麻豆传媒色情片

Essay

Carbon dioxide 400

Or how a biochemist became a climate activist
Henry Jakubowski
By Henry Jakubowski
June 1, 2018

As I listened to my children speak of both global and local economic and social upheavals arising from climate-related migrations and environmental changes, I started to envision a dismal future for them. I heard young people questioning whether they should have children in an increasingly unstable and insecure world. I felt a growing sense of guilt. As a member of the generation that bequeathed them this future, and as a scientist/educator, have I failed in communicating the power of science to address societal concerns? Am I partly to blame for the growing disbelief in the process of science, especially as related to climate change?

Henry-Jakubowski-web.jpgHenry Jakubowski, a professor of chemistry at the College of St. Benedict/St. John’s University, talks about the effects of climate change in all his classes and organized “Our Climate Futures,” a panel discussion with faculty from diverse disciplines. Courtesy of College of st. benedict/st. john's university When the concentration of atmospheric carbon dioxide passed 400 parts per million in June 2016, I felt a sense of urgency. was 3.5 million years ago in the Pliocene Epoch, when the poles were 10 F warmer and sea levels were 16 to 131 feet higher.

When the U.S. pulled out of the Paris climate accord and began removing environmental regulations, my sense of urgency increased. After decades of teaching, I asked myself, What can I do? More importantly, what should I do?

I have taught aspects of climate change, but mostly to nonscience majors in courses designed to address social issues. In those classes, I could focus on the process of science. For example, by reading sections of Thomas Kuhn’s “Structure of Scientific Revolutions,” my students began to grasp how scientific consensus develops, matures and changes; these ideas are critical to nonscientists as they evaluate information. In my science majors’ courses, however, I follow a prescribed syllabus, and we have little time to discuss the science related to societal issues.

After January 2017, I felt ethically compelled to discuss climate change in all my classes. Since then, I have found ways to relate background infrared spectra (which students take each lab) arising from atmospheric CO2 to climate warming arising from absorption of infrared light by greenhouse gases.

In our separations/chromatography lab, when I discuss doing 60-liter blood preps to isolate clotting proteins from cows, I take the opportunity to talk about the of plant protein to produce an estimated 7 million tons of animal protein for human consumption, and I note that the U.S. could feed 800 million people with the grain that livestock eat. Add greenhouse methane emissions from those cows and the carbon-hydrogen infrared stretch they see each day in the lab, and climate change can become real.

When covering influenza virus hemagglutinin binding to cell surface receptors, I discuss future pandemics arising from emerging viruses and their links to climate change. The role of bicarbonate transporters and carbonic anhydrase could be studied in coral formation and the global carbon cycle.

Henry Jakubowski talks to a local Rotary Club in Minnesota about climate change and a carbon fee-and-dividend economic approach to reduce CO2 emissions. Courtesy of David Matthew, St. Cloud Rotary Club I often can’t gauge students’ immediate responses, but one teaching assistant, after taking my lab, told me how much my discussion of animal and plant protein generation affected her understanding of the interrelatedness between unquestioned societal practices and climate change, leading her to decrease her meat consumption.

Share your story

Are you incorporating climate change into your biochemistry and molecular biology classes and labs? If so, contact Henry Jakubowski. As a member of the editorial board of Biochemistry and 麻豆传媒色情片 Biology Education, he is interested in expanding coverage of the science of climate change into traditional biochemistry and molecular biology curriculums. 

Addressing climate change requires a multidisciplinary approach, so in November 2017, I organized a panel discussion titled “ ” with faculty from chemistry, biology, nutrition, environmental studies, economics, political science and theology. After the discussion, one of my students wrote: “I hope to counteract climate change in my own small way now, and you help give us concrete examples of how to do so. The climate panel really made me look at the situation differently and not simply from a scientific facts point of view.”

I wanted to reach out beyond the classroom and university communities, but initially I was uncertain how to proceed. The , a bipartisan national advocacy group, opened doors for my activism. With their support, I’ve given talks to Kiwanis and Rotary Clubs, the League of Women Voters, a senior citizens’ center and a church on climate change and a carbon fee-and-dividend economic approach to reduce CO2 emissions. I’ve written op-ed pieces and letters for our local paper on science and policy and political barriers to climate change action. I have appeared on a local radio show. The opportunities to speak out are more numerous than I imagined.

As scientists and educators, we have a unique ability and opportunity to educate the public about climate change and make them aware of potential solutions, such as those offered by carbon pricing models. I encourage you to use your talents to address climate change. Once you begin, opportunities to make a difference will present themselves. Take those opportunities for the sake of our children and grandchildren, and our collective futures.

 

Enjoy reading ASBMB Today?

Become a member to receive the print edition four times a year and the digital edition weekly.

Learn more
Henry Jakubowski
Henry Jakubowski

Henry Jakubowski is a professor of chemistry at the College of St. Benedict/St. John’s University.

Get the latest from ASBMB Today

Enter your email address, and we鈥檒l send you a weekly email with recent articles, interviews and more.

Latest in Opinions

Opinions highlights or most popular articles

Where do we search for the fundamental stuff of life?
Essay

Where do we search for the fundamental stuff of life?

Dec. 1, 2024

Recent books by Thomas Cech and Sara Imari Walker offer two perspectives on where to look for the basic properties that define living things.

Scientists around the world report millions of new discoveries every year
Essay

Scientists around the world report millions of new discoveries every year

Nov. 24, 2024

Science is a collaborative endeavor, and international teams have contributed to a huge rise in scientific output.

Who decides when a grad student graduates?
Training

Who decides when a grad student graduates?

Nov. 15, 2024

Ph.D. programs often don鈥檛 have a set timeline. Students continue with their research until their thesis is done, which is where variability comes into play.

Redefining 鈥榳hat鈥檚 possible鈥 at the annual meeting
President's Message

Redefining 鈥榳hat鈥檚 possible鈥 at the annual meeting

Nov. 1, 2024

The ASBMB Annual Meeting is 鈥渁 high-impact event 鈥 a worthwhile investment for all who are dedicated to advancing the field of biochemistry and molecular biology and their careers.鈥

麻豆传媒色情片 impressions of water as cuneiform cascade*
Essay

麻豆传媒色情片 impressions of water as cuneiform cascade*

Oct. 31, 2024

Inspired by "the most elegant depiction of H2O鈥檚 colligative features," Thomas Gorrell created a seven-tiered visual cascade of Sumerian characters beginning with the ancient sign for water.

Water rescues the enzyme
Essay

Water rescues the enzyme

Oct. 31, 2024

鈥淪ometimes you must bend the rules to get what you want.鈥 In the case of using water in the purification of calpain-2, it was worth the risk.