Now, a new Netafim website documents how the company helped create the revolution, which enabled countries like India to greatly expand their crop yields and better feed their burgeoning populations.
To that end, the company recently inaugurated a new website designed to tell the story of Netafim, from its roots as a kibbutz company experimenting with ways to save water to its current status as a worldwide innovator in drip irrigation technology.
Inthe company had its first sales to farms in Israel, and it began exporting not long afterwards. For students doing a report on drip irrigation or how farmers can save water, this is a site to bookmark. The site also features a guestbook not very extensively written in right now, but the site has barely been up for a month, said Shaul.
A net greenhouse in Los Pinos, Mexico, the largest greenhouse tomato project in the country, developed with Israel's Netafim drip irrigation and greenhouse technology Courtesy Netafim. An aerial view of Alicante, Spain, where a Netafim system recycles wastewater and distributes it via a drip irrigation system, watering all public areas in the Southern Spanish town Photo credit: Courtesy Netafim.One of its most remarkable achievements is drip irrigation, invented in by a Polish immigrant to Israel, Simcha Blass.
Drip irrigation systems are pipes or hoses that are designed to distribute water while manipulating the flow so that the water slowly drips over time. The system allows for water to directly reach the root of plants for a sustained amount of time, saving water and increasing plant yield, a lifesaver for this country and others facing drought or arid conditions. Fifty-five years following this revolutionary invention, new technology has been invented, not surprisingly also from Israel.
A company called SupPlant has invented a unique artificial intelligence system using cloud services, technology, and big data to improve the science of farming while saving water and increasing food production. The product has only existed for four years and is already changing how we farm.
In simple words, we do this by talking to the plants, more specifically, irrigating according to plant sensors and data retrieved from them. More specifically, we are checking and learning the growth patterns and stress levels of a plant through checking the trunk, fruit and the leaves.
How does it work? The company operates in 40 markets and 31 different crops. Addressing the challenges facing the developing and third world farmers of the world, Ben Nur gave some background. If you want to save water, you need to change the way irrigation is done and this is what we are doing. This is a revolutionary product. Advanced technology does pose some problems, particularly for conservative farmers or farmers from lower-developed countries, who are not as quick to jump onboard.
We are aiming to take all the data we have collected and all the knowledge and this year will launch a product for smallholder farmers, the small growers of the world. We can then provide recommendations and plant treatment… This is how we try to tackle the issues facing small growers.
SupPlant is already a major success and has expanded around the globe rather quickly. Behold Israel T June 14th, Articles. Related Posts.More than half of Israel is arid or semi-arid, and the rest of the country is dominated by steep hillsides and forests. Because Israeli farmers and scientists have had to contend with a difficult environment and limited water resources, their experience is especially relevant to the developing world.
Development of greenhouse equipment, seed and livestock propagation, fertilizers and pesticides have enabled Israeli agriculture to prosper in adversity. In addition, farmers have learned to develop high value-added and innovative farm products that enable them to compete in markets with lower-cost producers. Water managementrecycling, desalination and transportation in the National Water Carrier have enabled the country to overcome drastic shortages.
Every three years, the country's accomplishments are showcased in the national Agritech exhibition; in Septemberthe exhibition drew a record 9, overseas visitors from more than countries. Every week thousands of pounds of food worldwide go to waste due to spoilage before they even make it onto people's tables. Fruit, vegitables, and other products have a limited shelf-life and if they cannot be distributed in a timely manner, they will go to waste.
Israeli company Pimi Agro is working to stop world hunger by developing ways to make these perishable foods last longer. Through an all natural, zero chemical process using hydrogen peroxide and "a few key additions", Pimi Agro has been able to develop fruit and vegitables that are viable and stay ripe for over 10 weeks. Pimi Agro has been developing this method since the late 's and it has already been approved by the EPA and the EU as safe for consumption. The company has been working with Wal-Mart, Pepsico, Frito Lay, and other large food conglomerates to bring their products to international markets.
This innovation will also lead to more sustainable farming practices, as farmers lose less of their crops to rot and therefore use less fertilizer, irrigation water, and seeds. In other efforts to extend the shelf-life of perishable vegetables without refridgeration, Rivka Elbaum, from the Robert H. Smith Institute of Plant Sciences and Genetics in Agriculture at Hebrew University, has developed a secret formula that prevents chlorophyll loss in lettuce leaves.
The system involves dipping the desired food in a secret solution that has been patented and approved in Israel and North America. Elbaum said that one small application is enough to keep lettuce leaves fresh for a month without refridgerationand she envisioned the solution being used in supermarkets to mist the vegetables instead of using water.
Israel has striking rainfall inequalities. While the north of the country enjoys a relatively generous rainfall of millimeters each year, the central region receives only millimeters and the south sees a meager 25 millimeters annually.
The National Water Carrier, which transports water from north to south, has helped to remedy these regional imbalances. Beyond transportation, Israel has developed effective solutions for the dearth of water in some areas. Efficient water management has increased agricultural output fold during the past 50 years, while water consumption has remained constant through rigorous maintenance of infrastructure, replenishing of aquifers and the allocation of appropriate quotas and pricing to discourage wasteful consumption.
The use of recycled water has provided another solution. Out of 1.
The Water Commission forecasts that by one third of all crops will be irrigated with "cleaned" water. Twenty-four desalination plants in Eilat, the Dead Sea region and the Arava Desert supply another million cubic meters of irrigation water each year.
Another 70 million cubic meters of water are generated annually from underground sources; geothermal waters found beneath the surface of the Negev desert are also used.Did you know - Israel drip Irrigation?
Farmers have found that salt water produces "sweeter" crops than regular water. Cloud seeding injecting clouds with iodine to increase the percentage of water that each cloud yields has proven effective.
Exploration using sophisticated seismological techniquesprevention of pollution, soil conservation and drainage have all maximized water use. Landscaping to redirect floodwaters, computerized calculations to chart routes of runoff water and the strategic placement of trees and crops have also prevented desertification.
Perhaps the most innovative development in water utilization has been drip irrigation, conceived in Israel some 35 years ago.
Today, networks of plastic pipes with small openings for each plant or tree are strategically placed across fields. Via the drippers, controlled amounts of fertilizer can be pumped through the irrigation pipes to the plants — a system known as "fertigation".
Traditionally, drip irrigation has been used in regions where water is scarce, but it has also been effective where rainfall is high because of its precision. For example, experiments in Northern California in "precision" irrigation caused some types of tree to grow three times faster. Fast-growing trees can increase profits for timber growers and at the same time minimize environmental damage by reducing the number of trees that need to be felled.Food security is a critical concern as the global population expands and natural resources dwindle.
Smart solutions for more efficient farming, hardier crops, alternative sources of nutrition, and safer food packaging and storage are essential. No other single country — certainly not one as young and as tiny as Israel — has contributed more breakthroughs to this area than Israel. Since the s, Israelis have not only been finding miraculous ways to green their own desert but have shared their discoveries far and wide.
While the concept of drip irrigation existed well before Israeli statehood, it was revolutionized by Israeli water engineer Simcha Blass in the s and continues to transform farming across the globe. One example of how Israeli drip irrigation has impacted food supply in foreign countries is Tipa Dropa kit that enables gravity to irrigate when there is no water pressure in rural areas.
Innovation in drip irrigation is constantly evolving. Photo courtesy of GrainPro About one-third of the food produced for human consumption globally is lost or wasted each year. In low-income countries, most of that loss happens in the early and middle stages of the production chain.
One problem is that the majority of newly harvested grains and pulses get ruined by pests and mold before reaching the market. Israeli-designed GrainPro Cocoons provide a simple and cheap way for African and Asian farmers to keep their grain market-fresh. The huge bags, invented by international food technology consultant Prof. Shlomo Navarro, keep both water and air out. Amaizz offers protected electric or solar modular drying, disinfection, and storage units that keep out pests and prevent fungus.
The company also makes cool storage units for any type of grain, in addition to barley and maize threshers that cut down on time, labor and grain damage. Mangoes provide a livelihood for thousands of farmers in developing countries.
However, many mango growers in India, the Americas and West Africa have simply given up in the past few years because such a high percentage of their crops were ruined by various species of fruit flies. Here are just four examples of Israeli precision-ag companies whose solutions are used across the globe:. AgriTask lets farmers integrate all their agricultural data from multiple sources imaging, weather stations, in-field sensors, etc.
Croptimal performs real-time accurate tests of plant tissue, soil and water in the field, dramatically reducing the standard analysis procedure from 10 days to less than an hour.
Prospera makes a digital farming system that collects, digitizes and analyzes vast amounts of data to help growers control and optimize their production and growing systems. Kibbutz Sde Eliyahu-owned Bio-Bee breeds and exports several species of beneficial insects and mites for biological pest control, and bumblebees for natural pollination, to more than 50 nations from India to Chile. The system also helps farmers manage resources, administrative processes and daily functionality with calendars, checklists, reports, maps and digital document storage.
Farming cooperatives can use the platform to assist and manage member growers. The first overseas pilot of AKOLogic, in Angola in cooperation with the International Bank, enabled a cooperative of small farmers to export crops to Europe for the first time. The company is now working with local partners in Balkan countries to enable small traditional farms to sell their crops in the European Union; and is seeking strategic partners to help implement AKOLogic in China, Singapore and South America.
The system also is being implemented through a partner at heavily regulated medical cannabis farms in Israel and elsewhere.July 19, — Ten miles south of Tel Aviv, I stand on a catwalk over two concrete reservoirs the size of football fields and watch water pour into them from a massive pipe emerging from the sand.
The pipe is so large I could walk through it standing upright, were it not full of Mediterranean seawater pumped from an intake a mile offshore. The reservoirs beneath us contain several feet of sand through which the seawater filters before making its way to a vast metal hangar, where it is transformed into enough drinking water to supply 1.
Just a few years ago, in the depths of its worst drought in at least years, Israel was running out of water. Now it has a surplus. Desal works by pushing saltwater into membranes containing microscopic pores. The water gets through, while the larger salt molecules are left behind. But microorganisms in seawater quickly colonize the membranes and block the pores, and controlling them requires periodic costly and chemical-intensive cleaning. But Bar-Zeev and colleagues developed a chemical-free system using porous lava stone to capture the microorganisms before they reach the membranes.
Driven by necessity, Israel is learning to squeeze more out of a drop of water than any country on Earth, and much of that learning is happening at the Zuckerberg Institute, where researchers have pioneered new techniques in drip irrigation, water treatment and desalination. They have developed resilient well systems for African villages and biological digesters than can halve the water usage of most homes.
Bar-Zeev acknowledges that water will likely be a source of conflict in the Middle East in the future.
InIsrael teetered on the edge of catastrophe. Their counterparts in Syria fared much worse. More than a million farmers joined massive shantytowns on the outskirts of Aleppo, Homs, Damascus and other cities in a futile attempt to find work and purpose. Similar stories are playing out across the Middle East, where drought and agricultural collapse have produced a lost generation with no prospects and simmering resentments. Iran, Iraq and Jordan all face water catastrophes. Water is driving the entire region to desperate acts.
Except Israel. Amazingly, Israel has more water than it needs. The turnaround started inwhen low-flow toilets and showerheads were installed nationwide and the national water authority built innovative water treatment systems that recapture 86 percent of the water that goes down the drain and use it for irrigation — vastly more than the second-most-efficient country in the world, Spain, which recycles 19 percent.
But even with those measures, Israel still needed about 1. That million-cubic-meter million-cubic-yard shortfall was why the Sea of Galilee was draining like an unplugged tub and why the country was about to lose its farms.
Enter desalination. The Ashkelon plant, inprovided million cubic meters million cubic yards of water. Hadera, input out another million cubic meters million cubic yards. And now Sorek, million cubic meters million cubic yards. All told, desal plants can provide some million cubic meters million cubic yards of water a year, and more are on the way. The Sea of Galilee is fuller. And the country faces a previously unfathomable question: What to do with its extra water? Inside Sorek, 50, membranes enclosed in vertical white cylinders, each 4 feet high and 16 inches wide, are whirring like jet engines.
The whole thing feels like a throbbing spaceship about to blast off. The cylinders contain sheets of plastic membranes wrapped around a central pipe, and the membranes are stippled with pores less than a hundredth the diameter of a human hair. Water shoots into the cylinders at a pressure of 70 atmospheres and is pushed through the membranes, while the remaining brine is returned to the sea. Desalination used to be an expensive energy hog, but the kind of advanced technologies being employed at Sorek have been a game changer.
Water produced by desalination costs just a third of what it did in the s. Sorek can produce a thousand liters of drinking water for 58 cents.After you enable Flash, refresh this page and the presentation should play. Get the plugin now. Toggle navigation. Help Preferences Sign up Log in. To view this presentation, you'll need to allow Flash.
Click to allow Flash After you enable Flash, refresh this page and the presentation should play. View by Category Toggle navigation. Products Sold on our sister site CrystalGraphics. Title: Israel Agriculture:. Tags: agriculture israel lux. Latest Highest Rated. Theoretical or speculative without practical purpose or intention. Having no practical meaning or usefulness. Whether your application is business, how-to, education, medicine, school, church, sales, marketing, online training or just for fun, PowerShow.
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Check out PowerShow. There is truly something for everyone! Related More from user.Photos of Israeli inventions currently exhibited at Ben Gurion Airport.
Israeli technology to transform Indian agriculture
But which Israeli startups and technologies are truly changing the world? What, if any, could be the connection between cancer and ice? The cryoablation system uses below-freezing temperatures and liquid nitrogen to essentially freeze the tumor in place, in a procedure that takes just 15 minutes and requires only a bit of local anesthetic.
In the US alone, there are nearlyindividuals with spinal cord injuries that partially or entirely inhibit regular motor functions. For them, standing and walking around freely remains the stuff of dreams. Its systems use video cameras and advanced algorithms to identify and respond to other vehicles, bends in the road, pedestrians and traffic signs, providing advanced warning for drivers and thereby preventing road accidents.
Mobileye has already embedded its technology into cars made by Audi, Tesla Motors and others. Launched in in Israel, and now owned by Google, this navigation app uses a complex algorithm and the real-time speeds of its users to determine the best driving routes.
What he calls the SniffPhone uses nanotechnology sensors to analyze the particles on the breath and is able to pinpoint exact diseases, including certain kinds of cancer. Netafim is synonymous with the famous Israeli invention of drip irrigation, which is now helping numerous countries around the world to conserve water and save money by supplying plants with just the right amount of water.
The drip irrigation technique was developed back in the 60s by Israeli engineer and inventor Simcha Blass, along with Kibbutz Hazerim, which later started manufacturing the original drip irrigation systems on site. Israel is known for harvesting energy from the sunlight using solar panels. Instead of a land-based solar system, the company decided to develop a water-based technology. According to Solaris Synergyany fresh, salt or waste water surface can be turned into a solar energy platform.
Compression is one of the simplest ways to prevent severe bleeding, and yet it is not suitable in all cases, especially when the injured may have internal bleeding. Israeli-developed WoundClot bandages offer a solution, saving lives within minutes — before the injured even reaches a hospital.
Developed by nano-materials specialist Dr. Shani Eliyahu-Gross of Core Scientific Creations, WoundClot is composed of a highly absorbent gauze made from regenerated cellulose what plant cell walls are made of.
When applied to a wound, this single-use, sterile bandage turns into a gel-state membrane, forming a stable membrane with the platelets clotting blood cells from the wound.
By enhancing the natural process of coagulation, WoundClot stops hemorrhaging within minutes.