In-Situ and Remote Sensing
, USAID AgriLinks, May, 2019
, TNW, March, 2019
, Digital Trends, March, 2019
, Forbes, February 8, 2019
, IBM, February 8, 2019
The Freshwater Trust, IBM Research SweetSense Inc. and the University of Colorado Boulder aim to make groundwater usage sustainable
SAN FRANCISCO, 7 February 2019:听听The Freshwater Trust (TFT), a 501(c)(3) nonprofit working to protect and restore freshwater ecosystems, is partnering with IBM Research and SweetSense Inc., a听听provider of low-cost satellite connected sensors, to pilot technologies which can accurately monitor and track groundwater use in one of the largest and most at risk aquifers in North America. Additional research support will be provided by the University of Colorado Boulder.
Jointly funded by the Water Foundation and the Gordon and Betty Moore Foundation, the project鈥檚 scientists and engineers will demonstrate how the blockchain and remote Internet of Things (IoT) sensors can accurately measure groundwater usage transparently, and in real-time.
The sensors will transmit water extraction data to orbiting satellites and then to the IBM Blockchain Platform hosted in the IBM Cloud. The blockchain will record of all data exchanges or transactions made in an append-only, immutable ledger. The blockchain also uses 鈥渟mart contracts,鈥 whereby transactions are automatically executed when the conditions are matched.
Through a web-based dashboard, water consumers, including farmers; investors and regulators will all be able to monitor and track the use of groundwater to demonstrate how sustainable pumping levels can be achieved through the trading of groundwater use shares in the State of California. Individual users who require groundwater amounts beyond their share will be able to 鈥減urchase鈥 groundwater shares from users who do not require all of their supply at a market-regulated rate.
For example:
- A strawberry farmer is planning to take the season off to prepare for an organic crop the following harvest. The farmer can trade or sell her water credits on the blockchain to another farmer.
- Due to a particularly dry season, a winery realizes it will need additional ground water to avoid losing the vintage. The vintner can purchase additional water shares, without negatively impacting the aquifer.
鈥淭he future success of these sustainability plans hinges on being able to track and report groundwater use, and likely will also require a robust way to trade groundwater shares as well鈥 said Alex Johnson, Freshwater Fund Director with TFT. 鈥淥ur strategic intent is to harness new technologies to develop a system that makes getting groundwater more sustainable, collaborative, accurate and transparent process, which is why we are using the blockchain. We now have the project team and funding to do it, and a strong network of partners in the region that are open to an initial testing and building phase.鈥
鈥淏ased on a research project in Kenya with USAID,听the Millennium Water Allianceand other partners we are now applying our expertise in building decision support systems for water management for surface and groundwater data aggregation, workflow optimization and analytics to address similar challenges in California. With the addition of the blockchain we can bridge critical trust and transparency gaps making it possible to build a robust, scalable and cost-efficient platform for managing precious groundwater supplies anywhere in the world,鈥 said Dr. Solomon Assefa, Vice President, Emerging Market Solutions and Director, 听IBM Research 鈥 Africa.听听
The group will pilot the system in northern California鈥檚 Sacramento-San Joaquin River Delta, an area often referred to as the 鈥渘exus of California鈥檚 statewide water system.鈥 The river delta covers 1,100 square miles and provides water to the San Francisco Bay Area and coastal and southern California and supports dozens of legally protected fish, plant and animal species. 听In addition, nearly 75% of this land is used for agriculture.
The sensor technology is provided by SweetSense Inc, which is currently monitoring the groundwater supplies for over a million people in Kenya and Ethiopia, which plans to scale to 5 million by the end of the year. The sensor data are transmitted over satellite networks to an online data analytics platform.
鈥淏y remotely monitoring groundwater use using our sensors, we鈥檙e able to help improve and maintain sustainable access to water supplies for people, farmers, and livestock. The work we鈥檙e doing in Africa is directly translatable to California,鈥 said Evan Thomas, CEO of SweetSense and Mortenson Chair of Global Engineering & Resilience at the University of Colorado Boulder. 鈥淥ur research team at the University of Colorado will assist in modeling groundwater use through the sensor data and satellite detected rainfall and weather correlations.鈥 听
The collaboration began in response to the Sustainable Groundwater Management Act (SGMA), which was signed into California law in 2014. SGMA听mandated the creation of Groundwater Sustainability Agencies (GSAs), local groups that are responsible for ensuring regional groundwater supplies are sustainably managed. The GSAs are charged with developing and implementing a plan to make their local groundwater usage sustainable by 2040.
Since 2016, TFT has built multiple programs in the basin. In response to another bill, Senate Bill 88, TFT developed a听听for surface water diversion that addresses the unique qualities of the Northern Delta region. In 2017, 148 surface water diversions covering more than 29,000 farmed acres in the region 鈥 including wine grapes, pears, corn, alfalfa, safflower, tomatoes and wheat 鈥 had enrolled in the five-year study. For groundwater concerns in the same area, TFT helped support the formation of the听. This means 17 local agencies formed into one integrated agency and have begun work on a unified plan for sustainably managing groundwater use across a single aquifer to achieve outcomes together rather than work at cross-purposes. These agencies are understaffed, so TFT provides the capacity to gather and analyze data and develop effective sustainability measures.
