Monday, December 6, 2010

Final Lab: U.S. Census



















          The above map is a choropleth map showing the percentage of the Asian population within each county. This data set was extremely skewed so ranking the data was difficult. In the end, I chose to use "Geometric Interval" because it seemed to sum up the data set rather well. According to this map, the Central U.S. has the lowest percentages of Asian populations while the eastern and western coasts, especially Southern California, have higher percentages of an Asian Population.



















          This choropleth map shows the distribution of the Black population of each county. It shows higher percentages along the southwestern coast and even more pronounced percentages along the southeastern coast. Like the Asian population dataset, this too was skewed to the left so I decided to use "Geometric Interval" to rank the data set.

           "Some Other Race" describes multiracial individuals. This choropleth map shows the percentage of "some other race" population within each county. This population shows greatest percentages along the coasts and smallest percentages in the Central U.S. This data set was also extremely skewed so I ranked the data using "Geometric Interval."
           All three maps show the percentages of a race within a county, and all three use geometric interval to rank the data sets. All the data sets had extreme outliers that skewed the data sets as well as "tails" within the histograms. Unfortunately, this made it difficult to accurately represent the data sets. I would have liked to better portray the data but the vastness of the data sets as well as the distribution made this impossible. 

          Overall, I really enjoyed being acquainted with the ArcGis program. Learning these technical skills was a great experience. But the program itself was irritatingly slow a lot of the time and over the course of the quarter I realized that being a cartographer is just not for me. Being able to make maps asks for a lot spatial thinking, skills, and patience that I just do not have. This exercise especially has showed me that representing data through maps is a skill that's better suited for other people.

Wednesday, November 24, 2010

Week 8: Station Fire
































Los Angeles County Station Fire
The Los Angeles County Station Fire occurred in the Angeles National Forest towards the end of August through October 2009.2 Its burn area affected mostly Shrub, Conifer Forest, Hardwood Forest, Hardwood Woodland, and Urban and Agricultural land use: a variety of ecosystems were affected. And this large-scale fire gave birth to a crippled environment. A year after the fire and mitigation approaches can and should be taken to guide ecological growth in the right direction.
Angeles National Forest is largely untouched by urbanization but still within the grasps of human activities. Much of the burn area consisted of Shrub, then Conifer Forest. Forest fires are often seen as a bad thing but in reality, forest fires are healthy when occurring in small and patchy areas. In many mixed-conifer forests, fire is a keystone process promoting biodiversity by allowing varying successional species to establish and rare fire-seed trees to germinate.3 The Vegetation Map shows that some of the land burned by the fire was “Conifer Forest.” Other vegetation types affected were Hardwood Forest, and Hardwood Woodland. Each of these differing types of vegetation housed differing ecosystems and various species. 
The continuous burning of Station Fire not only destroyed the ecosystems present, but had many after-effects. This powerful fire created “competition-free” space for invasive species to establish themselves, altering the natural regime and decreasing biodiversity.4 The main after-effects of Station Fire were its topographical effects. Smoke still seen after the fire was said to have been put out indicated that the root systems of plants were burning6 and the strong interlocking mechanisms of these root systems that provided the necessary ecological service of anchoring the ground, no longer did.7 The Station Fire perimeters map shown over a hillshade model and the Slope Map show that the fire took place on steep slopes and crept up mountains. The effects of this, combined with barren land and wet conditions threatened many Californians with mudslides or landslides.8 The lack of anchoring vegetation on a steep slope compounded with a wet season, resulted with mudslides and landslides.
As the Station Fire Burn area recovers it is important to maintain and guide its growth in the proper direction. As the new species are setting in and as the ecosystem is recovering and growing it is important to learn from past mistakes and effectively use fuel reduction techniques. According to Potts et, al., fuel reduction strategies are important in shrubland community dynamics; and, as the land use map shows, a great majority of the burn area from Station Fire was “Shrub.” Both prescribed fires and mastication can help improve the biodiversity of the region.8 As the burn area is recovering it is important to guide its ecological growth in the proper direction and to adapt good forest management strategies.
The Station Fire was one of the largest wildfires in modern California history. It destroyed various types of vegetation and threatened a few urban areas. But its after-effects on the environment and on humans were even greater. It left open many opportunities for invasive species and left the land barren devoid of any anchoring system, resulting in many mudslides and landslides in the area during the rainy season. A year after the fire, and now is the time to implement improved forest management strategies and avoid the mistakes of the past.
________________________________
Bibliography 
2 (September 31, 2009) Station fire doubles in size. Daily News Los Angeles. Retrieved from http://www.dailynews.com/news/ci_13239035
3 School, A. E.; Taylor, A. H. (2010) Fire regimes, forest change, and self-organization in an old-growth mixed-conifer forest, Yosemite National Park, USA. Ecological Applications. 20(2) 362-380
4 Cavallers, L; Raffaele, E. (2010) Fire enhances the ‘competition-free’ space of an invader shrub: Rosa rubiginosa in northwestern Patagonia. Biological Invasions, 12(10) 3395-3404
6 Holmes, B. (November 10, 2009) The station fire is out – or is it?. Los Angeles Times.  Retrieved from http://articles.latimes.com/2009/nov/10/local/me-station-fire10
7 Levinton, J. S. Marine Biology: Function, Biodiversity, Ecology (Oxford University Press, ed 3, 2009) p 175 – 176
8 Potts, J. B.; Marino, E.; Stephens, S. L. (2010) Chaparral scrub recovery after fuel reduction: a comparison of prescribed fire and mastication techniques. Plant Ecology, 210(2) 305-315

Tuesday, November 16, 2010

Week 7: Digital Elevation Models




3-D Model (with DEM and hillshade layer)

3-D Model (DEM layer)













         













Extent (in decimal degrees):
Top: 38.44166            Bottom: 38.02722
Left: - 120.02138       Right: -119.31388
Coordinate System: North America GCS 1983
Datum: North American Datum 1983
           These models depict a small portion of the Sierra Nevada Mountain Range that lay on the eastern edge of California and the western edge of Nevada. This mountain range runs 400 mi North-to-South and 70 mi. east-to-west. It houses some amazing scenery and well-known attractions, like, Lake Tahoe, Mount Whitney, Yosemity National Park, Sequoia National Park, and Kings Canyon National Park. As you can see in the models, the Sierra Mountains' elevation gradually increases from east to west. The Sierra mountains are characteristic of California and offer great historical significance, as when the western coast of North America was first being explored.

Tuesday, November 9, 2010

Week 5: Map Projections

Pre-Lab:
How many degrees does the equator span?  
360.799 decimal degrees
How many degrees does the northern- and southern-most graticules span?
180.356 decimal degrees
These degrees represent the total distance in decimal degrees around latitudinally and longitudinally.
Distance from Washington to Kabul: 146.287 decimal degrees 
In the Mercator Projection: 
Alaska is not bigger than Brazil. 
Alaska is not bigger than Greenland.
Distance from Washington to Kabul: 16,289.05 km


















        
          Map projections are essential when moving from the 3-D real world to 2-D projections of that world. When moving from 3-D to 2-D attributes of the real world are distorted,  and certain map projections can preserve certain metric properties, but not all. It would be impossible for one map to maintain all the same attributes and metric properties as the real world. 
         Map projections are significant because they are necessary to make maps, and it is essential to understand which map projections are being used while reading a map to fully understand it. In order to move from the real world and into the conceptual world, map projections are needed to relate the real world, a sphere, into a flat surface. And while reading a map, one should understand the effects certain map projections can have It would be illogical to read a map with a conformal projection when trying to determine the size of an area, or the distance between areas. In conformal maps above, there is a 3,000 mile difference between the distances measured between Washington and Kabul of each map, meaning that these maps, which maintain bearing and not local distance, would not be accurate it measuring distance.
          The perils of map projections is that all the attributes and metric properties of the real world are not maintained. This is an inevitable fact of map projections. Geographical information is lost in the transition from real world to maps. As with the Equidistant Conic projection, equidistant parallels are maintained, while area, size, and shape are compromised. Thus it becomes important for mapmakers to carefully choose the proper projection for their map. And it is equally important for the map reader to understand the effects of map projections.
          Map projections, though distorting real world data, are necessary to create maps. Map projections allow the three dimensional world to be scaled down into a flat, manageable surface. It also allows us to manipulate data. A skilled cartographer would also be able to cleverly manipulate a map and its readers. Maps, and their necessary map projections, offer cartographers a powerful tool. Though distorted maps are not ideal, they are what we are capable of making. Besides, to remedy a distorted map, multiple maps can be used, each preserving different properties.


         

Tuesday, November 2, 2010

Week 4: ArcGis

          First-time users trying to use ArcMap will most likely find themselves lost in the multiple toolbars, numerous buttons, and infinite possibilities that come with the software. My first experience using ArcMap with the tutorial was like a blind man following a single rope through the city of Los Angeles. Blindly following the tutorial, I felt like I learned the most when I couldn't edit the "Schools" data frame and had to improvise, remaking the data frame with accessible data layers. And although the tutorial was rather lengthy, after only one run-through it was obvious that what the tutorial went through was only a scratch on the surface of all the possibilities of ArcMap.
          The complexity of ArcMap can be its downfall, especially for novices. There were so many tasks, tools, and toolbars that it was overwhelming. I found myself lost in all the buttons available, though I'm sure a well experienced cartographer could easily navigate through the numerous buttons. The only other major problem I experienced while using ArcMap was the lag time in displaying a data frame. While zooming in and out, and while panning through the map in a zoomed in view, there was some lag time in displaying the proper image. The panning tool was also difficult to use. I would click elsewhere on the map by accident and it would automatically focus on that point. I for one, found that annoying. Luckily, advancement in computer technology can easily minimize that lag time. The overwhelming complexity and delay of the software can be remedied with experience with the software and advancement in technology.
          Ironically, the great thing about ArcMap was also its complexity. Expecting a simple cartographic program, it was very surprising that ArcMap also entailed statistical data and spatial analysis as well as data editing. Data frame layers were not simple images, but held specific data as a whole and for each attribute. Amazingly, ArcMap was able to use the underlying data of each layer for editing and analysis. This aspect of ArcMap may have been the only good thing that I encountered while doing the tutorial but I'm sure that there are countless possibilities and vast potential to the software.
          The complexity of ArcMap is both its strength and weakness. ArcMap is a very thorough geographical tool. It has so much potential that I only know a fraction of. Its ability to analyze, edit, and carry underlying data is a profound tool. The downside is that the software can be a little slow and overwhelmingly complex. Multiple toolbars, numerous buttons, and unending number of tasks and possibilities can make the software difficult to learn and use.  ArcGis can be a powerful tool after first learning how to use it properly and efficiently.



Tuesday, October 19, 2010

Week 3: Neogeography - Google Maps


View u. c. l. a. in a larger map



          Being so busy with classes and clubs I found myself being swept away by the culture defined and strictly limited to time efficiency; so, this map served as a reminder to stop and really look around. And as I set out to take all the pictures for this map, I was overcome by feelings of excitement and mystery that usually coincide with exploration. Simply making this map has let me see this campus in many new lights.  This map shows UCLA in a way that is, hopefully, new and exciting for many people. The points represent places or things; the line highlights the main streets that surround campus. It highlights little or lesser known things and places of UCLA that many people can easily overlook and underlines the theme that Professor Shin has made in class that these maps can show us how much we really don't know about a place. It also allows the user, ironically through a digital map, to appreciate the smaller things in life and not be swept away by never-ending deadlines. 
          Neogeography is exciting from the mapmakers point of view and it offers insight on a personal level. And that is why neogeography can be amazing. It can create maps filled with personal experiences and insights, and with this maps with such in-depth local analysis can be open to the public. These sorts of maps can be very useful on a local level. It is because of these same reasons that neogeographic maps can be misleading. Though these maps offer insight on a personal level, the information provided is most likely biased. As you can see with my own map, most of the points I made were very nature-like, with plenty of flora.  Since the information on neogeo maps can be biased, an uninformed user can easily misinterpret the map and the location it defines. Though neogeo maps have plenty of potential and pitfalls, it can certainly change the way people look at the world around them. 

Video Source: PokeWixKev826. (2009) [Youtube video] Video: "UCLA UC Regents Protest: 11/18/09, 11:34 A.M."    http://www.youtube.com/watch?v=ahMlae-zB08
Picture Sources: Jessica Canet (2010) [All photographs] Album: u k l a. 
           http://s1027.photobucket.com/albums/y335/jeccacanet/u%20k%20l%20a/
URL Source: http://www.e3la.org/organic-garden-on-campus.html

Tuesday, October 12, 2010

Week 2: USGS

1. What is the name of the quadrangle?
          Beverly Hills Quadrangle
2. What are the names of the adjacent quadrangles?
           Canoga Park, Van Nuys, Burbank, Topanga, Hollywood, Venice, Inglewood
3. When was the quadrangle first created?
          1966
4. What datum was used to create the map?
          North American Datum (NAD) 1983 and National Geodetic Vertical Datum (NGD) 1929
5. What is the scale of the map?
           1 : 24,000
6. a) 5 cm (map) : 1200 m (ground)
    b) 5 in (map) : 1.894 mi (ground)
    c) 1 mi (ground) : 2.64 in (map)
    d) 3 km (ground) : 12.5 cm (map)
7. What is the contour interval on the map?
          20 ft
8. a) Public Affairs Building:
          34° 4' 23" N     118° 26' 12" W
          34.073° N        118.437° W
    b) Tip of Santa Monica Pier:
          34° 0' 32" N     118° 30' 0" W
          34.009° N        118.50° W
    c) The Upper Franklin Canyon Reservoir
          34° 7' 11" N     118° 24' 32" W
          34.120° N        118.409° W
9. a) Greystone Mansion: 580 ft, 176.784 m
    b) Woodlawn Cemetery: 140 ft, 42.672 m
    c) Crestwood Hills Park: 700 ft, 238.56 m
10. What is the UTM zone of the map?
         11S
11. What are the UTM coordinates of the lower left corner of the map?
          3,763,000 N     361,500 E
12. How many square meters are contained in the cell of the UTM grid?
          1,00,000 m 2
13.
14. What is the magnetic declination of the map?
           14 ° E, 249 mi E
15. In which direction does water flow in the intermittent stream between the 405 fwy and Stone Canyon Reservoir?
          The stream flows from North to South.
16.




Tuesday, October 5, 2010

Week 1: Mental Maps

2005 World Consumption Cartogram. mnn.com 9.29.10 [http://www.mnn.com/green-tech/research-innovations/blogs/types-of-environmental-impacts]

          I am an environmental science major and this map is very meaningful to me. It is a World Consumption Cartogram from 2005. It distorts the sizes of each country to show, relative to other countries, how much natural resources each country consumes on a per capita basis based on the 2005 Global Footprint Network. It comes as no surprise that the United States is stretched far beyond its normal means and other third world countries are extremely thinned. The peach colored countries are in an ecological deficit, the deeper progressive reds are in even more ecological deficit, meaning they are  consuming natural resources unsustainably. The beige neutral countries have no ecological deficit but neither do they have any negative ecological deficit (an ecological gain), their net ecological balance is 0. The green colored countries have a negative ecological deficit, which is positive, which means that they are producing more natural resources than they need. Needless to say, this map is very interesting to me, simply because the economics of ecological resources is intrinsically interesting to me. 



A Map of the Los Angeles Metro Green Line. Metro.net 9.29.2010 [http://www.metro.net/around/rail/green-line/
           This is a map of the Los Angeles Metro Green Line taken from Metro.net. It shows where the Green Line stops relative to LAX, and vaguely highlights where certain cities are. The stops are labeled with the street names and certain stops are specially labeled as they are transfer points to different lines. This map doesn't show it, but the Green Line travels along the 105 freeway and ends at the 605 freeway along with the 105 freeway. Though I suppose if one were to ride the Green Line, they wouldn't really need to know the freeways. This map isn't exactly interesting to me, but it is important to me because I endure an hour-long bus ride on the #6 Culver City Bus to reach the Aviation/LAX station then ride the Green Line all the way to the Norwalk Station to get home on some Fridays. 


 
Lightning Strike Density Map of the World. Modern Survival Blog. 9.29.2010 [http://modernsurvivalblog.com/weather-preparedness/lightning-strike-safety-preparedness/].
           This map is a Lightning Strike Density Map taken from ModernSurvivalBlog.com. It shows where and how often lightening strikes the earth. It shows that there's more lightning striking the earth at the lower latitudes than the higher latitudes and  either more recorded lightning or simply more lightning strikes occurring over the continents. The color legend on the right of the map shows what each specific color means in lightning strike density. I grew up in Southern California where lightning storms are somewhat sparse, and this past summer I vacationed in the Philippines where there were lightning storms every night. The lightning was amazing, so powerful and so quick. So, lightning has captivated me and therefore, I find this map interesting. I also find this map interesting because I don't understand why lightning strikes are concentrated over land as this map suggests; I believe that this map may be biased because lightning strikes may not be recorded over the ocean as diligently as they are recorded over land.