(English captions by Trisha Paul, University of Michigan.)
Drought and water scarcity.
Factors contributing to drought include global
warming,
El Nino Southern Oscillation, and
random meteorological variability.
Factors contributing to water shortages include
increased water demand, drying up of surface
water, reduced yield of wells and springs,
water pollution, restricted access to water
sources, dysfunctional water distribution,
and poor water conservation.
Consequences of drought include desertification,
famine, and drought is closely associated
with political disruption, especially in Africa.
Possible public health hazards include health
hazards like insufficient water for consumption
and insufficient water for hygiene purposes.
The threat to agriculture and
economy, malnutrition
may be caused by lack of water for food preparation,
loss of electrical power from hydroelectric
generation.
There are also a number of environmental hazards
that may result from drought and desertification.
The general aims for the public health response
in water emergencies are to save life and
preserve health by making at least the minimum
quantities of reasonably safe water available
for household use, for institutions and for community
services, to provide supplies, where possible,
for livestock and irrigation purposes, to
restore or enhance existing sources, pumping
and distribution systems, where possible,
to develop alternative arrangements where
necessary.
Water priorities for public heath include
protection of existing water sources from
contamination, maintenance of water systems,
conservation measures, and seeking alternative
sources.
Conservation measures may include storage
tanks, recycling waste water for sanitation
and irrigation if this is possible, and rationing
of water.
Choosing alternative water sources.
Rain and deep closed wells are usually safe.
Surface water and shallow or open wells are
unlikely to be safe.
Criteria for choosing between
alternative water sources.
Speed with which it can be made operational;
how fast can we set up this water source?
Potential yields of this water source, reliability
of supply, water purity, simplicity of technology
and ease of maintenance as well as the appropriateness
of this technology to the affected communities,
costs, rights and welfare of affected population.
Transportation: truck water should only be
a strictly short-term, stop-gap emergency
measure to ensure immediate survival of the
affected population.
Quantity is preferable to quality, although
quality is also important.
Involve the community in finding solutions.
Involve the national and local water authorities,
equipment and infrastructure that are normally
responsible.
Pay special attention to the needs of hospitals,
schools, health centers, and feeding centers
as well as other important institutions.
Individuals need at least 15-30 liters per
person per day.
The absolute minimum for survival is 3-5 liters
per day.
Health centers need 40-60 liters per patient
per day.
Feeding centers need 20-30 liters per person
per day.
Needs increase with air temperature and exertion.
Minimize work invested in "interim" solutions.
Try and look for permanent solutions.
Provide safe water as close as possible to
homes.
Minimize the risk of water contamination in
distribution points, delivery, and households.
Provide safe storage at community and household
levels.
Mobilize appropriate technical expertise:
water engineers to exploit available resources,
sanitarians to test and organize water treatment,
hydrogeologists to assess ground water potential,
hydrologists to assess surface water potential.