by editor | Jan 19, 2013 | Environmental Literacy, Place-based Education
The Urban-Rural Exchange Bridges Oregon’s Greatest Divide
By Judy Scott
From Oregon’s Agricultural Progress
Wallowa County in northeast Oregon was the destination for one of this year’s four exchanges. The young guests from the city arrived in the thick of calving season, a dynamic leap into ranch life. Photo by Lynn Ketchum.
ix lanes of Portland traffic filled the rear-view mirror as the van headed east on I-84. On the left, the Columbia flowed through its gorge below giant windmills scattered like toys, turning with the breezes. After a few hours, sagebrush took the place of Douglas-fir and fern.
The riders from Portland’s Sunnyside Environmental School had reason to be nervous as they watched the familiar give way to the unknown. And it wasn’t just the landscape that would change.
The 15 middle-school students were already immersed in a life-broadening experience: the 4-H Urban-Rural Exchange program, sponsored by Oregon State University Extension Service. For five years, host families from Grant, Klamath, and Wallowa counties have opened their homes and lives (sometimes nervously) to city kids. In turn, Multnomah County families introduce rural students to life in Portland.
Wallowa County in northeast Oregon was the destination for one of this year’s four exchanges. The young guests from the city arrived in the thick of calving season, a dynamic leap into ranch life.
The Portland students (above) weren’t sure what to expect when they arrived in Wallowa County to stay with rancher Charley Phillips and his wife Ramona. Soon, the students were pitching in to help with all the chores, including branding calves at the Birkmaier ranch (below). Photos by Lynn Ketchum.
Deep in the Wallowa Mountains, hosts Tom and Kelly Birkmaier and a crew of friends rounded up 65 calves for branding. While unhappy mother cows bawled in the distance, the job was to brand, inoculate, and ear-tag the calves as quickly as possible while muscling them securely into a metal chute.
This was no spectator sport for Portland middle-schoolers Zoe O’Toole and Birch Clark. Although reticent at first (“I’m not really sure how I feel about branding,” Zoe had confided earlier), the girls gamely took turns with both the branding iron and the syringe.
Down in the valley at another host home, a cow notched up her tail, and three other city students learned what that meant: the cow was ready to give birth. Lanie Novick and her middle-school colleagues watched in awe as the calf dropped from its mother’s womb while Lanie documented the event on her cell phone. Ramona and Charley Phillips, who hosted the girls at their ranch near Joseph, were impressed with the students’ enthusiasm and unending questions as they collected eggs each morning and tossed baled hay from the back of a truck to a “sea of cows.”
Calving season knows no time clock. After midnight, the girls bumped along with the Phillipses in their pickup truck, scanning the range with spotlights in search of cows with newborns. The girls learned that if they spotted cows bawling and bunched up around their calves, there might be predators such as cougars or wolves stalking nearby.
Seventh grader Lanie Novick (above) displays a memorable snapshot of her Sunnyside classmate Julia Glancy holding a newborn lamb. The learning experience includes classroom time at the Imnaha School (below), where five local students make up the total K-8 enrollment. Photos by Lynn Ketchum.
Part of each exchange includes spending a day at the host school. Portland students Morgaen Schall and Joseph Unfred swelled enrollment of the one-room schoolhouse in Imnaha by 40 percent on the day they went to class with the school’s five local students.
Morgaen and Joseph both love working with horses in Portland but prefer being “in the middle of nowhere.” Their stay was not romantic—mending fences seldom is—but they enjoyed the outdoor work, and to show their appreciation, the two boys made a special Sunday breakfast for their hosts, Cynthia and Dan Warnock and their three sons.
More than half of the urban-rural exchange students have kept in touch with their host families. Sometimes during the summer they cross back over the cultural divide to reunite with their hosts and to share the experience with their parents. The exchange expands when parents get involved. Thirty families in Portland now buy beef directly from a host rancher as part of a new beef cooperative, an idea that grew from the young people’s exchange.
Back on the ranch (above), feeding time is fun for students and cows. In Portland, students used mass transit to navigate the city (below). Photos by Lynn Ketchum.
“The basic mission of 4-H is education for youth,” said Jed Smith, a 4-H faculty member at the Extension office in Klamath Falls. “But 4-H also involves parents in Extension education. When you get young people in the conversation, you’ve got a good start towards better understanding between remote rural Oregon and the rest of the state.” Smith wants his urban visitors to experience first-hand the life of rural ranchers and farmers. “They see that ranch families are good with animal husbandry, they’re responsible stewards of the land, but they face different challenges than urban families,” he said.
One of those challenges is the reintroduction of wolves, which sparked the creation of the urban-rural exchange. In 2005, after Sunnyside students completed a class project on how westward U.S. settlement affected wildlife, the students gave testimony at a state Fish and Wildlife Commission hearing in favor of reintroducing wolves. The urban students didn’t expect that their opinions would spark controversy in rural Oregon, where ranchers bemoaned that city dwellers didn’t understand rural life. To foster better understanding across the state, OSU 4-H and Sunnyside joined forces to create the first Urban-Rural Exchange in 2006.
Students from Klamath County get a tram’s-eye-view of Portland (above) while Hot Lips pizza shows off their spin cycle (below). Photos by Lynn Ketchum.
Everyone involved that first year, from both sides of the Cascades, ventured into unfamiliar territory. At least one rancher would have pulled out at the last minute if the city kids were not already on their way. However, at the end of five days of sharing chores and meals together, both students and families described the exchange as one of the best experiences of their lives.
Each year, some of the city students come home thinking that farming and ranching would be professions they’d like to pursue. “We want them to learn about the care of natural resources from a rural perspective,” said Maureen Hosty, the OSU 4-H Extension faculty member who coordinates the exchange. “Sometimes they take it to a personal level. They want to live there.”
Fewer rural students visiting Portland express a strong desire to relocate to the city. Perhaps city living is an acquired taste. Dylan Denton and Trevor Wentz, both from Wallowa County, enjoyed their day exploring mass transit and gliding over the skyline by tram. But considering that a square mile in Portland is home to 3,939 people, and in Wallowa County, it’s home to 2, they had to conclude, “There are too many people!” Nevertheless, according to their host family mom, Dylan and Trevor readily took to “a crash course” in riding bicycles in city traffic, even while pedaling in cowboy boots.
The bustle of city life contrasts with the quiet of dinner time after a long day’s work on the ranch. Photo by Lynn Ketchum.
Portland hosts helped their rural visitors understand sustainable urban living. They climbed to the top of city buildings to see rooftop landscapes that temper winter stormwater and summer heat. They visited the city’s massive recycling system. And they walked through one of Portland’s 20 farmers markets, where they ran into a potato vendor from faraway Wallowa County.
More city kids have made the exchange than their rural counterparts, and Hosty encourages more students from rural Oregon to visit Portland. “We want to build a strong bridge of understanding that goes both ways,” she said. The bustle of city life contrasts with the quiet of dinner time after a long day’s work on the ranch.
“We have a lot more in common than we realize,” Hosty said. “But if we don’t spend some time walking in each other’s shoes, then misunderstandings will continue to divide our state.” The 4-H Urban-Rural Exchange can make a difference. “Kids are leading the way and are willing to spend some time to learn. And the real learning happens in family homes at the dinner table.”
by editor | Jan 4, 2013 | Environmental Literacy, Questioning strategies, Schoolyard Classroom
Do It Yourself First: Leading Student-Directed Inquiry
by Jim Martin
CLEARING guest writer
f you’ve never taken your elementary, middle, or secondary students out of the classroom to learn, and can’t find a helpful mentor or workshop, it’s okay to learn to use the real world to generate curricula and teach for understanding rather than to pass tests just by doing it. Just make a plan and stick to it, and you’ll be okay. Try a place on your school grounds first, then move to a place in the community when you’re comfy.
There is a simple way to do a student-directed inquiry outside your classroom, involving observations on invertebrates. You can use it to discover whether this kind of work is comfortable for you to do, and if it generates curricular content that satisfies your anxieties about meeting mandated standards and benchmarks. You can start it on your school grounds, or if you’re not comfortable with that, right in your classroom. The only caveat is that you have to let your students think and ask questions, and follow the parts of the project that capture their interest. That is, after you’ve first guided them (and yourself) through the process.
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The nice thing about the project we’ll be describing is that it begins with you facilitating a guided inquiry. It doesn’t matter what grade level you teach, the basic work applies to all of them. The vocabulary and complexity of conceptual content will vary with grade level and student experience, but the basics apply to all levels. The plan is this: We’ll make a small compost heap, then see what comes to live in it. Then we’ll have our students do the same. Simple, but loaded with potential.
First, do your own inservice, perhaps this summer. Start the compost in your own yard or somewhere on the school grounds as your source. Don’t place it where it will always be in direct sunlight, since it needs to stay moist. Put about 5-10 gallons worth of different kinds of plant material in it and turn it once a week with gloved (or ungloved) hands. Keep it moist, but not wet. It’s necessary to start outdoors to attract the invertebrates and microbes which will populate your students’ compost ‘piles.’ As you tend your compost heap, notice what is living there. (If you’ve already done this, I’ll bet you’ve gone to a book or the web about what you’ve found. That’s your brain doing what it’s designed to do.)
As you do your work, try out some learning activities. What is the temperature at the surface of the heap, and in its depths? How do you go about measuring the temperatures? Any glitches? Ask yourself how any temperature differences might have come to be. If it’s not directly explainable to you, who might you ask to find out? (This is a skill we all have to develop when we move out into the real world.) What mathematics activities can you use to make sense of the temperature data? What tells you more, the numbers themselves, or their graph, average, median, range? Would the data be different if the compost heap was larger or smaller? Let’s look at more of the things we can learn.
After your compost heap has been working awhile, you should be finding an increase in the numbers of invertebrates living there. If this isn’t the case, go to places where plant material is obviously decaying and bring samples back to your heap. Keep a record of how many species you find in your heap as you turn it, and how many of each you observe. This means you’ll have to be systematic about how you turn the heap. And about how you record the information you measure, count, and observe. You can pass these skills and understandings on to your students.
As you count species and their numbers, use that data to track species diversity in your compost heap. As a rule of thumb, the greater the species diversity, the healthier the system. Whether you work with kindergartners or high school seniors, you’ll need to know something about species diversity. You can google the term, find some sites which explain it in a way you can understand, and which detail some of the math used to make sense of the numbers. Here’s one you can use; a little esoteric at first glance, but ultimately doable; Simpson’s Index, D = Σ ni(ni-1)/ N(N-1), where D is Simpson’s Diversity Index, Σ stands for ‘the Sum of,’ ni is the number of organisms you counted in the ith species (so the number of organisms in the 3rd species you counted would be n3, and i goes from 1 to the total number of species you counted), and N is the total number of individuals counted among all species. This means that you take the sum of the numbers you get from multiplying the number you counted in each species times that number minus 1, then divide that sum by the total number of individuals you counted times that number minus 1.
Try it for 3 species: Species A, with 10 individuals; Species B, with 5 individuals; and Species C, with 20 individuals. The first ni set is 10(9), the second is 5(4), and the third 20(19), which totals to 490. There are 35 individuals all together, so the denominator is 35(34) = 890. Dividing 490 by 890 gives you about 0.56. What if the counts were 23, 51, and 36? Your numerator and denominator should be 4,316/11,990. If this is confusing, say so in a comment below, and I’ll get back to you with more details.
Sounds complicated, but by the time you’ve done three or four sets of species, you’ll get it down. Just be sure that you sum all the individual counts times themselves minus 1 before you divide by the total counted times the total counted minus 1. The answer to all this, D, gives you a number you can compare with other counts you or your students make. Remember, the reason you need to try this diversity calculation is to get an idea of one way that diversity is described. With your students, you can just use the total number of species present to stand for the same thing. This is the simplest math which can be used to estimate species diversity, the total number of species, a number students can use to compare the number of species in different compost heaps, and which may correlate with other measures of diversity.
There is a spectrum of ways to name diversity: number of species, species richness, species evenness, or a calculation like Simpson’s Index. None do a perfect job, since diversity is a dynamic with many aspects. For now, you can only choose one and use it consistently until you have good reason to use another statistic. We’ll take another look at this in the next blog.
Use your counts of living things to graph a population curve. Choose one species and plot it with time on the x-axis, and number of individuals on the y-axis. This is a population growth curve, and they are an indirect way of determining how an environment treats a particular species residing within it. In setting up your compost heap, you’ve created a new environment, and populations living within it should increase during the initial exploitation phase. Soon enough, those curves will change, raising nice inquiry questions.
Use the heap itself for learning. How big is it? Is it always that big? Bigness can be derived from measurements that students make. How tall is it? How wide? How long? How can you determine its volume? Do any of those numbers correlate with the range of temperatures in the different compost heaps? Species diversity? Population curves? Temperature range and diversity?
What about the biology of the organisms living in the heaps? If you’re up to it, you can take a piece of liver, blend it with a little water or electrolyte like pedialyte, then introduce a drop of this to a container with 250 ml or more of hydrogen peroxide (H2O2 ). Take the temperature of the hydrogen peroxide before adding the liver extract, then periodically during the next 20 minutes. As simple carbohydrates are metabolized to produce useable energy in the form of ATP in nearly all organisms from microbes to Homo sapiens, the extra oxygen atom in one of the intermediary products, hydrogen peroxide, is released leaving water (H2O), an oxygen atom (O), and the energy which held the oxygen atom in place. That energy isn’t re-used, and goes off as heat. Compare the results of this experiment with your data on population and temperature. Is there something to be learned? Might your students understand the basics of what they observed?
What can you find out about four of the species in your compost that explains how they are able to live there? The organisms you find are living in a dynamic relationship which keeps the entire community alive, an economy which cycles materials and moves energy in a productive way. Can you build some elements of a food web from the information you have? What else can you find out about the biology and ecology of compost heaps?
If you teach or use language arts, how can you use the compost heap and its components as metaphors to drive a piece of writing? A piece of art? Music? If you teach science, and have never used these arts and humanities deliveries, try one. You might be surprised at what you’ll learn. I certainly have been.
When you’ve studied your compost heap long enough to feel comfortable with it, have your students learn some thing about them. Use the piece you have the best handle on. The first time through the process with your students, you demonstrate each step. Let students ask questions or make observations as you feel comfortable. You can use your own compost, and demonstrate how to turn it to expose the invertebrates living there. (If you’re up to it, you can find out how to plate out microbes that will be living there, and find out what they do and who eats them.)
When you’re ready for your students to do theirs, have each group start compost heaps somewhere in the schoolgrounds, one 5 gallons in size for each group of four or five students. You can also have students bring in their own mulch, etc., or place boards on the ground at home then collect what’s living on and under them including any molds they find. You might suggest they place the animals in a jar of moist compost, keeping the lid slightly ajar for air, and simply bring the board in and set in in their compost heap. Once compost heaps are doing well (outside the building), you can make ‘sand traps’ by filling plastic bucket lids with a layer of sand and placing them next to a compost heap. Any small mammals or birds who are attracted to the compost will leave footprints in the sand. These don’t always work, but are pretty neat when they do. This will raise questions they can begin to answer.
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This is the twenty third installment of “Teaching in the Environment,” a regular feature by CLEARING “master teacher” Jim Martin that explores how environmental educators can help classroom teachers get away from the pressure to teach to the standardized tests, and how teachers can gain the confidence to go into the world outside of their classrooms for a substantial piece of their curricula. See the other installments here, or search Categories for “Jim Martin.”
by editor | Dec 7, 2012 | Place-based Education
by Harmony Roll, Clearing Regional Advisory Panel
from Taiga Teacher
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The turn around point on my regular running trail in Kodiak.
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hen I had my 3rd and 4th grade multi-age classroom in Fairbanks, I was in teacher paradise. I was in a Title 1 school, but was given a lot of freedom and autonomy to do what I felt best for my students. Part of that was an amazing administrator who knew I had a different situation teaching two grades, but also one who believed in multi-age and allowed me to make the decisions I needed to to make it truly work. I learned so much about my students having them for two years. I came to understand the breadth of the learning process. I also was challenged with creating new projects and approaches. You can not get in a rut when you teach multi-age like you can with a straight grade. Things have to be new and fresh each year because a large portion of your class you had the year before. One thing you can do is take a format that the kids know from one year and apply it to the next to allow them comfort and the ability to go deeper with their curiosity and study.
The first year I had my multi-age we did Moon Journals. The second year, the plant life cycle was part of our curriculum. We did Tree Journals. Students adopted a tree and observed it over the course of the school year. They drew about it, wrote about their observations, documented what they learned about trees and plants in general. One of my favorite things that came out of the year long study of trees was “Tree Movies.” We had great big beautiful windows in our classroom that looked out to the trees lining the Noyes Slough that ran by the school. When students noticed the trees dancing in the wind, or the alpenglow on the frost of the trees at sunrise (late morning in the winter in Fairbanks) they would ask me to shut off the lights and we would quietly watch the “Tree Movie.” A wonderful break in our busy routine and a communal experience of appreciation for the beauty of nature, remembering there was more to life than what remained inside the four walls of the classroom or the math problem in the workbook.
Studying one tree, one place or one trail is important. We live in a culture where conquering is so important. Even people who spend much of their lives outdoors like to have conquests in the form of Peak Bagging or seeing as much of the world as they can. This is important, but just as important is getting to know one place well. My husband thinks it’s funny that I like to run the same trail all the time. The only change is adding distance. I do this for many reasons… running the same course I know my body better and how much faster I can go, how much more I can push myself each time, but also I love noticing the weather patterns by seeing the sky from the same place over and over. I love seeing the same trail at different times of the day and noticing the subtle changes of the season from run to run. I enjoy walking the same trail and seeing things I totally missed when running by. I’ve known many places in my life by the trails I frequented. I mark milestones in my life by the way those trails looked as I traveled down them, processing the information from the day. One of the important things we owe our children is how to relate to spaces. Giving them the opportunity to get to know them intimately, deeply without pushing them to keep moving on. At the same time we need to let them find that space. Plopping them down and telling them to love a place won’t work. They need to choose the tree, trail, land, and….. decide when to move on… if they need to.
I think of a man I heard about once who climbs Mt. Monadnock in Southern New Hampshire every day for years. I wonder how much he understands about the world because he understands that one place. How much he has seen the landscape change and remain the same. Here’s an article from Yankee Magazine about him.
Much of the angst in my life has been leaving places I’ve come to know well and some of my greatest joys have been finding new ones.
by editor | Nov 2, 2012 | Outdoor education and Outdoor School
Salmon Watch is back by popular demand and coming soon to a stream near you!
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by Lizanne Saunders
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his Fall ten classes of middle and high school students in the Portland metropolitan area are participating in a revitalized Salmon Watch program sponsored this pilot year by the World Salmon Council, Bureau of Land Management, U.S. Forest Service, Trout Unlimited Clackamas Chapter, and U.S. Fish & Wildlife Service. Participating schools this year include Grant High School, Madison High School, Portland Waldorf School, Winterhaven School, Reynolds Middle School, and daVinci Arts Middle School.
Founded by Oregon Trout (later called the Freshwater Trust), the Salmon Watch environmental education program educated some 60,000 students across much of Oregon from 1993 to 2010. Much to the dismay of Salmon Watch devotees across the state, the program was discontinued by The Freshwater Trust in late 2010 due to a shift in organizational mission. (more…)
Part 2: Asking Questions
ow do we prepare young people for the 21st century challenge of caring for our planet so that it can sustain future generations of plants, animals and humans? In short, how do we educate our kids to be eco-literate?