A Journey Of Surprises

Rivers reveal their secrets to Idaho students researching water quality through rigorous scientific inquiry

Photos and story by Suzie Boss

Squiggly blue lines cover the map of Idaho, a state with more than 2,000 lakes and hundreds of miles of rivers. From the perspective of veteran science teacher Bob Beckwith, all that water means that nearly every Idaho student has easy access to a creek, a stream, or a lake. “Probably 95 percent of the state’s population lives along a watershed,” he estimates. And where there’s water, Beckwith can promise you, there’s a science project worth pursuing.

On an early winter morning, for example, Beckwith and fellow Eagle High School biology teacher Steve DeMers loaded three classes of warmly dressed sophomores and armloads of scientific gear onto a school bus and headed off on an all-day investigation of water quality along the Boise River. By the day’s end, students had made four stops to gather data between the mouth of the river and headwaters in the mountains west of Boise. They waded midstream to collect invertebrates and dipped their hands into icy currents to test ph and oxygen levels. They checked and rechecked their measurements, keeping careful track of resulting numbers for future analysis.

Despite the frosty weather and the high spirits that come with escaping the classroom, students resisted the urge to hurl snowballs. And all day long, there was no whining. Every student participating in the trip was there by choice, doing what Beckwith calls “real science.”

Since he began teaching in 1972, Beckwith has been using projects to introduce his students to the scientific method. There’s no shortage of evidence that it’s an effective strategy. Beckwith himself is a past recipient of the Presidential Award for Excellence in teaching secondary science. Several of his students have won regional and national honors in elite science competitions, and many have gone on to launch careers in engineering, biology, medicine, and other fields that require a deep understanding of science. Even students who aren’t destined for technical careers, Beckwith points out, gain the benefit of “learning to ask a question and figure out the answer. That’s how I define science literacy.”

On the banks of the Boise River, three girls from Eagle High interrupted their fieldwork to explain the appeal of project-based learning. “We learn so much more this way compared to reading a book,” said one. “You get to experience it yourself, so you really understand what something like turbidity means,” added another. “This applies to me,” explained the third girl. “This is a river where I might want to swim or go fishing. The quality of this water matters. It’s important. And I have the tools right here to find out whether or not it’s clean,” she said, holding up a vial of river water she was evaluating for the presence of nitrates. Although she knew there would be more analysis to be done later, back in the classroom, she had already gained one insight from taking snapshots along different parts of the river: “Upstream, away from the city, the water gets cleaner.”

photo, kids gathering specimens from the river bottom

photo, examining a screen for macro invertebrates

photo, testing water quality

photo, giving the results to the teacher

During a winter day spent collecting data along the Boise River, students in hip waders used a kick screen to gather specimens from the river bottom (at top); examined the screen for macro invertebrates; tested water quality; and, finally, reported their numbers to teacher Bob Beckwith (bottom, right, with clipboard).

Sharing Skills

Through an ambitious effort he launched several years ago, Beckwith also helps other Idaho teachers acquire the skills, equipment, and confidence they need to incorporate project-based learning into their classes. Project SITE—which stands for Students Investigating Today’s Environment—engages students and teachers across the state in projects involving scientific inquiry into water quality, noxious weeds, and other real-world concerns.

Beckwith co-directs SITE with David Redfield, dean of health and science at Northwest Nazarene University in Nampa. Support for the project has come from a variety of sources, including several Idaho colleges, school-to-work partnerships, the state department of education, Idaho Rangeland Commission, and private funders such as the J.A. and Kathryn Albertson Foundation.

More than 200 teachers have gone through SITE training, which immerses them in the same kind of project-based learning they will later orchestrate with their own students. The core of training is an intensive, five-day summer workshop that reminds teachers why science is best understood through active learning. Little time is spent listening to lectures or reading texts. Instead, teachers do real fieldwork, rafting the Salmon River to collect data that relate to water quality or surveying plant life to assess the spread of noxious weeds.

“It’s not lecture/read/do a canned experiment,” Beckwith says. “We might talk for short periods about things they don’t understand very well, then provide them with an experience where they can pose questions and do research to figure out the answers. So it’s a steep learning curve. We model how science works. Science is not a textbook—that’s a history book of facts that scientists have already learned by asking questions. Those facts are an important foundation,” he acknowledges, “but real science involves going out and answering new questions.”

Between Monday and Friday of a typical training week, “teachers learn everything they need to be classroom ready,” Beckwith says. Participants also come away with armloads of gear provided by SITE. “We don’t just train them and then expect them to find a way to buy their own equipment,” he says. “We give them all the stuff they need,” he says, such as test kits, digital cameras, and a manual he wrote in accessible language to guide students through nine scientifically valid field tests designed to measure water quality.

In return, teachers agree to take their students out on data-gathering projects at least three times during the school year. They also bring SITE students together to present their projects during an annual Idaho Student Showcase Day in the spring. By fulfilling their end of the bargain, teachers can earn a stipend.

Providing teachers with such extensive support means that the SITE organizers have had to devote considerable energy to writing grants and reaching out to potential funders. The program invests about $1,500 per teacher on training and supplies, Beckwith estimates. But the investment pays off, he says, by “freeing teachers to focus on teaching.” Water quality —which integrates biology, chemistry, and physics—continues to be a prime focus of fieldwork, but funding for research on weeds has led to new SITE projects in the area of life sciences. “As long as we can collect data, work as a team, and ask questions, then it’s a valid project,” Beckwith says.

To be sure, project-based learning puts high demands on the instructor. “This takes energy,” Beckwith admits at the end of a cold day spent outdoors with a busload of teenagers. But for teachers who enjoy being learners themselves, this style of teaching “helps prevent burnout,” he adds. “It lets teachers engage in questions, too. They have to know enough to help students figure out the answers. As a teacher, you have to allow students to go places even if you don’t know the answers.”

Some teachers need a little “nurturing,” Beckwith admits, to gain the confidence to launch students on challenging projects outside the confines of the classroom. “For others, this way of learning fits so well with their teaching style—it’s natural. They pick it right up.” When Beckwith explains SITE methods to teachers who already believe in active learning, “you just have to put the idea on the table and then run to get out of their way!”

photo, girl using water quality equipment

Students use scientific equipment to measure water quality indicators— not once, but three times. Later, back in the classroom, their numbers will be added to a statewide database. Their first field lesson: accuracy counts.

Pleasant Surprises

Shannon Laughlin was in her first year of teaching middle school science when she saw a flyer about Project SITE. She signed up for two weeks of workshops last summer, including a five-day raft trip along the Salmon River.

“You work your tail off,” she recalls, laughing. “You’re on the river nine hours a day, then talk more about science at night. It’s wonderful!” Although Laughlin holds degrees in both plant science and entomology, she had never done fieldwork. “This kind of hands-on training gives you a chance to prepare,” she says, “so you’re ready when it’s time to take your kids out.”

Last fall, Laughlin began introducing her students at Marsing Middle School to project-based learning. For students and teacher alike, Project SITE has been a journey of surprises. “My kids started by asking me, ‘What are we going to find out?'” Laughlin would tell them: “I don’t know. You’re the scientists.” Project SITE is worlds removed from what Laughlin calls “canned labs, where you can guess what the results should be. What’s neat about this is, you don’t know ahead of time what you’re going to learn. I like to do things where I don’t know the answers in advance.”

Laughlin’s students have been using SITE protocols to test water quality along the Snake River, which runs right through their community and is only a five-minute bus ride from the school. “They fish in this river and swim in it. The river is a part of their life. So they have a personal stake in asking: Is it clean?” That question has led them to others, such as: What affects water quality—agriculture? pollutants? animals?

Although Laughlin says SITE has opened the door to powerful learning opportunities that build science literacy, that’s not the only benefit she’s witnessed. Using field-tested SITE methods, she asked her students to break into teams and choose their own captains. “The ones they chose as captains are not necessarily the usual leaders. But these kids blew me out of the water,” Laughlin admits. “Natural leadership does not always show up in the classroom. These kids did a great job, and it gave them a chance they might not have had otherwise to demonstrate their leadership, their competence.” She enjoyed sharing that observation with her principal, who came along on the first field trip and has become an enthusiastic supporter of the project.

Power Of Teamwork

Beckwith knows from experience that teamwork is a valuable component of SITE projects. “The tasks are such that one person can’t do it alone,” he explains. “Students have to work in teams, and team members have to depend on each other.” Back in the classroom, teams share test results as part of their quality assurance. “If the teams get similar results,” he explains, “they know they’re on target.” Because data are entered into a SITE database that students all over the state can access for research, accuracy is critical.

What’s more, the team approach to research allows all learners to contribute, no matter how diverse their skill levels or how different their learning styles. “Out in the field, they all can be active participants,” Beckwith says. “Nobody’s sitting on the bench. When they come back into the classroom, they can share their data. Every number offers some valuable information.

David Redfield, a professor of chemistry at Northwest Nazarene University in addition to being co-director of SITE, is convinced that such projects “are not just for the elite students. It’s amazing to see kids who are not particularly strong in traditional classroom settings step up and take on a leadership role on a team. They all can use their strengths.

At the university, teamwork skills are valued, Redfield notes. The depth of science literacy that SITE fosters should help prepare students for the rigor of college-level work. “By the time they reach the university, we should be seeing students who are further along as scientists,” he predicts.

SITE not only introduces students to the process of scientific inquiry, Redfield says, but also gives them enough practice in fieldwork so they can start to become confident researchers. “It’s important for them to go out at least three times during the school year to gather data,” he explains. “The first time they do the tests, it feels like a lab exercise. They’re just learning how to use the equipment, take the measurements. But by going into the real world to gather data, then returning to the classroom to analyze results, they can start to look for patterns. They ask questions to figure out why they got the results they did. It becomes a real experience—the numbers have relevance.”

As students repeat the data-gathering process, “the repetition builds their skills,” Redfield says. “If the data seem off, they can take a close look at how they’re collecting samples. That’s a problem-solving exercise right there—to figure out how to correct their methods in the field. They start to know enough to question results if the numbers seem flawed or wrong. That takes confidence.” As students repeat the cycle of posing a hypothesis, gathering data, and analyzing results, “it takes them deeper and deeper into understanding what’s happening, and why,” Redfield says. “When they’re confident about their numbers, then they can move on to ask: What are these numbers telling us? Why did the oxygen go down? What else changed? Is there a relationship, a pattern?”

Beckwith also takes a long-term view of where Project SITE might lead. “Once they learn to use this model, students should be able to apply scientific inquiry to questions of their own. There should be some students in every class who get really excited, really curious. They can take off on their own investigations,” he says.

He’s seen it happen. One of his former students became curious about Mars, and went on to design an experiment that won a national competition sponsored by NASA. Another girl had to miss some class time because her family was traveling to India. She packed along a water quality kit and tested samples of the Ganges and other rivers, which she compared to the water quality of Idaho rivers.

Recently, Beckwith received an e-mail from a student, now a junior in college, asking for a letter of reference for graduate school applications. It was in his biology class, doing Project SITE, that she did her first fieldwork and became inspired to become a scientist. Beckwith will know when project-based learning really takes off in Idaho and transforms the culture of the classroom, “because we’ll be flooded with letters like that one. It’s far better than any test score,” he says, “for measuring success.”

What’s in SITE?

Teachers currently involved in Project SITE recently came together for an all-day workshop to share information about their classroom activities. Their experiences show that project-based teaching methods can work in a variety of settings and appeal to a wide range of learners. Among the examples:

At Kuna High School, students can start participating in SITE activities as freshmen, in Ken Lewis‘s ninth-grade biology class. “We focus on ecology, and use SITE to explore biotic indicators like macro invertebrates. Working in groups, they come up with some great hypotheses,” he says. Later, when students take chemistry and physics, they use SITE inquiry methods again. “I see a bump in their understanding,” says teacher Mike Weidenfeld. “They have better techniques, deeper understanding.” In chemistry, for example, he uses SITE “as a springboard.” Collecting water samples “gets kids to ask questions like, Why is ph important?”

Roy Gasparotti teaches a yearlong projects class for seventh-graders at New Plymouth Middle School and says SITE “fits right in. Interdisciplinary projects are part of our curriculum.” He asks students to assess whether water samples “are good or bad. Then they develop PowerPoint presentations with their data. It’s more fun for kids to work with their own numbers, to graph data they have collected. It’s more meaningful to them.” Fellow teacher Craig Mefford works with the same students on writing their hypotheses and making carefully worded observations.

Will Zollman, who teaches agricultural science at Midvale Junior-Senior High, took a SITE training session on weeds last summer, along with his superintendent and a school board member. So district support for project-based learning is a given. “This has added to my teaching,” he says. “It’s made me look at weeds in a different way—how do they affect rangeland? What can we do about them?” Those are questions he hopes to have his students exploring through fieldwork this spring.

Steve DeMers, who teaches at Eagle High School, has been involved with SITE for three years. “I want to take it a step further,” he says, to get students to consider deeper questions after they have gathered data. He has students use their test results to create graphs with Excel software. “Then I ask them to look for trends. What should a graph look like? Can they explain what’s happening, and why? I’m trying to get them to recognize patterns.”

John Pedersen, a middle school teacher in Nampa, took a SITE workshop early in his teaching career and has been using project-based methods ever since. This year, students are doing water and weather studies. “One student trains the next to enter data,” he explains.

Chad Anzen at Fruitland High School is starting to see students who have had the benefit of project-based learning as early as middle school. “We have a middle school teacher who does SITE, and I’m getting those kids now in high school. They take off so much faster. They act like teachers themselves,” he says, “helping their classmates understand how to do field tests.” By the time the same students take advanced biology, he adds, “they’re ready to go to the step of analyzing. It’s exciting.”

Race, Class, Climate Change and Outdoor Education

Race, Class, Climate Change and Outdoor Education

By Jay Roberts

A recent post on climate change and race (http://tinyurl.com/b6fzp7) brings up an issue that really needs to be on the forefront of outdoor and environmental education moving forward. It is becoming increasingly clear that climate change will become the defining issue of our times. Just as with civil rights in the 1960’s, this will require sustained and imaginative work on the part of our education system (both formal and informal).

Recent surveys show that the percentage of citizens claiming that the “science is mixed” on human caused climate change is on the rise. Worse, even among those who believe it to be a human-caused problem, there is a high percentage who don’t feel that it is an immediate threat (http://tinyurl.com/cc6uuo). Clearly, we have not just technological and scientific work to do, we have educational work to do. I call this the importance of both “outer” work (the work of technical problem solving that comes from policy changes, technological advances, scientific research, and economic modeling for example) and “inner work” (the work of education, of faith-based institutions, community organizing, etc.). (more…)

The Fifth Annual Newport High School Senior WalkCreative Writing, Resources

The deal was: if we saw a bald eagle on the beach the morning of the fifth annual Newport High School Senior Walk, I, the teacher, would cancel the killer vocabulary final because the appearance of a bald eagle on a publicly-owned Oregon Coast beach always instills a mighty beneficence in me and I act accordingly. Really, you should hang out with me when it happens.

This walk was my final walk at Newport High School, a tradition I inaugurated with my Honor’s Senior English students back in 2008, my first year teaching at the school. Since then, The Walk has established itself as one of the best things I’ve ever done with students. There’s never an agenda when we hit the free socialist sands at 5:30 a.m. and walk together as friends, Oregonians, and countrymen. We just walk, run, skip, strut, dart, talk, laugh, fiddle with our phones, ride piggyback, climb the North Jetty, build cairns, play, throw rocks, pose, dance, and then rally at Pig N’ Pancake where I buy breakfast for anyone who gets up at dawn to walk with their teacher a final time before the Real World beckons, commands, subsumes.

In three out of the last four years, it had rained on us, and I relished every drop. The condensation enhanced the photographs and made the drip black coffee at the restaurant all the more writerly. We are all writers on The Walk, whether any of us ever write a word about it.

As I said, this was going to be my final walk with seniors. No, I wasn’t quitting my job; it was simply time to evolve, move on, and devote my professional energy exclusively to teaching the creative arts and not a traditional English course. I’m entering the third and final phase of my career, and teaching the creative arts in an era when severe pressure exists to eliminate them from the curriculum is my only mission left as a teacher.

On May 28, I awoke at four a.m., did my usual writing, and then headed out. I arrived at the Fishermen’s Memorial in Yaquina Bay State Park 15 minutes early. Naturally it was raining. One by one the students lumbered in and we congregated near my truck, waiting for the slackers. Finally, 14 hearty teenagers and I commenced The Walk.

We cruised through the dunes quoting epic film lines from the Lord of the Rings trilogy and then emerged onto the beach, Oregon’s Great Birthright. Everything was properly gray. We inspected the remains of several driftwood forts and hunted for limpets. We discussed the fate of the earth and the death of rock. Then we just started running for no reason. If you’re teacher at any level and have never run with your students for no reason, you really have no idea what you’re missing. Running on the beach and in rain is even exponentially better. I would say it’s damn near transcendent.

At some point, we all turned and looked upward. A raptor-like bird appeared in the distance. Hark! Could it be? There were squeals of delight from the tiny tots with their wet eyes all aglow. Their prayers, conjuring, and Facebook posts had worked!

It was a hawk! I laughed at the sky. Soooooooooo sad for the seniors. The bald eagle never appeared and never would appear to forestall a vocabulary final. I had communed with him the night before and expressly asked that he stay away.

In the Pig N’ Pancake we had a banquet room all to ourselves and were happily served by the best waitress I’ve encountered in nearly two decades. The loathsome smell of crozzled bacon nearly induced vomiting in this vegetarian, but hey, I only have to endure it once a year—after The Walk.

I ate my two pancakes and marveled at Fernando, the Brazilian foreign exchange student who inhaled 20. Across the table, a plate full of congealed biscuits and gravy seemed to frighten Allie. To my left, Lily kept drinking creamer from tiny plastic cups. To my right, Cherilyn twirled a frothy blintz with a fork and did her best imitation of some celebrity or television character I’d never heard of nor would ever hear of.

It was our Last Breakfast and there would never be any betrayal. I will miss them all dearly.

As I paid the bill, the waitress said, “Have you ever been a waiter?”

It was one the oddest questions I’d ever been asked in my life.

“No, why do you ask?”

“It’s just the way you communicate and organize…it’s what good waiters and waitresses do.”

I instantly recognized a new candidate for a creative metaphor for good teaching.

She told me she was attending community college and studying communication. I had no doubt she would go far in life. She’d just handled a table of 14 hungry and texting teenagers with perfect and delightful efficiency…and took our photograph as well!

I tipped her like the eccentric-millionaire-who-teaches-for-pleasure I am, said goodbye to the crew, and walked into a floating rain, thinking harder about the “good teacher as good waiter” metaphor.

There might be something in that.

Matt Love lives in on the Oregon Coast with his husky, Sonny. He teaches at Newport High School. His latest book, Of Walking in Rain, is available at nestuccaspitpress.com and independent bookstores. He can be reached at lovematt100@yahoo.com

Literacy as a Stepping Stone to Environmental Citizenship

Literacy as a Stepping Stone to Environmental Citizenship

“The librarian tells me that there have been skirmishes over books, especially on topics we’ve been discussing in class. She and the librarian see this as a problem but not me. I see small steps towards victory with my class. The interest [in Environmental Literacy] is ‘kindled’ and I hope to have a ‘forest fire’ by May.”
— Second Grade Teacher

“Roaches and other small insects continue to lose their lives under the hands and heels of my well-meaning students. How can I change the way they feel about these creatures, especially when their parents feel the same way and have instilled this in their offspring?”
— Pre-Kindergarten Teacher

 

 

by Carole Basile and Cameron White

Environmental literacy is not just learning to read and write about the environment; it’s about acquiring knowledge, skills, dispositions, and feelings that transfer to the real world. It’s about developing a concept of literacy that is more global in nature. Environmental literacy is about helping even our youngest citizens gain knowledge, understanding, and wisdom about the world around them. Citizens who respect living things; can learn about the perspectives of others, share their own views, solve problems, make reasonable decisions; and can take appropriate action. In this time of high stakes testing where literacy has become the primary focus in schools today, environmental educators need to continue to find ways of offering the environment as a contextual framework.

In literacy, context is often forgotten in the midst of phonics worksheets and testing. As Coles (2000) suggests, the meaning of literacy is diminishing and the goals are narrowing. “The narrower the goals, the more they reinforce narrow instruction aimed at a narrow conception of children’s education (p. 108)”. This passion and enthusiasm in the early years is what helps encourage students to enjoy reading and writing. Routman (1996) emphasizes that inquiry and language in authentic use is at the heart of curriculum. Meaning and knowledge are constructed from the learner’s experiences. This step will ultimately be important as the child makes decisions relevant to what they study and what they choose to write about as they get older. The goal is to involve students by encouraging the social construction of knowledge through student-centered approaches (Brooks and Brooks, 1993).

The Environment as a Context for Literacy

We propose four components that teachers should think about as they begin to think about the environment as a context for literacy: (1) teaching children the basic science concepts that they need to understand how environmental systems work, (2) nurturing children’s respect for all living things, (3) facilitating the processes of problem solving, decision making, and critical thinking, and (4) developing environmental citizenship.

Teaching About The Environment

During these years, effective environmental literacy development should begin by providing a knowledge base that is developmentally appropriate, but it should also be meaningful and relevant to students and involve them actively. The use of non-fiction is critical here. There is a myriad of basal readers and picture books for children at all levels that are non-fiction and teach children about environmental systems. Observation of nature can be used as a purpose for writing in a variety of genres.

A group of kindergartners did observations in their schoolyards and wrote the following (translated from inventive spelling):

”I found a ladybug. It tickled me. My friend let me have her ladybug. Then I found a doodlebug. Then my Mom said she was going to help me find the bugs.” “A butterfly was going to land on my house. Then there came another butterfly.”

“I saw a bee was eating my little flower. I scared it. There was stiging at me because I scare it.”

“I found a butterfly and he didn’t bite me. He was my friend.”

“A bee was going to sting me. The grasshopper was bouncing in my hose. I saw two ants eating some food.”

Nurturing Respect

Nurturing respect is a critical component in this process. It teaches children to be not only respect and protect living things but to be tolerant of each other. Literature can enhance discussions about honoring living things and working for peace. Read-alouds using books that focused on respect and peace stimulated conversations and reflections like these with young children.

Gabby, age 7
”Yesterday, we were playing outside and we saw a bird. I think it’s called a killdeer. It doesn’t live in a tree; it lives in the dirt on the ground. I was running and my friend and me were playing and I almost tripped over it. People were coming over and it was acting like it had a broken wing. My teacher was telling us to move away from it. If you kill the bird or step on it, or step on its eggs, or smash them, you will be killing the environment because birds are part of all life. If we just watch the animals outside, if we just leave them alone, we’re not trying to mess with them, so we won’t get hurt and they won’t get hurt either. If we bothered plants and animals, we couldn’t admire anything or we couldn’t smell the flowers or have any energy. One time outside in my backyard I saw an orange cocoon. My brother and his friends were poking at it and I asked my mom if they were supposed to be doing that. She told them to leave it alone and go play somewhere else. I told my mom I was helping to save the environment.”

Ignacia, age 5
“Insects are good for dirt, like rain. And like pill bugs and ladybugs, they help everything. They help the leaves from bad insects; the ladybugs eat little insects that are bad. So we have to take care of them and not kill them or give them poison stuff; we have to be nice to them.”

Beverly, age 6
“We’ve been learning and doing things outside. We must catch and release insects we find because if you keep them, they might die. We are writing about what we see. I see a big bird that is black. I hear all the birds singing. I saw a mommy bird go by; it was finding food. I saw it find a worm and take it back to the nest to feed the babies. We caught a butterfly and took it to our class. We are going to release it now. We need to stop killing animals because sometimes they help us. Once my sister was about to step on a caterpillar. I yelled, ‘No!’ and the caterpillar got away. I told her that they can help us. I told my teacher all about it.”

Jonathan, age 7
“Respecting living things means being nice to stuff outside because its nature and you have to take care of it. What if that was you and somebody was bothering you, doing something bad to you. You wouldn’t like it.”

Facilitating Processes

Environmental literacy is more than just reading and discussing. It’s giving children opportunities for examining processes, problem solving and decision-making. Learning occurs when children are engaged in the process; it’s not necessarily the content itself, it’s what children do with the content that facilitates learning. For example, learning the parts of an insect or the five senses becomes meaningful when the children are engaged in the process of the classification, analysis, and synthesis of the data they collected. Students begin to understand issues when they are involved in the issues.

Young children do have their own issues – not global issues like acid rain, global warming, or habitat loss – but little kid issues like: Should I take this lizard or frog home for a pet?, Should I feed the animals I see in the park?, Why do I need to stay on the trails in the nature center?, Why should I turn the lights off when I leave the room or turn the water off after I get a drink?, Why can’t I throw trash down the storm sewer or out in the schoolyard? Reading, writing, and debating the issues with young children can begin to build foundations and practice the skills necessary to examine larger issues later in life right in their own neighborhood or school community.

Developing Environmental Citizenship

There is an old saying, “think globally, act locally”. Young children need to “think locally, act locally”. The process of environmental literacy must lead to citizenship. Community projects can include: creating a new bird/butterfly habitat where children write their plans or write reflective books about the process; writing school community environmental information bulletins, brochures about recycling, water conservation, or energy conservation, building bat boxes or bird feeders and reading “how to’s” and writing about the process or posters; or creating stories or poems for an Earth Day celebration.

This is an example of a book that was written and illustrated by a group of 2nd graders after they created a garden in their schoolyard. This book along with other they wrote throughout the year were placed in their school library for everyone to see and read.

“Proper Planting Procedures for Wildflower Seeds”
Rake the area to get good seed/soil contact. Remove trash and dead grass from the planting area. First you open the seed packages. Then you pour them into a bucket so you can mix them up. You want to mix the little seeds with the big seeds. Pour half of the mixed seeds into a second bucket. Plant the seeds in two directions: north/south and east/west to make sure the entire area is covered. This is called “feed the chickens” method and is done because most of the seeds are so small. It also allows you to see how much seed has been planted and how much seed still needs to be planted. Next lightly rake the area. Next step on the soil to provide good soil/seed contact. Lightly water the seed to provide moisture for the seeds to germinate. Label a planting pot or bucket with the type of seeds planted in the wildflower area. Put potting soil in the pot and add a pinch of seed to the soil. Water lightly. This labeled pot will make identification of sprouting seeds more easy. Continue to lightly water the area until the seedlings sprout and are several inches tall. The End.

Giving Children Voice

If we can successfully use the environment as a context for literacy, we give young children voice – intellectual, emotional, and social voice.

We often read words that we don’t use in every day language, but these words help us in an intellectual way to understand more about what is happening in the world. The vocabulary that is part of environmental literacy is important and we shouldn’t be afraid to take kids to those levels. It’s fun to hear first graders talk about habitats and symbiosis and find second graders who use words in their writing like recycle, respect, and responsible. It makes them feel smart and gives them language that spurs a higher level of imagination, creativity, and thought.

The intellectual voice allows for the development of critical thinking and problem-solving as children interact with each other, they have more words to use, to express how they feel. The intellectual voice comes from reading and writing about the environment, developing an awareness of what is living around them, showing them how they are part of the ecosystem, and how they affect their world. The emotional voice comes from teaching children to respect living things and developing their passion about protecting and conserving life and natural resources. Giving them the words of feelings, this passion is often transferred home and shared with others. Social voice comes from kids developing their own language, one where they are able to develop their own sense of identity and connection to the world. It embodies a language of both critique and possibility; a language that allows students to locate themselves in history, find their own voices, and establish convictions and compassion necessary for democratic civic courage (Freire and Giroux, 1989). These young children can influence their peers and their families because they have the intellectual, emotional, and social voice — that’s what makes a difference.

Developing Voice through Children’s Literature

As we have seen using children’s literature as an integrating factor can open a new world for literacy learning and teaching. Having literacy discussions within or across grade levels allow teachers to understand what children think about a variety of issues that are meaningful and relevant to them and help children develop their voice about the environment.

The following is a list of suggested children’s literature. This is far from a comprehensive list, but questions following each reference give teachers a look at possible discussion topics.

Baker, J. (1991). Window. New York, NY: Greenwillow.
How has our neighborhood changed? If you could live anywhere, where would it be: country or city? Why?

Bash, B. (1990). Urban roosts. San Francisco, CA: Sierra Club
What are the animals in our neighborhood? How have they adapted to being around people?

Bunting, E. (1991). Night tree. New York, NY: Harcourt Brace.
What are ways we can appreciate mother nature?

Cooney, B. (1982). Miss Rumphius. New York, NY: Viking-Penguin.
What kinds of things can we do to make the world more beautiful?

Fleming, D. (1996). Where once there was a wood. New York, NY: Henry Holt.
How are things in our neighborhood changing? How do you think the changes are affecting the wildlife?

French, V. (1993). Caterpillar, caterpillar. Cambridge, MA: Candlewick Press.
Why is it important to preserve different plant species? What can happen if we don’t preserve them?

Hoose, P, & Hoose, H. (1998). Hey, little ant. New York, NY: Scholastic.
Should we kill insects or other living things just for fun? Is there ever a time to kill living things?

James, S. (1990). Sally and the limpet. New York, NY: McElderry.
Should we touch or catch animals in the wild?

James, S. (1991). Dear Mr. Blueberry. New York, NY: McElderry Books.
How do we find out about things we don’t know or understand?

Larson, G. (1998). There’s a hair in my dirt. New York, NY: HarperPerennial.
What can we do to find out about the real stories of how nature works?

Lasky, K. (1995). She’s wearing a dead bird on her head. New York, NY: Hyperion.
How can we let others know about things we care about? Is there anything we care about that we would like others to know about?

London, J. (1993). Voices of the wild. New York, NY: Crown.
What is our relationship with other animals and living things?

Mazer, A. (1991). The salamander room. New York, NY: Alfred A. Knopf.
Is it okay to take animals out of the wild? When we take them out of the wild, how can we take care of them?

Peet, B. (1966). Farewell to shady glade. New York, NY: Houghton-Mifflin.
What things do we see changing in our neighborhood?

Ryder, J. (1996). Earthdance. Markham, Ontario: Henry Holt.
How can we learn more about our community and our world?

Schimmel, S. (1993). Dear children of the earth. Minnetonka, MN: Creative Publishing.
What is man’s responsibility to other animals and living things? How can we respect living things?

Stewart, S. (1997). The gardener. New York, NY: Farrar, Starus, and Giroux.
How can we create natural habitats in the city?

Ward, L., & Jacques, L. (1993). A walk in the wild. Watertown, MA: Charlesbridge.
Why is some land protected for refuges or parks?

Wood, D. (1992). Old turtle. Duluth, MN: Pfeifer-Hamilton.
What is our relationship to other animals and living things?

At The End: Teachers’ Voices

Literacy, especially environmental literacy, development means much more than promoting traditional reading and writing skills. In fact, just as important to our kids is for us to allow the connections promoted through the use of the environment as a context. We can’t keep censoring our children’s lives by only providing literature that is bland and writing that is meaningless. We can’t take the chance that they’ll get it sometime, but right now they just have to learn to read and write. They should be learning to read and write about something, why not the environment.

As children are developing not only their intellectual being but their emotional and social being why not facilitate their natural engagement in learning and transfer early on through the integration of the environment. Let’s not just make them literate, let’s make them environmentally literate. But don’t take our word for it, listen to the teachers and children. “As a teacher, I wear many hats. I have enjoyed my new naturalist hat. I plan on wearing it every day of every year. I found that I can start my children on a path to being naturalists too. I now include issue-based literature and challenge the children to think about their actions towards the world and the living things on it. I teach them about their relationships with nature – how they are in the web of life. I don’t just teach them about insects anymore. I teach them about respect for life, no matter how small the creature is. I have shown the children that they can be problem-solvers and be active in doing something that will benefit everyone. The children are not passive listeners but active doers. The classroom environment has changed as well. The children protect living things. They cry out when someone is going to kill a bug. They pick up trash when it is not in its place. I have grown as a teacher and I have seen great growth in the children as well.” “We have come a long way baby since that first day in August. I would love to move up to third grade with my class but can’t. I just hope they will remain conscious of the world around them and will continue to nurture it and in turn spread this belief to others. The have truly become environmentally conscious, stewards of the land.”

Children’s Voices

“I think that the world is beautiful. There are things I can do to make the world more beautiful. One of the things that I can do to make it beautiful is I can plant flowers. I would probably plant tulips and amaryllis just like my father. I would plant them in parks, forests, and gardens (2nd grader).”

“I would make a difference because I would recycle lots of stuff and plant some trees and get some of my friends to help me clean up the city not the whole city some of it and plant more plants and make the world a better place (2nd grader).”

“If I could make a difference I would save energy. If you don’t save energy you might not be able to use it again (2nd grader).”

An Earth Poem (3rd grader)

Every day we leave we have
An opportunity to make this world better by
Recycling and cleaning our streets
Today I did my part, tomorrow
I Have to start again.

References

Brooks, J. and Brooks, M. (1993). The case for constructivist classrooms. Alexandria, VA: Association for Supervision and Curriculum Development.

Coles, G. (2000). Misreading reading: The bad science that hurts children. Portsmouth, NH: Heinemann

Routman, R. (1996). Literacy at the crossroads: Critical talk about reading, writing, and other teaching dilemmas. Portsmouth, NH: Heinemann.

Carole Basile is on faculty at the University of Colorado at Denver in the Initial Teacher Education program. Cameron White teaches social studies education at the University of Houston.

Indigenous Response to Global Climate Change

Indigenous Response to Global Climate Change

 

W(papyrus)isdom of the Elders is developing a summer field science camp focused on environmental and climate change issues, and career pathway planning in STEM fields. The Wisdom Project is a youth leadership initiative for Native and low-income youth in the greater Portland area. Integrating best practices of K-12 curricula from EPA, NASA, NOAA and Portland’s Climate Action Plan, aligning to NGSS (Next Generation Science Standards), and introducing Traditional Ecological Knowledge (TEK) into the lessons to promote student social and physical well-being, thereby strengthening resilience and cultural identity in highlighting Native Americans as America’s “First Scientists”.

Read more at http://wisdomoftheelders.org/wisdomproject/

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