Background lecture - PowerPoint PPT Presentation

About This Presentation
Title:

Background lecture

Description:

Dendrogeomorphology Background lecture Various examples Web images Old business: Dating, discovering previously unknown earthquake on southern San Andreas – PowerPoint PPT presentation

Number of Views:59
Avg rating:3.0/5.0
Slides: 55
Provided by: Laborator85
Category:

less

Transcript and Presenter's Notes

Title: Background lecture


1
Dendrogeomorphology
  • Background lecture
  • Various examples
  • Web images
  • Old business
  • Dating, discovering previously unknown earthquake
    on southern San Andreas
  • New business
  • Current research on Parícutin eruption
  • Prep for Sunset Crater

2
How Dendrogeomorphology
  • Any unusual change in ring growth
  • Decreased/increased width growth
  • Decreased/increased ring wood density

3
(No Transcript)
4
How Dendrogeomorphology
  • Any unusual change in ring growth
  • Decreased/increased width growth
  • Decreased/increased ring wood density
  • Death/initiation date

5
(No Transcript)
6
How Dendrogeomorphology
  • Any unusual change in ring growth
  • Decreased/increased width growth
  • Decreased/increased ring wood density
  • Death/initiation date
  • Reaction wood/abrasion scar

7
(No Transcript)
8
(No Transcript)
9
How Dendrogeomorphology
  • Any unusual change in ring growth
  • Decreased/increased width growth
  • Decreased/increased ring wood density
  • Death/initiation date
  • Reaction wood/abrasion scar
  • Ring chemical changes
  • Nitrogen?
  • Strontium?

10
What Dendrogeomorphology
  • Earthquakes 1989 Loma Prieta

11
What Dendrogeomorphology
  • Earthquakes
  • Volcanic eruptions

12
What Dendrogeomorphology
  • Earthquakes
  • Volcanic eruptions
  • Other ground
  • Mud/debris flow, rockfall
  • Soil creep

13
What Dendrogeomorphology
  • Earthquakes
  • Volcanic eruptions
  • Other ground
  • Mud/debris flow, rockfall
  • Soil creep
  • Water
  • Shoreline
  • Riverine

14
What Dendrogeomorphology
  • Earthquakes
  • Volcanic eruptions
  • Aeolian
  • Great L. dunes
  • Other ground
  • Mud/debris flow, rockfall
  • Soil creep
  • Water
  • Shoreline
  • Riverine

15
What Dendrogeomorphology
  • Earthquakes
  • Volcanic eruptions
  • Aeolian
  • Great L. dunes
  • Snow
  • Neo advances
  • Avalanches (Dexter)
  • Permafrost
  • Ice ramparts, jams
  • http//www.neatorama.com/2007/05/31/frozen-waves/
  • Other ground
  • Mud/debris flow, rockfall
  • Soil creep
  • Water
  • Shoreline
  • Riverine

16
What Dendrogeomorphology
  • Earthquakes
  • Volcanic eruptions
  • Aeolian
  • Great L. dunes
  • Snow
  • Neo advances
  • Avalanches (Dexter)
  • Permafrost
  • Ice ramparts, jams
  • http//www.neatorama.com/2007/05/31/frozen-waves/
  • Other ground
  • Mud/debris flow, rockfall
  • Soil creep
  • Water
  • Shoreline
  • Riverine

17
Why Dendrogeomorphology
  • Basic understanding of surficial processes
  • Dates, therefore frequency of events
  • Location, areal extent
  • Magnitude
  • Temporal-spatial coherence
  • E.g., volcanism related to seismicity?
  • Medicine Lake Highlands

18
(No Transcript)
19
(No Transcript)
20
(No Transcript)
21
Why Dendrogeomorphology
  • Basic understanding of surficial processes
  • Dates, therefore frequency of events
  • Location
  • Magnitude
  • Temporal-spatial coherence
  • E.g., volcanism related to seismicity?
  • Medicine Lake Highlands
  • Future prediction not a goal so much

22
Dendrogeomorphology Fundamentals
  • Uniformitarianism
  • Events affect trees similarly
  • Absolute conditions need not be similar
  • Limiting factors
  • Events change what limits tree growth
  • Site selection
  • Certainly not random
  • Carefully considered

23
Dendrogeomorphology Fundamentals
  • Crossdating
  • Annual precision a strength of dendro
  • Getting close could be misleading
  • Sensitivity
  • Enough to facilitate crossdating
  • Not too much, mimic geomorphic signal
  • Replication
  • How many trees with geomorphic signal?

24
Dendrogeomorphology Fundamentals
  • Control (expectation)
  • Growth prior to event
  • Growth of other trees after event
  • Departure from expectation
  • Also caused by climate, ecological events
  • Mapping often critical
  • Calibration to known event would be nice
  • Vanishing evidence

25
(No Transcript)
26
DendrogeomorphologyQuadruple Junction
  1. Geomorphic process, frequent and recent
  2. Must damage trees without destroying evidence
  3. Must be old trees, with crossdating
  4. Compelling hazard to humans

27
DendroseismologySouthern California
  1. Recent event (1857), previous event thought to
    be within 200 years
  2. Living trees show 1857 event
  3. Long-lived pines and firs
  4. Millions of people living nearby, some right on
    the San Andreas

28
(No Transcript)
29
(No Transcript)
30
  • Pool Tree
  • Huge Jeffrey
  • No top
  • Sag pond pool

31
  • Lone Pine Canyon
  • Huge Jeffrey
  • No top
  • Right on fault

32
  • All Trees
  • Control chronology robust
  • 1812 1857 drought years?
  • Nine event trees
  • Pines, firs
  • Confirm 1857, show 1812
  • Span 12 km of fault

33
San JuanCapistrano
  • 60 km south of Wrightwood
  • Big earthquake in 1812, Dec. 8.

34
(No Transcript)
35
Interpretation
  • Short segment ruptured, but longer than our trees
  • The word irregular made it in title
  • 1812 45 yrs
  • 1857 146 yrs
  • 2003

36
Another Interpretation
  • Seismic ruptures displace stress, rather than
    eliminate it (SciAm, Jan. 2003)
  • Stress displaced to the north?
  • 1812 southern California 45 yrs
  • 1857 central California 49 yrs
  • 1906 San Francisco
  • When will south start again?

37
DendrovolcanismSunset Crater
  1. Last event not very recent (AD 1064?)
  2. Trees from archeo collections show that event
  3. Crossdating legendary
  4. Sinaguans lived nearby
  5. Calibration from Parícutin 1940s?

38
Questions About Sunset
  • Nature of association of event trees with
    eruption?
  • Eruption perhaps a lengthy event?
  • Did ash truly improve environmental conditions
    for Sinagua?
  • Blank Sand, by Colton?

39
Parícutin, Mexico
  • Cinder cone, similar to Sunset
  • Well known modern event
  • 1940s-50s eruption
  • Lava, ash fall well-mapped
  • Forested area, then and now
  • Perhaps could serve as a calibration for Sunset

40
Parícutin
  • Big, young pines
  • Most start in 1960s
  • A few start in 1930s
  • Some old stumps
  • Dating not great, but passable
  • Measure widths and elements
  • S, P

41
(No Transcript)
42
(No Transcript)
43
(No Transcript)
44
(No Transcript)
45
  • Interpretation (so far)
  • Clear visible effects on this tree
  • P and Ca response might be indirect ? soil pH
    changes
  • Either way, a useful chemical variable
  • Will this show up in Sunset Crater archeo wood
    collection?
  • Could refine start date of eruption
  • Could better define length of eruption

46
Dendovolvanics Mount St. Helens
  • A virtual dendrogeomorph playground
  • Recent eruptions
  • Lots of old trees
  • Lots of people

47
(No Transcript)
48
1842
1843
1845
49
(No Transcript)
50
(No Transcript)
51
(No Transcript)
52
  • Interpretation
  • 1842 event trees were in lahar surge
  • Formation of Goat Rocks Dome began shortly
    (within 10 years) before that
  • Petrologic cycle of dacite-andesite-dacite

53
How Dendrogeomorphology
  • Any unusual change in ring growth
  • Decreased/increased width growth
  • Decreased/increased ring wood density
  • Death/initiation date
  • Reaction wood/abrasion scar
  • Ring chemical changes
  • Nitrogen?
  • Strontium?

54
What Dendrogeomorphology
  • Earthquakes
  • Volcanic eruptions
  • Aeolian
  • Great L. dunes
  • Snow
  • Neo advances
  • Avalanches (Dexter)
  • Permafrost
  • Ice ramparts, jams
  • http//www.neatorama.com/2007/05/31/frozen-waves/
  • Other ground
  • Mud/debris flow, rockfall
  • Soil creep
  • Water
  • Shoreline
  • Riverine
Write a Comment
User Comments (0)
About PowerShow.com