Nagaland University researchers conducted a pioneering GIS-based study on how land use impacts river flow in the North Eastern Himalayas. The study provides benchmark data and a runoff classification to aid water management and flood mitigation.
Nagaland University Researchers have completed a pioneering GIS-based hydrological study that scientifically examines how geo-ecological conditions and human activities influence runoff and river flow in the North Eastern Himalayan hill region, an area long marked by data gaps and global scientific debate.
According to a press release, the research addresses a critical and contested question in Himalayan science - the true hydrological impact of land use change on river discharge, floods and environmental degradation. Beyond advancing scientific understanding, the study proposes a practical four-zone runoff classification-low, moderate, high and very high runoff zones-to support water resource planning, flood mitigation and integrated watershed management. The methodology and findings are expected to benefit policymakers, planners and local communities, while also serving as a transferable model for similar fragile regions across the Himalaya and India, said the release.
'Timely and Significant': University Applauds Study
Emphasising the role of the university in researching topics of vital importance to the local community and the entire North East, Prof Jagadish K Patnaik, Vice Chancellor, Nagaland University, said, "I congratulate the research team of Nagaland University for producing this important GIS-based hydrological study that provides benchmark data on land use change and river flow in the North Eastern Himalayas. This work is timely and significant, as it enhances our understanding of runoff patterns, flood risks, and sustainable water management in fragile hill ecosystems. Such research not only strengthens scientific knowledge but also supports informed policy and planning for the region's environmental security and resilience."
Methodology and Key Findings
The study, titled 'GIS Modelling to investigate geo-ecological and anthropogenic impacts on runoff and river flow in the North Eastern hilly region of India', was conducted by Dr K Belho and Prof MS Rawat from Nagaland University, along with Dr Pradeep Kumar Rawat from Asian International University, Imphal. The research was funded by Nagaland University through a Non-NET Fellowship and supported by the Ministry of Tribal Affairs, Government of India. The findings were published in the International Journal of Geographic Information System Research and Development, a peer-reviewed academic journal that publishes original research and applied studies on GIS theory, technologies, spatial analysis, and geospatial applications across disciplines.
Advanced Geospatial Techniques and Field Data
Elaborating on the technical aspects of the Research, Prof MS Rawat, Department of Geography, School of Sciences, Nagaland University, said, "We focused on four experimentally monitored watersheds in Kohima district. Our research team combined advanced geospatial techniques with systematic field-based hydrological measurements, which is an approach rarely attempted in the Indian Himalayas. The study generated continuous stream discharge data across contrasting land-use systems, including dense forests, open forests, agricultural lands and urban landscapes, creating one of the first benchmark hydrological datasets for the North Eastern Himalayan region."
Stark Contrasts in Runoff Behaviour
Further, Dr K Belho, Department of Geography, School of Sciences, Nagaland University, said, "Our findings reveal stark contrasts in runoff behaviour across geo-ecological systems. Dense, undisturbed forest landscapes showed a strong capacity to absorb rainfall and sustain sub-surface flows during non-monsoon months, while urban and heavily modified landscapes generated high monsoon runoff and significantly reduced lean-season flows." The researchers quantified these differences through runoff ratios, clearly demonstrating how increasing anthropogenic stress amplifies flood risks while weakening water availability during dry periods.
Call for Enhanced Monitoring
Further, Dr Pradeep Kumar Rawat, Consultant Professor, Asian International University, Manipur, said, "Our study underscores the urgent need for more instrumented experimental catchments and long-term hydrological monitoring stations across the Himalayan region. The researchers note that such infrastructure is essential for reliable flood forecasting, environmental hazard assessment and evidence-based sustainable development in one of the world's most sensitive mountain ecosystems."
(ANI)
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