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Development of a rainfall Stability Index using probabilistic indicators

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Title Development of a rainfall Stability Index using probabilistic indicators
Not Available
 
Creator Deepesh Machiwal
Madan Kumar Jha
Ankit Gupta
 
Subject Reliability
Resilience
Vulnerability
Geostatistical modelling
Spatial variability
Arid region
Western India
 
Description Not Available
Temporal variability of rainfall affects earth’s climatic systems, and it has a profound impact on the ecosystems,
agriculture and society. In this study, a Stability Index (SI) is developed to evaluate long-term rainfall stability using probabilistic indicators [Reliability, Resilience and Vulnerability (RRV)] and geostatistical modelling. Developed index is applied to an Indian arid region using 1979–2013 annual rainfall data. The efficacy of the SI is examined by comparing it with a conventional dispersion statistic viz., coefficient of variation (CV) of the rainfall time series. The ‘low’ to ‘moderate’ ranges of Reliability (0.29–0.49), Resilience (0.27–0.50) and Vulnerability (0.35–0.49) suggest that the rainfall in the study area is at a high risk of insufficiency. There are ‘strong’ to ‘moderate’ correlation among all the three indicators. It is found that the RRV indicators and SI have no spatial trend and follow normal distribution. ‘Spherical’, ‘circular’ and ‘exponential’ are adjudged to be the best-fit geostatistical models. The scatter plots of RRV indicators and CV, Spearman’s rank correlation and Student’s t-test revealed that SI precisely account for the long-term stability of annual rainfall. SI is superior to the conventional measure of dispersion as the former addresses risk in terms of frequency of being higher than the mean rainfall and thereby considers ability to return from unsatisfactory to satisfactory condition. Also, the development of SI involves straightforward computation, ease of rainfall data availability at local and regional scales and less time-consuming analysis. It is concluded that the SI based on probability indicators can be a useful tool for analyzing spatio-temporal dynamics of rainfall and delineating prioritized areas for rainwater management at community, river basin and regional scales. The RRV concept could be further extended to solve future environmental problems under changing climate and socio-economic conditions.
Not Available
 
Date 2020-07-27T09:14:38Z
2020-07-27T09:14:38Z
2020-04-17
 
Type Research Paper
 
Identifier Not Available
Not Available
http://krishi.icar.gov.in/jspui/handle/123456789/38305
 
Language English
 
Relation Not Available;
 
Publisher Elsevier