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SDAG Monthly Meeting - VIRTUAL
Wednesday - July 21, 2021

Location: Your house, in front of your computer


6:30pm - get logged in, social hour via web platform
7:00pm - Meeting begins


Join Zoom meeting from PC, Mac, Linux, iOS or Android:
Meeting ID: 857 9818 4239
Passcode: 461844

happy hour

Menu: What's in your fridge?
dinner

Cost: Free - BYO food and drinks.
If you are a current SDAG member and are not getting e-mail announcements,
make sure the SDAG secretary has your correct e-mail address.

speaker
7:00pm -
Program

"Analysis of Arctic Beaufort Sea Cores using XRD Methods: Can Dolomite tell us Anything?"

Speaker: Athena Catanzaro

A proposed deglacial history for the Beaufort margin continental slope in the western arctic has defined multiple ice-rafting and meltwater discharge events recorded in the region's stratigraphy. At the time of the late Wisconsin glaciation, the Laurentide Ice Sheet (LIS) extended from the Brooks Range up to the Canadian Arctic Archipelago. As the LIS retreated, discharge was routed by three major ice streams: the Mackenzie, Amundsen Gulf, and M'Clure Straight. Magnetic anomalies in sediment cores retrieved from the area in 2013 aboard the USCGC Healy correlate to Ice-rafted debris (IRD) layers that were deposited during the LIS retreat. Recent studies from the Arctic Ocean suggest that the presence of dolomite in marine sediment is an indicator of IRD deposits and could possibly identify the ice stream source. The purpose of this study was to use x-ray diffraction (XRD) to test the hypothesis that the presence of dolomite in a sample correlates to IRD and could differentiate between a Mackenzie River or Amundsen Gulf source. We also attempted to eliminate the common assumptions with XRD sample prep of sample amount and grain orientation, by normalizing the data in a variety of ways (normalizing to the largest dolomite peak in the core, to the 4.26 Åquartz peak, and also calculating the area of each dolomite peak). A total of 15 samples from two sediment cores (JPC25 and JPC 15/27) were analyzed based on the interpretations of Klotsko et al. (2019). Our results suggest that 1. the presence of dolomite in sediment along the continental slope does not correlate solely to IRD and cannot be used to confidently identify a source area and 2. Normalized data plotted alongside dolomite relative peak intensities show the same trends. The second result suggests that using relative peak intensities is a sufficient way to view and interpret the data.

Athena withdrew from years in the construction industry in 2015 to begin school at Palomar College. After graduating with an Associates degree in Geology, she worked for a year on a drone grant funded by the NSF where she analyzed GIS data, and aided in publishing an introductory GIS Lab Manual. While at Palomar College, Athena completed a self-guided study on mineralogy and use of the cross-polarizing microscope to identify minerals. She then began her bachelor's studies at SDSU in 2019 and graduated in 2021 with a degree in general geology. The research presented will be the culmination of her senior thesis. Athena has been an active member of SDAG since 2016 and is currently our Treasurer. She will be starting her master's degree at SDSU in the Fall and continue to serve the San Diego Association of Geologists.

"Lake Cahuilla and its effects on the SSAF system."

Speaker: Ryley Hill

The last major rupture on the southern San Andreas Fault (SSAF) occurred around 300 years ago. The open interval is well beyond the average recurrence interval of 180 ± 40 years documented by paleoseismic data, raising questions about mechanisms responsible for the current 'earthquake drought' on the SSAF system. Recent paleoseismic evidence shows that previous ruptures on the SSAF correlate with high-stands of the ancient Lake Cahuilla, a 236 km3 body of water adjacent to the SSAF. We investigate the effects of lake loading using a fully coupled 3D finite element model of a strike-slip fault in a poroelastic crust overlying a viscoelastic mantle. We use the history of water level changes in Lake Cahuilla for the last ~1000 years to calculate time-dependent Coulomb stress changes on the SSAF that are superimposed on the tectonic loading due to the long-term fault slip rate of ~17-19 mm/yr. The respective Coulomb stress perturbations are on the order of 0.3-0.7 MPa for a plausible range of the fault zone permeabilities, arguably large enough to trigger system-size events. The relatively high "hydrologic" stress perturbation is due in part to what we refer to as the "memory" effect whereby increases in pore pressure due to previous high stands are not completely diffused and constructively interfere with the undrained response due to subsequent increases in the lake level. We estimate that loading by the Lake Cahuilla modulated the interseismic stress accumulation by at least 7-16% at the seismogenic depth during several previous earthquake cycles. Our model indicates that the destabilizing effects of lake inundation are enhanced in the presence of a fault damage zone and lateral pore pressure diffusion.

Ryley is a 3rd year PhD candidate in the joint doctoral program at UCSD/SDSU. He studied Physics/Math in his undergraduate degree at University of Nevada, Reno where he grew interest in geophysical problems. He now pursues understanding fluid interactions on faults with his advisor Matthew Weingarten at SDSU.


Upcoming SDAG meetings - 2021

August 18: - IN PERSON.

Meetings are usually scheduled for the 3rd Wednesday evening of the month. Meeting information on this website is normally updated the second week of the month.

Recordings of past meetings

7/21/2021: Student Scholarship Presentations "Analysis of Arctic Beaufort Sea Cores..." and "Lake Cahuilla and its effects on the SSAF system"
https://us02web.zoom.us/rec/share/zAB9anAp3cFYKnOI9poz0FjBJWVtDgq4ZVdyj2jXvFifrVE-kF2G4MnSC-2QSinA.PVC8sJfdfKguNE8O
Passcode: 2M1LkG!C

5//2021: Hans Janzon "Nuclear Waste Disposal in Rock: Sweden and the US"
https://us02web.zoom.us/rec/share/-R07dI9_MOGvq0LWwQCQoKh0Ml7dWzHJd2oOCZ1IOXSHH6F6Vnwwfk2wLTcq_C0-.D-h3_j4bKFPqbaIg
Passcode: AQpMR@4#

4/21/2021: EERI Speakers: 1) Prof. Thomas Rockwell (San Diego State University), 2) Timothy Dawson (California Geological Survey), 3) Michael DeFrisco (California Geological Survey), 4) Discussion Q&A. Moderator: Dr. Jorge Meneses
"NEW AND REVISED ALQUIST-PRIOLO EARTHQUAKE FAULT ZONES IN SAN DIEGO"
https://youtu.be/i57SAk2E9fQ

3/17/2021: Barry Keller "Sediment Transport in the San Francisco Bay Estuarine System"
https://us02web.zoom.us/rec/share/r_KFYicTTt-XJfQ5j0xOkKt7PvMAZizPyVVZXuwgIY9aMupXI41p1xG944ioQE9h.5uAPjT_l-YOrNk1v?startTime=1616033593000
Passcode: 5+Y5m?h@

2/17/2021: Dr. Norrie Robbins "Origin of Our Redbeds Pigmentation by Chembiotic Oxidation of Detrital Magnetite in Red Brown Pleistocene Terrace Sandstones, San Diego, CA."
https://us02web.zoom.us/rec/share/rDGUYp_jKT6_oJbS0Z7TEcblrUQFYJIu07NzDPDleK66uh1Cm0-G2QRFUF5kkwII.E827yjirSFWqusRk
Passcode: ^DK2UW0=

1/20/2021: W. Paul Burgess, M.S., P.G. California Geological Survey "Shallow landslide and debris flow activity in San Diego County, early April, 2020"
Powerpoint: https://drive.google.com/drive/folders/1A4l68oBNQrHlchzin0doV8TirlyX8MUu?usp=sharing
Zoom: https://cccconfer.zoom.us/rec/share/nESGMQtBsDWI5plVDQ9eS4dHMOpnm3S-DXncmdTRzedlypDf08h-kq8Wbjy3Nl_A.FjzGjHfD14eDD7eJ
Note: ZOOM speaker's presentation begins at time 1:44:00.

12/16/2020: Dr. Tom Demere of the SDNHM "Suprise Talk!!."
https://us02web.zoom.us/rec/share/rayQPu-tVOiOjeYR2MTsauG7XV6emlag1h8eFt7z-l-lNb210WEUmyBGXgqCfRxU.waoZ6dVI0MIIumdC
Passcode: b.Wh7f&&
Note: ZOOM speaker's presentation begins at time 1:10:00.

If you have any information, announcements, ads or suggestions for an upcoming newsletter, please submit it to 2021 SDAG Secretary. Any news regarding upcoming events that may be of interest to the Association or news of your business can be submitted. The submittal deadline for the next SDAG newsletter is the last Friday of the month.
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