The Ev-K2-CNR Project has been promoting and developing research at high altitude (>2,500 m a.sl.) in the Himalaya and Karakoram since 1987. Recently, activities have been focused on development of a monitoring network (stations at High Altitude for Research on the Environment in Asia: SHARE-Asia) to increase the environmental and geophysical scientific knowledge in these mountain regions. Research and monitoring activity at high altitude require a particular experience and a well-organized network. Ev-K2-CNR has accumulated a significant experience in managing a high altitude network of automatic weather stations along the Khumbu Valley (Nepal) and in northern Pakistan (Baltistan region) in the framework of the Coordinated Enhanced Observing Period Project. With the installation of an Atmospheric Brown Clouds Project (ABC) monitoring station near the Pyramid Laboratory-Observatory in 2006, near the base of Mount Everest, SHARE-Asia can also contribute to the study of atmospheric circulation of pollutants. The “ABC-Pyramid” is the first of a network of stations that are planned to be installed at altitudes between 2,500 and 5,000 m a.s.l. along the Himalayan–Karakoram chain. These stations will be operated under active cooperation with the local scientific community, creating ample cooperation between western countries and developing countries in the region.

The Himalayan-Karakoram range - for its elevation and geographic location, represents one of the ideal places for studying long-range pollutant transport systems on a regional scale and for monitoring changes index by mechanisms that act on global scale through monsoon circulation. This book offers a comprehension of the environmental phenomena

The International Global Atmospheric Chemistry (IGAC) project was created in the late 1980s to address growing international concerns over rapid changes observed in Earth's atmosphere. Much of IGAC's research effort during its first decade was directed towards assessing the effects of anthropogenic emissions on the background atmosphere. While questions remain concerning the point at which observed global/regional mean trends in component concentrations (signal) unambiguously rise above background natural variability (noise), it is now well recognized that human activities have perturbed the chemical composition of the atmosphere at local, regional, and global scales. Two overarching questions have emerged that constitute the basis for the IGAC action plan over the next decade: (1) What is the role of atmospheric chemistry in amplifying or damping climate change? (2) Within the Earth System, what effects do changing regional emissions and depositions, long-range transport, and chemical transformations have on air quality and the chemical composition of the planetary boundary layer? Within the context of the larger ABC-Asia project, a proposal was put forward for the activation of an ABC-IGAC Task focusing on the monitoring of aerosol and trace gases over the Asia–Pacific region and on estimating their impact on atmospheric chemistry and the radiation budget. The activities currently in progress, to include the Ev-K2-CNR Pyramid observatory in the Atmospheric Brown Cloud (ABC) monitoring network under the Stations at High Altitude for Research on the Environment in Asia (SHARE-Asia) project, aim at providing an important contribution to ABC-Asia and, at the same time, will undoubtedly be an opportunity for the Italian community of global-change researchers.