Assessing the link between land use/land cover changes and land surface temperature in Himalayan urban center, Srinagar.

The rapidly growing urbanization and the consequent land use/land cover (LULC) changes have resulted in unsustainable growth of cities in Indian subcontinent especially in Himalayan region which are highly sensitivity to condition like climate change. Using multi-temporal and multi-spectral satellite datasets, this study analyzes the impact of LULC changes on land surface temperature (LST) in the Himalayan city of Srinagar from 1992 to 2020. For LULC classification, the maximum likelihood classifier technique was utilized, and to extract LST from Landsat 5 (TM) and Landsat 8 (TM) (OLI), spectral radiance was employed. The results show that, among various LULC classes, built-up area has seen a maximum increase of 14% while agriculture has decreased by about 21%. On the whole, Srinagar city has witnessed an increase in LST by 4.5 °C with maximum increase of 5.35 °C especially over marshes and a minimum increase of 4 °C on agriculture landscape. Other LULC categories of built-up, water bodies, and plantation saw an increase in LST by 4.19 °C, 4.47 °C, and 5.07 °C, respectively. The transformation of marshes into built-up saw a maximum increase in LST by 7.18 °C followed by water body to built-up (6.96 °C) and water body to agriculture (6.18 °C) while minimum increase was seen in the conversion of agriculture to marshes by about 2.42 °C followed by agriculture to plantation (3.84 °C) and plantation to marshes (3.86 °C). The findings may be useful to urban planners and policymakers in terms of land use planning and city thermal environment control.

Vehicular emission and its impact on heavy metal accumulation and photosynthetic pigments on pine needles in Pahalgam forest ecosystem.

Human interference is rising day by day which adds more problems to conserve valuable forest resources. Vehicular exhausts are the main source of heavy metals that have detrimental impacts on the vegetation. The research provides comprehension about the increase in vehicular traffic along the Pahalgam highway, which is disturbing the balance of the forest ecosystem. The concentration of heavy metals and leaf pigments were determined in the leaf tissues collected along with the roadside pine trees in the Pahalgam resort. A total of 25 samples at each sampling site were collected in 100 m diameter along main road. High vehicular movements in summer correlated with the high accumulation of heavy metals such as Pb2+ (0.563 mg/kg), Ni2+ (0.271 mg/kg), and Cu2+ (0.202 mg/kg) in pine needles. However, Zn2+ exhibited higher concentration (0.468 mg/kg) at Batakote and Cd2+ (0.05 mg/kg) at Pahalgam in autumn. Moreover, total chlorophyll content determined low (1.97 mg/g) at Pahalgam in autumn and high (3.81 mg/g) at Chandanwari in summer. In general, the chlorophyll content in the pine needles was certainly affected by the accumulation of heavy metals which indicating a negative correlation of chlorophyll content with heavy metals. Thus, the increase in traffic movement and tourist influx significantly affects the accumulation of heavy metals and decreases the pigment content in the pine needles. Rapid tourist influx in world-famous health resorts is dramatically influencing the forest ecosystem. Therefore, the need is to use green fuel or ban the old vehicles which can be helpful in maintaining the balance of the forest ecosystem.