Water Scarcity in Yemen

Groundwater tends to be a common property resource. In places like Yemen, where ownership rights are not clearly defined it tends to be overexploited. So much so, that they’re looking at running out within the next 10 years. Peter Salisbury has an article in Foreign Policy.

Most potable water in Yemen is produced from a series of deep underground aquifers using electric and diesel-powered pumps. Some of these pumps are run by the government, but many more are run by private companies, most of them unlicensed and unregulated. Because of this, it is nigh on impossible to control the volume of water produced. By some (conservative) estimates, about 250 million cubic meters of water are produced from the Sanaa basin every year, 80 percent of which is non-renewable. In recent years, the businessmen who produce the water have had to drill ever-deeper wells and use increasingly powerful pumps to get the region’s dwindling water reserves out of the ground.

–Salisbury (2012): Yemen’s water woes in Foreign Policy.

A Darwinian Debt

Evidence is mounting that fish populations won’t necessarily recover even if overfishing stops. Fishing may be such a powerful evolutionary force that we are running up a Darwinian debt for future generations.

— Loder (2006), Point of No Return in Conservation in Practice.

Darwinian Debt. That’s the elegant phrase Natasha Loder (2006) uses to describe the observation that human pressure on the environment — fishing in this particular example — has forced evolutionary changes that are not soon reversed.

Fishermen prefer to catch larger fish, depleting the population of older fish, and allowing smaller fish to successfully reproduce. Over a period of years this artificial selection — as opposed to natural selection — gives rise to new generations of fish that are permanently smaller than they used to be. And the fisheries find it hard to recover even after decades (Swain, 2007):

Populations where large fish were selectively harvested (as in most fisheries) displayed substantial declines in fecundity, egg volume, larval size at hatch, larval viability, larval growth rates, food consumption rate and conversion efficiency, vertebral number, and willingness to forage. These genetically based changes in numerous traits generally reduce the capacity for population recovery.

— Walsh et al., 2005, Maladaptive changes in multiple traits caused by fishing: impediments to population recovery in Ecology Letters.

The Future of Stuff

The Story of Stuff is a pretty commonly used video that starts the conversation on resource use and consumerism. The video below, “Full Printed,” takes a look at the future and how technology, particularly 3-D printers, might reduce the environmental costs of the things we use.

FULL PRINTED from nueve ojos on Vimeo.

Update

There are already some places for 3d printing.

Resource Depletion: Overfishing

In 1900 fish stocks in the North Atlantic looked like this:

Biomass of Popularly Eaten Fish in 1900. Design: David McCandless // Map render Gregor Aisch. Source: Hundred year decline of North Atlantic predatory fishes, V.Christensen et al., 2003. From Information is Beautiful , via the Guardian.

IN the year 2000, fish stocks looked like this:

Biomass of Popularly Eaten Fish in 2000. Design: David McCandless // Map render Gregor Aisch. Source: Hundred year decline of North Atlantic predatory fishes, V.Christensen et al., 2003. From Information is Beautiful , via the Guardian.

There are more data and visualizations on the European Ocean2012.eu site.