Browsing by Author "Rupakheti, Maheswar"

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    The COVID‐19 Pandemic Not Only Poses Challenges, but Also Opens Opportunities for Sustainable Transformation
    (Hoboken, NJ : Wiley-Blackwell, 2021) Pradhan, Prajal; Subedi, Daya Raj; Khatiwada, Dilip; Joshi, Kirti Kusum; Kafle, Sagar; Chhetri, Raju Pandit; Dhakal, Shobhakar; Gautam, Ambika Prasad; Khatiwada, Padma Prasad; Mainaly, Jony; Onta, Sharad; Pandey, Vishnu Prasad; Parajuly, Keshav; Pokharel, Sijal; Satyal, Poshendra; Singh, Devendra Raj; Talchabhadel, Rocky; Tha, Rupesh; Thapa, Bhesh Raj; Adhikari, Kamal; Adhikari, Shankar; Chandra Bastakoti, Ram; Bhandari, Pitambar; Bharati, Saraswoti; Bhusal, Yub Raj; Bahadur BK, Man; Bogati, Ramji; Kafle, Simrin; Khadka, Manohara; Khatiwada, Nawa Raj; Lal, Ajay Chandra; Neupane, Dinesh; Neupane, Kaustuv Raj; Ojha, Rajit; Regmi, Narayan Prasad; Rupakheti, Maheswar; Sapkota, Alka; Sapkota, Rupak; Sharma, Mahashram; Shrestha, Gitta; Shrestha, Indira; Shrestha, Khadga Bahadur; Tandukar, Sarmila; Upadhyaya, Shyam; Kropp, Jürgen P.; Bhuju, Dinesh Raj
    The COVID-19 pandemic has impacted social, economic, and environmental systems worldwide, slowing down and reversing the progress made in achieving the Sustainable Development Goals (SDGs). SDGs belong to the 2030 Agenda to transform our world by tackling humankind's challenges to ensure well-being, economic prosperity, and environmental protection. We explore the potential impacts of the pandemic on SDGs for Nepal. We followed a knowledge co-creation process with experts from various professional backgrounds, involving five steps: online survey, online workshop, assessment of expert's opinions, review and validation, and revision and synthesis. The pandemic has negatively impacted most SDGs in the short term. Particularly, the targets of SDG 1, 4, 5, 8, 9, 10, 11, and 13 have and will continue to have weakly to moderately restricting impacts. However, a few targets of SDG 2, 3, 6, and 11 could also have weakly promoting impacts. The negative impacts have resulted from impeding factors linked to the pandemic. Many of the negative impacts may subside in the medium and long terms. The key five impeding factors are lockdowns, underemployment and unemployment, closure of institutions and facilities, diluted focus and funds for non-COVID-19-related issues, and anticipated reduction in support from development partners. The pandemic has also opened a window of opportunity for sustainable transformation, which is short-lived and narrow. These opportunities are lessons learned for planning and action, socio-economic recovery plan, use of information and communication technologies and the digital economy, reverse migration and “brain gain,” and local governments' exercising authorities.
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    Modifications in aerosol physical, optical and radiative properties during heavy aerosol events over Dushanbe, Central Asia
    (Amsterdam [u.a.] : Elsevier, 2021) Rupakheti, Dipesh; Rupakheti, Maheswar; Yin, Xiufeng; Hofer, Julian; Rai, Mukesh; Hu, Yuling; Abdullaev, Sabur F.; Kang, Shichang
    The location of Central Asia, almost at the center of the global dust belt region, makes it susceptible for dust events. The studies on atmospheric impact of dust over the region are very limited despite the large area occupied by the region and its proximity to the mountain regions (Tianshan, Hindu Kush-Karakoram-Himalayas, and Tibetan Plateau). In this study, we analyse and explain the modification in aerosols’ physical, optical and radiative properties during various levels of aerosol loading observed over Central Asia utilizing the data collected during 2010–2018 at the AERONET station in Dushanbe, Tajikistan. Aerosol episodes were classified as strong anthropogenic, strong dust and extreme dust. The mean aerosol optical depth (AOD) during these three types of events was observed a factor of ~3, 3.5 and 6.6, respectively, higher than the mean AOD for the period 2010–2018. The corresponding mean fine-mode fraction was 0.94, 0.20 and 0.16, respectively, clearly indicating the dominance of fine-mode anthropogenic aerosol during the first type of events, whereas coarse-mode dust aerosol dominated during the other two types of events. This was corroborated by the relationships among various aerosol parameters (AOD vs. AE, and EAE vs. AAE, SSA and RRI). The mean aerosol radiative forcing (ARF) at the top of the atmosphere (ARFTOA), the bottom of the atmosphere (ARFBOA), and in the atmosphere (ARFATM) were −35 ± 7, −73 ± 16, and 38 ± 17 Wm−2 during strong anthropogenic events, −48 ± 12, −85 ± 24, and 37 ± 15 Wm−2 during strong dust event, and −68 ± 19, −117 ± 38, and 49 ± 21 Wm−2 during extreme dust events. Increase in aerosol loading enhanced the aerosol-induced atmospheric heating rate to 0.5–1.6 K day−1 (strong anthropogenic events), 0.4–1.9 K day−1 (strong dust events) and 0.8–2.7 K day−1 (extreme dust events). The source regions of air masses to Dushanbe during the onset of such events are also identified. Our study contributes to the understanding of dust and anthropogenic aerosols, in particular the extreme events and their disproportionally high radiative impacts over Central Asia.