Syndicate content

Conservation

A Brazilian water company goes back to nature to solve the problem of fluctuating water demand

Daniel Shemie's picture
© Andre Targa Cavassani/TNC

Co-authors:
Timm Kroeger 
Senior Environmental Economist,

The Nature Conservancy
Claudio Klemz 

Water Policy Specialist,
The Nature Conservancy

Balneário Camboriú is both a famous Brazilian beach destination and a water supply management puzzle. The resident population of the city is just 170,000, but swells to over 800,000 during the tourist season. Like many water utilities facing growing demand and the effects of climate change, the local water company, EMASA, must invest carefully to secure water for its fluctuating customer base.
 
Unlike many water utilities, however, EMASA is investing in the natural system where its water comes from.

New directions in the economics of agricultural water conservation

Susanne M. Scheierling's picture

A challenging area in agricultural water management is the assessment of policy and investment options in irrigated agriculture for conserving water and adapting to increasing water scarcity, in particular when the linkages to groundwater resources and their management are to be considered and incorporated. 

However, this is an increasingly important area of research for a number of reasons.  First, irrigated agriculture accounts for about 70% of global freshwater withdrawals, and is a major contributing factor to the water scarcity situation in many countries.  Second, with almost a quarter of freshwater withdrawals for irrigated agriculture being made up of groundwater supplies—corresponding to 70% of total groundwater withdrawals—, agricultural water use is also a major contributing factor to aquifer overexploitation.  And, third, surface water and groundwater are closely linked in most parts of the world, with groundwater discharge contributing to the base flow of streams and surface water contributing to groundwater recharge, and these interactions are intensified by human action, in particular water withdrawals for irrigated agriculture.  Even in cases where irrigated agriculture depends mostly on surface water, groundwater impacts therefore need to be accounted for when assessing water conservation efforts (and vice versa).