Tribal ecotAmbassadors
American Indian
EDUCATION CONSORTIUM
&EPA
United States
Environmental Protection
Agency
College of Menominee Nation
Upgrade to Energy Efficient
Appliances or Invest in Alternative
Inergy Sources?
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The College of Menominee
Nations (CMN) Tribal
ecoAmbassador Program
compared and contrasted energy
investment strategies. Project participants conducted
an array of experiments to determine whether it was
more effective to upgrade to energy efficient appliances
or invest in alternative energy sources.
Solar roof panels at College of Menominee Nation. Photo
courtesy ofD. Kakkak, CMN.
Dr. Lisa Bosnian and project leaders developed four
lab modules to give students hands-on experience in
energy analysis techniques. Students in the first lab
employed a Kill-A-Watt meter to measure the quantity
of electricity that a given appliance uses. In the second
lab, they used a web-application developed by the
National Renewable Energy Laboratory to estimate the
electricity generation of a grid-connected photovoltaic
(PV) system. A third lab looked specifically at PV
performance verification at CMN, while the final
lab assessed PV technology at the Argonne National
Laboratory.
Argonne National Laboratory gave project participants
full access to its Midwest Photovoltaic Analysis Facility
and associated performance data. Another project
partner, the National Council for Science and the
Environment, offered expertise and consulting services
for enhancing performance outcomes.
Hie partnerships, along with project participants'
research findings, have led to the development
of an article that will be submitted to the Journal
of Sustainability Education. Project participants
concluded that investment in solar energy systems
is efficient depending upon location and the cost of
electricity. In sunny locations where there are higher
amounts of solar irradiation, coupled with a higher
cost of electricity, there will be a quicker return 011
solar investment. However, solar panels have a much
lower energy value in locations with less annual solar
irradiation and lower electricity costs, significantly
affecting their overall return on investment.
Hie ecoAmbassadors project has facilitated curriculum
development at CMN. The lab modules that were
developed will be incorporated into courses offered
through CMN s new Pre-Engineering Technology
program. Additionally, the college benefited from
polycrystalline and monocrystalline solar panels,
which were installed on campus. A new website will
allow students and faculty to monitor the panels for
comparative data analysis on energy performance
outcomes.
Cover: Solar panel installation. Photo courtesy of D. Kakkak, CMN.
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Installation of solar panel. Photo courtesy of D. Kakkak, CMN.
The project has also had a great effect on student
learning and our understanding of energy
conservation. A post project energy literacy assessment
indicated a 14-point increase in participating students'
energy knowledge. Further, the lab modules developed
for the project will be shared and disseminated to
other educators. Dr. Bosnian participated in the
Environmental Protection Agency's Regional Tribal
Operations Committee meeting in Chicago to discuss
CMN's ecoAmbassadors project and to establish new
partnerships.
CMN's Tribal ecoAmbassador Program has given
students tangible research experience in solar energy
performance, meteorological monitoring, and in
developing effective energy conservation strategies.
The information, resources, and conclusions developed
during this project will be used in future learning
opportunities and will be disseminated to other
academic institutions.
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Utilizing Northwest Indian College
Gardens for Native Plant Education
&EPA
United States
Environmental Protection
Agency
Tribal eco^mbassadors
Northwest Indian College
American Indian
EDUCATION CONSORTIUM
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The Northwest Indian College
(NWIC) Tribal ecoAmbassador
Program has focused on native
plant education at the college
and in the broader Lummi community. The initiative
seeks to share traditional ecological knowledge of
native plants and gardening techniques with project
participants.
Many members of the Lummi community have lost
their connection to traditional plants, and students
today have not witnessed a traditional plant cycle.
Fewer Lummi than ever know when, why, or how
to harvest traditional plants. This project has helped
educate the campus community, the local people,
and visitors about the diverse plant life found on the
NWIC campus and its surrounding environs. Through
the cultivation and labeling of traditional plants, this
ecoAmbassadors project has broadened knowledge
of the flora that was used historically as medicine and
food.
Led by ecoAmbassador coordinator La Belle Urbanec,
project participants developed gardens on campus to
provide learning opportunities for NWIC students.
Lummi language speakers helped label native plants
in Lummi, common names, and Latin. NWIC science
students also used the gardens to expand their
knowledge of plant ecology, water runoff , toxicology,
soil composition, and growth rates.
Northwest Indian College Garden Project—The beginning. Photos courtesy of La Belle Urbanic, NWIC.
QR sign 'points'to the Northwest Indian College Plants and
Garden website. Photo courtesy of La Belle Urbanic, NWIC
cheningelh
The Salish Garden
The Salish Garden is representative of the native plants
that were harvested by the Coast Salish. The cedar trees,
various berries, stinging nettles, and ferns provide clothing,
food, and medicine for the people who continue our
traditional knowledge.
Cover: Northwest Indian College Moon Garden. Photo courtesy
of La Belle Urbanic, NWIC
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Project participants established five different
gardens, each used for a unique purpose. The Sun
Garden focused 011 edible plants. Students learned to
distinguish between traditional and non-traditional
vegetables, while also studying various horticultural
methods. Although the garden remained dormant
Sun Garden—Materials that will be used to demonstrate
mulching. Photo courtesy of La Belle Urbanic, NWIC.
for most of the year to allow compost to breakdown,
it has since flourished with a cornucopia of fruits
and vegetables. The Sun Garden has provided NWIC
students with hands-on experience in planting,
mulching, and growing traditional plant foods.
Sun Garden—The blueberries planted along the fence show
beautiful berries. Photo courtesy of La Belle Urbanic, NWIC.
Healing Garden—This is the center of the garden that was
weeded in May by volunteers attending a gardening forum.
Raspberry plants are on the right. Photo courtesy of La Belle
Urbanic, NWIC
The Healing Garden, alternatively, contains traditional
plant foods, including non-tribal food plants, used for
healing and good health. Students planted kale, berries,
lettuce, and various tomato species among other food
plants. The Healing Garden produced a healthy and
bountiful crop that students proceeded to harvest in
autumn.
Project coordinators took a different approach in
devising the college's Salish Garden. A forest remnant
of native plants that have thrived since NWIC s
construction, the garden illuminates the nature of plant
regeneration. The Salish Garden is located adjacent to
the Salish Sea Research Center and has been used as
an educational tool for native plant identification and
ecology.
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Salish Garden—The invasive Canadian Thistle (the purple
flowered tall plants) has taken a prominent position within
the garden and requires intensive and prompt removal. They
will continue to be problematic for a few more seasons. Photo
courtesy of La Belle Urbanic, NWIC.
Of the remaining two gardens, the Rain Garden was
planted to control toxic runoff and filters storm water
runoff from the colleges parking lot with native plants.
Moon Garden—An excellent spot to enjoy lunch, sunshine,
conversation, or for meditation, during those office and
classroom breaks. Photo courtesy of La Belle Urbanic, NWIC.
Cooperative Extension office have blossomed into
fruitful working relationships. Approximately 12
student interns and three faculty members assisted
with garden maintenance and various project events,
including a garden symposium that attracted a
crowd of students, faculty members, and community
participants.
Rain Garden—Rose Hips pictured above are used for medicina
tea. Photo courtesy of La Belle Urbanic, NWIC.
The Moon Garden, on the other hand, consists of
healing plants from many cultures. The garden has
bloomed with Echinacea, lavender, marigolds and local
strawberries.
NWIC s ecoAmbassadors plant education project
inspired teamwork and collaboration between
departments, faculty, students, and the Lummi
community to increase knowledge of native plants
and growing techniques. Project partnerships with
NWIC s Indigenous Service Learning office and the
Moon Garden—Both of these plants, purslane (Portulaca
oleracea) and dandelions (Taraxacum officinale), are edible and
grow at the entrance at the base of the arbor entryway. They
are "volunteers." Photo courtesy of La Belle Urbanic, NWIC.
NWIC s Tribal ecoAmbassador Program taught
participants how to cultivate their own food utilizing
native plants and traditional practices that may, or may
not, be adapted with current technology. The gardens
have inspired students to take action in promoting
plant sustainability, environmental protection, and
native gardening.
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Tribal eco«Ambassadors
Little Big Horn College
Health Impact of Sediment-
Established £. Co//in Recreational
Waters on the Little Big Horn River
&
X H *
American Indian
HIGHER EDUCATION CONSORTIUM
&EPA
United States
Environmental Protection
Agency
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The ecoAmbassadors project at bank sediments of the Little Big Horn River. Through
Little Big Horn College (LBHC) the Tribal ecoAmbassador Program, LBHC has utilized
has worked to assess and quantify EPA standards for Escherichia coli (E. coli) to measure
pathogens persisting in the stream the establishment and survival of E.coli populations
Tribal ecoAmbassador student intern testing samples. Photo courtesy of LBHC.
Cover: Little Big Horn College student conducting laboratory tests. Photo courtesy of LBHC.
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in river bank sediments. The project also assesses the
health impact that results from E. coli survival.
Portions of the Little Big Horn River near Crow
Agency, Montana, are used for swimming annually in
June, July, and August. During these months the flow
of the Little Big Horn is slow enough that the sediment
particles suspended in the water column are deposited
on the bottom of the river. Such particles have been
found to carry E. coli. During recreational use such
as swimming, sediments are disturbed, creating an
environment that puts swimmers at risk of exposure
to the pathogens. The contamination of the Little Big
Horn River with E. coli
is a significant health
concern for the people
who utilize its waters
for both drinking and
recreation.
Led by project
coordinator Sara
Plaggemeyer, LBHC's
Tribal ecoAmbassador
Program has collected
and analyzed water
samples to test for E.
coli in the river. The
project has provided
over 30 LBHC students
with hands-on field
experience in water
quality sample collection, Comparison
microbial laboratory
analysis, and environmental research.
The project team collected core samples from different
areas along the Little Big Horn River. Researchers
collected water samples before and after sediment
had been disturbed, helping them identify where the
pathogens may exist. The team also identified water
parameters, including temperature, conductivity,
turbidity, levels of pH, and dissolved oxygen.
Researchers collected water sample sets in the spring
and summer of 2014. The research team compared
previously collected E. coli isolates from the same site
with current E. coli populations. Researchers examined
the samples at the LBHC laboratory.
When analyzed statistically, the data demonstrated that
E. coli colonies were more abundant in the undisturbed
samples than in the disturbed samples. Statistical
analysis suggested that as sediment increased, the
number of bacteria decreased. Over the entire period
of study there was an increase of 2.8 colonies in the
undisturbed samples (see table below).
of analyzed data from disturbed and undisturbed water samples.
The results of the LBHC ecoAmbassadors study were
specific to the identified site alone. The results of
this study indicate that disturbing sediment during
recreational swimming may not be a health issue.
However, due to the threat that E. coli poses to public
health, further research is warranted.
I3J25 -
| 13.30 -
lZj
7.75 -
2JQ0 -
Least Squares Means
disturbed
~i 1 1 r
J I I L
135 ISO 1% 197
JULIAN DAY
25 OO
2JOO
undisturbed
I8S 190 I3S 197
JULIAN DAY
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Tribal ecotAmbassadors
Tohono O'odham Community College
Creating a Carbon-Negative
Building Material from Recycled
Glass, Steel Dust, and Carbon
Dioxide
&EPA
United States
Environmental Protection
Agency
American Indian
EDUCATION CONSORTIUM
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Materials combined to create building material including pulverized glass and steel dust waste. Photo courtesy of TOCC.
into line and coarse cullet, both of which are used
as aggregate to make pre-cast building products
and larger structures. The glass particles are bound
together by an iron carbonate mineral matrix rather
than Portland cement. Steel dust is the solid waste
material that is used to bind the glass particles. In
the presence of water, it reacts with carbon dioxide
and is then trapped in the carbonate mineral. The
process therefore is "carbon negative" unlike Portland
cement, which is a significant source of C02 during
manufacture.
Led by Dr. David Stone and Dr. Casey Kahn-
Thornburg, the project has improved the quality in
brick, sidewalk, floor, and artwork production. More
recently, project coordinators have created pavers for
the Tohono O'odham Museum and Culture Center's
Tohono O'odham Community
College's (TOCC) Tribal
ecoAmbassador Program
recently completed its third
project year. The TOCC project led to the development
of a sustainable building material consisting of local
recycled glass, waste steel dust waste and carbon
dioxide. The material has been used to make highly
durable building blocks and can be poured to
construct sidewalks, floors, ramps, and even artworks.
The product is called "ferrock," as iron (Fe), which is
an ecologically preferable material to concrete, is a key
component in the mixture.
TOCC's multi-faceted project supports the local
recycling of glass bottles on the Tohono O'odham
reservation. Bottles are pulverized and separated
Cover: Production of building blocks made from recycled glass, steel dust and C02. Photo courtesy of TOCC.
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patio. Weighing approximately 250 pounds apiece,
all of the patio pavers were made, moved, and placed
by hand. For this project alone, more than 50,000
glass bottles, and several tons of steel dust have been
Tribal ecoArnbassador student intern working with building
material. Photo courtesy of TOCC.
Tribal ecoArnbassador student intern setting building material
into paver molds. Photo courtesy of TOCC.
Researchers who have worked on the ecoAmbassadors
project continue to publish their findings on how
recycled materials can be used to create products
for building construction. The TOCC Tribal
ecoArnbassador
Program has built
connections with
Arizona State
University to further
research this new
technology in creating
sustainable building
materials. TOCC is also
collaborating with the
University of Arizona to
explore the development
of other self-sustaining
economic ventures.
Large paver molds used to create pavers for TOCC Cultural
Center patio. Photo courtesy of TOCC.
recycled, and a significant
trapped.
amount of C02 has been
TOCC's ecoAmbassadors
project has helped
forge numerous
community partnerships.
Collaboration with
Tohono O'odham Solid
Waste Management has
led to cleanup trips and
new recycling awareness
efforts in the tribal
community. TOCC's
ecoAmbassadors has
also partnered with
the Tohono O'odham
Environmental
Protection Office to
improve awareness of
environmental issues
facing the Tohono
O'odham Nation and
to establish volunteer
opportunities.
The ecoAmbassadors
project supports tribal
college students as well.
At TOCC approximately
nine student interns
have gained hands-on
experience through
glass clean-up efforts,
pulverizing glass,
creating the building
material, and setting
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Tribal ecoAmbassador student interns transporting hardened
pavers. Photo courtesy ofTOCC.
the material into various
molds. TOCC continues to
explore the possibility of
launching a business version of
ecoAmbassadors.
The TOCC Tribal
ecoAmbassador Program
is a collaborative effort
that encourages synergistic
networking for the mutual
benefit of all project partners.
With ecoAmbassadors, TOCC
has successfully transformed
what is often viewed as a
mundane chore—recycling—
into an inspiring and culturally
meaningful activity.
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