{"id":6480,"date":"2011-05-06t09:32:22","date_gmt":"2011-05-06t15:32:22","guid":{"rendered":"\/\/www.imrbdigital.com\/?page_id=6480"},"modified":"2021-02-26t15:21:48","modified_gmt":"2021-02-26t20:21:48","slug":"teaching-sustainability","status":"publish","type":"page","link":"\/\/www.imrbdigital.com\/guides-sub-pages\/teaching-sustainability\/","title":{"rendered":"teaching sustainability"},"content":{"rendered":"
print version<\/a><\/p>\n in a globalizing world of limited resources and unlimited ingenuity, colleges and universities play a vital role in preparing students to meet the sustainability challenges of the future.\u00a0 the imperatives of sustainability point not only to new course content, but also to new ways of teaching that content.\u00a0 as a project with relevance across the disciplines, sustainability presents a valuable paradigm for rethinking pedagogy.<\/p>\n <\/p>\n what is sustainability?\u00a0 what do we want to sustain?\u00a0 an important part of teaching sustainability issues involves keeping these questions always open and alive.\u00a0 sustainability offers a novel framework for asking enduring philosophical questions: what is the good life?\u00a0 how do we create a better world?\u00a0 thinking and teaching about sustainability are future-oriented projects, but the relevance of sustainability principles and practices must be articulated in the present.<\/p>\n the term \u201csustainability\u201d has an important history in development literature.\u00a0 in 1983, the united nations convened the world commission on environment and development (wced), known informally by the name of its chair, gro harlem brundtland.\u00a0 the brundtland comission\u2019s report, our common future<\/a><\/em> (1987), contains one of the most often cited definitions of sustainability:<\/p>\n \u201csustainable development is development that meets the needs of the present without compromising the ability of future generations to meet their own needs. it contains within it two key concepts:<\/p>\n \u2022 the concept of ‘needs’, in particular the essential needs of the world’s poor, to which overriding priority should be given; and<\/p>\n \u2022 the idea of limitations imposed by the state of technology and social organization on the environment’s ability to meet present and future needs.\u201d<\/p>\n the scope of sustainability is frequently described as including three spheres \u2013 social, environmental, and economic.\u00a0 to use an accounting metaphor, sustainability projects must be evaluated according to a \u201ctriple bottom line\u201d of social, environmental, and economic responsibility.\u00a0 a venn diagram depicts the interdisciplinarity of sustainability as a field of inquiry:<\/p>\n <\/p>\n sustainability is at once an integrative discipline and a multidisciplinary project; it has statistical, scientific, and humanistic dimensions.\u00a0 with its focus on specific problems and particular solutions, sustainability suggests place-based and project-based approaches to student learning.\u00a0 teaching towards sustainability also reminds us that pedagogy is a civic project; there are important ties between classroom and community.<\/p>\n <\/p>\n beth conklin<\/a>, 瑞士vs喀麦隆走地 professor of anthropology, offers various suggestions for using ecological footprint calculators well and for teaching about sustainability issues generally:<\/p>\n teaching sustainability is both exciting and challenging because of the interdisciplinary nature of the problems at stake.\u00a0 when teaching these issues, instructors are often working outside their own areas of expertise.\u00a0 how do you bring new content knowledge into the classroom without overburdening yourself?\u00a0 ways to build interdisciplinary classrooms include:<\/p>\n <\/p>\n teaching towards sustainability lends itself to place-based and project-based approaches to pedagogy.\u00a0 although sustainability is a global goal, its problems and solutions are always importantly situated in local ecologies and communities.\u00a0 instructors might consider taking a \u201cbioregional\u201d approach to teaching about place, encouraging students to think about their local watershed as a meaningful way to conceptualize community.\u00a0 in addition, focusing on sustainability solutions requires the cultivation of an imaginative experimentalism \u2013 the difficulties involved in transitioning to a more sustainable world can only be worked out in the process of formulating practical alternatives to the problems at hand.<\/p>\n field trips bring people together in ways that go beyond traditional classroom experiences.\u00a0 planning the logistical details of a field trip take time and foresight, but the rewards of a well-planned field experience can make it worth the effort.<\/p>\n encourage students to think of the campus as a sustainability laboratory.\u00a0 assign projects that allow students to create solutions to sustainability issues they identify in their own dormitories and dining halls. get in touch with your campus sustainability coordinator to brainstorm projects and to help connect students with existing campus resources and organizations.<\/p>\n there is an important relationship between the university and the larger community of which it is a part.\u00a0 teaching about sustainability is, in large part, a civic education.\u00a0 instructors can encourage students to see not only their campus, but also the city and countryside in which it is located, as a sustainability classroom.\u00a0 assign projects that help students to map and engage with sustainability issues and initiatives in the community.\u00a0 consider assigning students to attend a city council meeting and write a response.<\/p>\n the cft has a teaching guide on service learning<\/a> for instructors considering incorporating action research and community engagement into their courses.<\/p>\n <\/p>\n using ecological footprints calculators is one valuable starting point for educators wishing to engage students in important dialogues about wide ranging issues of environmental sustainability and resiliency.\u00a0 ecological footprints are calculations of natural resource use that assess environmental impacts.\u00a0 typically they measure levels of resource consumption relative to resource availability, and they may be scaled to address the consumption of individuals, campus communities, cities, or entire nations.<\/p>\n there are two general types of calculators, \u201cecological footprint\u201d calculators that attend to resource use across many resource categories, and those that are more specific to individual resources, most notably \u201ccarbon calculators.\u201d\u00a0 ecological footprint calculators are more complex since they address a broader diversity of natural resources and their uses, and they typically measure resource use against the total amount of resources available, thus accounting for some approximation of the natural limits to consumption.\u00a0 carbon calculators are measures of carbon resource consumption and are particularly useful as they pertain to one of the most significant environmental threats and policy issues of our time, namely climate change.\u00a0 they arguably are also good proxies for resource use generally since fossil fuel use is deeply embedded in all forms of consumption.\u00a0 usually carbon calculations do not involve a measure of the total natural stock of carbon-based fuels or other resources, although their results may be analyzed in the context of levels of atmospheric pollution thought necessary to curb such problems as climate change.<\/p>\n there are many varieties of ecological footprint calculators.<\/p>\n the teaching moments afforded by footprint calculators are many and may be found in courses across the disciplines:<\/p>\n footprint calculators are not without their limitations, however.\u00a0 even so, the limitations of footprint calculators below afford their own teaching moments.\u00a0 in reference to carbon calculators, mike vandenbergh<\/a>, 瑞士vs喀麦隆走地 professor of law, suggests several limitations are important to consider:<\/p>\n the global footprint network<\/a> supports the shift towards a sustainable economy by advancing the ecological footprint, a measurement and management tool that makes the reality of global limits central to decision-making.\u00a0 ecological footprint projects can be an effective way to get students thinking about how sustainability intersects with their lives.<\/p>\n the latest results from vanderbilt\u2019s green house gas emissions survey<\/a> may be especially useful for vanderbilt faculty who wish to incorporate campus operations and sustainability into their courses.\u00a0 some interesting highlights:<\/p>\n 瑞士vs喀麦隆走地\u2019s total carbon footprint for 2009 is approximately 464,240 metric tons of carbon dioxide equivalent (mtco2e), a 2.4% decrease since 2005.<\/p>\n of this total, 39% is electricity purchased from nes, 23% is from coal use at the vu power plant, 19% is from faculty and staff commuting, and 14% is from natural gas use at the vu power plant.\u00a0 this is represented in the pie chart below:<\/p>\n <\/p>\n carleton college\u2019s science education resource center<\/a> (serc).\u00a0 a broad and multifaceted program, serc is home to various resources and links that may be of use, including the climate literacy network<\/a>, the pedagogy in action website<\/a>, and teaching the earth<\/a>, among other valuable sites.<\/p>\n \u201cthe ecological footprint: accounting for a small planet,\u201d<\/a> a film produced by bullfrog films in 2005, features dr. mathis wackernagel and is a good introduction to natural resource accounting.\u00a0 directed by patsy northcutt for the global footprint network, it is 30 minutes long.<\/p>\n “ecological footprint feedback: motivating or discouraging?<\/a>,” an article by amara brook in social influence<\/em> (vol. 6, no. 2, pp. 113-28, 2011), discusses the psychological challenges of motivating students with ecological footprints.\u00a0 while some students with high personal commitments to environmental sustainability were motivated to take action by their own footprint data, others without such commitments were not.\u00a0 this suggests at the very least that teaching with ecological footprints requires nuance and intentional discussion of their affective aspects.<\/p>\n <\/p>\n sustainability and environmental management office<\/a><\/strong>: the sustainvu website offers an invaluable resource for instructors who want to familiarize themselves with the sustainability landscape at vanderbilt.\u00a0 semo\u2019s mission is to initiate, promote, coordinate, evaluate, and encourage environmental management and sustainability initiatives that improve vanderbilt\u2019s impact on the community and environment.<\/p>\n vanderbilt biodiesel initiative<\/a><\/strong>: vbi is vanderbilt\u2019s student-run biodiesel production system, which converts waste vegetable oil into biodiesel fuel that is used by several vu diesel-fueled engines.\u00a0 one of the byproducts of this process, glycerin, is used to make ecosuds soap, which is sold at several locations on campus.\u00a0 vbi aims to educate others about the viability of biodiesel as an alternative fuel.<\/p>\n vanderbilt school for science and math<\/strong><\/a>:\u00a0 the school for science and math is a joint venture between vumc and metropolitan nashville public schools offering high school students an interdisciplinary, research-centered learning experience.\u00a0 the school for science and math has developed innovative sustainability projects and learning experiences, including a biodiversity inventory of vanderbilt\u2019s campus, a bioassessment of the little harpeth river, and a videoconference with scientists in hawaii to discuss the pacific gyre garbage patch.<\/p>\n tennessee higher education sustainability association<\/a>: <\/strong>thesa is a non-profit organization dedicated to supporting and promoting sustainability initiatives taking place within higher education institutions within tennessee.\u00a0 it seeks to ensure that the societal movement toward sustainability is reflected in and promoted at college and university campuses across the state.\u00a0\u00a0 the thesa website offers information about relevant conferences and other events, resources for instructors, information on model programs across the state, and updates on campus sustainability initiatives in the local news.<\/p>\n the association for the advancement of sustainability in higher education<\/a>: <\/strong>aashe is an association of colleges and universities working to create a sustainable future.\u00a0 aashe provides resources, professional development opportunities, and a network of support to enable institutions to model and advance sustainability in everything from governance and operations to education and research. \u00a0vanderbilt is a member of aashe, with full access to their resources.\u00a0 just be sure to use your @vanderbilt.edu address when signing up for an account.<\/p>\n the association for experiential education<\/a>:<\/strong> aee is a nonprofit, professional membership association dedicated to experiential education and the students, educators and practitioners who utilize its philosophy.\u00a0 their website includes information on relevant books, articles, conferences, and other resources.<\/p>\n the journal of sustainability education<\/a><\/strong>: jse serves as a forum for academics and practitioners to share, critique, and promote research, practices, and initiatives that foster the integration of economic, ecological, and socio-cultural dimensions of sustainability within formal and non-formal educational contexts.\u00a0 jse is a peer-reviewed, open-access, trans- and interdisciplinary e-journal.<\/p>\n the center for ecoliteracy<\/a>: <\/strong>the center for ecoliteracy promotes the green schooling movement. \u00a0the center is best known for its work with school gardens, school lunches, and integrating ecological principles and sustainability into school curricula.\u00a0 the center for ecoliteracy offers books; 2022年世界杯预选赛赛程表; professional development seminars; a sustainability leadership academy; keynote presentations; and consulting services.<\/p>\n going green on campus<\/strong><\/a>: this site, from let’s go solar, has some useful tools for students to use to consider their campus consumption, resource use, and impact.<\/p>\n aber, john, tom kelly and bruce mallory, eds. the sustainable learning community: one university\u2019s journey to the future<\/em>. new hampshire, 2009.<\/p>\n barlett, peggy, and geoffery chase.\u00a0 sustainability on campus: stories and strategies for change<\/em>.\u00a0 boston: mit press, 2004. (available in the cft library)<\/p>\n blewitt, john and cederic cullingford, eds. the sustainability curriculum: the challenge for higher education<\/em>. earthscan, 2004.<\/p>\n creighton, sarah hammond. greening the ivory tower: improving the environmental track record of universities, colleges, and other institutions<\/em>. mit press, 1998.<\/p>\n hernandez, carlos, and rashmi mayur.\u00a0 pedagogy of the earth: education for a sustainable future<\/em>.\u00a0 kumarian press, 1999.<\/p>\n kahn, richard.\u00a0 critical pedagogy, ecoliteracy, and planetary crisis: the ecopedagogy movement.<\/em> peter lang publishing, 2010.<\/p>\n m\u2019gonigle, michael and justine starke. planet u: sustaining the world, reinventing the university<\/em>. new society publishers, 2006.<\/p>\n murray, paul. the sustainable self: a personal approach to sustainability education<\/em>. earthscan, 2011.<\/p>\n orr, david.\u00a0 ecological literacy: education and the transition to a postmodern world<\/em>.\u00a0 albany: state university of new york press, 1992.<\/p>\n rappaport, ann and sarah hammond creighton. degrees that matter: climate change and the university<\/em>. mit press, 2007.<\/p>\n stibbe, arran. the handbook of sustainability literacy: skills for a changing world<\/em>.\u00a0 green books press, 2010.\u00a0 (available in the cft library)<\/p>\n on march 30, 2010, the cft hosted a panel discussion on \u201csustainability across the curriculum.\u201d\u00a0 see our blog post<\/a> for a full description of the conversation.\u00a0 we also recorded the panelists\u2019 comments as a podcast<\/a>.<\/p>\n <\/p>\n <\/a> print version in a globalizing world of limited resources and unlimited ingenuity, colleges and universities play a vital role in preparing students to meet the sustainability challenges of the future.\u00a0 the imperatives of sustainability point not only to new course content, but also to new ways of teaching that content.\u00a0 as a project with relevance…<\/p>\n","protected":false},"author":452,"featured_media":0,"parent":18232,"menu_order":8,"comment_status":"open","ping_status":"open","template":"","meta":{"spay_email":"","_links_to":"","_links_to_target":""},"tags":[],"acf":[],"_links":{"self":[{"href":"\/\/www.imrbdigital.com\/wp-json\/wp\/v2\/pages\/6480"}],"collection":[{"href":"\/\/www.imrbdigital.com\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"\/\/www.imrbdigital.com\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"\/\/www.imrbdigital.com\/wp-json\/wp\/v2\/users\/452"}],"replies":[{"embeddable":true,"href":"\/\/www.imrbdigital.com\/wp-json\/wp\/v2\/comments?post=6480"}],"version-history":[{"count":26,"href":"\/\/www.imrbdigital.com\/wp-json\/wp\/v2\/pages\/6480\/revisions"}],"predecessor-version":[{"id":37854,"href":"\/\/www.imrbdigital.com\/wp-json\/wp\/v2\/pages\/6480\/revisions\/37854"}],"up":[{"embeddable":true,"href":"\/\/www.imrbdigital.com\/wp-json\/wp\/v2\/pages\/18232"}],"wp:attachment":[{"href":"\/\/www.imrbdigital.com\/wp-json\/wp\/v2\/media?parent=6480"}],"wp:term":[{"taxonomy":"post_tag","embeddable":true,"href":"\/\/www.imrbdigital.com\/wp-json\/wp\/v2\/tags?post=6480"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}
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<\/a>what is sustainability?<\/h2>\n
<\/a>tips for teaching sustainability<\/h2>\n
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<\/a>interdisciplinary<\/h2>\n
guest speakers:<\/h3>\n
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cooperative learning:<\/h3>\n
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<\/a>place-based and project-based learning<\/h2>\n
field trips<\/h3>\n
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campus as sustainability classroom<\/h3>\n
classroom and community<\/h3>\n
<\/a>teaching with ecological footprints<\/h2>\n
<\/a>footprint calculators<\/h3>\n
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<\/a>classroom uses of footprints<\/h3>\n
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<\/a>limitations of footprints<\/h3>\n
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<\/a>ecological footprints resources<\/h3>\n
<\/a>vanderbilt and local resources<\/h2>\n
organizations and journals<\/h3>\n
books<\/h3>\n
blogs and podcasts<\/h3>\n
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\nthis teaching guide is licensed under a creative commons attribution-noncommercial 4.0 international license<\/a>.<\/p>\n","protected":false},"excerpt":{"rendered":"