It’s early—almost too early to be out walking. But Leo Konefat, a rising third-year undergraduate at UC Davis and one of the 2025 EVE Scholars, has an urgent appointment with a low tide.
Patrick Phengsy is a fourth-year undergraduate student who just completed his Associate's Degree in Natural Sciences at the SRJC. He will be transferring to UC Santa Barbara for the upcoming Fall 2023 quarter, where he aims to complete his Bachelor’s Degree in Biology and pursue a career in medicine.
In celebration of World Seagrass Day, we're highlighting seagrass-focused research conducted by UC Davis graduate students. Meet some of our dedicated scholars and delve into their research, exploring the significance of seagrasses and the implications for marine environments.
Beds of eelgrass (Zostera marina) form an important habitat in coastal regions throughout the northern hemisphere, crucial to many fish and other species and storing vast amounts of carbon. A new study published July 20 in Nature Plants shows that eelgrass spread around the world much more recently than previously thought, just under a quarter-million years ago. The results have implications for how eelgrass could be affected by a changing climate.
Join us in a celebration of all things seagrass! March 1st is World Seagrass Day, and we're taking an in-depth look at what seagrasses are, how they interact with marine coastal ecosystems, and how they're being impacted by climate change.
Join us in a celebration of World Seagrass Day 2022 by entering an original photo of seagrass OR by sharing your favorite seagrass fact in your own words using the entry form below. Winners will receive a copy of Suzie and the Eelgrass Geese autographed by the author. The book was written by Bodega Marine Laboratory alumna Dr. Nicole Kollars, edited by Carolyn Sotka, and beautifully illustrated by Allison Simler-Williamson. You can learn more about it here.
Seagrasses Turn Back the Clock on Ocean AcidificationExpansive Study Shows Seagrass Meadows Can Buffer Ocean Acidification
Spanning six years and seven seagrass meadows along the California coast, a paper published today from the University of California, Davis, is the most extensive study yet of how seagrasses can buffer ocean acidification.
