Are Climate Extremities Changing Forest Fire Regimes in India? An Analysis Using MODIS Fire Locations During 2003–2013 and Gridded Climate Data of India Meteorological Department

The occurrence of forest fire in India, and their interrelationship with causal drivers i.e. climate (temperature, rainfall, dry-days, El Niño), fuel status (forest types, Normalised Difference Vegetation Index) and anthropogenic disturbances (distance from road and settlements, population density)...

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Published inNational Academy of Sciences, India. Proceedings. Section A. Physical Sciences Vol. 87; no. 4; pp. 827 - 843
Main Authors Kale, Manish P., Ramachandran, Reshma M., Pardeshi, Satish N., Chavan, Manoj, Joshi, P. K., Pai, D. S., Bhavani, P., Ashok, K., Roy, P. S.
Format Journal Article Conference Proceeding
LanguageEnglish
Published New Delhi Springer India 01.12.2017
Springer Nature B.V
Subjects
Anomalies
Applied and Technical Physics
Atomic
Confidence intervals
El Nino
Forests
MODIS
Molecular
Optical and Plasma Physics
Physics
Physics and Astronomy
Population density
Quantum Physics
Rainfall
Research Article
Sea surface temperature
Surface temperature
Dry-days
Forest
Climate
Temperature
El Niño
Fire
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Summary:The occurrence of forest fire in India, and their interrelationship with causal drivers i.e. climate (temperature, rainfall, dry-days, El Niño), fuel status (forest types, Normalised Difference Vegetation Index) and anthropogenic disturbances (distance from road and settlements, population density) were investigated. The Nino3 sea surface temperature index was used based on sea surface temperature anomalies recorded from February to June (fire season in India) through the years 2003–2013. This was used as the representative index of El Niño southern oscillations (ENSO). The correlations among different causal drivers and fire occurrence were investigated for the entire country and different bio-geographic zones within the country. In India, the forest fire were significantly (significance f < 0.05, confidence interval 95%) correlated with average dry-days (r 0.75) and maximum average temperature (r 0.76). It was further observed that El Niño increased the temperature and consequently the dryness, which created conducive conditions for fire to occur. The integrated fire frequency ratio, which is the ratio of percent of total fire occurrence in a particular driver class to the percent of total area of that driver class, was estimated for each year from 2003 to 2013 to investigate the fire susceptibility of different forests. The yearly fire frequency ratio was estimated to understand the dynamics of fire susceptibility across the country. The fire occurrence in Deccan Peninsula and the central Himalayas in particular were found to be more sensitive towards the climate anomalies.
ISSN:0369-8203
2250-1762
DOI:10.1007/s40010-017-0452-8