Shon Crewe
About Shon Crewe
Shon Crewe is a Director and Ambassador at Women's Golf Day, Board Member at Pets for Patriots, and Sports Radio Host at ESPN Radio. She has extensive experience in program development, entrepreneurship, and has worked with several Fortune 500 brands.
Current Roles
Shon Crewe currently serves as an Ambassador for Women's Golf Day, a position held since 2021, in West Palm Beach, Florida. Additionally, she is a Board Member at Pets for Patriots, Inc., based in Long Beach, New York, a role she has held since 2020. Both positions emphasize her commitment to community and advocacy.
Experience in Sports Broadcasting
Since 2012, Shon Crewe has been a Sports Radio Host and the Executive Producer of The Northwest Golf Show on ESPN Radio. Based in Seattle, Washington, she has developed the market's first radio show dedicated exclusively to golf, showcasing her expertise and passion for the sport.
Strategic Consulting Roles
From 2016 to 2020, Shon Crewe worked as an Entrepreneur & Program Development Consultant for Nest Benefit & Fairway Independent Mortgage Corporation in Seattle, Washington. During this tenure, she played a significant role in building a multibillion-dollar real estate platform for one of the nation's top five retail mortgage lenders. Her consulting work highlights her strategic and developmental capabilities.
Educational Background
Shon Crewe pursued higher education at Gonzaga University, where she studied Organizational Leadership and achieved a Master of Arts Studies degree. Additionally, she earned a Bachelor of Arts in Communications & Media, Journalism from Seattle University. Her academic background provides a solid foundation for her diverse professional roles.
Corporate Collaborations
Throughout her career, Shon Crewe has collaborated with several Fortune 500 brands including Accenture, Adobe, Amazon, AT&T, Kroger, and Panasonic. These collaborations reflect her ability to work effectively with top-tier organizations, leveraging her expertise in communications and program development.