This project will compare Nada Grocery’s carbon emissions and plastic waste production under a business as usual scenario to a variety of probable scenarios that could happen as a result of the 2020 COVID-19 pandemic.
This project evaluates how Santa Barbara County’s working lands may be managed to best mitigate and adapt to climate change. Using TerraCount, this project aims to quantify the carbon storage impacts and co-benefits associated with a range of management activities.
The Western Monarch’s population has dropped precipitously, with only 1,914 individuals observed in 2020. To help save this iconic species from extinction, this project is working with the U.S. Fish & Wildlife Service to help nurseries, gardeners, and community-members to adopt monarch-friendly behaviors.
This project hopes to promote the conservation of the endangered Grauer's gorilla (Gorilla beringei graueri) in the Democratic Republic of the Congo (DRC). Using a data-driven approach to inform habitat corridor management, we are looking at priority conservation areas to investigate the trade-offs between human activities and gorilla conservation planning.
This project team is working with the Costa Rica-based non-profit, Osa Conservation, to evaluate the potential of eco-certifications to produce a net economic benefit to farmers in the Talamanca-Osa Region, and to upport Osa Conservation and local farmers in decision-making by projecting shifts in crop suitability distributions considering the anticipated impacts of climate change.
This project is working to address California's groundwater resilience by analyzing the multiple benefits of using flood waters for managed aquifer recharge and floodplain restoration in the Madera Basin of the San Joaquin Valley.
This project first seeks to identify the climate weather events that will have the most signifiant impact on 19 Raytheon Technologies locations within the United States.
This project examined if the Environmental Defense Fund's Framework for Integrated Stock and Habitat Evaluation (FISHEF) would continue to provide sound guidance to data-limited fishery managers given the influences of global climate change on fish.
This project assessed the relationships between air pollution particulate matter 2.5 (PM2.5) and diabetes prevalence throughout the state of California using a cross sectional and panel data approach for the Sansum Diabetes Research Institute.
Through evaluating the benefit of adding rain capturing technology to Austin, TX, this project aimed to create a versatile evaluation framework for water management projects in other municipalities.
This project analyzed the willingness of small-scale fisheries to participate in a vessel tracking program that is incentive-compatible to their preferences. The team conducted a dual response choice experiment to evaluate fisheries' preference data from surveys conducted in Indonesia and Mexico, then utilized a contingent valuation to gauge both fishers’ willingness to pay for a tracking program and the effects of fishers’ characteristics on their willingness to pay.
In conjunction with the Joint Institute for Wood Products Innovation (through the California Board of Forestry and Fire Protection), the project team aims to assess how California’s forests may support statewide carbon neutrality. The project focuses on determining the costs and carbon consequences of a host of forest management treatments across all forests in California, and how these treatments can contribute to the State’s climate goals.
This study explored the spatial feasibility of mariculture development and create an interactive web-based tool to predict potential locations, yields, and profitability for offshore mariculture of cobia (Rachycentron canadum) in Brazil’s Exclusive Economic Zone (EEZ).
This project developed a model using the Environmental Protection Agency’s Storm Water Management Model 5.1 to facilitate identification of "hotspot" areas that contribute higher stormwater pollution relative to surrounding areas in the Maunalua Bay Region, O'ahu, Hawai'i.
Arundo donax, or giant reed, is an invasive plant species that thrives around rivers and streams. Bad Grass creates consumer products thus promoting demand for Arundo biomass. By introducing a line of cannabis pipes that are strategically positioned between joints and pipes, we can attract customers interested in smoking out of disposable pipes.
