Connect with us

NEWS

Dollywood Announces Star-Studded Concert Series

Published

on

Source: Getty Images

Dollywood guests will soon get a lot more bang for their buck when visiting the Tennessee theme park, courtesy of a brand new star-studded concert series.

According to USA Today, Dolly Parton’s iconic hit “I Will Always Love You” will mark its 50th anniversary this year, and Dollywood plans to celebrate the milestone in a huge way.
Beginning March 11 and running through April 8, Dollywood will host an all-new “I Will Always Love You Celebration” featuring award-winning artists to highlight songwriting and songs.

Best of all, the celeb-infused concert series will be included with admission to the park!

USA Today reports the “I Will Always Love You Celebration” will feature artists including Jo Dee Messina and Natalie Grant.

“It’s humbling to be a part of such a beautiful celebration,” Messina said in a statement reported by USA Today. “This isn’t just a show; it’s inclusion in celebrating a huge part of musical history. ‘I Will Always Love You’ has crossed the lines of musical genres, has transcended throughout generations, and has impacted people worldwide. Dang, Dolly, that’s amazing!”

The concert line-up will feature the following:

March 11 – Natalie Grant
March 18 – Ricky Skaggs and Kentucky Thunder
March 25 – Jo Dee Messina
April 1 – Larry, Steve & Rudy: The Gatlin Brothers
April 8 – Lauren Alaina
ADVERTISEMENT - CONTINUE BELOW

bonvoyaged.com


Welcome to Bon Voyaged, your gateway to a world of adventure, exploration, and cultural discovery. Whether you're an intrepid globetrotter planning your next big adventure, a travel enthusiast seeking inspiration for your bucket list, or simply someone looking to escape through the wonders of travel from the comfort of your own home, our platform is here to provide you with a wealth of information, tips, and inspiration. Join us in celebrating the beauty and diversity of our world as we share stories, recommendations, and a passion for wanderlust that knows no boundaries.