Arctic climate curriculum geared for rural students

Mary Huntington and her son Harley pose for a photo with a recently constructed anemometer. Huntington is an elementary school teacher from Shishmaref. She joined other teachers using the ACMP for a two-day teacher workshop at the Bering Strait School District headquarters in Unalakleet in October.

Rural 91��Ƶ students use windsocks to determine wind direction during a field trip to UAF’s Geophysical Institute and the International Arctic Research Center.

Younger students at the Unalakleet Elementary School can make some of their observations on weather and cloud cover from their own playground and then input the information into the ACMP website.

Jess Ryan was in Unalakleet in October with colleagues from the Geophysical Institute Information and Education Outreach Office to work with teachers using the new curriculum. Ryan is a writer and curriculum developer for ACMP.

The sun sets over Norton Sound as viewed from Unalakleet in October. Knowledge of the ice conditions for this body of water are extremely important to the people living in the region. The Arctic Climate Modeling Program will store visual observations of Norton Sound’s ice conditions that may later be accessed by students, teachers and scientists.

Hal Needham of the Geophysical institute stands next to a recently installed automated weather station at the school in Brevig Mission. This weather station will collect weather data for students at the school participating in the ACMP. Needham traveled to Brevig Mission, White Mountain, Unalakleet and St. Michael in September and early October to install weather stations for ACMP.

In addition to the weather stations in the villages and lectures by scientist mentors, students will also benefit from information on the interactive CD-ROM that follows each unit in the ACMP curriculum. This component uses games and graphics to help bolster students’ understanding of their lessons.

Reese Huhta, a secondary science teacher in Unalakleet, partners with Jake Doth, a secondary math and science teacher from Shaktoolik, to build an anemometer at an ACMP teacher workshop in Unalakleet.

Jenn Wallace, Patrick Omiak and Eleanor Wirts build anemometers, which gauge the force and speed of wind, using instructions provided by Geophysical Institute staff. Wallace and Omiak are from Diomede, and Wirts is a secondary science teacher from Teller’s James C. Isabell School.

By Amy Hartley,
January 2006

Students using the Arctic Climate Modeling Program will submit observations on ice conditions such as these on the Unalakleet River to the ACMP website where it will be stored in a large database accessible to students, community members and scientists.

Sea ice cover is decreasing, lakes are drying up, ecosystems are changing and thawing permafrost is creating changes in water supply. For residents living in Northwestern 91��Ƶ, life has become quite different from what it was years ago.

, a teacher training and curriculum development project designed at the University of 91��Ƶ Fairbanks, aims to equip 1,700 students from the region with the math, science and technology skills they need to better understand their changing surroundings. The project offers a progression of learning for K-12 students, helping 165 teachers in the Bering Straits School District guide them to think like scientists, learn the basics of arctic climate and then ultimately analyze the data and work with current research in the field of climate change.

The innovative curriculum is brand new, but already teachers and developers say that ACMP’s format works well for rural students. Hands-on activities, practical use of equipment and involvement with one’s own community provide a curriculum finely tailored to village life.

Kathy Berry Bertram is the principal investigator for the $1.2 million project, which is funded through the National Science Foundation. The project falls under the unique Information Technology Experiences for Students and Teachers (ITEST) arm that is meant to bridge education and technology. Bertram directs ACMP from her office at the Geophysical Institute’s Information and Education Outreach Office. She says the program links science instruction in public schools with the culture of rural 91��Ƶ communities near the Bering Strait.

"The weather is something everyone in the community is interested in, from elders to very young children," she said. "ACMP sandwiches science lessons between research conducted in the Bering Straits and historical Native observations."

Children involved in ACMP collect weather data, study sea ice conditions and learn from current scientific research. The village communities have a vested interest in these issues, so children have a strong support network for their ACMP studies.

Jess Ryan, a writer and curriculum developer at the Geophysical Institute, has helped design 10 lessons for the program since September 2005. One of her goals is to use practical examples from students’ communities to showcase math and science concepts.

"Science isn’t this abstract thing that happens out there. It’s actually surrounding you at all times."

"Science isn’t this abstract thing that happens out there. It’s actually surrounding you at all times," Ryan said. "Your community is a basis of scientific knowledge. If you look into it, you can learn about all sorts of things--sea ice, pollution and what affects your community’s watershed."

Ryan and her colleagues are committed to using examples in each ACMP lesson that are relevant and recognizable to students of various ages. If kids have a closer connection to the issues, the places and subject matter, Ryan says this can be used as foundation for the science concepts to come.

"In so many curricula out there students are learning science through things that they are not directly familiar with. ACMP students are not learning about the Mississippi River, they’re learning about their own surroundings--the Bering Strait," she said. "You can’t expect kids to have a frame of reference for a place they’ve never been to or seen."

Teacher Bob Woolf teaches middle and high school science at John Apangalook School in the village of Gambell on St. Lawrence Island. He thinks the curriculum developers have done a great job and he’s looking forward to next year’s lessons, which will tie directly to research projects underway in the Bering Strait region.

"It’s going to be fun to see how the curriculum changes over time, especially as the program incorporates more global warming issues that affect our region and the science and society issues facing our area," Woolf said.

Woolf’s students have a rich Siberian Yupik culture that relies heavily on whaling and walrus hunting. This ancient hunting culture has been blindsided by climate warming that has dramatically changed sea ice conditions in the Arctic. Years ago, bowhead whales and walrus were easier to harvest because they were forced to follow leads--openings in the sea ice--that brought them closer to the coastline. Today, these leads through the ice are so large that hunters have to travel great distances to find these animals.

"When you’re in a rural community right on the sea, it’s important to understand these issues because warming is changing coastlines,” Bertram said. “Sea ice patterns are different and all of this has a direct effect on subsistence lifestyles. This is affecting their food sources, their mainstay--it’s affecting everything."

Changes to every aspect of rural living are what make the Arctic Climate Modeling Program so relevant for 91��Ƶ Native students living near the Bering Strait. The Arctic Climate Modeling Program equips them with knowledge about what is contributing to many of the changes in their culture. It also provides students access to a handful of high-tech tools currently used by scientists to understand conditions of the arctic climate.

Teacher Jenn Wallace and Teaching Assistant Patrick Omiak of Diomede check out the Geographic Information Network of 91��Ƶ’s website using a laptop computer. The two traveled to Unalakleet in October for an ACMP teacher workshop.

Through the (GINA) at the University of 91��Ƶ, students and teachers can examine satellite data in near real-time. This access allows users to examine current weather patterns and the movement and extent of sea ice influencing their region.

Another innovative partnership forged through ACMP involves NOAA and the National Weather Service. By next summer automated weather stations will be installed at each of the 15 schools in the Bering Strait School District. Weather stations will collect data from Savoonga to St. Michael, and students will be able to access the data for their studies. This data can also be used by the research community. Some of the weather stations will collect data that was never before available to the National Weather Service or other research professionals.

Eric Muehling, a multimedia developer working on the project, wrote a computer program that will collect information from the automated weather stations and then pipe it to a large online database on the ACMP website. This database is then able to produce line and bar graphs, so students, community members or scientists are able to view weather trends over a period of time.

"What excites me about this project is that we’re collecting data in remote 91��Ƶ that nobody has collected before," Muehling said. "It’s going to benefit research for years to come and I get to be a part of that."

In addition to the automated information collected by each weather station, students themselves will add observational data about weather conditions, including sea ice conditions, snow depth, sky conditions and visibility.

The ACMP is different from other science curricula because it reinforces students’ connection to their community, relates directly to professional research projects and establishes an on-going network of data display and scientist participation. Using data from GINA, students can view sea ice and weather conditions in real time. Insight into these issues benefits students’ ACMP studies and it also allows them to help their community be prepared when it comes to hunting or severe weather.

The connection to community is also fortified by the program’s inclusion of traditional methods for predicting weather. Students must compare and contrast the ways of their elders with the new ways of analyzing climate. This aspect is what Wales teacher Eric Lowry is particularly excited about.

"It’s bringing the old world and new world models together," Lowry said by phone from his classroom at Kingikmiut School. "It’s totally new to the students, as far as being exposed to something like this. Plus, it’s interactive."

"ACMP lessons will provide new teachers an avenue for connecting with community members and elders. Community involvement creates community interest, which increases student interest."

Lowry’s students, and others learning from ACMP, are required to interview elders in their community for portions of their class work. This effort resonates with students because they’re finding that their elders remember conditions that were quite different from those they are currently experiencing.

Eventually students will share findings from their ACMP lessons with people in their villages via community presentations that will showcase students’ work and prompt young people to educate their friends and family about arctic climate change.

"Teacher turnover in the Bering Strait School District is high,” said Lori Schoening, education and assessment coordinator at the Geophysical Institute. “This means that in some villages, new teachers are coming in each year. ACMP lessons will provide new teachers an avenue for connecting with community members and elders. Community involvement creates community interest, which increases student interest."

Greg Johnson, Bering Strait School District’s director of curriculum, said his district backs ACMP because of the support offered to the students and teachers by the Geophysical Institute team.

"The program is being designed and built by people who want to bring solid science knowledge to children, not by a content provider whose bottom line is making a profit," he said.

A number of scientists from UAF are involved with the ACMP. They aid in lesson design and also provide mentor lectures to all of the participating schools through videoconferencing. Atmospheric scientist and Associate Professor Cathy Cahill provided the first mentor lecture in November. After the lecture she said she was impressed with the inquisitive nature of the students and their interest in arctic climate.

"I believe all students have a natural aptitude for science, they just need to be taught using a vehicle that interests them."

"They were asking good solid science questions, even at a young age. Any time I work with a school and get that type of response, I get excited. It’s obvious these kids observe," Cahill said. "I often teach college classes where kids aren’t quite this engaged."

The ACMP reinforces relationships among students and their teachers, their community and scientists, by using a topic that all of these groups are vested in--the changing arctic climate. Bertram thinks this is key.

"I believe all students have a natural aptitude for science, they just need to be taught using a vehicle that interests them," Bertram said. "And what’s more interesting than a phenomenon that is affecting every aspect of their lives?"

For more information, please contact:

Kathy Berry Bertram, director, Information and Education Outreach Office, Geophysical Institute, (907) 474-7798, kbertram@gi.alaska.edu
Glenda Findlay, Program Coordinator, (907 474-2722, glenda.findlay@gi.alaska.edu
Amy Hartley, public information officer, Geophysical Institute, (907) 474-5823, amy.hartley@gi.alaska.edu

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