Fact-checked by Grok 2 weeks ago

Japan Standard Time

Japan Standard Time (JST) is the uniform time zone observed across all of Japan, defined legally as the mean solar time at the 135th meridian east longitude, equivalent to nine hours ahead of Coordinated Universal Time (UTC+09:00). Japan maintains a single national time zone despite its archipelago spanning approximately 25 degrees of longitude from east to west, prioritizing administrative unity over local solar alignment in peripheral regions. The system does not incorporate daylight saving time, a policy in place since the discontinuation of temporary wartime and post-war adjustments in 1951. Established during the to modernize and synchronize the nation amid rapid industrialization and railway expansion, JST was formalized by Imperial Ordinance No. 167 on December 27, 1895, replacing disparate local solar times with a centralized standard based on the meridian passing through Akashi in . This meridian, exactly at 135° E, serves as the reference for atomic timekeeping maintained by the National Institute of Information and Communications Technology (NICT), ensuring precise dissemination via radio signals and networks. The adoption reflected Japan's broader emulation of Western temporal standardization, facilitating international and without the complexities of multiple zones. While proposals for have periodically resurfaced—often tied to or economic alignment with global markets—public and political resistance, citing disruptions to , , and daily routines, has consistently prevailed. JST's fixed offset underscores Japan's emphasis on stability in temporal governance, with the Akashi commemorated locally through monuments and observatories symbolizing its enduring role in national chronology.

Definition and Technical Specifications

UTC Offset and Time Zone Designation

Japan Standard Time (JST) maintains a fixed offset of nine hours ahead of Coordinated Universal Time, denoted as UTC+09:00. This offset is legally defined in Japan as the local mean solar time at the 135th meridian east longitude, which equates to UTC+9 given the 15-degree-per-hour standard for time zones. The designation "JST" serves as the official abbreviation for this time zone, uniformly applied across Japan's mainland islands (Honshu, Hokkaido, Kyushu, and Shikoku) and associated territories without variation. In international standards, JST aligns with the (IANA) time zone database identifier Asia/, which encapsulates the historical and current rules for Japan's single nationwide time zone since its standardization. This mapping ensures consistent representation in computing systems, , and global synchronization protocols, reflecting Japan's adherence to a singular without sub-zonal deviations. The offset has remained unchanged since its formal adoption, providing a stable reference for civil, commercial, and scientific activities.

Absence of Daylight Saving Time

Japan observes Japan Standard Time (UTC+9) year-round without implementing , a in place since the abolition of DST on , 1952, through the enactment of the to Abolish the . This followed a brief period of DST observance from 1948 to during the Allied occupation, when clocks were advanced by one hour from May to annually, but the measure faced widespread resistance due to its disruption of established routines. A 1951 survey indicated strong public opposition, with over 70% of respondents against continuation, citing inconveniences such as earlier wake times conflicting with natural light patterns and agricultural schedules. The rejection of DST stems from practical considerations rooted in Japan's geography and societal structure. Positioned at approximately 135° east , the nation's single aligns closely with solar noon around midday in major cities, minimizing the perceived benefits of seasonal adjustments while amplifying drawbacks like prolonged morning darkness during summer, which affects schoolchildren and early-shift workers. Agricultural practices, particularly farming in rural areas, rely on dawn-to-dusk labor cycles that DST would desynchronize, as farmers opposed the policy historically for forcing unnatural early starts before sufficient light. Energy savings, a common rationale elsewhere, have not proven compelling in ; empirical analyses, including those referenced in policy debates, show negligible reductions in electricity use, often offset by increased demands in evenings. Subsequent proposals to reintroduce DST have consistently failed due to persistent public and institutional reluctance. In , 2020 Olympics organizing committee president advocated DST to shift evening events later for cooler temperatures amid summer heat, potentially advancing clocks from July to September, but the idea was abandoned following opposition from the Science Council of Japan and logistical concerns over system updates. The Olympics proceeded without it in 2021. More recently, in September 2025, commentators suggested DST to stimulate evening economic activity and address stagnation, yet no legislative action ensued, reflecting inertia from post-1952 precedents and a preference for temporal stability in a highly synchronized society. This consistent absence prioritizes uniformity across Japan's over adaptive shifts observed in many peer nations.

Precision and Synchronization Standards

The precision of Japan Standard Time (JST) is realized through UTC(NICT), the atomic time scale maintained by Japan's Institute of Information and Communications Technology (NICT), offset by nine hours from (UTC). NICT employs an ensemble of atomic clocks, including cesium fountain standards and hydrogen masers, to generate UTC(NICT) with fractional frequency instabilities on the order of 10^{-15} over averaging times of one day. Since June 2022, NICT has incorporated a optical lattice clock—the world's first used to directly reference a standard time—enhancing short-term stability to within 5 × 10^{-9} seconds relative to UTC over operational periods. This optical clock measures deviations in the existing JST system with precision up to 16 decimal digits, surpassing traditional cesium-based standards in relative accuracy. Synchronization of UTC(NICT) to international UTC occurs via multiple satellite-based techniques, including GPS carrier-phase measurements and two-way satellite (TWSTFT), which enable routine comparisons with other primary time centers like those and . These methods achieve time transfer accuracies of 0.2 picoseconds in 100-millisecond gate times within NICT's upgraded JST system, operational since around , allowing UTC(NICT) – UTC differences to remain below 10 nanoseconds on average. Long-term stability comparisons, such as those with the U.S. Naval Observatory, demonstrate fractional frequency accuracies of 5 × 10^{-14} to 3 × 10^{-13} over one year using low-frequency radio links and portable clocks. For public synchronization, NICT disseminates JST primarily through the low-frequency radio signals transmitted from stations in (40 kHz) and (60 kHz), encoding UTC(NICT)-derived time codes in format. These signals provide a carrier frequency traceable to UTC(NICT) with inherent stability, enabling receivers to achieve synchronization uncertainties of 1 × 10^{-11} (equivalent to 1 second in 3,000 years) when integrated over 24 hours, limited mainly by effects rather than source precision. Complementary internet-based uses (NTP) servers operated by NICT, distributing time traceable to JST with stratum-1 accuracy for networked devices. NICT's role as the National Time Authority ensures these standards align with legal definitions under Japan's framework, prioritizing empirical over legacy astronomical observations.

Historical Evolution

Origins in Traditional Japanese Timekeeping

Traditional Japanese timekeeping relied on a seasonal system that divided the day into variable-length periods aligned with natural daylight cycles, predating the adoption of fixed-hour standards. This approach, known as the seasonal time system or futeijikan, persisted until the early Meiji era, reflecting an emphasis on solar observation rather than uniform mechanical division. Under this system, the day was bifurcated into daytime—from sunrise to sunset—and nighttime—from sunset to sunrise—each subdivided into six temporal hours, or ittoki, resulting in 12 hours total per day. The duration of each ittoki fluctuated with the seasons: daytime hours extended up to approximately 120 modern minutes in summer and contracted to about 40 minutes in winter, while nighttime hours reversed this pattern. Hours were denoted by the traditional sexagenary cycle, beginning with the hour (ne no ) around midnight and progressing through , , and so on, though their start times shifted seasonally. Early methods included water clocks (rokoku), documented in Japan from the mid-7th century, which measured time via dripping water but required seasonal recalibration for unequal hours. Mechanical clocks, introduced via European contact in the 16th century, were adapted into wadokei during the (1603–1868); the first recorded presentation was a spring-driven clock gifted to warlord by Jesuit missionary in 1569, though initial imports served more as novelties than practical tools due to incompatibility with variable hours. Japanese artisans innovated by incorporating adjustable mechanisms, such as sliding weights on a foliot or interchangeable plates, to accommodate the shifting lengths; the oldest surviving example, from 1612, was presented to and is preserved at Kunōzan Tōshō-gū shrine. Time was primarily disseminated communally through audible signals rather than personal devices, with temple bells (kanegane), castle bells, and town bells struck at irregular intervals to mark the ittoki. In (modern ), nine key sites, including and , coordinated strikes with preliminary chimes (sutegane) for accuracy, enforcing curfews and schedules for merchants and farmers. This localized, solar-based reckoning varied by across Japan's , lacking national synchronization and tying daily rhythms to observable celestial events rather than abstract uniformity.

Adoption of Modern Standard Time

Prior to the adoption of modern , Japan relied on local , where noon was determined by the sun's culmination at each locality, leading to discrepancies of up to 20 minutes between eastern and western regions. This system, inherited from traditional practices, became impractical with the expansion of railroads—Japan's first line opened in between and —and telegraph networks, which necessitated synchronized scheduling for safety and efficiency. The government's broader modernization efforts, including the transition to fixed 24-hour days and the , laid the groundwork by replacing variable seasonal hours with equal divisions, but nationwide uniformity remained elusive until railway expansion highlighted the risks of desynchronized timekeeping. In response to these pressures and influenced by the 1884 , which established as the and promoted 15-degree intervals, formalized through Ordinance No. 51 in 1888. This ordinance designated the 135th east longitude—passing near Akashi in —as the national standard , effectively unifying the country under a single offset by nine hours ahead of . The change took effect on January 1, 1888, replacing local mean times with Japan Standard Time (JST) across all regions, a decision ratified in law to align with global navigation and communication standards. The adoption streamlined operations for emerging industries, postal services, and international commerce, reducing errors in train timetables and enabling precise coordination over long distances spanning Japan's archipelago. Initially applied uniformly without sub-zones, this system reflected Japan's strategic choice of 135° E to center on its population and economic hubs, rather than strictly adhering to solar alignment at the extremes, prioritizing practical national cohesion over perfect astronomical fidelity. By the late , minor adjustments considered multiple zones for peripheral areas, but the framework endured as the foundation of JST, legally codified as the local time at the 135th .

Time Zones During the Japanese Empire

The Japanese Empire, from its formal inception with the acquisition of Taiwan in 1895 through its dissolution in 1945, progressively standardized time across its expanding territories using Japan Standard Time (JST, UTC+09:00), centered on the 135th eastern meridian, to enhance coordination in governance, railways, telegraphs, and later military campaigns. This policy reflected broader Meiji-era modernization efforts, where time unification supported imperial administration over geographically diverse regions spanning East Asia and the Pacific. In core Japanese territories, including the home islands, , and southern (Karafuto), JST was uniformly applied following its legal establishment in the . Colonial possessions followed suit: , ceded to Japan in 1895, initially operated under Western Standard Time (, based on the 120th meridian) to align with local solar time, but transitioned to JST on , 1937, to synchronize with the metropole amid escalating militarization. , annexed in 1910, had its time zone shifted from UTC+08:30 to JST in 1912, aligning colonial clocks with for administrative efficiency. Further expansion into after the 1931 invasion and occupied zones in during the Second saw JST imposed in Japanese-controlled areas, overriding local standards to facilitate resource extraction and troop movements. The , encompassing Pacific islands like the Marianas and Carolines acquired post-World War I, generally adhered to JST despite longitudinal variances, though remote outposts occasionally retained approximations for practical reasons. World War II marked the peak of temporal unification, as occupied vast Southeast Asian territories—including , , the , and the —and enforced JST across them from 1941 onward to streamline logistics and propaganda broadcasts from . This wartime policy disregarded geographical solar alignment, prioritizing imperial cohesion; post-liberation, affected regions reverted to pre-occupation zones, such as for and the . Such impositions underscored time as a tool of control, with synchronization aiding wartime rail and air operations but contributing to disruptions in civilian routines due to mismatched daylight.

Implementation and Infrastructure

IANA Time Zone Database Mapping

In the IANA Time Zone Database (), Japan Standard Time is mapped to the canonical identifier Asia/, which serves as the representative location for the entire and associated territories using this time zone. This identifier denotes a fixed of +09:00 hours, with no rules or historical transitions for , aligning with Japan's policy of year-round since its nationwide adoption. The database's zone.tab file associates Asia/ with geographic coordinates approximately at 35°41′N 139°46′E, corresponding to central , to facilitate location-based queries in software implementations. The tz database structure for Asia/Tokyo includes compiled rules from the 'asia' source file, specifying the offset as effective from January 1, 1888, onward, without abbreviations like "JST" encoded as variable (they are handled by user-space applications). No backward zones or links (e.g., to "Japan" or "Etc/GMT-9") are defined for this identifier in the canonical distribution, ensuring consistency across systems like , OSes, and programming libraries that rely on tzdata for datetime computations. This mapping supports Japan's unified temporal infrastructure, where all prefectures and islands, from to Okinawa, reference the same offset despite spanning roughly 9 degrees of east-west. Updates to the , released periodically by IANA coordinators, have not altered the core Asia/Tokyo definition for since the , as the absence of DST eliminates the need for rule revisions common in other zones. Developers and systems administrators must use the latest tzdata version (e.g., 2024a as of mid-2024) to ensure compatibility, though Japan's static profile minimizes discrepancies from outdated installations. Cross-mapping to Windows time zones, such as "Tokyo Standard Time," is handled separately via supplementary tables, but IANA remains the authoritative standard.

National Timekeeping Services and Signals

The National Institute of Information and Communications Technology (NICT) serves as the primary authority for generating and disseminating Japan Standard Time (JST), utilizing an ensemble of cesium atomic clocks and hydrogen masers to maintain , which is then offset by +9 hours to produce JST with traceability to (UTC) within 1 . NICT conducts daily comparisons of its with international standards via GPS common-view and two-way satellite methods to ensure high precision and contribute to UTC calculations. The cornerstone of national time signal dissemination is the standard radio signal system, operated by NICT through two low-frequency transmitters: the Otakadoyayama in broadcasting at 40 kHz with 50 kW power, and the Hagane-yama in at 60 kHz with 80 kW power. These signals encode time-of-year information, minute markers, and day-of-week data in a pulse-width modulated format, enabling radio-controlled clocks across to synchronize automatically with an accuracy of tens of microseconds, covering most of the country's territory despite seasonal propagation variations. transmissions began in their modern form following the establishment of Japan's first standard signal , with continuous operation supporting applications from consumer timepieces to scientific instrumentation. Supplementary dissemination includes (NTP) servers hosted by NICT, providing JST synchronization over the internet for computing systems, and the former Telephone JJY service, which delivered audible time announcements until its discontinuation on March 31, 2024, after replacement by the fiber-optic-based Hikari Telephone JJY for enhanced reliability. Additionally, NICT collaborates on the (QZSS), which augments GPS with timing signals for positioning, navigation, and time transfer, offering sub-microsecond accuracy in urban environments through geostationary and quasi-zenith orbits. These services collectively ensure robust, redundant national timekeeping infrastructure aligned with JST.

Current Usage and Geographical Scope

Application Across Japanese Territories

Japan Standard Time (JST, UTC+09:00) is uniformly applied across all Japanese territories, including the four main islands—, , , and (encompassing the ), and outlying archipelagos such as the Ogasawara Islands (part of Metropolis) and isolated atolls like Minami Torishima (Marcus Island). This single-zone policy, established since the adoption of modern standard time in 1888 and refined under the 1895 Imperial Ordinance, ensures consistent civil timekeeping from the northern (under Japanese administration claims) to the southernmost Island at approximately 122.9°E longitude. No legal or practical deviations exist for remote or peripheral areas, even those spanning over 30 degrees of longitude, which would theoretically warrant multiple zones under solar alignment principles. The application extends to sparsely populated or intermittently manned outposts, such as weather and meteorological stations on Minami Torishima (153.98°E), where operations synchronize with mainland clocks for data transmission and logistics. Similarly, the Ogasawara Islands, located about 1,000 km south of and featuring limited civilian access via weekly ferries, maintain JST for all administrative, tourism, and research activities, aligning with national broadcasting schedules and flight operations. In Hokkaido's eastern extremities and Okinawa's western edges, local solar noon deviates by up to two hours from clock noon—earlier in the east and later in the west—but civil adherence to JST prevails without adjustments, supporting unified railway timetables, stock exchanges, and emergency services nationwide. This territorial uniformity stems from Japan's centralized governance and emphasis on national cohesion, predating post-World War II territorial contractions but persisting amid disputes over the Northern Territories (Senakaku Islands). Practical implementation relies on radio time signals from stations like those in and Prefectures, receivable across the , ensuring atomic-clock precision for even isolated facilities. Exceptions are rare and temporary, limited to international vessels or bases under Japanese expeditions, which revert to JST upon return or communication with homeland.

Alignment with Solar Time and Daily Routines

Japan Standard Time (JST) is calibrated to the mean at the 135° east meridian, which approximates the longitudinal center of the country's main islands. This meridian lies near Akashi in , facilitating alignment for central regions. However, Japan's archipelago spans from 122°56' E in to 153°59' E in Minami-Tori-shima, encompassing over 31° of longitude and potential solar time discrepancies of up to 124 minutes at territorial extremes. For populated areas, the east-west solar variation is about 86 minutes, with the sun rising and setting later in western locations relative to JST. In eastern regions such as (approximately 139.7° E), local mean solar time advances JST by roughly 20 minutes, causing solar noon to occur around 11:40 AM clock time and contributing to earlier sunrises and sunsets. Conversely, in western areas like Okinawa (around 128° E), JST precedes local solar time by about 30 minutes, delaying solar events. These offsets mean that without , winter sunsets in Tokyo reach as early as 4:30 PM, limiting post-work daylight, while summer sunrises occur before 4:45 AM, extending morning light but potentially misaligning with standard sleep cycles. The uniform application of JST supports synchronized national routines, including standardized from 9:00 AM to 5:00 PM and schedules starting around 8:00-8:30 AM across regions. This consistency aids transportation networks, with urban trains often beginning service by 5:00 AM to accommodate early commuters, though regional disparities influence local adaptations such as demands in western prefectures during morning commutes and savings from early evening darkness in the east during winter. Population concentration in eastern , where alignment is closer, minimizes widespread disruption to productivity-oriented daily patterns.

Debates, Proposals, and Potential Reforms

Historical and Recent Daylight Saving Time Trials

Japan implemented (DST) from 1948 to 1951 under the Allied following , advancing clocks by one hour from the first Saturday in May until the second Saturday in September each year. This policy was imposed by U.S. authorities to align with American practices and promote amid postwar reconstruction challenges. The measure faced significant domestic opposition due to disruptions in transportation schedules, agricultural routines, and public inconvenience, particularly in rural areas where solar alignment with work hours was prioritized. DST was discontinued on April 1, 1952, shortly after the ended, as authorities regained control and prioritized national consensus against the practice. Subsequent proposals in 1973 and 1980, aimed at energy savings during oil crises, were rejected after parliamentary reviews cited minimal benefits and logistical burdens outweighing potential gains. In recent decades, DST has been debated primarily for economic and health reasons, though no implementations have occurred. A 1999 initiative linked DST to boosting evening consumer activity and productivity, but it failed to advance due to public resistance. For the 2020 , organizers proposed temporary DST starting in 2019 to shift events to cooler evening hours amid extreme summer heat, potentially advancing clocks by one or two hours from late spring. This faced criticism for disrupting daily life, increasing adaptation stress, and offering negligible heat mitigation compared to alternatives like adjusted event scheduling. Public polls showed over 60% opposition, leading the government to abandon the plan in September 2018, opting instead for non-temporal measures such as shaded venues and hydration protocols. As of 2025, isolated corporate experiments, such as in-house DST at retailers like for employee shift adjustments, persist without national adoption, reflecting ongoing skepticism toward systemic clock changes. Proponents argue DST could enhance productivity by extending evening daylight for leisure and work, yet empirical data from the 1948–1951 period indicated no substantial energy savings and heightened administrative costs.

Proposals for Permanent Time Zone Adjustments

In May 2013, Naoki Inose, then , proposed permanently advancing Japan's by two hours from UTC+9 to UTC+11 to improve synchronization with global financial markets. The rationale centered on aligning Tokyo's standard 9:00 a.m. business opening with the evening trading hours in (around 8:00 p.m. ET) and , thereby enhancing economic competitiveness and reducing the effective time lag in international transactions. This shift would effectively function as a permanent double daylight saving adjustment, prioritizing over strict solar alignment, given Japan's position near the 135th meridian east where UTC+9 already matches central longitudes reasonably well. The proposal drew mixed responses, with supporters highlighting potential gains in productivity and , while critics noted risks of further desynchronizing clock time from cycles, such as shifting summer sunrises from approximately 4:30 a.m. to 2:30 a.m. on the new clock. Inose's idea echoed earlier debates on time but failed to advance legislatively, as the Japanese government cited insufficient and logistical challenges in nationwide . No formal trials or policy shifts followed, preserving JST as the sole national standard. A 2023 analysis proposed a more modest one-hour permanent forward shift to UTC+10, arguing it would address Japan's "excessively early" summer sunrises—often before 5:00 a.m.—by extending evening daylight without seasonal disruptions. This adjustment, equivalent to year-round single daylight saving, could support later work endings and leisure activities aligned with circadian preferences, potentially reducing reliance on artificial lighting and improving in a high-consumption . The suggestion positioned the change as a pragmatic to reintroducing biannual clock shifts, which Japan abandoned in due to public opposition and administrative burdens. As of 2025, discussions on permanent reforms persist amid economic pressures, with advocates linking time adjustments to gains by better matching clock hours to active daylight periods. Proposals emphasize empirical benefits like extended evening usability in urban areas, where solar noon in occurs around 11:45 a.m. under current JST, but face entrenched resistance rooted in historical uniformity and concerns over health effects from chronic phase advances relative to . No legislative action has materialized, reflecting Japan's preference for stability in timekeeping since the 1888 adoption of a single national zone.

Economic, Health, and Productivity Considerations

Japan's adoption of a single time zone spanning approximately 1,900 kilometers east-west, resulting in an 86-minute solar time differential between extremities, supports by enabling synchronized national operations in , , and without the frictions of multiple zones. This uniformity minimizes coordination costs across regions, facilitating seamless integration and reducing delays in inter-prefectural commerce, as evidenced by the country's centralized economic model reliant on just-in-time production systems. The absence of further enhances predictability for , aligning Tokyo's financial markets advantageously with Asian counterparts and avoiding volatility from clock shifts, which general studies link to temporary dips in stock returns and heightened market uncertainty. Health considerations arise from JST's fixed UTC+9 alignment, which deviates from local —particularly in eastern regions where clock time advances relative to the sun by up to 40 minutes—potentially disrupting circadian entrainment and onset. Research on time zone positions indicates that such eastern-edge exposures correlate with elevated cancer risks, attributed to mismatched light-dark cycles delaying biological night and suppressing , a with oncostatic properties. Conversely, forgoing DST averts acute perturbations from spring-forward shifts, which epidemiological data associate with a 6-24% spike in myocardial infarctions in the week following changes due to deprivation and stress. Japan's regional pattern variations, with metropolitan areas showing compressed rest durations amid social pressures, underscore how fixed clock-social schedules may compound these effects without solar adjustments. Productivity analyses reveal that JST's standardization bolsters operational consistency, yet Japan's labor output lags peers at around 70% of the average, partly tied to chronic sleep shortfalls averaging 6.3 hours nightly rather than time zone mechanics alone. Instrumental variable studies of Japanese males demonstrate a causal link between additional and heightened next-day , suggesting that solar mismatches exacerbating fatigue—such as early summer sunrises prompting premature awakenings—could indirectly hinder cognitive performance and error rates in knowledge work. While unified timing aids remote and synchronization domestically, avoiding the 11% communication drop per hour of misalignment seen in cross-zone teams, entrenched long-hour cultures amplify any circadian drags, with reforms targeting rest over time tweaks yielding more direct gains.

References

  1. [1]
    Japan Standard Time | National Institute of Information and ... - NICT
    Japan Standard Time (JST) is the local time at the 135th eastern meridian, 9 hours ahead of Greenwich Mean Time, generated by NICT using atomic clocks.
  2. [2]
    Daylight Saving Time 2025 in Japan - DST Changes
    Daylight Saving Time (DST) Not Observed in Year 2025. Japan currently observes Japan Standard Time (JST) all year. DST is no longer in use.
  3. [3]
    File:Imperial Ordinance 167 issued on December 27, Meiji 28 (1895 ...
    Dec 27, 2024 · An Imperial Ordinance issued in Japan on December 27, 1895 (Meiji 28) stating the adoption of a standard time for all of Japan. Transcription.
  4. [4]
    Japan Standard Time
    The Akashi municipal planetarium built in 1960 is located at the passage point of 135° east longitude. Japan Standard Time is nine hours ahead of Greenwich ...Missing: 135th | Show results with:135th
  5. [5]
    Japan Standard Time – JST Time Zone - Time and Date
    Japan Standard Time (JST) is 9 hours ahead of UTC, used in Asia, specifically in Japan, and is UTC+9.
  6. [6]
    Time Zones in Japan - Time and Date
    Current Time. UTC +9, JST, Japan Standard Time, Tokyo, Sat, 10:53:48 am. Japan observes Japan Standard Time all year. There are no Daylight Saving Time clock ...
  7. [7]
    Japan's Fleeting Encounter with Daylight Saving Time - LinkedIn
    Apr 11, 2024 · Japan embarked on a unique temporal experiment, adopting Daylight Saving Time (DST) under the influence and direction of the Allied occupation.
  8. [8]
    Thousands in Japan Adopt “Daylight Saving” Plan - Time and Date
    Sep 3, 2008 · From 1948 to 1951, Japan observed daylight saving time between April/May and September every year. However, it proved to be unpopular as many ...
  9. [9]
    Why Japan doesn't have Daylight Savings Time
    Apr 18, 2006 · According to Japan scholar John Dower, daylight savings time was opposed on the grounds that it simply extended the difficulty of “daily” life.
  10. [10]
    Does Japan Have Daylight Saving Time? Exploring the Facts
    Mar 10, 2025 · When World War II and the American occupation was over in 1952, DST was scrapped, and it has never returned to Japan. Rice Cultivation in Japan.
  11. [11]
    Why doesn't Japan move time to be an hour later or have DST - Reddit
    Jun 3, 2024 · It's mostly due to history and inertia. Japan used to have two time zones and did observe DST under the US occupation, though some have called ...PSA: Japan does not observe daylight savings so daily reset times ...Why doesn't Japan adopt permanent DST? - RedditMore results from www.reddit.com
  12. [12]
    Should Japan introduce daylight savings time?
    Nov 2, 2018 · Japan's 2020 Olympics President Yoshiro Mori has suggested adopting Daylight Saving Time to allow athletes at the games to compete in cooler ...<|control11|><|separator|>
  13. [13]
    Should Japan adopt daylight saving time? - The Japan Times
    Nov 1, 2018 · One such person was Tokyo 2020 Olympics President Yoshiro Mori, who proposed a solution: adopt daylight saving time (DST) so that events ...
  14. [14]
    Daylight savings promoted as a possible fix to Japan's stagnated ...
    Sep 25, 2025 · The clock in Japan is skewed so that sunrise is too early compared to the working day. This is a boon to early birds, esp. joggers etc., but a ...
  15. [15]
    [PDF] Report of Time and Frequency Activities at NICT - BIPM
    NICT is conducting a precise time and frequency transfer experiment between a ground-reference clock and an atomic clock on the satellite ETS-8 (Engineering ...
  16. [16]
    The World's First Use of an Optical Lattice Clock to Keep National ...
    Jun 20, 2022 · Since 2006, Japan Standard Time (JST) has been generated by a combination of hydrogen maser clocks and an ensemble of usually 18 commercial ...
  17. [17]
    NICT achieves a world first ― Optical lattice clock referenced to ...
    Jul 13, 2022 · However, NICT's strontium optical lattice clock can accurately measure the degree to which the Japanese standard time is incorrect by 16 digits ...
  18. [18]
    The New Generation System of Japan Standard Time at NICT
    The time difference of UTC(NICT) relative to other UTC(k) is routinely measured by satellite-based precision time and frequency transfer methods 1 . ...
  19. [19]
    [PDF] NEW GENERATION SYSTEM OF JAPAN STANDARD TIME AT NICT
    The measurement precision in 100 ms gate time is 0.2ps. In the previous. JST system, several inputs were switched and serially measured, so the data were not ...Missing: standards | Show results with:standards
  20. [20]
    Japan Standard Time - history | National Institute of Information and ...
    The standard radio wave broadcast is resumed for frequencies of 4 MHz and now 8 MHz from the Kemigawa facility established before the war. 05/12/1946 (Showa 21) ...
  21. [21]
    JJY - Standard Radio Signals | National Institute of Information and ...
    This allows signals to be received with an uncertainty of 1×10–11 when measured over 24 hours. That is only 1 part in 100,000,000,000. The standard radio ...
  22. [22]
    Space-Time Synchronization - Time Distribution - NICT
    NICT supplies business time information traceable to Japan Standard Time. Network Time Protocol (NTP). Public time synchronization for internet-connected ...Space-Time Synchronization... · Business Tasks Of The... · Research Tasks Of The...
  23. [23]
    [PDF] Japan Standard Time Group - NICT
    The NICT, as the National Time Authority (NTA), provides JST to the Time Assessment Authority (TAA) by publishing the measurement data on the Internet using a ...
  24. [24]
    What is a Traditional Japanese Clock (Wadokei)?
    The “seasonal time system” used in Japan until the early Meiji period (1868 - 1912) divided one day into day and night and then partitioned each into six parts.
  25. [25]
    A Tale of Two Times: Edo Japan Encounters the European Clock
    Sep 22, 2022 · In Japan's traditional timekeeping system, the day was divided into nighttime and daytime portions, which were each subdivided into six ...Missing: Restoration | Show results with:Restoration
  26. [26]
    Life and Time in the Edo period | THE SEIKO MUSEUM GINZA
    The time system in the Edo period was the seasonal time system. The seasonal time system divided a day into day and night based on dawn and dusk and further ...
  27. [27]
    What Time Is It in Japan? Japan Time Zones & Global Differences
    Apr 25, 2025 · The short answer is no. Japan does not currently observe Daylight Saving Time (DST). However, there was a brief period when DST was implemented ...
  28. [28]
    Daylight Saving Time Changes 1888 in Tokyo, Japan - Time and Date
    Jan 1, 1888 - Time Zone Change (LMT → JST)​​ Sunday, January 1, 1888, 12:00:00 midnight local standard time instead.Missing: ordinance | Show results with:ordinance
  29. [29]
    [PDF] Time, the Calendar, and Centralized Power in Japan
    Mar 31, 2022 · Abstract. When, why, how, and by whom was “time” combined with “law” in Japan? This paper scrutinizes the issue.
  30. [30]
    North Korea to change time zone by half hour - NK News
    Aug 7, 2015 · Japan annexed Korea in 1910 and in 1912 the Japanese changed Korea's time zone to GMT+9 to match that of Japan. ... time during the days ...<|separator|>
  31. [31]
    History of Time Zones in China - Chinese Language Institute
    Oct 29, 2024 · The Japanese Empire was hungry to incorporate China, along with much ... Japan instituted a uniform time zone over the entirety of their territory ...<|separator|>
  32. [32]
    Time Zone Database
    The Time Zone Database contains code and data representing the history of local time for many locations globally, updated periodically.IETF Statistics Reporting · Info | tz-announce@iana.org · Tz
  33. [33]
    [PDF] 2-8 Generation, Comparison, and Dissemination of the National ...
    The regular operation of the Japan Standard Time requires a series of operations such as the generation, comparison and dissemination of standard time and ...
  34. [34]
    The specification of standard-time and frequency-signal emission
    Time code just as time information is transmitted by Low Frequency band JJY. The JST (NICT) signal is always kept highly precision than national standard.
  35. [35]
    Standard Signal Transmitting Station in Japan, 1940 - IEEE Milestones
    Sep 1, 2025 · The establishment of JJY in 1940 [1–3]—Japan's first standard time and frequency signal station and the world's second after WWV (USA, 1933) [6] ...
  36. [36]
    Japan Standard Time (JST) Group - NICT
    The Time Dissemination by Telephone (TEL-JJY) ended on March 31, 2024. (2024/4/1) · "Telephone JJY" will be completely replaced with "Hikari Telephone JJY" on ...
  37. [37]
    Satellite Positioning, Navigation and Timing Service (PNT)
    By sending signals from Quasi-Zenith Satellites (QZS) of the same frequency and same timing as GPS, this service can be used in an integrated way with GPS ...
  38. [38]
    Current Local Time in Marcus Island, Japan
    Current Local Time in Marcus Island, Japan ; Time Zone. JST (Japan Standard Time) UTC/GMT +9 hours ; No DST. No Daylight Saving Time in 2025 ; Difference. 14 hours ...
  39. [39]
    Current Local Time in Ogasawara, Tokyo, Japan - General Blue
    Key Information About Ogasawara ; Time Zone: Japan Standard Time ; Current UTC Offset: UTC +09 ; Country ISO 2: JP ; Country ISO 3: JPN ; Population: 0.
  40. [40]
    Current local time in Minamitorishima, Japan - WorldTimeServer.com
    Current local time and date in Minamitorishima, Japan from a trusted independent resource.
  41. [41]
    Information about the Japanese Territory
    Japan's easternmost point is Minami-Tori Shima Island (153°59'12" east longitude), its westernmost point is Yonagunijima Island (122°55'57" east longitude), its ...
  42. [42]
    The time zone JST in Japan - Worlddata.info
    Throughout Japan, there's only one single time zone: Japan Standard Time (JST) with UTC+9. There has been no daylight saving time since 1951.
  43. [43]
    Time of Sunrise, Sunset and Temperatures in Japan | December
    The information on average time of sunrise / sunset and temperatures in cities of Japan. ... Tokyo in December. Dec 01 - 15 | Sunrise : 6:37 / Sunset : 16:28
  44. [44]
    Average Time of Sunrise/Sunset and Temperatures in Japan | July
    The sunrise/sunset time varies every year and the average temperatures may vary depending on weather conditions.
  45. [45]
    Daylight Saving Time 1948 in Japan
    Daylight Saving Time History in Japan · Japan last observed Daylight Saving Time in 1951. · Japan has observed DST for 4 years between 1948 and 1951. · See ...
  46. [46]
    Should Japan adopt daylight saving time in summer?
    Apr 23, 2016 · Daylight saving time is not completely new to Japan. The country adopted it over four summers between 1948 and 1951 during the Allied Occupation ...
  47. [47]
    Daylight Saving Time 1952 in Japan
    Japan last observed Daylight Saving Time in 1951. · Japan has observed DST for 4 years between 1948 and 1951. · See Worldwide DST Statistics.Missing: trials | Show results with:trials
  48. [48]
    Japan considers Daylight Savings Time for first time since U.S. ... - UPI
    Apr 24, 1995 · On two occassions after the 1948-51 period, Japan considered returning to DST -- in 1973 and in 1980 for energy-saving reasons -- but decided ...<|separator|>
  49. [49]
    JAPAN LOOKS TO DAYLIGHT TIME TO BRIGHTEN ITS ECONOMY ...
    Feb 22, 1999 · In 1948, at the urging of American occupiers here after World War II, the daylight saving system was tried in Japan.Missing: trials | Show results with:trials
  50. [50]
    Japan mulls daylight savings proposal for 2020 Olympics: report
    Aug 5, 2018 · Enduring a deadly heatwave this summer, Japan is considering adopting daylight saving time from next year, so that the 2020 Tokyo Olympic ...Missing: 2020s | Show results with:2020s
  51. [51]
    Daylight saving time causes more trouble than benefits, say critics
    Aug 12, 2018 · Critics say that the proposal to advance clocks by an hour or two during summer would cause more trouble than the intended benefit of avoiding peak heat hours ...
  52. [52]
    Japan to abandon daylight saving time for 2020 Olympics: Asahi
    Sep 27, 2018 · Japan will not introduce daylight saving time for the 2020 Summer Olympics in Tokyo because public opinion is against the proposal, ...Missing: 2020s | Show results with:2020s
  53. [53]
    Gov't considers setting clock ahead by two hours - Japan Today
    May 24, 2013 · Tokyo Gov Naoki Inose suggested this week that Japan move its “standard time” ahead by two hours. As inhumane as that sounds to this already sleep-deprived, ...Missing: routines | Show results with:routines
  54. [54]
    The Land of the Rising Sun Rises Much Too Early - Bloomberg.com
    Jul 3, 2023 · Japan maintains the same time zone first introduced at the International Meridian Conference in 1884, which established the modern universal ...
  55. [55]
    Steadfast Time, Strategic Gain: Japan's Unchanging Time Zone and ...
    Jul 4, 2025 · Unlike regions like Europe or the U.S., where DST shifts disrupt schedules twice annually, Japan's fixed time zone reduces operational friction.Missing: routines | Show results with:routines
  56. [56]
    The Hidden Financial Effects of Daylight Saving Time - N26
    Oct 27, 2023 · DST impacts financial returns, stock market volatility, workplace productivity, and energy consumption, with some effects being contested.<|separator|>
  57. [57]
    The Unchanging Clock: How Tokyo's Stable Time Zone Offers a ...
    Jul 2, 2025 · While Tokyo's time zone stability is a net positive, investors must also consider broader economic factors: - Global Economic Cycles: Japan's ...
  58. [58]
    Longitude Position in a Time Zone and Cancer Risk in the United ...
    Disturbances of circadian rhythm may produce health consequences including metabolic syndrome (1–3), psychiatric conditions (4), and cancer (5, 6).<|separator|>
  59. [59]
    Daylight Saving Time and Artificial Time Zones – A Battle Between ...
    Aug 7, 2019 · In summary, the scientific literature strongly argues against the switching between DST and Standard Time and even more so against adopting DST ...<|separator|>
  60. [60]
    Sleep patterns in Metropolitan and Regional areas in Japan
    May 14, 2024 · This study provides insights into sleep patterns and the social time pressure markers, by comparison between residential groups in Japan.
  61. [61]
    Can cutting work hours solve Japan's productivity puzzle? - BBC
    Sep 4, 2017 · The country's productivity statistics have languished at the bottom of the G7 and well below the OECD average. And with an ageing and shrinking ...
  62. [62]
    The return of sleep - ScienceDirect.com
    Because of circadian rhythms, melatonin, which induces sleep, is released after sunset. Whereas time zone cues help determine social scheduling, such as work ...
  63. [63]
    Why Time Zone Differences Are Destroying Remote Team ... - Traqq
    Apr 1, 2025 · Research shows that when remote team members work in different time zones, the frequency of synchronous communication drops by 11% per hour of separation.Missing: considerations single<|separator|>
  64. [64]
    Relationship between working hours and productivity - ResearchGate
    While there is no strong correlation between hours of sleep and productivity, Japan's productivity (during the day) might rise if hours of sleep (at night) ...