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Oldest accurately dated Banyan found in Munger, Bihar

Traditionally, estimating their age relied on folklore, local stories or historical records, which were often inaccurate. These living representations of history were not scientifically dated previously due to a lack of a clear protocol. To address this challenge, she initiated the development of a new scientific approach for age determination. It strengthens the preservation of natural and cultural heritage by replacing uncertain age estimates with reliable scientific evidence. Fig: Heritage Banyan tree at ITC campus, Munger, Bihar, India.
Ministry of Science & Technology Oldest accurately dated Banyan found in Munger, Bihar A banyan tree in Munger, Bihar, estimated to be around 700 years old, has been identified as the oldest accurately dated banyan tree, Ficus benghalensis, using radiocarbon dating, a method that relies exclusively on scientific evidence rather than historical records or local lore Banyan trees, with their intricate root and branch networks, provide habitats for a variety of wildlife, including birds and insects. They have also played a significant role in Indian social and cultural life for centuries. Traditionally, estimating their age relied on folklore, local stories or historical records, which were often inaccurate. These living representations of history were not scientifically dated previously due to a lack of a clear protocol. Field sampling and laboratory analyses revealed that the absence of distinct annual growth rings in most tropical broadleaf trees limited the application of conventional dendrochronological techniques, emphasising the need for alternative high-precision dating methods, including radiocarbon dating. When Dr. Trina Bose from the Birbal Sahni Institute of Palaeosciences, Lucknow, an autonomous institute under the Department of Science and Technology (DST), was invited by the Bihar Forest Department to investigate and determine the age of the Munger Banyan tree, she recognised the limitations of conventional dating approaches for tropical broadleaf species. To address this challenge, she initiated the development of a new scientific approach for age determination. Dr. Bose led a research team comprising Dr. Mayank Shekhar and Dr. Akhilesh K. Yadava, who collaboratively developed and applied an innovative methodology to establish the age of the tree. The research team, led by Dr. Bose and comprising Dr. Shekhar and Dr. Yadava, extracted alpha-cellulose, the most stable primary component of plant cell walls, from wood samples collected near the pith of a secondary trunk and an ancient primary branch. The pith is particularly important because it represents the earliest wood formed during the juvenile stage of secondary growth. The extracted cellulose samples were subjected to high-precision radiocarbon dating using Accelerator Mass Spectrometry (AMS), followed by calibration against the latest IntCal20 calibration curve and OxCal software, enabling the team to establish a robust, reliable estimate of the tree's age. This finding refutes earlier assumptions that the Munger Banyan was planted in front of the historic 'Burra Bunglow', which, based on architectural style, dates to the late Mughal-Early British period (~300 to 350 years old), as a venue for dialogue between rulers and common citizens, village assemblies, religious ceremonies, and cultural exchanges. It establishes that the approximately 700-year-old tree is likely a surviving remnant of a natural forest that once existed in the region, and that it witnessed the construction of the building. Hence, this analysis redefines the order of historical events in this region. The research published in the journal Quaternary Research provides a scientific method for accurately dating heritage trees, helping governments, forest departments, and conservation agencies identify and protect culturally and ecologically important trees. It strengthens the preservation of natural and cultural heritage by replacing uncertain age estimates with reliable scientific evidence. The methodology can also be applied to other ancient tropical trees worldwide and can help biodiversity conservation, heritage management, environmental education, and research on past climate and historical landscapes. Fig: Heritage Banyan tree at ITC campus, Munger, Bihar, India. (a) Central composite trunk; the yellow mark denotes the sampled secondary trunk and branch. (b) Secondary trunk sampled as TB- MUN-01. (c) Oldest apparent branch sampled as TB-MUN-02. This research represents a major breakthrough in the scientific dating of ancient trees in tropical regions, especially those of cultural significance, such as the Banyan, and will not only help determine the age of such trees more accurately but also support efforts to preserve natural, historical, and cultural heritage throughout South Asia and beyond. Publication link: https://doi.org/10.1017/qua.2026.10086 ****** NKR/FT/NM (रिलीज़ आईडी: 2280710) आगंतुक पटल : 624
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Key Insight

Scientific dating confirms 700‑year‑old banyan, reshaping heritage‑tree protection.

Key Facts

  1. The banyan (Ficus benghalensis) in Munger, Bihar is estimated to be ~700 years old.
  2. Age was fixed by radiocarbon dating of alpha‑cellulose using Accelerator Mass Spectrometry (AMS).
  3. Research led by Dr. Trina Bose (Birbal Sahni Institute, DST) with Dr. Mayank Shekhar and Dr. Akhilesh K. Yadava.
  4. Findings published in the journal *Quaternary Research* in 2026.
  5. Traditional folklore‑based age estimates for tropical trees are often inaccurate.
  6. The method can be applied to other ancient tropical trees for heritage and biodiversity conservation.
  7. The tree provides habitat for birds, insects and holds cultural significance in Indian society.

Background

The study links science and technology with environmental heritage, a key area of GS‑3. It shows how modern dating techniques can replace unreliable folklore, aiding the Forest Department and DST in protecting culturally important trees. Accurate age data also help policymakers plan conservation under existing biodiversity laws.

UPSC Syllabus

  • GS3 — Developments in science and technology and their applications
  • GS3 — Conservation, environmental pollution and degradation
  • Essay — Education, Knowledge and Culture
  • Essay — Environment and Sustainability
  • Essay — Science, Technology and Society
  • Essay — Economy, Development and Inequality
  • Prelims_GS — Ecology and Biodiversity

Mains Angle

In a GS‑3 answer, discuss the role of scientific dating in heritage‑tree conservation and its impact on policy formulation. Possible question: "Evaluate how scientific methods can strengthen protection of natural and cultural heritage in India."

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Full Article

Ministry of Science & Technology

Oldest accurately dated Banyan found in Munger, Bihar

A banyan tree in Munger, Bihar, estimated to be around 700 years old, has been identified as the oldest accurately dated banyan tree, Ficus benghalensis, using radiocarbon dating, a method that relies exclusively on scientific evidence rather than historical records or local lore

Banyan trees, with their intricate root and branch networks, provide habitats for a variety of wildlife, including birds and insects. They have also played a significant role in Indian social and cultural life for centuries. Traditionally, estimating their age relied on folklore, local stories or historical records, which were often inaccurate. These living representations of history were not scientifically dated previously due to a lack of a clear protocol. Field sampling and laboratory analyses revealed that the absence of distinct annual growth rings in most tropical broadleaf trees limited the application of conventional dendrochronological techniques, emphasising the need for alternative high-precision dating methods, including radiocarbon dating.

When Dr. Trina Bose from the Birbal Sahni Institute of Palaeosciences, Lucknow, an autonomous institute under the Department of Science and Technology (DST), was invited by the Bihar Forest Department to investigate and determine the age of the Munger Banyan tree, she recognised the limitations of conventional dating approaches for tropical broadleaf species. To address this challenge, she initiated the development of a new scientific approach for age determination. Dr. Bose led a research team comprising Dr. Mayank Shekhar and Dr. Akhilesh K. Yadava, who collaboratively developed and applied an innovative methodology to establish the age of the tree.

The research team, led by Dr. Bose and comprising Dr. Shekhar and Dr. Yadava, extracted alpha-cellulose, the most stable primary component of plant cell walls, from wood samples collected near the pith of a secondary trunk and an ancient primary branch. The pith is particularly important because it represents the earliest wood formed during the juvenile stage of secondary growth. The extracted cellulose samples were subjected to high-precision radiocarbon dating using Accelerator Mass Spectrometry (AMS), followed by calibration against the latest IntCal20 calibration curve and OxCal software, enabling the team to establish a robust, reliable estimate of the tree's age.

This finding refutes earlier assumptions that the Munger Banyan was planted in front of the historic 'Burra Bunglow', which, based on architectural style, dates to the late Mughal-Early British period (~300 to 350 years old), as a venue for dialogue between rulers and common citizens, village assemblies, religious ceremonies, and cultural exchanges. It establishes that the approximately 700-year-old tree is likely a surviving remnant of a natural forest that once existed in the region, and that it witnessed the construction of the building. Hence, this analysis redefines the order of historical events in this region.

The research published in the journal Quaternary Research provides a scientific method for accurately dating heritage trees, helping governments, forest departments, and conservation agencies identify and protect culturally and ecologically important trees. It strengthens the preservation of natural and cultural heritage by replacing uncertain age estimates with reliable scientific evidence. The methodology can also be applied to other ancient tropical trees worldwide and can help biodiversity conservation, heritage management, environmental education, and research on past climate and historical landscapes.

Fig: Heritage Banyan tree at ITC campus, Munger, Bihar, India. (a) Central composite trunk; the yellow mark denotes the sampled secondary trunk and branch.

(b) Secondary trunk sampled as TB- MUN-01. (c) Oldest apparent branch sampled as TB-MUN-02.

This research represents a major breakthrough in the scientific dating of ancient trees in tropical regions, especially those of cultural significance, such as the Banyan, and will not only help determine the age of such trees more accurately but also support efforts to preserve natural, historical, and cultural heritage throughout South Asia and beyond.

Publication link: https://doi.org/10.1017/qua.2026.10086

******

NKR/FT/NM

(रिलीज़ आईडी: 2280710)

आगंतुक पटल : 624

Read Original on pib

Scientific dating confirms 700‑year‑old banyan, reshaping heritage‑tree protection.

Key Facts

  1. The banyan (Ficus benghalensis) in Munger, Bihar is estimated to be ~700 years old.
  2. Age was fixed by radiocarbon dating of alpha‑cellulose using Accelerator Mass Spectrometry (AMS).
  3. Research led by Dr. Trina Bose (Birbal Sahni Institute, DST) with Dr. Mayank Shekhar and Dr. Akhilesh K. Yadava.
  4. Findings published in the journal *Quaternary Research* in 2026.
  5. Traditional folklore‑based age estimates for tropical trees are often inaccurate.
  6. The method can be applied to other ancient tropical trees for heritage and biodiversity conservation.
  7. The tree provides habitat for birds, insects and holds cultural significance in Indian society.

Background & Context

The study links science and technology with environmental heritage, a key area of GS‑3. It shows how modern dating techniques can replace unreliable folklore, aiding the Forest Department and DST in protecting culturally important trees. Accurate age data also help policymakers plan conservation under existing biodiversity laws.

UPSC Syllabus Connections

GS3•Developments in science and technology and their applicationsGS3•Conservation, environmental pollution and degradationEssay•Education, Knowledge and CultureEssay•Environment and SustainabilityEssay•Science, Technology and SocietyEssay•Economy, Development and InequalityPrelims_GS•Ecology and Biodiversity

Mains Answer Angle

In a GS‑3 answer, discuss the role of scientific dating in heritage‑tree conservation and its impact on policy formulation. Possible question: "Evaluate how scientific methods can strengthen protection of natural and cultural heritage in India."

Analysis

Related PYQs

No related PYQs linked to this article yet.

Practice Questions

GS3
Medium
Prelims MCQ

Scientific methods for heritage tree dating

1 marks
4 keywords
GS3
Easy
Mains Short Answer

Limitations of traditional age estimation methods

5 marks
4 keywords
GS3
Hard
Mains Essay

Science‑based heritage conservation

20 marks
5 keywords
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