Community Flood Risk Assessment from Rising/Surging Seas Project
Kevin Kupietz, Elizabeth City State University
Globally 634 million people, 10% of the world's population, live in coastal areas less than 10 meters above sea level. According to 2010 census data, 123 million people, 39% of the United States population, live in coastal counties with an estimated increase to this number by 8% in the 2020 census. As natural disasters have been seen to increase in frequency and severity in the past five years coupled with expected sea rises from climate change it is important that anyone involved with the safety and resiliency planning of their organization/community have an understanding of how to scientifically assess risk from flooding in order to mitigate and recover from the effects. This project allows students the ability to develop skills to utilize computer modeling systems and to apply the data to real world communities in examining risk to structures as well as different groups in the community.

Water in Gen Chem
Ruthanne Paradise, University of Massachusetts-Amherst

Emerging Contaminants in Arizona
Frank Marfai, Phoenix College

Spatial Distribution of Food Resources in the Phoenix Metro Area.
Elena Ortiz, Phoenix College
The main research question/ driving question is: How are food resources distributed across the urban landscape? Students will explore previous work on food deserts in the Phoenix Metro area, use census data, USDA data, collect and compile data on the local food system, create data visualizations and maps, and determine future data needs. Students will also determine stakeholders and community members that could act on the results of their findings and identify appropriate ways to communicate their research to those audiences.

Introduction to GIS using CURE
Elizabeth Bollen, Adams State University; Chayan Lahiri, Adams State University
Geographic information systems (GIS) are used in many capacities across every discipline to help communities, governments, and businesses make informed decisions. This Introduction to GIS CURE course aims to assist local ranches by locating sampling sites for watershed analyses. Students in this GIS course will develop skills manipulating data by learning GIS software. The students themselves are tasked with identifying sampling site criteria for the broader study, which will assist other student researchers in locating scientifically viable, safe, and accessible sampling sites for watershed sample collection. Students in this course will also use knowledge gained in prior classes to make and defend decisions. Written reports, figure drafting, and group discussions will help students learn how to clearly and effectively communicate their findings and results. The knowledge and skills students' gain in this course will be used in future classes and are highly sought after by employers.

Extraction of Lycopene and other Antioxidants from Tomatoes
Marion Franks, North Carolina A & T State University
This CURE is focused on exposing undergraduate students to the use of chemical instrumentation to observe the composition of antioxidants in natural products. Students will learn how to read scientific literature, develop a hypothesis, plan research, interpret data, and relate the data to ongoing phenomenon.

Genes to Ecosystems
Laci Gerhart-Barley, University of California-Davis