It is a great honor to introduce A. Hope Jahren as a recipient of this distinguished award. Hope is an exceptional young scientist who has established an international reputation as a leader in the new field of geobiology. By integrating sophisticated biological techniques and concepts into geological inquiry, Hope is making forefront advances that are en route to a reform in how we view the field of paleoclimatology.
Hope has established this place for herself in the Earth sciences because of her unique interdisciplinary background studying soils, plants, geology, and stable isotopes. She is also highly creative and imaginative. These talents, combined with her hardworking nature, have resulted in a path of remarkable productivity.
Hope’s post-undergraduate experience began with a Fulbright award to Norway in 1992 that subsequently led her to focus her Ph.D. research on biomineralization processes in plants. From her resulting dissertation, she published many papers on isotopic studies of plant biominerals, and this experience clearly shaped her thinking. While editing a book on biomineralization in 2003, I realized that Hope is probably the only person who has done stable isotope work on plant biominerals per se.
During her time at Georgia Tech [Atlanta, Ga.], Hope pioneered the use of carbon isotopes in ancient plant fossils to give information about paleoatmospheres. There were skeptics, but she knew her work had uncovered important findings. She went on to diagnose the second known major methane hydrate release event (117 million years ago), thus establishing methane hydrate release as an episodic event in Earth’s history. These papers led to the GSA Donath Medal.
After relocating to Johns Hopkins [Baltimore, Md.], most of her time was spent on the Axel Heiberg locale, a 45-million-year-old fossil forest [in Canada’s Arctic islands] where her group did field work for three summers. Using stable isotopes, she made findings that startled the community by quantifying the temperature, humidity, weather patterns, and dominant methanogenic soil biological pathways of the site’s ancient paleoclimate.
Building on her background and findings, Hope is now moving the geobiology field ahead yet again. She is combining molecular biochemical techniques with stable isotope techniques in ways that will revolutionize paleontology. To do this, she received another Fulbright award to spend a year at the Botanical Institute of the University of Copenhagen [Denmark] learning DNA extraction, purification, amplification, and sequencing-only a few people have received Fulbrights to two countries. Upon returning, she has become the first person to measure stable isotopes on the DNA of multicellular organisms. Even more remarkably, she is also the first person to extract, sequence, and perform stable isotope analysis on DNA from paleosols.
Hope has well earned her reputation as an intellectual leader in geobiology, and new work has her on a path to become a world authority over the next 10 years. Her contributions are all the more remarkable when one considers the disciplinary breadth and communication that this kind of research requires; and the urgency of advancing paleoenvironmental science to a focus on genetic information combined with insights from stable isotopes.
Finally, it is always great to see these awards go to wonderful people such as Hope. She is a delightfully clever person with a fun sense of humor. As you might expect, she is also a compassionate teacher. It gives me great pleasure to present her to you as a very worthy recipient of this year’s James B. Macelwane Medal.
—PATRICIA M. DOVE, Virginia Polytechnic Institute and State University, Blacksburg