Java程序辅导

Ocean/ESS 410   
  
 1 
Lab 1. Plate Tectonic Summary Map 
 
In this lab we are going to work with a set of maps of global elevation and earthquakes in order 
to get a basic understanding of the surface features created by plate tectonics. Throughout the 
remainder of the class, we will look at some of features in more detail. 
 
There are four maps each of which shows a quarter of the Earth’s surface.  The elevation is 
shown by color and by contours spaced 1000 m apart.  To give the maps a three-dimensional 
appearance, they are illuminated from the North, so that steep south facing slopes are shadowed.  
The maps show earthquakes with a magnitude greater than 5 that were detected over a 20-year 
period with the Global Seismic Network.  Earthquakes are shown by colored dots and color-
coded for depth as follows:  
 
 red  =  0 to 70 km 
 green  =  70 to 300 km 
 blue  =  300 to 700 km. 
 
Your goal is to generate a tectonic summary of one map but you should take time to look at all 
the maps (quite useful when you are trying to understand features on the edge of your map).  The 
goals of the exercise are to learn to read the maps, use them to create a summary map of plate 
boundaries; and identify any interesting plate tectonic features. 
 
Outside the class period, we will leave the maps in the map case – please do not remove them 
from the class room.  
 
 
Making a map of plate boundaries 
 
For this exercise you will use a sheet of gridded paper to make a carefully drawn summary map 
of the plate boundaries and interesting tectonic features on the map.   The maps you are working 
from use a Mercator projection in which the map scale increases at high latitudes – this produces 
a lot of distortion but has the advantage that at any given position the scale is the same in the 
horizontal and vertical directions    For the map you draw, use the same constant scale for 1 
degree of latitude and longitude.  Tape 2 pieces of 8 ½ x 11” graph paper together lengthwise 
and choose a scale so that your map covers as much of the page as possible. 
 
Ocean/ESS 410   
  
 2 
You should include the following on your map 
 
• Plate boundaries 
The symbols for the different plate boundaries are shown on the next page:   
 
 
 
 
 
  
 
 
 
 
 
 
 
 
 
 
 
 
 
 
o You can identify spreading centers (also known as mid-ocean ridges) from the 
bathymetry (they are linear shallow features).   
o Ocean transforms offset the ridges and are usually delineated by shallow earthquakes 
(what is the sense of motion on these faults?).   
o Subduction zones are usually (but not always) characterized by deep earthquakes and you 
can infer the direction the slab dips from how the depths change and hence infer the 
overriding plate.  
o In some instances plate boundaries may be diffuse in which case you should indicate so 
by labeling 
 
• Coastlines 
• Arrows to show the relative directions of plate movements.   
• Dotted lines to show seamount chains 
• Dashed lines to show fracture zones (the inactive parts of oceanic transforms).    
• With help from the instructor, the TA and your fellow students, identify other interesting 
features on the bathymetry map (see list on the next page) and add them to your plot. 
Overriding 
plate 
Subduction Zone 
Spreading 
Center 
Transform 
Fault 
Spreading 
Center 
Ocean/ESS 410   
  
 3 
Interesting Features 
 
The following is a list of some interesting global tectonic features. 
 
Southeast Quadrant (Australia) 
• Australian-Antarctic Discordance on the South-East Indian Mid-Ocean Ridge (50°S, 
125°E) 
• Ridge Triple Junctions - central Indian Ridge, Southeast Indian Ridge and Southwest 
Indian Ridge all meet at a triple junction (25°S, 70°E) 
• Macquarie ridge (53°S, 160°E) 
•  Diffuse plate boundaries that subdivide the Indo-Australian plates (not something you 
can see on the map but a very interesting topic) 
•  Super-slow spreading ridges - Southwest Indian Ridge (also Gakkel ridge in the Arctic) 
•  Large Igneous Provinces - Kerguelen Plateau (50°S, 70°E) and Ontong Java Plateau 
(5°N, 160°E). 
 
Southwest Quadrant (South America) 
• Scotia Plate (55°S, 70°W) 
• Pacific Microplates (25°S, 125°W) 
•  Lau Back Arc Basin (21°S, 176°W) 
•  Eltanin Transform Fault (54°S, 123°W) 
•  South Shetland Subduction Zone and the Bransfield Basin (63°S, 60°W) 
 
Northwest Quadrant (North America) 
• Caribbean Plate (20°N, 70°W) 
• Ridge-Hotspot Interactions - Iceland and the Reykjanes Ridge (60°N, 30°W)  -also see 
the Azores on this map and the Galapagos Island and Ridge near the equator on the 
western quadrant maps 
• Hawaii hotspot (157°W, 20°N) - also numerous other oceanic hotspots such as Reunion 
Island in the Indian Ocean 
• Aleutian Islands (170°W, 50°N) 
• Farallon Plate and the west coast of North America 
 
Northeast Quadrant (Eurasia) 
• Himalayas (35°N 70E) 
• Aegean Sea (35°N, 25°E) 
• Red Sea (20°N 40°E) and East African Rift 
•    Large Igneous Provinces - Ontong Java Plateau (5°N, 160°E) and Kerguelen Plateau 
(50°S, 70°E). 
•  Sumatra Subduction Zone and the 2004 earthquake (15°N, 95°E)