Bear Lake, UTID Core BL001E - PowerPoint PPT Presentation

1 / 17
About This Presentation
Title:

Bear Lake, UTID Core BL001E

Description:

Bear Lake is located in the north-eastern corner of Basin and Range. Half in ... Geologic map of the Logan 30' x 60' Quadrangle, Cache and Rich Counties, Utah, ... – PowerPoint PPT presentation

Number of Views:78
Avg rating:3.0/5.0
Slides: 18
Provided by: jb56
Category:
Tags: bl001e | utid | bear | core | eastern | lake | map | of | usa

less

Transcript and Presenter's Notes

Title: Bear Lake, UTID Core BL001E


1
Bear Lake, UT/IDCore BL00-1E
  • DOSSEC 9th Annual Workshop
  • Austin, Texas
  • June 5-7, 2005
  • Jordon Bright, Northern Arizona Univ.
  • Data provided by the U.S. Geological Survey

2
  • Bear Lake is located in the north-eastern corner
    of Basin and Range
  • Half in Utah, half in Idaho
  • Surface area 280 sq. km.
  • Maximum depth 63 m. Average depth 28 m
  • TDS (2000) 550 mg/L TDS (1912) 1060 mg/L

3
Bear Lake Geography(see next slide)
  • Bear River Range to west
  • 10,000 max. elevation
  • 127 cm of water per year, of which 80 falls
    as snow
  • Bear Lake Plateau to east
  • 7,700 max. elevation
  • no precipitation gauges, but 3 at Bear Lake
    receive 30 cm of water per year
  • - evaporation at Bear Lake is estimated to be
    56 cm per year (calculated from data in Amayreh,
    1995).
  • Bear River drains Uinta Mts ( 13,528 max.
    elevation)
  • enters Bear Lake Valley _at_ Dingle, roughly 13 km
    north of Bear Lake
  • Original channel flowed northwest, past Bear Lake
  • Bear River was diverted into Bear Lake via canals
    1912 A.D.
  • Amayreh, J., 1995. Lake evaporation
    a model study. PhD dissertation. Utah State
    University, Logan, UT. 178 pp.

4
(No Transcript)
5
Bear Lake Geology
  • Bear River Range
  • primarily Paleozoic limestones and dolomites
  • Bear Lake Plateau
  • primarily Mesozoic limestone and sandstone with
    mantling of Tertiary Wasatch Formation
  • Large potential for detrital carbonate in lake
    sediments
  • Geology generalized from
  • Dover, 1995. Geologic map of the Logan 30 x 60
    Quadrangle, Cache and Rich Counties, Utah, and
    Lincoln and Uinta Counties, Wyoming. US
    Geological Survey, Miscellaneous Investigation
    Series, map I-2210.
  • Oreil, S. S., and Platt, L. B., 1980. Geologic
    map of the Preston 1 x 2 quadrangle,
    southeastern Idaho and western Wyoming. US
    Geological Survey, Miscellaneous Investigation
    Series, map I-1127.

6
  • Many seismic profiles taken in Bear Lake
  • Show eastward thickening sediment package (see
    next slide)
  • core BL00-1E taken just east of core BL96-1, in
    55 meters of water

7
courtesy Steve Colman, L.L.O./U. Min.
8
BL00-1E core stratigraphy and chronology
  • 120 m long
  • three major aragonite-rich sections
  • one 14C MS correlation with BL96-2
  • three tentative magnetic excursions
  • Laschamp (41 ka , 26.5 m)
  • Blake (121 ka, 64.3 m)
  • 7b (236 ka, 114.1 m)
  • one U/Th age on aragonite
  • 128 ka, 64 m
  • four tephras (not used in chronology)
  • Arco 1
  • Hegben Narrows
  • Summer Lake JJ
  • Summer Lake NN
  • Note oxidized, hematite rich zone 10-18 m. No
    hematite in Bear Lake drainages, but hematite is
    found in Bear River sediments.

9
Significance of Aragonite in Bear Lake sediments
  • West-side water accounts for 95-99 of modern
    lake solute budget
  • 92-98 of west-side solutes is calcium, magnesium
    and bicarbonate
  • Carbonate precipitation removes calcium and
    bicarbonate
  • Rapid accumulation of magnesium in lake waters,
    poisoning of calcite lattice
  • Forces aragonite precipitation
  • Aragonite only forms if Bear Lake is
    topographically closed and isolated from Bear
    River. Isolation can probably only be maintained
    during warm, dry climates, typically
    interglacials. Aragonite will not form if Bear
    Lake and Bear River are connected, even during
    interglacials.
  • Modern lake is precipitating high-Mg calcite
    rather than aragonite, due to the Bear River
    being diverted into the lake.

10
BL00-1E XRD
11
Oxygen isotopes in BL bulk sediment and the
ostracode Candona
  • Enriched isotopes coincide with major aragonite
    zones 0-10, 60-68, 100-105 m.
  • Bulk sediment record is relatively invariant
    10-40 m and 70-100 m, probably due to a large
    portion of detrital carbonate in the bulk
    sediments.
  • Much higher variability in the ostracode record.

12
Strontium isotope ratios and Sr around BL
  • Bear River Range streams
  • - Sr isotope ratios all 0.7100
  • - Sr 30-50 ug/L
  • - 95-99 of pre-diversion inflow
  • Bear Lake Plateau streams
  • - Sr isotope ratios all
  • - Sr 300 ug/L
  • -
  • Bear River
  • - Sr isotope ratio 0.7088
  • - Sr 600 ug/L
  • - Q 10x local stream Q
  • - roughly 80 of modern inflow

13
Strontium isotopes in BL00-1E bulk sediment
  • Horizontal line pre-diversion lake Sr isotope
    ratio of 0.7102
  • Sr isotope ratio 0.7100 during aragonite
    intervals 0-10, 55, 60-69, and 101-103 m.
  • Majority of core has Sr isotope ratios implying presence of Bear River water. Bear River
    and Bear Lake were connected.
  • High Sr isotope ratios at 10-18 m correlate to
    quartz-rich, hematite-rich zone probably
    leaching of radiogenic Sr from those sediments
    during analysis.

14
Oxygen Isotope Stages in Bear Lake?
15
Bear Lake vs. other climate records
  • SPECMAP Imbrie, J., Hays, J. D., McIntyre, A.,
    Mix, A. C., Morley, J. J., Pisias, N. G., Prell,
    W. L., Shackleton, N. J., 1984. The orbital
    theory of Pleostocene climate change support
    from a revised chronology of the marine d18O
    record. In Berger, A., Imbrie, J., Hays, J.,
    Kukla, G., Saltzman, B. (Eds.), Milankovich and
    Climate. Reidel, Boston. Pp. 269-305. Data
    archived at the World Data Center for
    Paleoclimatology, Boulder, Colorado, USA.
  • Devils Hole Landwehr, J. M., Coplen, T. B.,
    Ludwig, K. R., Winograd, I. J., Riggs, A. C.,
    1997. Data for Devils Hole core DH-11. Unites
    States Geological Survey, Open File Report
    97-972. Available at www.water.usgs.gov/pubs/of/of
    r97-972.

16
Conclusions
  • The three largest aragonite zones (separation of
    Bear Lake from Bear River) appear to coincide
    with peak interglacials (OIS 1, 5e, 7a). The
    fourth, smaller aragonite zone ( 55 m) occurred
    sometime after OIS 5e, but still within OIS 5.
  • Sr isotope ratios core suggest that Bear Lake and Bear River have
    been connected for most of the last 250 ka.
  • The Bear River was mainly connected to the lake,
    but its influence on the sediments deposited at
    the core site varied through time.
  • Bear Lake experienced significant fluctuations in
    its hydrologic balance, as shown by the ostracode
    oxygen isotope record, due to climatic change and
    lake-river interactions.
  • Because it is influenced by catchment-scale
    processes, the Bear Lake oxygen isotope record
    differs from globally integrated records from
    deep marine deposits.
  • Sediment deposited in Bear Lake is strongly
    influenced by variable production of endogenic
    carbonate within the lake, by fluctuating input
    of fluvial and glacial-fluvial material from its
    headwaters, and by periodic retraction of the
    lake into a topographically closed basin.

17
Thanks to everyone involved
  • R. Forester, USGS - Chemistry, ostracodes,
    isotopes
  • W. Dean, USGS - Carbonate mineralogy, XRD
  • M. Reheis, USGS - Mapping
  • J. Rosenbaum, USGS - Magnetics, grain size
    analysis
  • J. Bischoff, USGS U/Th analysis
  • J. Smoot, USGS Sedimentology
  • K. Simmons, USGS - Strontium isotope analyses
  • D. Kaufman, NAU - AA geochronology, mapping
  • S. Anderson, NAU - Pollen
  • C. Hiel, URI - Paleomag
  • J. King, URI - Paleomag
  • K. Moser, U of U - Diatoms
  • M. Perkins, U of U - Tephra identification
  • S. Colman, LLO - Seismic, master chronology
  • D. Dettman, U of A - Water and carbonate isotope
    analyses
Write a Comment
User Comments (0)
About PowerShow.com