December 9, 2010

By Tina Hovekamp, Library

Best wishes for this Winter break, everyone!

Looking for some good reading suggestions for your days off?  Listverse has a “Top 10 Best Novels of the Last 20 Years” page to help you find some literary jewels.  As Presnel, the author of the article states:

“The ten novels on this list all substantiate the belief that books are the most elastic, introspective, human and entertaining form of media that exist. Not movies, not music, not art, not the theatre. A famous author once said that novels are the best way for two human beings to connect with each other.”

And in case you discover that you are more than just a common book lover, The Wall Street Journal has a short piece introducing five of their best books for bibliophiles.  The article is written  by Allison Hoover Bartlett, author of The Man Who Loved Books Too Much: The True Story of a Thief, a Detective, and a World of Literary Obsession.  So, also check out, Extreme Book-Collecting.

See you back in Winter term!



Sustainability Across the Curriculum

December 2, 2010

by Mick McCann, Geography

On Friday, October 29th, I attended an informational meeting to start up a Sustainability Committee on the COCC campus.  Faculty members, administrators and students comprised the group of about 30 people in attendance.  Everyone’s self-introduction included what his or her particular interest was in participating in the committee.  One comment, made by a fellow faculty member, was her observation on how many students throw recyclables into a trash container, when there is a recycle bin adjacent to the trash.   Her comment was something to the effect of “what can we do to effect change of this type of behavior campus-wide?”  That got me to thinking…

People who throw aluminum cans in the trash do so for one of two reasons. One important reason is that they do not understand the value of the can and all of the processes and inputs, which went into the manufacturing and distribution of the product.  In essence, they are unable to analyze the life cycle of aluminum.  All they see is that they are holding a container, which has fulfilled its purpose, which is to hold the liquid for consumption.  Once consumed, the beverage container has no other function, and is something to be disposed of.   We can address this lack of understanding via education of the aluminum life cycle.  The other reason is, that although they may be aware of the huge inputs of energy and transportation required to manufacture the can and ship the contents to their location, they willingly choose to degrade the environment anyway.  I would like to think that most of us are in the former group.

I teach Environmental Geography (GEOG 190), a 100 level survey course in Environmental Science every Winter Quarter.  I have an opportunity to explain the life cycle of aluminum, discuss the cost/benefit ratio of reusing resources vs. disposing of them in a landfill, as well as discussing with students such business and economic terms such as externalities and environmental economics.   However, I can only presently have an impact on about 30 students per year through teaching this course. 

There are a couple of ways to get the message to more students.  Sure, we could make Geography 190 a requirement for all students, but I think it would be more valuable to attack certain problems and explore solutions to them from the unique perspective of all of the disciplines.  Since Geography often incorporates other subjects into the problem solving process, maybe there are ways in which we can all explore some of the same problems. 

In Geography classes, we discuss the locations of the raw material, bauxite, from which we derive aluminum.  Students learn that most of “our” aluminum actually comes from bauxite mined in Suriname, Guinea, or Jamaica.  It is then loaded on barges and shipped to northern locales, where there is cheap and abundant hydroelectric power.  In fact, the amount of energy required to make one aluminum can from bauxite ore is enough to run your television set for three hours.

Students in Geology classes and Chemistry classes could study the mineral composition of bauxite ore and the chemical weathering processes of the laterization of tropical soils. Business students could study the market costs of refining raw bauxite into aluminum and compare those costs to those of recycling aluminum. Mathematics students could quantify all of the data, and algebraic formulas taught in class could use word problems relating to energy use. The cost of landfills is another subject for Mathematic, Geography, and Economics students. 

Economics students could compare positive and negative externalities of aluminum production, while discussing option values and future resource values of alternative land use.  Sociology students could study the social context of recycling.  Psychology students could analyze how attitude and past behaviors intervene between goals and intensions in decision-making.  Writing students could write about aluminum recycling. Art students could use recycled materials for Art projects, and Foreign Language students could discuss issues in the target language.  Virtually every subject taught on campus could have some unique way of incorporating a sustainability topic into the curriculum.

This type of cross curriculum approach to sustainability is not limited to recycling aluminum cans. Faculty, administration and students, together as a campus community, can identify areas where we most need to work on to achieve sustainability goals.  After identifying target areas, we can best effect change via a multi-disciplinary approach.  After targeting a specific campus-wide sustainability goal, we could have at least one assignment in each class for a given quarter relate to that topic.  Students would then receive messaging via an integrated focus, while also benefiting from the interdisciplinary approach to problem solving.  Over the summer, faculty members could pool their assignments and post them to a central web page.  This may also enhance faculty academic collaboration.  The battle to achieve a more sustainable campus is as much the function of changing the social culture, as well as providing technical solutions. 

 Further Readings: