Transcript Outreach
BNZ LTER Education and Outreach
Elena Bautista Sparrow, Ph.D.
International Arctic Research Center, and School of Natural Resources and Agricultural Sciences University of Alaska Fairbanks
LTER Outreach
• K-12 Education • University Education • Outreach to Communities • Outreach to Agencies • Outreach to the General Public • Ties to other Long Term Research Programs
K-12 Education
• Leveraged limited SLTER funding • Partnered with other science education programs such as GLOBE, Partners in Science, Global Change Education Using Western Science and Native observations and the EPSCoR Alaska Rural Research Partnership • Expanded SLTER activities to 8 schools in Fairbanks and 34 other schools outside Fairbanks
K-12 Education
•Conduct Professional Development workshops for K 12 teachers, model best teaching practices, provide science content, educational materials and equipment •Developed Phenology protocols and learning activities that are part of the Earth As a System Chapter in the GLOBE Teacher’s Guide Published on the web ( www.globe.gov
) and on CD • K-12 students from 112 schools in 16 countries are using the phenology protocols and have entered their data on the GLOBE web site
Green-up Green-down
Table 1 Budburst by genus
• • • • • • • • • • • • • • •
Anchorage
Year 2001 2002 2003 2004 Avg.125
Betu
124 135 120 123 127 (Day of Year)
Popu
120 136 128 125 130
Salix
--- 137 129 125 127
Fairbanks
Year 2001 2002 2003 2004 Avg.129
Betu
135 134 125 122 129
Popu
137 135 118 125 129
Salix
138 136 118 125 129 Avg.
122 136 125 124 Avg.
137 135 120 124
2005 Birch Budburst in Fairbanks Area
K-12 Education
• LTER personnel help with science fairs or science symposium • LTER PIs and grad students work with K-12 students in classrooms, and on science fair or symposium projects •Students mentored by LTER scientists continue to compete at local, state and national science fairs, and win awards and scholarships •Research Summer Internships for high school students
Alaska’s Boreal Forests and Climate Change Museum of the North/LTER Educational Traveling Kits Kits: Introduction to Climate Change
What is Change? (Any science class) Measuring Change Patterns of Change
Biogeochemical Cycles Trees of Alaska’s Boreal Forest Lakes and Land Cover Environmental Jobs and Job Skills
(Chemistry or Ecology) (Biology or Ecology)
(
Geography) (Any science class)
Who:
Middle and high school students, rural emphasis
Why:
Supplement existing materials for rural science teaching Educational materials based on actual research and collections Address standards with Alaska-based content Use actual research to illustrate scientific process
Partnership:
Nenana City School Chemistry Class (Chuck Hugny)
University Education
• BNZ research sites are used for UAF course field trips and lab exercises • REU students as research assistants • IGERT program for graduate student training that links ecological, economic, & cultural aspects of sustainability and resilience
Outreach to Communities
• Alaska Boreal Forest Council information exchange • Alaska Native Science Commission help address concerns of native leaders re environmental changes, and their effects on subsistence and cultural activities • Tanana Chiefs Conference
Outreach to Agencies
• Work with state & federal agencies (AK Div of Forestry, AK Div of Natural Resources, Alaska Fire Service, AK Dept of Fish & Game, National Park Services etc.
• Joint research programs, discussions of management issues, jointly organized seminars, training programs with agency staff • Participation on Citizen’s Advisory Committee for Tanana Valley State Forest.
Outreach to General Public
• Website: www.lter.uaf.edu
• LTER Brochure • Interviews aired on radio and television stations regarding growing national and international concerns about climate change • Newspaper articles • Seminars for the general public
Ties to Other Long-Term Research Programs
• Arctic LTER at Toolik Lake • National Park Service to help design their Long Term Monitoring (LTEM) Program in Alaska • U.S. Fish and Wildlife Service research programs on Arctic Wildlife Refuge and Kenai National Wildlife Refuge Ecological consulting • Ecological monitoring on military bases
Ties to Other Long-Term Research Programs
• National Phenology Network • NEON (National Earth Observatory Network) • SEARCH (Study of Environmental Arctic Change)
Cross-site Activities
• LTER Executive Committee • LTER Education Executive Committee developed LTER ED strategic plan • LTER Education, Outreach and Training Committee • LTER Graduate Student Committee • LTER cross-site synthesis project – E.Kane
• LTER ED cross-site proposal • LTER Children’s Book Series for primary students
Education & Outreach
• EOT working groups suggests that an appropriate goal for LTER Education and Outreach efforts is to promote
environmental literacy
in students, teachers, and the general public. • We define environmental literacy as having two dimensions: understanding
environmental content
(as defined by the LTER community) and
scientific practices.
Understanding Science Content
Biotic structure rank-dominance curves, life-history traits Human behavior (society, policy, economics) Long term “press” e.g., N deposition, species invasions, temperature Short term “pulse” e.g., fire, storms Ecosystem functioning 1 / 2 production, decomposition, nutrient cycling Ecosystem services food, pest/disease control, erosion control, soil fertility
Understanding Science Practice
Reasoning from evidence (inquiry): Finding patterns in observations and constructing explanations for those patterns Observation s (experiences ,data, phenomena, systems and events in the world) Patterns in observations (generaliz ations, laws, graphs, tables, formulas) Models (hypotheses, models, theories) Reasoning from models and patterns (application): Using patterns and models to describe, explain, predict, design
A Role for LTER
Long-term ecological sites have 3 important assets that are essential to teaching for environmental literacy: • Research communities with long histories of interdisciplinary work on environmental issues.
• A network linking those research communities to one another and to educational systems through both personal contact and information technologies.
• Place-based, long-term, spatially distributed data sets and resources for acquiring data.
GOAL 1: Teaching and Learning
• Improve environmental literacy in K-16 and the general public.
• Create network-wide, multi-age communities of practice that involve scientists, local experts and the general public, present and future teachers, and students.
• Change perceptions about ecology, ecologists and other scientists and the way they work (e.g., collaboration).
GOAL 2: Research and evaluation on what we need to know to effectively reach a diverse audience
• Conduct cross-site comparisons of how people of different ages, cultures, socio-economic status, etc. learn and understand key concepts of environmental literacy • Implement long-term evaluation of materials, practice, etc. using multiple measures • Move beyond recruitment of a diverse student body to retention of a diverse workforce in environmental science
GOAL 3: Impacting the broader education system
• Contributing current science research knowledge and practice to education policy discussions and decisions; including state/national standards • Infuse multi-site research into widely distributed teaching resources (e.g., textbooks, simulations, on-line supporting materials) • Integrate research and education in future faculty development programs
Key Features & Immediate Goals
• Recognizes that developing an understanding of coupled human-ecosystem interactions is an appropriate goal both for science and for education.
• Takes advantage of existing knowledge and strengths of LTER education programs and national initiatives • Can expand beyond existing network • Begin with a large-scale study of environmental literacy, including moving beyond just offering opportunities to participate to being more strategic in our efforts to seek out and include diverse perspectives.
Date of leaf-out in Fairbanks (Chena Ridge) 1974-1998 28-May 23-May 18-May 13-May 8-May 3-May Slope = -0.25 days per year 28-Apr 23-Apr 1974 1976 1978 1980 1982 1984 1986 1988 1990 1992 1994 1996 1998
Data courtesy of J. Anderson