Sample quiz 3 answers:
1- D
2- E
3- C
4- A
5- C
6- B
7- E
8- C (reduction of
upwelling reduces available nutrients and breaks down food chain at its base;
fish need to go deeper or farther away to find food and hence catch is reduced)
9- F (we talked about
tree-ring reconstructions of streamflow in class;
“proxy” means substitute or alternate source of data)
10- B
(cooler-than-normal temperatures and higher-than-normal precipitation in the
Southwest during El Niños would be an example of such
a teleconnection)
11- A [WE DID NOT QUITE YET GET TO THIS MATERIAL, SO IT WILL NOT BE ON QUIZ 3; BUT
P. 24-25 OF MANN/KUMP IS ALL ABOUT FEEDBACKS]
12- D (PDO is the
Pacific Decadal Oscillation- I showed El Nino periods predominate after 1978
and La Nina more common before 1978 suggesting a 20-30 year cyclicity
in their occurrence, i.e., “decadal” variability)
13. C (at higher
temperatures more water vapor is required to saturate it, i.e., the air “holds”
more water vapor). So, half (50%) of
saturation would represent much more water vapor present in air at the highest
temperature given [=40C]
14. C
15. (a) Cooling and (b) increase of salinity largely by exclusion
of salt when water freezes to form sea ice.
16. See p. 89 of
Mann/Kump.
Precipitation is predicted to increase near the Equator, decrease at low
latitudes (30°), and increase at high latitudes (60°).
17. TH circulation is
the "global oceanic conveyor belt". It transports heat and salt in an
attempt to even out their abundance around the world ocean. Currently, TH circulation is largely driven
by deep-water formation in the N. Atlantic near Greenland, where high density
cold, saline water sinks and begins a journey around the world ocean flowing as
a bottom current and then returning as a near-surface warm current. Any event that stops or slows deep- water
formation will slow TH-circulation and thereby slow the return flow of surface
warm water to the N. Atlantic. This
happened during the Younger Dryas as the ice sheets
melted.
18. Southeast Asian
(Indonesian) rain forests in western Pacific Ocean Basin, Amazon rain forest,
Alaska & Pacific Northwest (including boreal forests of Alaska and western Canada),
New England states, South Africa (see Fig. 4-15, page 127 of Mackenzie; p. 91
of Mann/Kump)
19. WE DID NOT QUITE YET GET TO THIS MATERIAL, SO IT WILL NOT BE ON QUIZ 3
20. Our discussion of
global atmospheric circulation (convection cells) and sinking air at 30 degrees
and 90 degrees (deserts)
21. Locally, thawing
permafrost can damage structures (buildings, roads, pipelines) and cause
“drunken” forests; globally methane (a potent greenhouse gas) may be released
from the permafrost.
22. see #19.
23. see Eilperin for answer.
24. WE DID NOT GET TO THIS MATERIAL, AND I AM NOT SURE IF WE
WILL GET TO IT