Growing forests in the desert

Israeli environmental scientists plant hardy trees meant to improve air quality and provide renewable fuel, using ‘unusable’ land and water.

Prof. Amram Eshel

Photo courtesy of Tel Aviv University
Prof. Amram Eshel with a sample of wood from the Tamarix forest.

Leave it to Israeli scientists to figure out a way of growing trees in the barren sands of the Arava Desert.

The trees aren’t just meant to look pretty. This pollution-reducing forest planted over the summer is soaking up harmful excess carbon dioxide from the atmosphere and releasing beneficial oxygen. Another “green” bonus is that the trees are nurtured with recycled sewage water and saltwater.

The project is a research collaboration between Tel Aviv University’s Porter School of Environmental Science, the Hebrew University in Jerusalem and the University of Tuscia in Viterbo, Italy. The Italian Ministry for the Environment, Land and Sea is financing the study, which is outlined in an article soon to appear in the European Journal of Plant Science and Biotechnology.

The environmentalists involved are hopeful that the project will not only help reduce humanity’s carbon footprint but will also demonstrate how all countries could establish a local plant species on land thought unusable, in order to improve air quality. India, central Asia and Africa in particular have large swaths of such land available, including the vast Sahara Desert.

Once the trees are mature, it’s possible that they could become a renewable source of biofuel to reduce dependence on fossil fuels. This is another area of great interest to Israel and just about every other country on the planet.

Finding a hardy species

TAU Life Sciences Prof. Amram Eshel explained that maintaining current forests is not enough to offset harmful human carbon output. Many countries have therefore been converting fertile agricultural lands into forest in an effort to diminish carbon dioxide and increase oxygen in the air.

This new Israeli project is based on the belief that it’s much better to encourage growth on seemingly worthless land with seemingly worthless water.

“When you take the overall carbon balance of converting agricultural land and freshwater into energy products, you may not gain that much,” said Eshel. “You’re investing a lot of energy in the process itself, thus releasing a lot of carbon into the atmosphere.”

Tamarix grove

Photo courtesy of Tel Aviv University
The Tamarix grove in the Arava is soaking up harmful gases from the air.

To conserve precious stores of fresh water, the researchers chose to use low-quality recycled sewage water as well as saltwater that’s the by-product of desalination plants. Then they searched for a plant species hardy enough to successfully grow in desert conditions.

They settled on Tamarix, a botanical genus that includes salt cedar trees and is indigenous to old-world deserts. In the Arava — a section of the Great Rift Valley running from the southern end of the Sea of Galilee down past the Dead Sea to the Gulf of Aqaba near Eilat — they planted 150 different varieties of Tamarix in a common garden setting and also in denser fields the way commercial crops are grown.

Tamarix flowers

Photo courtesy of Tel Aviv University
Flowers of the hardy Tamarix.

Now the researchers are starting the hard work of analyzing the amount of carbon dioxide the crops have successfully captured from the atmosphere. If that can be quantified, they will be able to recommend specific growing guidelines to other countries.

If they can also be used as biofuel, the potential is almost limitless. Until now, growing crops dedicated to fuel production has been controversial, since converting agricultural land could have the side effect of creating food shortages.

Arid and previously unused desert lands provide an ideal solution, Eshel says. Israel doesn’t have enough of this land to make a large-scale operation economically feasible, but places like the Sahara Desert could be ideal.

About Abigail Klein Leichman

Abigail Klein Leichman is a writer and associate editor at ISRAEL21c. Prior to moving to Israel in 2007, she was a specialty writer and copy editor at a daily newspaper in New Jersey and has freelanced for a variety of newspapers and periodicals since 1984.
  • Dennis Tate

    This article is great news for all of us who live near the ocean and are concerned by the melting that is occurring in Greenland, the West Antarctic Ice Sheet and the Himalayas! 

  • Dennis Tate

    Plus the data on what is happening on Greenland make me genuinely worried that rising ocean levels are coming soon.  Diverting ocean water into the water tables of desert nations sounds like the most cost effective way of protecting coastal cities and communities!

  • GeraltOfRiviaworrrrrd

    I wouldn’t put to much hope in such an idea working too well. Diverting the waters would take a ridiculous amount of desalinization plants in the Mediterranean Sea coasts to counter a world wide sea level rise. Plus the pipes needed for transportation of the waters throughout an area roughly the size of the U.S.A. would everyday be damaged and affected by shifting sands… completely unstable. Vehicles would have to patrol and build Sand drift structures. The whole political structure of Eurasia and Africa would have to be stabilized so you could begin the project from The Red Sea and start in Egypt and work West because you can’t expect help from the West were in U.S.A. the Keystone Pipeline is a decade debate. In conclusion it’s a pipe dream. Small scale within a nation it’s legit.