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USNS Indomitable

The USNS Indomitable (T-AGOS-7) was a Stalwart-class auxiliary ocean surveillance ship operated by the for the from 1985 to 2002. Designed primarily for acoustic surveillance using systems, it supported submarine detection and underwater threat monitoring missions as part of the (SURTASS) program. In the 1990s, the vessel was adapted with additional radar equipment, such as the AN/SPQ-9A, to assist in counter-narcotics operations under Joint Interagency Task Force East, enhancing its role in detecting surface vessels involved in drug smuggling. Decommissioned on December 2, 2002, it was stricken from the the same day and transferred to the (NOAA) on December 9, 2002, for conversion into an oceanographic research platform. Renamed NOAAS McArthur II (R 330), it conducted hydrographic and fisheries surveys until its retirement from NOAA service on June 18, 2014, after which it entered private ownership and supported deep-sea exploration efforts, including as the support vessel DSSV for the Five Deeps Expedition.

Construction and Specifications

Design and Build Details

The USNS Indomitable (T-AGOS-7) was constructed by the Tacoma Boatbuilding Company in , as part of the Stalwart-class ocean surveillance ships designed to support the U.S. Navy's (SURTASS). The keel was laid down on 26 January 1985, with the ship launched on 16 July 1985 and delivered to the Navy on 26 November 1985. The Stalwart-class features a conventional design derived from the Powhatan-class fleet ocean tug (T-ATF) hull form, optimized for acoustic quietness, stability during towed array operations, and endurance in ocean surveillance missions. This hull configuration allows for low-speed operations essential for deploying and recovering long acoustic towed arrays while minimizing self-noise that could interfere with submarine detection. Key design elements include a of approximately 1,565 tons light and 2,535 tons full load, a of 224 feet, of 43 feet, and of 15 feet. Propulsion is provided by a diesel-electric system consisting of four diesel engines driving generators that power two electric motors on twin shafts, delivering 1,600 horsepower for a sustained speed of 11 knots and a range of about 3,000 nautical miles. The build incorporated noise-reduction measures such as isolated machinery mounts and hull coatings to enhance the ship's stealth for support roles.

United States Navy Service

Surveillance Role and Capabilities

The USNS Indomitable (T-AGOS-7), as a Stalwart-class ocean surveillance ship, was primarily tasked with supporting the U.S. Navy's anti-submarine warfare (ASW) mission by gathering underwater acoustical data. Operated by the Military Sealift Command, the vessel conducted extended patrols to detect, track, and report submarine contacts at long ranges, contributing to the Integrated Undersea Surveillance System. Central to its capabilities was the (SURTASS), a towed passive array deployed from the ship to collect acoustic signatures from submerged targets. The Indomitable towed the array at low speeds of approximately 3 knots to maintain stability and effectiveness during operations, enabling patrols of 60 to 90 days in duration. Onboard electronic equipment processed the raw acoustical data in , with findings transmitted via to shore-based analysis stations for further evaluation and tactical dissemination. These capabilities allowed the ship to operate in remote oceanic regions, providing mobile, persistent undersea surveillance independent of fixed arrays like , thereby enhancing fleet awareness of adversary movements. The passive nature of SURTASS minimized the Indomitable's detectability, prioritizing stealthy intelligence collection over active emissions during routine missions.

Operational Deployments and Missions

During its U.S. Navy service from 1985 to 2002, USNS Indomitable (T-AGOS-7) primarily conducted Surveillance Towed-Array Sensor System (SURTASS) missions to support anti-submarine warfare operations for the Commander in Chief, Atlantic Fleet (CINCLANTFLT). These missions involved deploying a towed linear hydrophone array to detect and track underwater acoustic signatures, typically lasting 60 days on station, with the ship operating out of bases such as Norfolk, Virginia. The vessel's small size and low acoustic signature made it suitable for extended surveillance patrols in the Atlantic Ocean, contributing to the Integrated Undersea Surveillance System (IUSS) by relaying data to shore-based processing centers. In the early , Indomitable was modified to shift focus toward counter-narcotics operations, with its SURTASS acoustic array removed and replaced by alternative sensors, including the AN/SPQ-9A radar for surface surveillance. This adaptation supported East (JIATF-E) efforts to detect and monitor drug smuggling vessels in transit zones. The ship participated in operations primarily in the and approaches to the , where it used its surveillance capabilities to identify suspicious surface contacts and cue interdiction assets such as cutters or naval patrol aircraft. From 1993 to 2002, Indomitable typically executed two such missions annually, often in coordination with other modified T-AGOS vessels like USNS Stalwart (T-AGOS-1) and USNS Capable (T-AGOS-16), providing real-time intelligence on smuggling routes exploited by transnational criminal organizations. These deployments emphasized passive detection to avoid alerting targets, with the ship's civilian-crewed operators ensuring operational continuity under naval direction. While specific interdiction outcomes attributable to Indomitable remain classified or unpublicized due to the sensitive nature of surveillance data, its role aligned with broader U.S. Southern Command initiatives to disrupt maritime narcotics trafficking.

National Oceanic and Atmospheric Administration Service

Conversion to Research Vessel

On 9 December 2002, the U.S. Navy's Military Sealift Command transferred USNS Indomitable (T-AGOS-7) to the National Oceanic and Atmospheric Administration (NOAA) during a ceremony highlighting the vessel's shift from military surveillance to civilian scientific research. Rear Admiral Evelyn J. Fields, director of NOAA's Marine and Aviation Operations, noted the agency's intent to integrate the ship into its fleet within six months to support oceanographic studies. NOAA subsequently converted the 234-foot Stalwart-class ship, originally designed for surveillance arrays, into a multi-purpose oceanographic by removing classified systems and installing equipment for scientific data collection, including for seafloor mapping and facilities for biological sampling. The refit, supported by congressional appropriations including $18 million transferred from the Navy in 2005, adapted the platform for NOAA's priorities such as hydrographic surveys and marine resource assessments. Renamed NOAAS McArthur II (R 330) after the agency's prior survey ship McArthur, the vessel was commissioned into NOAA service in May 2003 and homeported in Seattle, Washington, marking its readiness for research missions. This conversion extended the ship's utility beyond its 1985 commissioning, leveraging its robust hull and propulsion—two diesel engines providing 1,860 horsepower—for sustained at-sea operations in support of environmental data gathering.

Research Capabilities and Modifications

Following its transfer from the U.S. in 2002, USNS Indomitable underwent conversion to an oceanographic research platform, with military surveillance systems, including the (SURTASS), removed to accommodate scientific equipment. The U.S. funded the modifications with approximately $18 million in 2005 appropriations, enabling installation of specialized laboratories, hydrographic winches, and sensor mounts for multidisciplinary marine research. This refit transformed the vessel into a versatile platform for NOAA's Pacific Fleet, emphasizing cost-effective fleet modernization over new construction. As NOAAS McArthur II, the ship featured capabilities for high-resolution seafloor mapping using and multibeam echosounders, supporting habitat classification in deep-sea environments such as the Olympic Coast National Marine Sanctuary. It accommodated remotely operated vehicle (ROV) deployments for visual groundtruthing and biological sampling, facilitating studies of deep-sea and communities through high-definition imagery analysis. The vessel supported fisheries acoustics, line-transect surveys, and ecosystem assessments along the U.S. West Coast, with dynamic positioning aids like for precise station-keeping during operations. Additional modifications included provisions for unmanned aerial systems, such as integration of ScanEagle UAVs for aerial monitoring of pack ice and wildlife distributions in remote areas like the . Onboard wet and dry labs enabled real-time data processing from acoustic and optical sensors, while the ship's 68.3-meter length and capacity for 38 personnel supported extended missions focused on ocean currents, fish populations, and environmental phenomena. These enhancements prioritized empirical data collection in , , and , aligning with NOAA's mandate for sustainable .

Key Operations and Contributions

NOAAS McArthur II (R 330), formerly USNS Indomitable (T-AGOS-7), served in the (NOAA) fleet from 2003 to 2014, focusing on oceanographic surveys and research in support of marine sanctuary management and ecosystem monitoring. The vessel conducted mapping operations to characterize seafloor habitats, enabling image classification for benthic environments in areas such as the Coast National Marine Sanctuary. These surveys, performed in May 2004, June 2005, and April 2006, provided high-resolution imagery and ground-truthing data essential for identifying ecological features, assessing habitat conditions, and informing strategies. Key missions included hydrographic and plankton surveys along the U.S. , such as the August 2009 expedition that collected physical, chemical, and biological data to track spatial and temporal variations, contributing to broader studies on marine productivity and . In the , during cruise MC2-09-02 from May 13 to June 11, 2009, the ship supported aerial surveys for ribbon seals (Histriophoca fasciata) and spotted seals, conducting ten flights to gather population and distribution data amid ice-covered waters, which aided in assessing seal and responses to influences. The ship's operations facilitated multi-disciplinary research, including video and sensor deployments for exploration, enhancing NOAA's capacity to monitor , mitigate threats like ship strikes on cetaceans, and establish baseline datasets for long-term observation. These efforts underscored the vessel's role in advancing evidence-based marine policy and scientific understanding of coastal and deep-sea ecosystems.

Private Sector Service

Transfer and Refitting for Caladan Oceanic

In 2017, Caladan Oceanic LLC acquired the decommissioned research vessel McArthur II, previously operated by the National Oceanic and Atmospheric Administration, and renamed it DSSV Pressure Drop. The acquisition positioned the 68.3-meter vessel as a dedicated support platform for manned deep-sea submersible operations, marking its transition from government hydrographic surveys to private exploratory missions. A comprehensive refit commenced shortly after acquisition, spanning to , with primary focus on upgrading accommodations for up to 49 personnel—including , technical specialists, and expedition —and enhancing scientific . Modifications included the addition of dry and wet laboratories for real-time sample processing and data analysis, as well as integration of advanced hydrographic systems such as the Kongsberg SIMRAD EM124 multibeam echo sounder and EA640 single-beam echo sounder for high-resolution seafloor mapping in hadal depths. The retained its 12-ton crane for heavy-lift operations but gained a retractable hangar to securely house and deploy the DSV Limiting Factor, a titanium-hulled capable of repeated dives to full depth. These enhancements extended the ship's operational range beyond 15,000 nautical miles while improving dynamic positioning and sonar arrays for precise navigation and real-time bathymetric surveys during expeditions. The refit effectively repurposed the Stalwart-class hull—originally designed for ocean surveillance—into a versatile deep submersible support vessel, enabling sustained support for ultradeep manned exploration without reliance on government fleets.

Support for Deep-Sea Expeditions

Following its acquisition by LLC in 2017 and renaming to DSSV , the vessel was outfitted as a mothership to support the deployment and recovery of the DSV , a capable of full-ocean-depth dives. Modifications included facilities for maintenance, a launch and recovery system, and enhanced scientific laboratories to process deep-sea samples and data. This configuration enabled extended operations in remote regions, providing logistical support such as fuel, supplies, and crew accommodations for expedition teams. The Pressure Drop played a central role in the Five Deeps Expedition (2018–2019), led by explorer , which achieved the first manned descent to the deepest point in each of the world's five oceans. The expedition commenced on December 14, 2018, with a dive to a depth of 8,376 meters (27,480 feet) in the , the Atlantic Ocean's deepest location, where the submersible was launched from the Pressure Drop. Subsequent legs included the South Sandwich Trench (7,519 meters, , February 2019), Java Trench (7,192 meters, , April 2019), in the (10,927 meters, , April–May 2019), and (5,550 meters, , August 2019). During these missions, the ship facilitated multibeam mapping of over 150,000 square kilometers of seafloor and collection of biological specimens from hadal zones, contributing previously unavailable empirical data on extreme deep-sea environments. Beyond the Five Deeps, the supported follow-on explorations, including targeted surveys of trenches for geological and assessments. In 2020, Caladan Oceanic partnered with the (NOAA) to map and sample the deepest ocean regions, leveraging the vessel's capabilities for high-resolution and in-situ observations that advanced understanding of hadal ecosystems and . These operations underscored the ship's utility in enabling repeated, reliable access to depths exceeding 6,000 meters, where prior unmanned efforts had been limited by technological constraints. The expeditions yielded verifiable records of new species and seafloor features, verified through photographic evidence and physical samples analyzed post-mission.

Involvement in Exploratory Programs

![DSV Limiting Factor prepared for a dive][float-right] Following its acquisition by Caladan Oceanic in 2017 and subsequent refitting as the DSSV , the vessel served as the primary support ship for a series of deep-sea exploratory expeditions led by . These programs focused on mapping uncharted ocean floors, documenting marine biodiversity, and achieving unprecedented human dives to the deepest points in each of the world's oceans. The provided logistical support, including deployment, data processing, and scientific collaboration, enabling the DSV to conduct multiple manned dives beyond 10,000 meters. Central to these efforts was the Five Deeps Expedition (2018–2019), during which Vescovo became the first person to reach the deepest point in all five oceans: in the (10,927 meters on May 1, 2019), in the (8,376 meters on December 28, 2018), South Sandwich Trench (7,513 meters on February 4, 2019), Java Trench (7,192 meters on April 17, 2019), and in the (5,550 meters on August 24, 2019). The facilitated these dives by towing the submersible to sites, monitoring operations via ROVs and sensors, and hosting international scientists who analyzed samples and bathymetric data collected. Over 70,000 nautical miles were logged across 16 expeditions from 2018 onward, with 12 visiting scientists contributing to findings on deep-sea geology and ecology. Subsequent programs included the 2020 Titanic Expedition, where the Pressure Drop supported high-resolution mapping of the wreck site using multibeam , revealing new details about structural degradation at 3,800 meters depth. In late December 2021, during a Philippine Trench mission, the supported Limiting Factor captured video of an unidentified gelatinous creature at approximately 8,300 meters, contributing to rare observations of hadal-zone life forms. These efforts emphasized , such as the titanium-hulled submersible's reusability for repeated full-ocean-depth dives, and yielded public datasets for oceanographic research, though primarily funded and directed by private initiative rather than institutional programs.