Water accounting to risk assessment

Count, learn & act

Who I AM?

Dr. Ashok Chapagain

In a nutshell I’m a scientist with a demonstrated history of working in the field of water resources and environment sector. I’ve analytical skills in research in the fields of Sustainable Development, Natural Resource Management, Environmental Awareness, Climate Change, and Water Resource Management.

I’ve almost three decades of work experience in the fields of Integrated Water Resources Management, water and food security, water allocation, irrigation, hydrology and watershed modelling, flood risk management, river basin planning and management, industrial and agricultural water use efficiency and sustainability, water footprint assessment, and environmental impact assessment.

“Virtual water, water footprint and water scarcity xxxx  Water dependency, water accounting, data, model xxxxxxx.”
– Tony Allan
(Winner of Stockholm water prize 2008)
“Water’s a scarce, undervalued resource, and it’s really about time for us to know how much we’re using, and what the quality is on a real-time basis, so we can make better decisions as to what to do with that gallon or litre of water”
– Will Sarni
Water Innovator (Water Foundry)

“Fuerat aestu carentem habentia spectent tonitrua mutastis locavit liberioris.”

– Stuart Orr
Lead Freshwater Practice (WWF)

Areas of expertise

Managing Water Risks

Reducing water risk is becoming a management priority for companies globally. Water risk can affect a company’s direct operations as well as its supply chain, ultimately affecting operational costs, security of inputs supply, profits, and future growth. As business risks associated with water intensify – for example risks to oeprations, supply chains and reputation – many corporate sustainability professionals are seeking practical tools to help them understand and assess these risks.

Sustainable Supply Chains

Water scarcity and water pollution levels are increasing in river basins around the world due to growing populations, changing consumption patterns and poor water governance. This imposes risk to the water intensive agri-culture sector, which increasingly faces water availability and quality challenges in its widely-distributed supply chain. Sustainability has two dimensions: local and global. To develop a meaningful response strategy, it must be measured across the full supply chain.

Climate Change Response

The impact of climate change is reflected through the lens of water. Businesses, governments, and local communities face growing challenges to their sustainability as resources like water and energy are constrained, populations grow, and economic growth is sought.

Policy, regulations and SDGs

Water is crucial for the global economy. Virtually every economic sector, from agriculture, power generation, manufacturing, beverage and apparel to tourism, relies on fresh water to sustain its business. Yet water scarcity and water pollution levels are increasing in river basins around the world due to growing populations, changing consumption patterns and poor water governance.

Water Footprint Assessment

Water Footprint Assessment is a four-phase process that quantifies and maps green, blue and grey water footprints, assesses the sustainability, efficiency and equitability of water use and identifies which strategic actions should be prioritised in order to make a footprint sustainable. Water Footprint Assessment is used to assess whether water use is environmentally sustainable, resource efficient and equitably allocated.

Virtual water flows

The virtual-water refers to the volume of water consumed or polluted for producing the product, measured over its full production chain. If a nation exports/imports such a product, it exports/imports water in virtual form. The virtual-water flow between two geographically delineated areas (for example, two nations) is the volume of virtual water that is being transferred from the one to the another area as a result of product trade.

“Bridging the gaps between science and practice”

Capacity building and knowledge exchange

Abstract knowledge is useless unless it is applicable. The bridge between science and reality is key in evidence based policy making. Key components are: awareness raising, knowledge exchange, and capacity building to relevant stakeholders.

Resources

Info-graphics, presentations, data, training materials,  and links to publications are available from here.

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