This project modeled market interactions for different scenarios of offshore cultivation to elucidate what effects these new markets would have on both consumers and suppliers of totoaba products, as well as the illegal market for poached buche.
Reducing the environmental impacts of the apparel supply chain through harnessing waste from the agricultural industry, converting it into apparel-grade fiber.
This project aimed to estimate the greenhouse gas emission reductions which would result from powering CBS facilities nationwide with 100% renewable energy, and actions to implement this strategy.
This project team analyzed the Channel Islands National Marine Sanctuary's current citizen science data management system and identified improvements that will maximize the usability of this rich dataset.
The CITE Plan Project investigated the relationship between timber management, fire regimes and fire severity and their future regulatory incorporation by the California Board of Forestry and Fire Prevention (CalFire) into the Timber Harvest Plan (THP) permit process.
This project team and their client, Denver Water, sought to understand the threat contaminants of emerging concern may pose to drinking water quality in their collection system.
Trade-offs associated with marine reserves are believed to have played a key role in the network’s delayed implementation; potential long-term gains in sustainable fishing and the conservation of biodiversity likely generate short-term losses in fishery revenue due to fishery closures. The trade-offs between conservation and livelihood led our team to ask: What are the consequences of delaying the implementation of a reserve network, and how much area should be protected to enhance both fish biomass and catch?
The Nature Conservancy enlisted this group project team to help determine whether investments in natural infrastructure could lower insurance costs to hoteliers and coastal development sites.
This project team worked with The Nature Conservancy, Santa Barbara Botanic Garden, and other island conservation organizations to better understand how climate change will impact island oaks and their recovery.
In California, there is often an excess supply of solar energy in the middle of the day, which can lead to grid curtailment - when clean, renewable energy is not generated to its full capacity or sold to other regions at negative pricing. As more electric vehicles enter the market in California and are poised to charge at the similar peak demand times, utilities are looking for strategies to shift demand of electric vehicle charging to use that excess supply of solar energy. The project's goal was to analyze the potential of electric vehicles as a flexible demand response tool and how to turn a challenge into an opportunity.
