Mount Fuji

COUNTRY

FEET

METERS

JAPAN​

12389

3776


MOUNT FUJI: A VOLCANIC MARVEL

Mount Fuji, located on Honshū, is the highest volcano in Japan at 3776,24 m (12,389 ft), 2nd-highest peak of an island (volcanic) in Asia, and 7th-highest peak of an island in the world. It is a dormant stratovolcano that last erupted in 1707–1708. Mount Fuji lies about 100 kilometers (60 mi) south-west of Tokyo, and can be seen from there on a clear day.

Mount Fuji’s exceptionally symmetrical cone, which is snow-capped for about 5 months a year, is commonly used as a symbol of Japan and it is frequently depicted in art and photographs, as well as visited by sightseers and climbers. It is thought that the first recorded ascent was in 663 by an anonymous monk. The first ascent by a foreigner was by Sir Rutherford Alcock in September 1868.

GEOLOGICAL FORMATION AND HISTORY

Mount Fuji, Japan’s iconic stratovolcano, is a geological wonder that has captivated scientists and enthusiasts for centuries. Its near-perfect conical shape is the result of multiple layers of lava and ash accumulated over thousands of years. The volcano sits at the triple junction where the Amurian Plate, the Okhotsk Plate, and the Philippine Sea Plate meet, contributing to its unique formation and activity.

ERUPTIVE PATTERNS AND RECENT ACTIVITY

While Mount Fuji is currently classified as dormant, its history is marked by significant eruptions:

  • The last major eruption in 1707-1708, known as the Hōei eruption, lasted for 16 days
  • This eruption created a new crater and a second peak, known as Hōei-zan, on the southeastern flank of the mountain
  • Ash from this eruption is reported to have fallen in present-day Tokyo, nearly 100 km away

Volcanologists closely monitor Fuji for signs of renewed activity, using state-of-the-art seismometers and GPS devices to detect any changes in the mountain’s structure.

THE FIVE LAKES OF MOUNT FUJI

At the base of Mount Fuji lie five picturesque lakes, formed by previous eruptions damming up rivers:

  1. Lake Kawaguchi
  2. Lake Motosu
  3. Lake Sai
  4. Lake Shōji
  5. Lake Yamanaka

These lakes not only add to the scenic beauty of the area but also provide valuable insights into the volcano’s eruptive history and impact on the surrounding landscape.

AOKIGAHARA: THE SEA OF TREES

On the northwestern flank of Mount Fuji lies the Aokigahara forest, also known as the “Sea of Trees.” This dense forest grows on a 1,200-year-old lava flow, creating a unique ecosystem:

  • The forest floor is composed of hardened lava, making it difficult for roots to penetrate
  • Despite this, the forest hosts a diverse array of plant and animal life
  • The lava’s high iron content causes magnetic anomalies, often interfering with compasses

FUJI’S IMPACT ON JAPANESE CULTURE AND SPIRITUALITY

Mount Fuji holds deep spiritual significance in Japanese culture:

  • It is considered one of Japan’s “Three Holy Mountains” along with Mount Tate and Mount Haku
  • The summit has been host to Shinto shrines since the 7th century
  • The Fujisan Hongū Sengen Taisha, located at the base, is the head shrine of over 1,300 Sengen shrines nationwide

ARTISTIC INSPIRATION

The volcano’s perfect symmetry and ever-changing appearance have inspired artists for centuries:

  • Hokusai’s “Thirty-six Views of Mount Fuji” is perhaps the most famous artistic depiction
  • The mountain continues to be a popular subject in contemporary photography and art

CLIMBING MOUNT FUJI: A VOLCANIC PILGRIMAGE

For volcano enthusiasts, climbing Mount Fuji offers a unique opportunity to experience this geological marvel up close:

  • The official climbing season is from early July to mid-September
  • There are four main routes to the summit, each offering different views and levels of difficulty
  • Climbers can observe various volcanic features, including lava flows, cinder cones, and fumaroles

FUTURE RESEARCH AND MONITORING

As technology advances, so does our understanding of Mount Fuji:

  • Researchers are using AI and machine learning to analyze seismic data and predict future activity
  • Satellite imagery is providing new insights into the volcano’s structure and potential hazards
  • Ongoing studies of Fuji’s magma chamber are helping scientists better understand the mechanisms driving volcanic activity in the region

Mount Fuji stands as a testament to the dynamic forces that shape our planet, offering endless fascination for those drawn to the study of volcanoes and geological wonders.