Abstract:
Continuous ground-based observations of aerosols over the Himalayan region are highly
beneficial in studying aerosol trends over the complex geographic terrain. This study
presents the results from continuous long-term observations (2004–2016) of aerosols over
a high-altitude site in the central Himalayas – Nainital, quantifying multihued aspects of
black carbon (BC) and columnar aerosol optical depth (AOD). The results reveal that BC
and AOD have a positive trend of 23.04 ± 3.00 ng m−3 year−1 and 0.0076 ± 0.0003 year−1
,
respectively. Simultaneously, a positive trend of 0.0066 ± 0.0059 year−1 is observed in the
Angstrom exponent, thus indicating an increase in anthropogenic aerosols. The satellite
observations covering a broader region around Nainital also depicted increasing trends in
AOD (0.0042–0.0074 year−1
), absorbing aerosol optical depth (0.0001 ± 0.0001 year−1
)
and aerosol index (0.0131 ± 0.0019 year−1
), along with a slight decline in single scattering
albedo (−0.0004 year−1
). These results suggest that aerosols of absorbing nature might
have increased over this region in recent times. Investigation of the AOD ratio, obtained
from aerosol vertical profiles, revealed an increasing trend in aerosol load below 1 km. The
observed trends in aerosols are found to be associated with enhanced biomass burning
activity, reflected in terms of the positive trend in fire count ~38.65 ± 5.88 year−1 over the
region.
