D. S. Arya scite author profile

ABSTRACT:The present study attempts to explore changes in rainfall pattern in the Indian Himalayas during 20th century using 80-year data from 30 rain gauge stations maintained by the India Meteorological Department (IMD). Modified Mann-Kendall test (MMK) was applied to detect trend, and Pettitt-Mann-Whitney (PMW) test was employed to detect possible shift. Implication of the change is discussed in terms of percentage change over mean. The results show that the most probable year of change in annual as well as monsoon rainfall in the region is 1964. There was an increasing trend upto 1964 (corroborating with all India and nearby plains), followed by a decreasing trend in 1965-1980 (exclusive to this region). In the entire region, changes are most conspicuous over the Shivaliks and the southern part of the Lesser Himalayas.

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Long term spatial and temporal rainfall trends and homogeneity analysis in Wainganga basin, Central India

Taxak

Murumkar

Arya

2014

Weather and Climate Extremes

180

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Spatial Distribution of Rainfall in Indian Himalayas – A Case Study of Uttarakhand Region

Basistha

Arya

Goel

2007

Water Resour Manage

142

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Continuous rainfall data in grid format are required to run models for hydrological and agricultural research as well as water resources planning and management. The present work attempts to prepare a normal annual rainfall map in Himalayan region of India lying in Uttarakhand state at 1 km spatial resolution which currently is not available. In the region, India Meteorological Department maintains observatories/raingauge stations and data from 44 stations were used in this study. A comparative analysis of interpolation techniques like Inverse Distance Weighted, Polynomial, Splines, Ordinary Kriging and Universal Kriging shows that Universal Kriging with hole-effect model and natural logarithmic transformation with constant trend having Root Mean Square Error (RMSE) of 328.7 is the best choice. This is followed by Ordinary Kriging (RMSE 329.1), Splines (RMSE 392.4), Inverse Distance Weighted (RMSE 409.8) and Polynomial Interpolation (RMSE 418.5).Cross validation of the results shows the largest over prediction at Tehri rainfall station (62.5%) and largest under prediction at Nainital station (−36.5%). Physiographic zone wise, the least errors occur in the plains and the largest in the Great Himalayas. The spatial average rainfalls are 1,472 mm for Terai/Bhabar, 1,782 mm for the Shivalik ranges, 1,591 mm for the Lesser Himalayas and 1,635 mm for the Great Himalayan region. The mean areal rainfall in the region is 1,608 mm.

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Study of early flood warning dissemination system in Bangladesh

Rahman

Goel

Arya

2012

J Flood Risk Management

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A study has been conducted with the objective to assess the existing early flood warning dissemination system (EFWDS) in Bangladesh and to suggest the suitable improvements in the same system based on review of literature, interaction with stakeholders of various organisations involved in flood forecasting and dissemination, and analysis of feedback from the flood‐affected people of Dhobaura and Shibalaya subdistricts in Bangladesh. The existing set‐up has been studied to assess the present activities and future expectations. The recommendation for active participation by all related organisations has been made in this study. Two studies have been conducted by surveying the opinion of flood vulnerable communities so that all elements of the EFWDS would provide useful flood warnings to all potential users.

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Design Flow and Stage Computations in the Teesta River, Bangladesh, Using Frequency Analysis and MIKE 11 Modeling

et al. 2011

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D. S. Arya

Analysis of historical changes in rainfall in the Indian Himalayas

Long term spatial and temporal rainfall trends and homogeneity analysis in Wainganga basin, Central India

Spatial Distribution of Rainfall in Indian Himalayas – A Case Study of Uttarakhand Region

Study of early flood warning dissemination system in Bangladesh

Design Flow and Stage Computations in the Teesta River, Bangladesh, Using Frequency Analysis and MIKE 11 Modeling

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