- Author: Grace Dean
Last month, the UC ANR Forest Stewardship program hosted a presentation in collaboration with California American Forests, CALFIRE, and the U.S Forest Service concerning reforestation efforts throughout the state. Below are key takeaways from the May 16th webinar, along with insight into a Cone Collection field day held June 16th.
The webinar began with a presentation from Bridget Mulkerin, California Cone Corps manager for American Forests.
- Author: Brenda Dawson
The cooling shade of UC Davis' mature, leafy trees impressed Nurjannah Wiryadimejo enough to help the now-graduating senior choose to become an Aggie.
“When I first came to Davis, what struck me was how beautiful the cork oaks are. I'd never seen such beautiful tree-lined streets like the ones by the Memorial Union,” she said.
“But now I've realized that a lot of the trees on campus aren't well suited for the future climate, when there will be more heat and extreme weather events,” said the environmental science and management major.
In fact, a majority of the 20,000 trees on campus may be vulnerable to climate change and unsuitable to grow here by the end of the century — according...
- Author: Kat Kerlin
- Author: Bill Stewart
The University of California Agriculture and Natural Resources (UCANR) publications office today announced the release of a new book, “Reforestation Practices for Conifers in California”, a practical manual for landowners and managers that explains the why, where, who, when, what, and how of getting sustainable forests back into California's diverse...
- Author: Ryan Tompkins
Reposted from the UCANR Green Blog
Have you given your favorite tree a hug lately? Perhaps you would rather plant a tree? Well, on March 21, International Forest Day, Californians have a good excuse to do both.
In the first two decades of this new century, fire is having a transformative effect on California forests. Fires are burning with larger proportions of high severity and these high-severity patches are much larger, in many cases exponentially larger than would have occurred under natural...