By NAVCENT Public Affairs
| July 07, 2022
The guided-missile destroyer USS Gridley (DDG 101) transits the Gulf of Oman during a search and rescue drill, April 15. (Photo by MC2 Colby Mothershead)
A U.S. Navy guided-missile destroyer supported maritime operations conducted by naval forces from the United Kingdom that resulted in the seizure of advanced weapons components during an interdiction in the Gulf of Oman, Feb. 25.
Coordinated efforts among USS Gridley (DDG 101), HMS Montrose (F236) and combined air assets led to Royal Navy forces confiscating surface-to-air missiles and cruise-missile rocket engines that originated from Iran, according to a statement released by the United Kingdom, July 7.
Small boats attempting to smuggle the weapons were intercepted by the Royal Navy in January and February. Gridley’s crew deployed an MH-60 Seahawk helicopter during the February interdiction to provide overwatch.
“We have a decades-long strategic relationship with the Royal Navy,” said Vice Adm. Brad Cooper, commander of U.S. Naval Forces Central Command, U.S. 5th Fleet and Combined Maritime Forces. “Our continued collaboration on maritime interdictions in the Middle East reflects our extraordinary partnership and strong commitment to regional security and stability.”
The weapons were seized along routes historically used to traffic weapons unlawfully to Yemen. The direct or indirect supply, sale or transfer of weapons to the Houthis in Yemen violates U.N. Security Council Resolution 2216 and international law.
U.S. and UK naval forces regularly conduct regional maritime security operations to disrupt the transport of illicit cargo that can support terrorism and other unlawful activity. U.S. Navy warships operating in the Middle East seized nearly 9,000 illicit weapons in 2021.
U.S. Naval Forces Central Command and United Kingdom Maritime Component Command are headquartered in Manama, Bahrain. The two commands regularly partner to foster regional maritime cooperation, safeguard key waterways and uphold international rules-based order.