Z Score,T Score, Percential Rank and Box Plot Graph
GEOG8260.8, The power of simplicity
1. Never never never never never never never
never never never never never never never
never never never never never never never
never never never never never never never
never never never never never never never
never never never never never never never
never never never never never never never
never never never never never never never
never never never never use Comic Sans.
9. “ [I]f you want people to understand [you] be er,
then get that stuff off the screen...Clean it up and
get it off because it is simply making it more difficult
for people to understand what [you are] saying.
”
—Tom Grimes Kansas State Journalism professor
25. Results
1.Sap in small trees (DBHs less than 20
cm) at non-streamside sites were lighter
in δD.
2.Small trees close to streams had δD
values that were similar to that of
streamwater. Streamwater = -121.4 ‰
Well water = -132.3 ‰
3.However, large streamside trees had δD
values that were significantly lighter
than streamwater.
Dawson & Erleringer concluded that:
A.Young (small) streamside trees were using streamwater, but;
B.Larger, mature trees were using a different water source.
26. Population Growth of Colorado River Basin 1900-2000
Low flow conditions since 2000 have 50,000,000
coincided with increased consumption from Other 6 Basin States Combined
California
a rapidly growing population and new 37,500,000
demands for water for ecosystem health and
recreation. Increases in consumptive use
25,000,000
are projected to continue. 12,500,000
Population
0
1900 1910 1920 1930 1940 1950 1960 1970 1980 1990 2000
Golf course in Las Vegas photo:
K.Dewey, High Plains Climate Center
http://www.usbr.gov/lc/region/g4000/NaturalFlow/current.html
28. THOU SHALT NOT decorate your slides with “PowerPoint Phluff”
29. “CHARTJUNK,
OVER-PRODUCED LAYOUTS,
CHEERLEADER LOGOTYPES AND BRANDING,
AND
CORNY CLIP ART”
30. Hydrological dynamics in the
Winnipeg River basin:
Lessons from long-term
gauge and tree-ring data
Scott St. George
Northern Division, Geological Survey of Canada
&
Department of Geosciences, University of Arizona
31. Operationalizing Sustainable Development
Case: Development of Flax & Hemp Value Chains
Canada Grains Council AGM
Winnipeg, Manitoba
April 7, 2008 (ver 2)
Maria Wellisch
Natural Resources Canada
Energy Technology and Programs Sector
32. Operationalizing Sustainable Development
Case: Development of Flax & Hemp Value Chains
Canada Grains Council AGM
Winnipeg, Manitoba
April 7, 2008 (ver 2)
Maria Wellisch
Natural Resources Canada
Energy Technology and Programs Sector
34. Hydrological dynamics in the
Winnipeg River basin:
Lessons from long-term
gauge and tree-ring data
Scott St. George
Northern Division, Geological Survey of Canada
&
Department of Geosciences, University of Arizona
35.
36.
37.
38.
39. THOU SHALT NOT u er the phrase
“I know you can’t see this but...”
40. Under projected
greenhouse-gas
emissions, modern
climate models yield a
narrow range
of warming scenarios and
no consistent tendency
for precipitation change in
the West.
Greenhouse forcings
1900-2100
41. Earth Sciences Sector
Program Logic Model
Outcomes
Issue 2011 and later Long Term by April 2011 Intermediate April 2009
by Immediate Outputs Activities
Canada’s resilience to
Adapting to a Key economic sectors Sectoral policy- and decision-
a changing climate is
resilience
Economic
•Assessment of CC Impact on water- •Spatio-temporal assessments
Changing Climate dependent on natural makers use Earth science reliant sectors
enhanced through capital, implement information to appraise the
for energy, agriculture and
•Adaptation options for agriculture, oil northern ecosystem services
effective adaptation adaptation strategies for a resilience of their sectors to a sands production, habitat
changing climate using •Development of models,
strategies informed by changing climate management methodologies, databases
Earth science information
ESS geoscience and
geomatics outputs
Adaptation
Community
•Collaborative work with
Practitioners incorporate •Criteria and methodology for stakeholders in coastal,
Vulnerable communities Earth science information assessment of vulnerability drought-prone and Arctic
adopt adaptation measures in the identification and •Documentation of vulnerabilities for communities/regions
that increase public characterization of stakeholders •Knowledge transfer to urban
Context/ safety, resilience and vulnerabilities •Learning, decision-making communities and the planning
sustainability and adaptation options tools adapted for planning use
Policy linkage profession
Climate is changing. To be
prepared and remain
competitive, implement an
innovative “Made in Canada”
policy, emphasizing new •Regional assessments of landscape, •Glacier and permafrost
technology, developed in ecosystem response monitoring
Policy
Advising Public
concert with provinces and in •National datasets and databases on •Paleo-reconstructions
coordination with other major Science community advising
landscape change •Climate, landscape & water
industrial countries Effective adaptation adaptation policy and
•Paleoenvironmental reconstructions change & modelling
measures are put in place decision makers informed
for impact studies and to constrain •Knowledge transfer to
by governments by effective change
models government policy groups
detection and projection
•Reports, contributions to synthesis •Reporting, contributing to
products and national, international national and international CC
assessments I&A programs
Key Performance Indicators
• number of adaptation strategies published each year that are based on NRCan impact
assessments
• number of published vulnerability studies based on NRCan work
• number of adaptation measures adopted that acknowledge NRCan contributions and are
deemed successful
Date created: July 4 2006
42. THOU SHALT NOT repeat the mistakes of your predecessors.