Leaders in Pharmaceutical Business Intelligence (LPBI) Group

Mobilizing Scientific Societies: Editorial by Science Editor-in-Chief Dr. Bruce Alberts

Reporter: Stephen J. Williams, Ph.D

In a weekly editorial, Dr. Bruce Alberts, Editor-in –Chief of the journal Science discussed issues pertaining to science education in the United States[1].  He suggests the US science education system may need to be more flexible in its approach to science education in grade and high school.  He considers the one major problem is the “broad coverage of each subject, which kills student interest and makes genuine comprehension impossible.  Dr. Alberts suggest that state-based textbooks and the inability of the scientific community to understand teacher’s needs is driving this inadvertent problem.  The current textbooks used for scientific education focus more on memorization of a multitude of scientific terms than on concept development, experimentation and inquisition, and conclusion.  Materials are desperately needed for teachers to guide students to confront the overall concept, and working in teams, design potential methods to further explore these concepts.  He suggest this style of teaching would require close partnerships between top-notch teachers , educational  experts and scientific societies in order to research the effect of current curriculum materials but also develop  new Web-based  curriculum.

In a recent interview in the March 2013 issue of Wired magazine with Clayton Christensen, Ph.D. the author of the famed book The innovator’s Dilemma,  Dr. Christensen forwqarns the impending changes in higher education due to increased availability of online learning.  As he states, universities are on the precipice of a collapse in the future and those which survive will evolve hybrid models of education, part online and part classroom but will provide more specialized offerings to fit current needs.  Indeed, as listed below these changes and suggestions in science education may well be underway.  Below is a brief listing of scientific societies who have undertaken these challenges and formed extensive programs in STEM education.

FASEB (Federation of American Societies for Experimental Biology) programs such as:

Resources for Faculty and K-12 Teachers

APS Frontiers in Physiology Program – Provides professional development for middle and high school teachers by providing them with tools and resources and connecting them with researchers on-line and through workshops.

APS Physiology Understanding Week – Fosters relationships among teachers, students, and physiologists. PhUn Week encourages member physiologists across the nation to volunteer and work with teachers in their local community to visit a classroom during the first week in November.

Leap to the Top in Science Classes  from AAAS found at:

http://news.aaas.org/2013_annual_meeting/0214leap-to-the-top-in-science-classes.shtml

A progress report from the 2013 AAAS meeting follows:

Often, in the daily grind of slogging through a difficult science class, students see fully formed scientists and their discoveries as a distant blur. Remote men and women somehow make advanced science happen.

New efforts aim to bring students face to face with creative, imaginative scientists right in their classroom.

With a lifetime of scientific contributions at their back, many retired scientists, engineers, and physicians are returning to school, not as pupils or as instructors, but as classroom volunteers in public elementary, middle, and high schools.

This week over 400 teachers and scientists gathered in Boston for the first International Teacher-Scientist Partnership Conference, organized by AAAS Education and Human Resources and the University of California, San Francisco Science & Health Education Partnership, sponsored by the National Science Foundation. Presenters are scheduled to share a range of partnership models over three days, from scientists generating digital education tools, to teachers participating in research.

Throughout the first day of the conference, the conversation turned to the idea of bringing scientists into the classroom to work directly with the students.

Virginia Shepherd from Vanderbilt University shared a comprehensive analysis of the university’s nearly 20-year-old Graduate STEM Fellows in K-12 Education program. Presentation attendees duly applauded the success of the program but said that they had trouble establishing similar programs in their state for lack of funding.

A handful of organizations represented at the conference have found that an affordable way to bring scientists into the classroom is to recruit retired scientists.

Volunteers at Northeastern University’s Retirees Enhancing Science Education through Experiments and Demonstrations program, or RE-SEED, spend at least one day a week in an elementary, middle, or high school classroom in Massachusetts helping students conduct experiments as part of the existing curriculum.

“Retired scientists and engineers have a lot of experience from a lifetime of working in laboratories. They can make what the students are learning relevant,” said Christos Zahopoulos, a professor of education and engineering at Northeastern University.

Since founding RE-SEED in 1991, Zahopoulos has helped to start similar programs in 15 states, conducting on-site trainings for volunteers. While such programs start out strong, many of them have since faded, with only a handful remaining, he said.

Even though retirees are offering a free service to the schools, getting them trained and placed takes a certain amount of funding, Zahopoulos says. He has been fortunate to fund RE-SEED with private donations. Many programs were not so lucky.

AAAS’ Senior Scientists and Engineers (SSE), a service-oriented organization for retired scientists and engineers, has managed to sustain a similar program for seven years. In 2005, Zahopoulos helped SSE establish its own volunteer program.

Donald Rea, a former research chemist for NASA’s Jet Propulsion Laboratory and SSE volunteer coordinator for Virginia, hopes that helping to reinforce science education will enhance the public understanding of science in years to come.

“If you want to have an influence on science literacy, you want to get [kids] while they are young. So we work in classrooms as young as second grade,” Rea said.

This kind of investment takes many years to fully mature. So, how do Rea and Zahopoulos measure success? They look to their teachers, volunteers, and students.

Rea said he measures success by the eagerness of schools and teachers to participate year after year.

For Zahopoulos, hints of success sometimes come in the mail. He says one student wrote in to RE-SEED upon graduating from high school, several years after any contact with a RE-SEED volunteer, to say that she had decided to major in biology and had enrolled in a pre-medicine program.

Both Rea and Zahopoulos said they have been amazed at the dedication and eagerness of volunteers.

“When we first started, we asked volunteers to commit to one day a week for one year. Now we have volunteers who have been with us for 18 years and some volunteer as many as 4 times per week,” Zahopoulos said.

Ron McKnight, a former Department of Energy physicists and SSE volunteer has recently taken on the task of coordinating volunteers living in Montgomery County, Md. He still volunteers in middle school science classrooms and is considering taking on another assignment.

When asked what he loves about volunteering, he replied, “Whenever a kid I’m working with asks a really good question, that’s when I have a really good day.”

National Science Foundation (NSF) Research on Learning in Formal and Informal Settings (DRL)

Information can be found at http://www.nsf.gov/div/index.jsp?div=DRL

DRL invests in projects to improve the effectiveness of STEM learning for people of all ages. Its mission includes promoting innovative research, development, and evaluation of learning and teaching across all STEM disciplines by advancing cutting-edge knowledge and practices in both formal and informal learning settings. DRL also promotes the broadening and deepening of capacity and impact in the educational sciences by encouraging the participation of scientists, engineers, and educators from the range of disciplines represented at NSF. Therefore, DRL’s role in the larger context of Federal support for education research and evaluation is to be a catalyst for change—advancing theory, method, measurement, development, and application in STEM education. The Division seeks to advance both early, promising innovations as well as larger-scale adoptions of proven educational innovations. In doing so, it challenges the field to create the ideas, resources, and human capacity to bring about the needed transformation of STEM education for the 21st century.

Society of Toxicology K-12 Educational Outreach for Scientists

http://www.toxicology.org/ai/k12o/k-12scientists.asp

This sites contains multiple .pdf  files on volunteering and mentoring topics including

• Scientist Mentor Ideas
• Links to Other Mentoring Sites
• Resources for toxicologists to use in K-12 Outreach
• Regional Chapter K-12 Outreach

References:

1.         Alberts B: Mobilizing scientific societies. Science 2012, 338(6113):1396.

for high school teachers please see https://www.teachercertificationdegrees.com/top-blogs/science-teacher/