BIO

Wildflowers on Coyote Ridge - 2010

"No man can know where he is going unless he knows exactly where he has been and exactly how he arrived at his present place."

Maya Angelou


I cannot recollect a time I was not captivated by science and the natural world. With my parent’s encouragement, I spent my days collecting wild animals, building electronic gadgets, or reading as much science fiction and natural history as I could find. 

The Apollo Space Program was a huge motivator as I imagined myself becoming an astronaut (an exobiologist to be precise). But my eyes had other plans. So as stigmatism with a dash of near-sightedness developed in junior high, the 20/20 vision requirement for astronaut training ended that career goal. 

I continued in the biological sciences while keeping my attention on engineering and computer sciences until I happened into a summer job as a seasonal wilderness ranger during my freshman year. For the next five summers, I lived in a remote wilderness area, exploring the plants and wildlife of the San Jacinto Mountains. This experience pushed my curiosity and ideas into exciting new directions. 

Fast forward to today — I’m a retired Biological Field Station Director. Over my career, I managed two extraordinary University of California field stations and natural reserves, while collaborating on research that merged the lines between ecology, engineering, and conservation. I lived off the grid starting in 1982, using solar power before it was commonplace. The first bank of photovoltaic panels I installed were purchased as surplus equipment from the Jet Propulsion Laboratory. 

As an explorer — a digital naturalist — I’ve been figuring out ways to quantify nature and amplify our understanding of the interactions of species and their ecology in our protected natural areas. If information is power, then knowledge is unstoppable!

Our interdisciplinary teams of faculty and students would design, engineer, and field test tools for remote sensing of organisms and ecosystems. We incorporated cameras, sensors, wireless networks, and robotics to build portable sensor platforms capable of semi-autonomous operation. Drones would conduct aerial surveys of vegetation and microclimate and be able to collect water samples from lakes and rivers. “Tree-bots” navigated along cables through a forest canopy measuring plant growth, while belowground robots captured thousands of digital images showing the microscopic connections between tree roots and fungi. There were even small robotic boats and submarines which measured water quality at any depth and would assess the health of a coral reef.

We have learned much through these myriad uses of digital tech. But what has motivated me the most was the sense of urgency to understand and quantify biodiversity — to explore scientific and technological solutions that will aid in the conservation and defense of nature!

Mike Hamilton - Summer 2021