Nagaland University study on Musa sikkimensis highlights climate resilience, germplasm conservation and food security in Northeast India.
Share
DIMAPUR — Nagaland University (NU) researchers have conducted an extensive study on the genetic diversity of Musa sikkimensis, a wild banana species native to the Eastern Himalayas and Northeast India, highlighting its importance for climate resilience, food security and sustainable agricultural development.
In a press release, the university stated that Musa sikkimensis, commonly known as ‘Darjeeling banana’ or ‘Sikkim banana,’ is a wild-seeded banana species that serves as a vital genetic reservoir for disease resistance, stress tolerance and climate adaptability traits essential for future banana improvement programmes.
Although not widely cultivated for edible fruit, the species plays a crucial role in strengthening crop resilience and ensuring sustainable production, it stated.
The research team found that local banana germplasm exhibits strong adaptive potential across diverse environmental conditions, reinforcing its importance for conservation and future breeding initiatives.
Also read: GNF backs Pan Naga Hoho, urges unified stand for Indo-Naga political settlement
Nagaland, located within the Indo-Burma biodiversity hotspot, hosts a rich diversity of indigenous banana genotypes.
However, increasing anthropogenic activities, environmental pressures and deforestation have placed many wild genotypes at risk of decline and possible extinction, making conservation research critical, it stated.
The research titled ‘Exploring the genetic diversity of Musa sikkimensis land races in Nagaland, India’ underscores the urgent need to conserve endangered banana germplasm in one of the world’s richest biodiversity regions.
The findings were published in Flora and Fauna, a peer-reviewed scientific journal that publishes research on plant and animal biology, biodiversity, ecology, and environmental conservation.
The paper was co-authored by Nagaland University research scholars KR Singh and Dr. S Walling and Dr. A Sarkar.
Nagaland University Vice-Chancellor Jagadish K. Patnaik noted that the initiative reflected the university’s responsibility to protect the wild flora of Northeast India and underscored its commitment to advancing science based on local genetic resources.
He added that in the context of climate change, the research would support future crop improvement programmes by enhancing genetic resilience, adaptability, and nutritional security.
The study builds on a series of postgraduate and doctoral research projects conducted under the supervision of Dr. A Sarkar, Associate Professor, Department of Horticulture, NU, focusing on banana biodiversity, germplasm mapping, characterisation of wild species and evaluation of genetic resources in the state.
Highlighting the role of this research in addressing conservation challenges and safeguarding local germplasm, Dr. Sarkar said, “We aimed to address challenges in identifying and conserving local banana genotypes growing in remote forest regions of Nagaland. Through collaboration with banana experts from North East and South India, our research team successfully identified and documented several previously unclassified genotypes.”
Climate resilient agriculture
The findings demonstrate the potential of wild banana genetic resources to contribute to climate-resilient agriculture, food security and socio-economic development.
Researchers noted that wild banana species could support the development of high-yielding, disease-resistant varieties and new value-added products such as fibre-based materials and health beverages.
The study also highlights the significant ethnobotanical value of wild bananas among indigenous communities in Nagaland. Different plant parts are traditionally used for food, fibre, medicine and cultural practices, with reported medicinal properties including treatment for dysentery, ulcers, diabetes and microbial infections, it stated.
To strengthen conservation efforts, Nagaland University has established a Banana Biodiversity Corridor at its Department of Horticulture.
The corridor functions as a living field gene bank, linking in situ and ex situ conservation approaches while supporting genetic and molecular research, climate-resilient breeding programmes, student training and national germplasm security initiatives.
The initiative aims to protect fragmented banana diversity, strengthen local value chains and support future agricultural development.