedimentation (6)
-
sediments
-
clastic sediments
-
alluvium (2)
-
clay (1)
-
colluvium (1)
-
diamicton (1)
-
dust (1)
-
gravel (2)
-
outwash (2)
-
till (2)
-
-
-
slope stability (5)
-
soil mechanics (3)
-
soils (2)
-
springs (1)
-
stratigraphy (6)
-
structural analysis (3)
-
structural geology (5)
-
sulfur
-
S-34/S-32 (2)
-
-
tectonics (5)
-
tectonophysics (1)
-
tellurium (1)
-
thermal waters (1)
-
United States
-
Arizona
-
Apache County Arizona (1)
-
-
California
-
Southern California (1)
-
-
Colorado
-
Archuleta County Colorado (7)
-
Clear Creek County Colorado (1)
-
Conejos County Colorado (3)
-
Dolores County Colorado (2)
-
Gunnison River (1)
-
Hinsdale County Colorado
-
Slumgullion Landslide (3)
-
-
La Plata County Colorado (17)
-
Lake County Colorado
-
Leadville Colorado (1)
-
-
Mesa County Colorado (1)
-
Mineral County Colorado
-
Creede Colorado (1)
-
Creede mining district (5)
-
-
Montezuma County Colorado (2)
-
Needle Mountains (5)
-
Ouray County Colorado (8)
-
Pitkin County Colorado (1)
-
Rio Grande County Colorado (3)
-
Saguache County Colorado (1)
-
San Juan County Colorado
-
Silverton Caldera (10)
-
Silverton Colorado (5)
-
-
San Juan volcanic field (16)
-
San Miguel County Colorado (6)
-
Summit County Colorado (1)
-
-
Colorado Plateau (5)
-
Four Corners (2)
-
Mojave Desert (1)
-
Montana
-
Silver Bow County Montana
-
Butte Montana (1)
-
-
-
New Hampshire (1)
-
New Mexico
-
McKinley County New Mexico (1)
-
Rio Arriba County New Mexico (1)
-
San Juan County New Mexico (1)
-
Sandoval County New Mexico (1)
-
-
New York (1)
-
Paradox Basin (1)
-
Rhode Island (1)
-
Southwestern U.S. (1)
-
Tennessee
-
Polk County Tennessee (1)
-
-
U. S. Rocky Mountains
-
Absaroka Range (1)
-
San Juan Mountains (63)
-
Wind River Range (1)
-
-
Uncompahgre Uplift (2)
-
Utah
-
Piute County Utah
-
Marysvale Utah (1)
-
-
-
Washington (1)
-
Western U.S. (1)
-
Wyoming
-
Wind River Range (1)
-
-
-
volcanology (4)
-
waste disposal (1)
-
water resources (2)
-
weathering (2)
-
X-ray analysis (1)
-
-
rock formations
-
San Juan Formation (1)
-
-
sedimentary rocks
-
caliche (1)
-
sedimentary rocks
-
carbonate rocks
-
dolostone (1)
-
-
chemically precipitated rocks
-
ferricrete (1)
-
silcrete (1)
-
-
clastic rocks
-
arenite
-
quartz arenite (2)
-
-
arkose (1)
-
conglomerate (2)
-
mudstone (2)
-
red beds (2)
-
sandstone (6)
-
shale (2)
-
siltstone (2)
-
subarkose (1)
-
-
coal (2)
-
-
-
sedimentary structures
-
burrows (1)
-
channels (2)
-
sedimentary structures
-
bedding plane irregularities
-
sand waves (1)
-
-
biogenic structures
-
bioturbation (1)
-
-
planar bedding structures
-
bedding (1)
-
laminations (1)
-
-
secondary structures
-
concretions (1)
-
-
-
-
sediments
-
sediments
-
clastic sediments
-
alluvium (2)
-
clay (1)
-
colluvium (1)
-
diamicton (1)
-
dust (1)
-
gravel (2)
-
outwash (2)
-
till (2)
-
-
-
-
soils
-
paleosols (2)
-
soils (2)
-
Precursors to a continental-arc ignimbrite flare-up: Early central volcanoes of the San Juan Mountains, Colorado, USA
ABSTRACT The Laramide foreland belt comprises a broad region of thick-skinned, contractional deformation characterized by an anastomosing network of basement-cored arches and intervening basins that developed far inboard of the North American Cordilleran plate margin during the Late Cretaceous to Paleogene. Laramide deformation was broadly coincident in space and time with development of a flat-slab segment along part of the Cordilleran margin. This slab flattening was marked by a magmatic gap in the Sierra Nevada and Mojave arc sectors, an eastward jump of limited igneous activity from ca. 80 to 60 Ma, a NE-migrating wave of dynamic subsidence and subsequent uplift across the foreland, and variable hydration and cooling of mantle lithosphere during slab dewatering as recorded by xenoliths. The Laramide foreland belt developed within thick lithospheric mantle, Archean and Proterozoic basement with complex preexisting fabrics, and thin sedimentary cover. These attributes are in contrast to the thin-skinned Sevier fold-and-thrust belt to the west, which developed within thick passive-margin strata that overlay previously rifted and thinned lithosphere. Laramide arches are bounded by major reverse faults that typically dip 25°–40°, have net slips of ~3–20 km, propagate upward into folded sedimentary cover rocks, and flatten into a lower-crustal detachment or merge into diffuse lower-crustal shortening and buckling. Additional folds and smaller-displacement reverse faults developed along arch flanks and in associated basins. Widespread layer-parallel shortening characterized by the development of minor fault sets and subtle grain-scale fabrics preceded large-scale faulting and folding. Arches define a regional NW- to NNW-trending fabric across Wyoming to Colorado, but individual arches are curved and vary in trend from N-S to E-W. Regional shortening across the Laramide foreland was oriented WSW-ENE, similar to the direction of relative motion between the North American and Farallon plates, but shortening directions were locally refracted along curved and obliquely trending arches, partly related to reactivation of preexisting basement weaknesses. Shortening from large-scale structures varied from ~10%–15% across Wyoming and Colorado to <5% in the Colorado Plateau, which may have had stronger crust, and <5% along the northeastern margin of the belt, where differential stress was likely less. Synorogenic strata deposited in basins and thermochronologic data from basement rocks record protracted arch uplift, exhumation, and cooling starting ca. 80 Ma in the southern Colorado Plateau and becoming younger northeastward to ca. 60 Ma in northern Wyoming and central Montana, consistent with NE migration of a flat-slab segment. Basement-cored uplifts in southwest Montana, however, do not fit this pattern, where deformation and rapid inboard migration of igneous activity started at ca. 80 Ma, possibly related to development of a slab window associated with subduction of the Farallon-Kula Ridge. Cessation of contractional deformation began at ca. 50 Ma in Montana to Wyoming, followed by a southward-migrating transition to extension and flare-up in igneous activity, interpreted to record rollback of the Farallon slab. We present a model for the tectonic evolution of the Laramide belt that combines broad flat-slab subduction, stress transfer to the North American plate from end loading along a lithospheric keel and increased basal traction, upward stress transfer through variably sheared lithospheric mantle, diffuse lower-crustal shortening, and focused upper-crustal faulting influenced by preexisting basement weaknesses.
Volcano-pluton connections at the Lake City magmatic center (Colorado, USA)
Seasonal shifts in surface water-groundwater connections in a ferricrete-impacted stream estimated from electrical resistivity
Raising the West: Mid-Cenozoic Colorado-plano related to subvolcanic batholith assembly in the Southern Rocky Mountains (USA)?
2020 Student Professional Paper - Graduate Level Integrating Design Parameters for Reseeding and Mulching after Wildfire: An Example from the 416 Fire, Colorado
Re-evaluation of exotic gravel and inverted topography at Crooked Ridge, northern Arizona: Relicts of an ancient river of regional extent
Magmato-tectonic links: Ignimbrite calderas, regional dike swarms, and the transition from arc to rift in the Southern Rocky Mountains
Recognition and significance of Upper Devonian fluvial, estuarine, and mixed siliciclastic-carbonate nearshore marine facies in the San Juan Mountains (southwestern Colorado, USA): Multiple incised valleys backfilled by lowstand and transgressive systems tracts
Pandoraite-ba and Pandoraite-ca, Ba(V 4+ 5 V 5+ 2 )O 16 ·3H 2 O and Ca(V 4+ 5 V 5+ 2 )O 16 ·3H 2 O, Two New Vanadium Oxide Bronze Minerals in Solid Solution from the Pandora Mine, La Sal Mining District, San Juan County, Colorado, Usa
Controls on hydrothermal fluid flow in caldera-hosted settings: Evidence from Lake City caldera, USA
The role of serpentinite-derived fluids in metasomatism of the Colorado Plateau (USA) lithospheric mantle
Geochemical constraints on mantle-melt sources for Oligocene to Pleistocene mafic rocks in the Four Corners region, USA
Stratigraphy, petrography, and depositional history of the Ignacio Quartzite and McCracken Sandstone Member of the Elbert Formation, southwestern Colorado, U.S.A.
Diagenesis of sandstones and carbonates of the Ignacio Quartzite and McCracken Sandstone Member of the Elbert Formation, southwestern Colorado, U.S.A.
Magma storage, differentiation, and interaction at Lake City caldera, Colorado, USA
Early Pennsylvanian (309–318 Ma) paleocave sediments hosted in the Mississippian (345–359 Ma) Leadville Limestone were partly derived from long-distance (>2000 km) source areas. In addition to showing the importance of long-distant dust transport in cave sediments, because these paleocave deposits are derived from loess, their presence may document the earliest terrestrial signature of the late Paleozoic ice age in North America. The Leadville Limestone was subject to karst processes following late Mississippian eustatic sea-level fall, including formation of phreatic tubes, breakout domes, tower karst (kegelkarst), solution valleys (poljes), sinkholes (dolines), solution-enhanced joints (grikes), surficial flutes (rillenkarren), and solution pans (kamenitzas). In the Leadville Limestone, speleothems are interbedded with karst breccias and fluvial cave sediments. The overlying Pennsylvanian Molas Formation is a loessite (eolian siltstone) composed of angular quartz silt with ferruginous kaolinite rims. The U-Pb ages of accessory zircons indicate that the source areas for the eolian silt are from the peri-Gondwanan terranes and Grenville Province of eastern and southern North America, which are ~2000 km to the east. There is also a provenance signature from the rising Ancestral Rocky Mountains. The evidence suggests dust trapping on land surfaces by paleokarst topography, moisture, and vegetation. Weak paleosols in the Molas Formation suggest relatively rapid rates of dust accumulation. The high porosity and low bulk density of modern loess soils make them susceptible to groundwater piping. This mechanism may have facilitated redeposition of the Molas Formation loess into karst passageways, to be remobilized by later hydrologic events. The paleocave sediments in the Leadville Limestone can be linked to the overlying loess in the Molas Formation by compositional and textural matches. Facies analysis of the paleocave sediments documents episodic hydrologic events, producing a sequence of inundites and debrites separated by mud drapes with mud cracks. These event deposits are interbedded with flowstones and dripstones. Cave sediments are increasingly utilized as archives of geologic change. Recognition that dust is a significant component of cave sediments highlights the inherited properties from distant source areas, land-atmosphere transfer processes, land-surface deposition processes, and resedimentation processes into the karst system.