Hubbry Logo
Ōnaruto BridgeŌnaruto BridgeMain
Open search
Ōnaruto Bridge
Community hub
Ōnaruto Bridge
logo
8 pages, 0 posts
0 subscribers
Be the first to start a discussion here.
Be the first to start a discussion here.
Ōnaruto Bridge
Ōnaruto Bridge
Ōnaruto Bridge
View on Wikipedia
from Wikipedia

The Ōnaruto Bridge (大鳴門橋, Ōnaruto-kyō; lit. "Great Naruto Bridge") is a suspension bridge that carries 4 lanes of the Kobe-Awaji-Naruto Expressway connecting Minamiawaji, Hyogo on Awaji Island with Naruto, Tokushima on Ōge Island, Japan. Completed in 1985, it has a main span of 876 metres (2,874 ft). Although it is one of the largest bridges in the world, it is dwarfed by the Akashi-Kaikyo Bridge, which is on the same route. In 2004, 6.8 million cars and trucks crossed this bridge, translating into a daily average of about 18,600.

Key Information

The bridge is complemented by the Konaruto Bridge [ja] ("Small Naruto Bridge") and Muya Bridge [ja] between Ōge Island and Shikoku.

When the bridge was built, space was left for the proposed Shikoku Shinkansen; however, no progress has been made on the train line, so the space intended originally for the bullet trains is used as an observatory to see the Naruto whirlpools beneath the bridge.

Naruto Whirlpools

[edit]

Recurring whirlpools known as the Naruto whirlpools, in the Naruto Strait, spanned by the bridge, are caused by tidal currents between the Seto Inland Sea and the Pacific Ocean passing over undersea ridges under the span, causing very strong eddy currents, some of which make large, deep whirlpools.

The bridge has a tourist attraction built into the south side anchor—the Uzunomichi Walkway[1]—an enclosed walkway out to the south tower to allow visitors to view the swirls through side and floor windows, best seen during low tide. Tourist boats and other vessels circle the towers, allowing visitors to see the depth of the whirlpools up close, while the view from the bridge observatory lets visitors see the pattern created by the eddy currents extending out for quite a distance.

References

[edit]
[edit]
Revisions and contributorsEdit on WikipediaRead on Wikipedia

Ōnaruto Bridge

View on Grokipedia
from Grokipedia
The Ōnaruto Bridge (大鳴門橋, Ōnaruto-kyō) is a stiffened truss suspension bridge spanning the Naruto Strait in Japan, connecting Minamiawaji in Hyōgo Prefecture on Awaji Island with Naruto in Tokushima Prefecture on Shikoku. Completed in 1985 after construction began in 1976, it measures 1,629 meters in total length with a central main span of 876 meters, making it one of the longer suspension bridges globally. The bridge carries four lanes of the Kobe-Awaji-Naruto Expressway on its upper deck, designed ultimately for six lanes plus future railway tracks on the lower level, serving as a critical transportation link in the Honshu-Shikoku Bridge system that integrates the islands of Honshu and Shikoku. Its towers rise 128.3 meters high, with a deck width of 34 meters and a vertical clearance of 41 meters above the strait. Renowned for its engineering amid challenging conditions, the bridge crosses the Naruto Strait, which features some of the world's fastest tidal currents—exceeding 20 kilometers per hour during peak tides—generating the dramatic Naruto whirlpools that can reach diameters of up to 20 meters, particularly in spring and autumn. These whirlpools, visible roughly four times daily for about two hours each, are a major natural attraction, drawing tourists to observe the powerful eddies formed by the convergence of the Seto Inland Sea and the Pacific Ocean. The structure incorporates a two-hinge design with three main spans (side spans of approximately 312 meters each) and a cable sag of 82 meters, engineered to withstand the strait's turbulent waters and seismic activity common to the region. A distinctive feature is the Uzunomichi Whirlpool Walkway, a 450-meter-long pedestrian path integrated into the lower deck of the bridge, suspended 45 meters above the water surface within the bridge's girder. This walkway, accessible year-round, allows visitors to experience close-up views of the whirlpools, passing ships, and the strait below, typically taking about 30 minutes to traverse. Operating daily with entry fees starting at 510 yen for adults, it enhances the bridge's role as a premier tourist site, complementing its primary function as a vital infrastructure element in western Japan's expressway network.

Location and Geography

Position and Route

The Ōnaruto Bridge spans the , connecting Minamiawaji in on to Naruto in on Ōge Island. This positioning makes it a link in western , situated at approximately 34°14′N 134°39′E. As part of the E28 Kobe-Awaji-Naruto Expressway, the bridge serves as the final crossing from Honshū to , integrating with the route from Kobe-Nishi Interchange in to Naruto Interchange in . It facilitates four lanes of expressway traffic between Awajishima-Minami Interchange and Naruto-Kita Interchange, enhancing regional transportation networks. The bridge is complemented by the nearby Konaruto Bridge, which handles local traffic between Ōge Island and mainland , and the Muya Bridge, a four-lane expressway bridge across the nearby Konaruto Channel to mainland . Prior to its completion in 1985, the Naruto Strait's narrow width and strong tidal currents contributed to the historical isolation of Awaji Island and Shikoku from the Kansai region, limiting overland access and relying heavily on ferries. The bridge's opening significantly improved connectivity, integrating Shikoku more closely with the Kansai economic area and supporting economic growth through faster travel and commerce.

The Naruto Strait

The Naruto Strait, known as Naruto-kaikyō in Japanese, is a narrow channel measuring 1.3 km at its narrowest point, separating Awaji Island in Hyōgo Prefecture from the eastern coast of Shikoku near Naruto in Tokushima Prefecture. It serves as a critical waterway connecting the Harima Nada region of the Seto Inland Sea to the Kii Channel of the Pacific Ocean, facilitating the exchange of water masses between these two distinct marine environments. The Ōnaruto Bridge crosses this strait, linking the islands via a suspension structure that addresses the challenging navigational corridor below. Hydrologically, the strait features a seabed with depths averaging around 80 m in the main channel, punctuated by deeper basins reaching up to 216 m on the northern side and shallower topographic variations that include ridges and basins formed by differential erosion. These underwater features, including sandstone and mudstone layers from the late Cretaceous Izumi Group, constrict and accelerate water flow, contributing to the strait's dynamic conditions. Strong tidal currents, peaking at 10 knots (approximately 18.5 km/h), are driven by a water level difference of up to 1.5 m between the Seto Inland Sea and the Pacific Ocean, occurring twice daily due to opposing tidal phases. Geologically, the Naruto Strait is a product of the Seto Inland Sea's tectonic , shaped approximately 120,000–130,000 years ago during the last interglacial period through uplift and along the Tectonic Line (MTL), Japan's longest active fault . The MTL, a right-lateral strike-slip fault running parallel to the strait, influences ongoing seismic activity and the regional fault network in southwestern . This tectonic setting has led to the strait's V-shaped cross-section and potential for seabed , where harder resists while softer erodes, forming basins and promoting . Environmentally, the strait's vigorous currents mix nutrient-rich waters from the Pacific and Inland Sea, fostering high marine biodiversity including diverse benthic communities, extensive seaweed beds such as wakame (Undaria pinnatifida), and commercially important fisheries like Naruto-dai red seabream. These nutrient-enhanced flows support elevated primary productivity, sustaining a robust ecosystem, though the erosive forces on the seabed contribute to ongoing sediment dynamics and habitat variability.

Design and Engineering

Structural Design

The Ōnaruto Bridge is a stiffened featuring three spans and two hinges integrated into the stiffening to provide flexibility against seismic activity and wind loads in Japan's earthquake-prone and typhoon-vulnerable . This allows the to accommodate differential movements between spans while maintaining overall stability, with the hinges positioned to absorb energy from dynamic forces without compromising load distribution. The bridge's towers are constructed as H-shaped steel structures, rising 144 meters above sea level and anchored directly into the bedrock on both shores to ensure firm resistance to lateral forces from currents and earthquakes. The main cables, each with a diameter of 84 centimeters, are draped in a simple suspension configuration and composed of 154 prefabricated parallel-wire strands, with each strand containing 127 galvanized steel wires of 5.37 mm diameter, providing high tensile strength for the 876-meter center span. The deck utilizes a steel box-girder stiffened truss system, enabling a dual-level configuration where the upper level accommodates vehicular traffic and the lower level is reserved for potential future rail installation, including compatibility with high-speed trains. Seismic adaptations include the flexible hinges to accommodate movements during earthquakes. The overall low-damping design, inherent to long-span suspension bridges, aids in resisting wind-induced vibrations in the turbulent Naruto Strait. Aerodynamic enhancements feature fairings along the deck edges to mitigate vortex-induced vibrations caused by the strong, turbulent winds of the Naruto Strait. Following seismic verification after the 1995 Great Hanshin earthquake, retrofitting was implemented around 2014 to strengthen the multi-column foundations using embedded steel pipes for added structural capacity and corrosion protection against near-field seismic events.

Technical Specifications

The Ōnaruto Bridge is a stiffened with a total of 1,629 m, comprising a main span of 876 m flanked by two side spans of 330 m each. The structure provides a deck width of 34 m to support vehicular traffic, currently configured for four lanes of highway (two per direction) with provisions for future expansion to six lanes and dual railway tracks. Construction incorporates substantial steel elements in the truss stiffening girders, towers, and main cables, alongside concrete volumes exceeding 200,000 m³ across the deck, foundations, and anchorages. The bridge's load-bearing capacity accommodates heavy vehicles up to 40 tons, consistent with expressway standards for the Kobe-Awaji-Naruto route. It is engineered for wind resistance up to 80 m/s and offers a navigational clearance of 41 m below the deck at high tide to permit maritime passage through the Naruto Strait. Maintenance responsibilities fall to the Honshū-Shikoku Bridge Expressway Company, involving annual inspections, corrosion monitoring via dehumidification systems in the salty coastal environment, and periodic precise evaluations to ensure structural integrity. The design incorporates adaptations for seismic resilience, including provisions for level 2 earthquakes with accelerations up to 800 gal, enhanced by the 2014 foundation retrofitting.

Construction and History

Planning and Development

The Ōnaruto Bridge was initiated as part of the broader Honshū-Shikoku Bridge Project in the 1950s, aimed at economically connecting Japan's main islands of Honshū and Shikoku across the Inland Sea through improved transportation infrastructure. Early surveys and route investigations began in this period, driven by post-war reconstruction needs and incidents like the 1955 Shiun Maru ferry disaster (on the Utaka route) that underscored the urgency for safer crossings. Planning intensified in the 1970s amid Japan's infrastructure boom, with the Honshū-Shikoku Bridge Authority (HSBA) established in July 1970 to oversee development, and a basic construction plan finalized in 1973. Environmental impact assessments for the Akashi-Naruto route, including the Ōnaruto crossing, were conducted around 1974-1975 under government supervision to evaluate effects on the Naruto Strait's unique tidal dynamics. Funding was primarily government-backed through the HSBA, which secured loans for construction to be repaid via toll revenues by fiscal year 2057, ensuring long-term without taxpayer burden. The HSBA was privatized in , becoming the Honshu-Shikoku Bridge Expressway Limited, which continues to manage the bridges. Key challenges included balancing the bridge's potential to boost around the with the need to preserve the ’s hydrological features, addressed through a hypostyle design that allows tidal currents to flow unimpeded; approvals were also obtained from local fisheries concerned about disruptions to marine activities in the current-prone waters. Feasibility studies in the mid-1970s confirmed a stiffened suspension as optimal for the 876-meter span, surpassing alternatives like cable-stayed structures due to the site's strong and seismic demands, leading to the on , 1976.

Construction Process

The construction of the Ōnaruto Bridge began with a ground breaking ceremony on , 1976, followed by the start of on-site work on September 12, 1976, as part of the Honshu-Shikoku Bridge Project. Initial efforts focused on foundation piling in the turbulent waters of the Naruto Strait, where strong tidal currents and complex seabed conditions necessitated innovative techniques such as the laying-down caisson method and multi-column foundations comprising steel pipe piles up to 7 meters in diameter. These substructures, consisting of 16 piles of 4 meters diameter and 2 piles of 7 meters diameter per tower, were installed using underwater blasting and clamshell dredgers to ensure stability against scour and high-velocity flows reaching up to 8 knots. The main towers, rising 144 meters above sea level, were erected sequentially from the shore sides after foundation completion in March 1981, employing prefabricated steel components lifted by heavy cranes to withstand seismic activity and wind loads. Cable erection followed, utilizing the aerial spinning method to weave high-tensile steel wires—19,558 strands per cable, each 5.37 mm in diameter—into the main suspension cables measuring 840 mm across; this process was completed in June 1982. Innovations like temporary anchors stabilized components during strait crossings, mitigating risks from high winds and currents that frequently delayed operations. Deck segments, part of the stiffened truss superstructure, were then lifted into place by floating cranes in a block erection sequence, with girder laying starting in April 1983 and full closure achieved in March 1984. The bridge opened to traffic on June 8, 1985, marking a key milestone in connecting Awaji Island and Shikoku. The total construction cost was approximately ¥380 billion. Challenges such as persistent high winds exceeding 20 meters per second and tidal currents persisted throughout, requiring vibration control devices and barge position control systems for safe assembly.

Naruto Whirlpools

Formation and Causes

The Naruto whirlpools form primarily due to tidal bores driven by the asynchronous tides between the Pacific Ocean and the Seto Inland Sea, where the water level difference reaches up to 1.5 meters every six hours as higher Pacific tides rush northward into the inland sea, colliding with southward ebb flows. This semi-diurnal tidal cycle, with a phase lag of approximately 2.5 hours, generates intense pressure gradients that propel large volumes of water through the strait. The strait's narrow 1.3 km width and complex bathymetry, including a shallow submarine sill at about 80 m depth, constrict and accelerate the flow, producing velocity gradients and vorticity as currents intensify to speeds of up to 20 km/h. These conditions foster horizontal shear instability, where submesoscale eddies emerge from the turbulent tidal jet, resulting in vortices that rotate clockwise during ebb tides and counterclockwise during flood tides. Whirlpool intensity varies seasonally with tidal amplitudes: they peak during spring tides near full and new moons, when enhanced gravitational alignment allows diameters up to 20 m, and diminish during neap tides with weaker solar-lunar opposition. These phenomena have been documented since the Edo period (1603–1868), recognized in historical accounts and artwork as perilous navigational obstacles that endangered maritime traffic.

Characteristics and Observation

The Naruto Whirlpools, known as Naruto no Uzushio, manifest as powerful, funnel-shaped vortices in the Naruto Strait, reaching diameters of up to 20 meters under ideal tidal conditions. These whirlpools form deep, spinning funnels driven by currents exceeding 20 kilometers per hour, creating a dramatic display of churning seawater that draws in surrounding elements. Their scale and intensity make them one of the world's largest tidal whirlpools, with the phenomenon occurring twice daily as tides shift, typically lasting 1 to 2 hours per cycle. The whirlpools are most prominent during spring , which occur approximately every two weeks, and peak in size around the spring equinox in and autumn equinox in , when tidal ranges amplify their formation. Viewing opportunities arise roughly every six hours with high and low tides, though the exact peak times vary by season and day—often aligning with afternoon and evening periods for optimal . visible year-round from the bridge vicinity, with rainy intensifying the turbulent appearance by adding surface agitation to the flows. Visually, the whirlpools appear as foamy, spiraling masses of blue-green water, predominantly rotating clockwise, accompanied by a roaring sound likened to thunder from the friction of colliding currents. This auditory intensity, derived from the term "naru" meaning "to roar" in Japanese, underscores their forceful nature. While mesmerizing, the whirlpools present significant hazards to small vessels due to their strong suction and rapid currents, historically prompting navigation warnings. In Japanese folklore, they are mythologized as "uzushio" or tide-rips, embodying perilous sea spirits akin to the mythical Charybdis, which have inspired cautionary tales, artwork, and literature depicting their destructive allure.

Tourism and Facilities

Uzunomichi Walkway

The Uzunomichi , also known as Uzu no Michi, is a 450-meter-long promenade suspended 45 above the , constructed within the girder of the Ōnaruto Bridge and extending from the south tower toward the mid-span to provide overhead views of the whirlpools below. The walkway features transparent in key sections, allowing visitors to peer directly down at the swirling tidal currents and massive whirlpools, which can reach diameters of up to 20 meters during peak tides. It includes multiple rest areas spaced approximately every 100 meters, along with observation rooms offering panoramic 270-degree vistas of the strait, the Pacific Ocean, and the Seto Inland Sea. Opened to the public in 2000, the facility utilizes pre-reserved space in the bridge's structural girders, originally designed with or rail use in mind, and can accommodate several hundred visitors simultaneously for safe exploration. In 2025, the its 25th with special and campaigns held from to 2026, coinciding with the 40th anniversary of the Ōnaruto Bridge. Informational panels along the path educate visitors on the formation of the —caused by powerful tidal interactions between the Pacific and the —and aspects of the bridge's , such as its suspension to withstand high and seismic activity. Access to the Uzunomichi Walkway begins at the Naruto Park visitor center, where an entry fee of ¥510 applies for adults, with reduced rates of ¥410 for junior and senior high school students and ¥260 for elementary school children; group discounts are available for parties of 20 or more (as of 2025). The site operates daily from 9:00 AM to 6:00 PM during the summer season (March to September, with last entry at 5:30 PM) and until 5:00 PM in winter (October to February, last entry at 4:30 PM), though hours may extend during holidays like Golden Week and are subject to closure on the second Monday of certain months or in poor weather conditions (as of 2025). Visitors ascend via a combination of elevators and stairs to reach the walkway entrance, ensuring accessibility for most, with the full round-trip experience typically lasting about 30 minutes. The walkway has become a major draw, attracting approximately 500,000 visitors annually who seek its unique elevated perspective on the whirlpools, particularly during high-tide viewing windows in spring and autumn when the vortices are most dramatic. Special events occasionally feature enhanced illumination along the bridge structure, allowing for illuminated night views of the strait that complement daytime visits.

Visitor Access and Experiences

Visitors can reach the Ōnaruto Bridge area primarily by car via the Kobe-Awaji-Naruto Expressway, where the one-way ETC toll from the Kobe area to Kita Interchange is approximately ¥3,210 for standard (as of 2025). Ample paid is available at , with multiple lots accommodating over 200 near the main . For , a local bus from JR Station takes about 20 minutes to , while buses from Tokushima Station require a short train ride to Station first, followed by the bus transfer, totaling around 30-40 minutes overall. Boat tours provide an immersive way to experience the up close, departing from Naruto Wharf for 25- to 30-minute cruises that approach within 15 meters of the swirling waters (as of 2025). These tours, such as the Wonder Naruto option, cost ¥1,800 for adults and operate frequently during daylight hours, with the best viewing during peak tidal flows about 1.5 to 2 hours before and after high or . Reservations are recommended for smaller, faster boats like Aqua , which cost ¥2,400 and offer even closer encounters. Naruto Park itself features scenic viewpoints, walking paths, and nearby cultural sites like the Otsuka Museum of Art, which houses massive reproductions of world-famous artworks, along with memorials and statues honoring . In Tokushima, the Awa Odori Kaikan offers daily performances of the traditional Awa Odori dance, a highlight of the region's summer festivals. On the Awaji Island side, visitors can explore hiking trails around Mount Yuzuruha, providing panoramic views of the strait and bridge with moderate paths suitable for most fitness levels. Summer brings special events, including the Naruto Summer Festival in early August, featuring fireworks, food stalls, and Awa Odori dances near the whirlpools. The site's connection to the popular anime series Naruto, inspired by the whirlpools, has led to themed tours and attractions, such as the nearby Nijigen no Mori park on Awaji Island with life-sized character installations and ninja experiences. For optimal visits, consult tide tables via official apps or websites like the Uzushio Kisen site to time arrivals for peak whirlpool activity, as conditions vary daily. Avoid weekends and holidays to minimize crowds at viewpoints and boat departures, which can lead to long waits. Wheelchair accessibility is available at Naruto Park and most facilities, but boat tours require staff assistance for boarding and have limited space, so advance inquiries are advised.

Transportation and Significance

Role in the Expressway Network

The Ōnaruto Bridge forms part of Japan's E28 Kobe-Awaji-Naruto Expressway, serving as the key crossing over the to link on Honshū with Shikoku's . This integration enhances regional connectivity by enabling seamless vehicular travel between the Kansai economic area and Shikoku, drastically reducing transit times compared to pre-bridge routes that often exceeded three hours for similar journeys. For instance, the drive from to now takes about 1.5 hours, fostering efficient daily and flow. Average daily traffic on the expressway reached 55,486 vehicles as of fiscal year 2018, a 3.4-fold increase from 1984 levels before the bridge's 1985 opening. The toll structure charges approximately ¥5,550 for standard cars traversing the full expressway route including the bridge (as of 2025), integrated into broader Seto Inland Sea toll systems; electronic toll collection (ETC) systems with dedicated tags streamline payments and provide discounts for regular commuters. Economically, the bridge bolsters freight movement from Shikoku's ports to Kansai industries, contributing to a 2.4-fold rise in cargo volumes from 1984 to 2017 and generating an annual impact of roughly 0.9 trillion JPY (approximately 9.7% of Shikoku's GDP) as of 2018 through enhanced trade and supply chains. It also drives tourism by easing access to Shikoku's attractions, amplifying visitor influx and related economic activity. Occasional disruptions from maintenance inspections or wind speeds over 50 km/h lead to targeted closures—primarily affecting motorcycles—with real-time notifications disseminated via the Honshu-Shikoku Bridge Expressway Company's online platforms.

Future Developments and Impact

The lower deck of the Ōnaruto Bridge was designed with space reserved for the integration of the Shikoku Shinkansen, a planned high-speed rail line that would extend service from Okayama on Honshu to various destinations in Shikoku, enhancing connectivity across the region. As of 2025, however, the project remains unfunded and in the planning phase, with local officials continuing to advocate for its realization, including a rally in Tokyo in August 2025, to address Shikoku's relative isolation from the national rail network. This reserved space, originally intended for dual railway tracks compatible with bullet trains, has instead been repurposed for other initiatives in the interim. A notable recent project involves the construction of a dedicated cycling road beneath the bridge deck, which began with a groundbreaking ceremony on July 22, 2024, utilizing the 1.6-kilometer span to promote eco-tourism. The path, featuring mesh fencing for unobstructed views of the Naruto Strait's whirlpools, is expected to open in fiscal 2027, fostering sustainable regional development by attracting cyclists and integrating with broader island-hopping routes in the Seto Inland Sea area. Environmental considerations for the bridge emphasize minimal disruption to the surrounding marine environment, achieved through its hypostyle truss design that permits tidal currents to flow freely underneath, thereby preserving the natural formation of the Naruto whirlpools. Ongoing assessments of the structure's impact on local ecosystems continue as part of standard maintenance protocols for the Honshu-Shikoku Bridge system, ensuring long-term sustainability amid increasing traffic and tourism demands. The bridge holds cultural significance as the believed real-world inspiration for the "Great Naruto Bridge" featured in the popular anime and manga series Naruto, where it symbolizes themes of connection and perseverance, drawing fans on pilgrimage tours that blend pop culture with the site's natural drama. This association has amplified tourism, turning the location into a vibrant hub for enthusiasts who engage with local amenities, thereby supporting ancillary economic activities in . Looking ahead, potential upgrades include the incorporation of smart sensors for real-time and structural monitoring, aligning with Japan's broader of IoT technologies in bridge to optimize and . Economically, the Ōnaruto Bridge contributes to regional growth as part of the Honshu-Shikoku system, with estimated annual benefits from reduced travel times and costs reaching approximately ¥ billion across , bolstering , , and overall in Shikoku.

References

  1. https://www.jb-honshi.co.jp/english/corp_index/technology/introduction/introduction_onaruto.html
  2. https://structurae.net/en/structures/ohnaruto-bridge
  3. https://www.uzunomichi.jp/lang_en/
  4. https://www.japan.travel/national-parks/parks/setonaikai/see-and-do/traverse-uzunomichi-walkway-onaruto-bridge/
  5. https://www.jb-honshi.co.jp/english/customer_index/guide/route-guide/use_a.html
  6. https://www.sakuranosho.jp/en/blog/detail.php?id=18
  7. http://www.bridgeofweek.com/2013/11/tokushima-prefecture-japan-bridges_17.html
  8. https://naruto-uzushio.jp/en/wp-content/uploads/2024/11/report_natural-aspects.pdf
  9. https://eprints.lib.hokudai.ac.jp/dspace/bitstream/2115/93884/1/Vortex_Pairs_in_Naruto_Strait_Nakamura_etal_2023J.Oceanogr.pdf
  10. https://agupubs.onlinelibrary.wiley.com/doi/full/10.1029/2008TC002349
  11. https://journals.sagepub.com/doi/10.3233/BRS-140077
  12. https://www.gov-online.go.jp/hlj/en/july_2025/july_2025-07.html
  13. https://www.bridgemeister.com/bridge.php?bid=480
  14. http://ams.ir/jozavat/Shegeftiha/Chapter2/20060303_3.pdf
  15. https://bestbridge.net/Asia_en/onaruto-bridge.phtml
  16. https://www.jb-honshi.co.jp/english/corp_index/company/enkaku/
  17. https://www.taylorfrancis.com/chapters/honshu-shikoku-road-rail-bridges-brendan-barrett-riki-therivel/10.4324/9780429199165-10
  18. https://dl.ndl.go.jp/view/prepareDownload?contentNo=24&itemId=info%253Andljp%252Fpid%252F11032211
  19. https://www.jb-honshi.co.jp/english/corp_index/company/info/
  20. https://www.nishimatsu.co.jp/solution/report/pdf/vol5/g005_13.pdf
  21. https://www.jb-honshi.co.jp/english/corp_index/technology/construction/construction_technology.html
  22. https://www.kawada.co.jp/technology/gihou/pdf/vol03/03_topic02.pdf
  23. https://www.mlit.go.jp/tagengo-db/common/001562983.pdf
  24. https://www.japan-guide.com/e/e7852.html
  25. https://www.uzusio.com/en/know/
  26. https://www.japan.travel/en/spot/847/
  27. https://deepjapan.org/naruto-whirlpools-japan-mightiest-sea-vortex/
  28. https://discovertokushima.net/en/topics/whirlpools-in-naruto/
  29. https://staff.civil.uq.edu.au/h.chanson/whirlpl.html
  30. http://naruto-uzushio.jp/wp-content/uploads/2017/04/4-5-%25E8%25A5%25BF%25E6%25B4%258B%25E4%25BA%25BA%25E3%2581%25AE%25E7%259B%25AE%25E3%2581%258B%25E3%2582%2589%25E3%2581%25BF%25E3%2581%259F%25E3%2580%258C%25E9%25B3%25B4%25E9%2596%2580%25E3%2581%25AE%25E6%25B8%25A6%25E6%25BD%25AE%25E3%2580%258D%25EF%25BC%2588%25E8%258B%25B1%25E6%2596%2587%25EF%25BC%2589.pdf
  31. https://www.pref.tokushima.lg.jp/sp/en/japanese/tourism/spot/uzunomichi/
  32. https://www.japan-travel-note.com/posts/566
  33. https://japantravel.navitime.com/en/area/jp/spot/02301-1300405/
  34. https://www.iwafu.com/en/events/1017494
  35. https://www.jb-honshi.co.jp/english/customer_index/kanko_event/lightup/
  36. https://en.driveplaza.com/dp/SearchQuickEN?startPlaceKana=NARUTO&arrivePlaceKana=SHIN-KOBE%2520STA
  37. https://japantravel.navitime.com/en/area/jp/spot/02301-2800028/
  38. https://www.japan-guide.com/e/e7851.html
  39. https://www.uzusio.com/en/
  40. https://www.gltjp.com/en/directory/item/12374/
  41. https://matcha-jp.com/en/place-master/15459
  42. https://www.japan.travel/en/spot/844/
  43. https://en.awajishima-resort.com/memorable-hikes-on-awaji-island/
  44. https://www.gltjp.com/en/directory/item/12339/
  45. https://travel.gaijinpot.com/nijigen-no-mori-awaji-island-anime-park/
  46. https://www.uzusio.com/en/siomi/
  47. https://www.jb-honshi.co.jp/english/corp_index/company/seibi/pdf/seibi.pdf
  48. https://www.jb-honshi.co.jp/english/customer_index/traffic/tsukodome/
  49. https://www.ntv.co.jp/englishnews/articles/2021lfxst3bk56gtw8jv.html
  50. https://japannews.yomiuri.co.jp/features/japan-focus/20240810-203913/
  51. https://niche-japan.com/content/2789/
  52. https://www.mlit.go.jp/road/road_e/p1_its.html
Add your contribution
Related Hubs
User Avatar
No comments yet.