In Response to Climate Change, California Is Looking to Nature’s Patterns

Water policy in the Western U.S. has always been a contentious issue. Changes in water management, however, are slowly happening. For example, an increasing number of dams are being deconstructed where environmental, safety, and Indigenous-cultural impacts outweigh the benefits of hydropower, flood control, irrigation, or recreation. Dams across the U.S. have an average age of more than half a century, and many pose a growing safety risk. Power production from dams is becoming less economically viable as costs of solar- and wind-generated electricity fall. 

More recently, the issues of water wastage and flood control from dam removal are being offset by allowing rivers to return to more natural flow patterns. Floodplain restoration is occurring along the Mississippi River and in Washington State, but California is rethinking how rivers flow even more broadly and leads with an additional emphasis on ecological health as climate change alters the environment. Carefully selected types of woody trees and shrubs are being planted in restored floodplains to enhance wildlife habitat and attract native species. 

California’s largest floodplain restoration project, the 2,100-acre Dos Rios Ranch Preserve in the Central Valley (at the confluence of the Tuolumne and San Joaquin rivers), is removing levees so that when heavy rains occur, the rivers can overflow their banks and revert to their historic floodplains.

The state is prioritizing these types of projects to lower risks to homes and property while boosting wildlife habitat, improving water quality, and potentially recharging groundwater supplies. As climate change leads to higher temperatures, mountain snowpack that typically trickles into the watershed will likely increase river flows and flooding. The growing risk to cities like Sacramento and Stockton, both built in floodplains, is alarming experts. Not only are California’s dry periods getting drier, but scientists are expecting wet periods to get wetter.

The update to the Central Valley Flood Protection Plan, just being released, puts a premium on floodplain restoration to reduce risk to 1.3 million people who live in floodplains. Unlike in the contentious world of most California water policy, there is wide agreement on the value of restoring floodplains, which can also reduce one concern attached to dam removal projects. There is good funding news: The Biden infrastructure bill earmarks $1.75 billion for projects designed to reduce flood risk.

California officials initiated Central Valley flood planning only a decade ago, but in this short time have established the state as a leader, if not the leader. Since the 1850s, 95 percent of Central Valley wetlands and river habitats have been lost. Restoring all of that will be impossible, but the state is starting to reclaim some of these losses.

The factor that has shaped human civilization more than any other is water. The extreme weather patterns due to climate change are increasing drought in some regions and extreme storms and floods in others. In California and the West, we are experiencing more intense drought. Given this shift, irrigation practices are key to achieving optimal water efficiency on farms and in urban landscapes. Drip irrigation has been widely adopted the past few decades. More recently, a new irrigation technology called GrowStream, designed to communicate directly with plants, is starting to be deployed.

This plant-responsive irrigation system is based on an understanding of plant physiology and organic chemistry. The groundbreaking research by Suzanne Simard over the past three decades reveals the complex, interdependent underground mycorrhizal networks of forest trees and how they communicate, learn, and share. Her work is the foundation for this “smart” irrigation system. The genius of this system is subsurface tubing infused with a pore-filled polymer that can sense a plant’s needs. When a plant gets thirsty, it releases a special chemical into the surrounding soil. The microporous tubing is poised to respond to these chemicals with the slow release of water and nutrients through its millions of micropores at a rate to match the roots’ absorption capacity. When the plant’s water craving is quenched, it stops emitting the thirst chemical, and the micropores close.

Since the system is responding “real-time” to the plant’s signals, it can answer to the plant’s reaction to temperature and wind variations. Because the system is in sync with the plant’s requirements, there is less stress on the plant, resulting in more growth and higher yields. The tubing lines can run 1,200 feet, and since the tubing communicates directly with each individual plant, one line can support a variety of plant types. 

The system is easy to install and maintain; costs the same or less than other subsurface irrigation technologies; requires no sensors, valves, controllers, timers, or other electronic devices; and has no emitters to get clogged. A small machine is able to trench, roll out the tubing, and backfill in one pass. Most importantly, the efficient application of water reduces the amount needed by 30-50 percent over drip systems. Similarly, the ultra-low pressure and flow rates dramatically reduce pumping demands, yielding 40-70 percent savings on energy. 

The GrowStream system is being used in 14 countries, some in the Middle East and some in Africa. In the U.S., it is being tested on urban landscaping with the goal of increasing green cover and countering the heat-island effect. All considered, it has the potential to greatly reduce water scarcity and improve food security. The biggest hurdle will be getting farmers to change from existing methods of irrigation that are already established and paid for.