NEW Water Node

Quick and streamlined actual evapotranspiration measurements

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What could 0% water savings do for you?


Webinar


Actionable Evapotranspiration Data: An overview of a first-of-its-kind post-processing pipeline in LI-COR Cloud, from data cleaning to gap filling to accumulations.

Watch Recording

Know your actual water use

When water is precious, managing it requires increased precision. Traditional methods provide estimations of evapotranspiration (ET). Instead of estimating, modernize your ET measurements with the Water Node from LI-COR. Our streamlined, all-in-one solution quickly gives you directly measured, actual evapotranspiration data.

The Water Node uses a single sensor–the LI-710 Evapotranspiration Sensor–to deliver accurate, actual ET measurements. Easy to install or move, the sensor connects automatically to cloud-based software where you can get trustworthy data to make confident decisions about your water use.

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Accurate, Actual ET

Graphic illustration of the IoE module box

All-in-One Solution

Graphic illustration of a laptop sharing data to and from a cloud

Automated Results

Get actual ET data, not estimates

The eddy covariance method is the scientifically validated standard for measuring actual evapotranspiration. However, the method has traditionally been a high-cost and complex undertaking for the research community. For practical applications, a formula is used for calculating estimated evapotranspiration instead of directly measuring ET. This calculation requires a cluster of basic sensors that measure temperature, relative humidity, wind speed, and solar radiation. The problem with estimated ET measurements is that they lack precision and accuracy and leave you with high risk in your water management plan. Ultimately, estimates lead to overwatering.

Using the only sensor that measures actual evapotranspiration, the Water Node provides real-time, validated data you can trust to make informed decisions about:

  • Irrigation management
  • Water budgeting
  • Drought monitoring
  • Verification of remote sensing
  • Regulatory oversight
  • Watershed management

An Out-of-the-Box Turnkey Solution

The Water Node includes all the hardware and software you need to take actual evapotranspiration measurements: the LI-710 Evapotranspiration Sensor, an Internet of the Environment (IoE) module, and software in LI-COR Cloud. The all-in-one solution is easy to set up, self-powered, and low maintenance, so you can scale your ET measurements across a large site or to multiple locations. When you move the Water Node, GPS automatically recognizes the new location and displays it in the Cloud. Within minutes of setup, all your ET data is automatically available in our cloud-based software.

Graphic illustration of a Water node

LI-710 Evapotranspiration Sensor

Hardware

A single sensor that measures actual ET from your site in real time

Graphic illustration of the IoE module box

IoE Module

Hardware

On-site device that transfers the sensor’s data to LI-COR Cloud, where it can be accessed anytime, anywhere

Graphic illustration of a laptop sharing data to and from a cloud

LI-COR Cloud

Software

Cloud-based software that allows you and your team to remotely view, share, and download data

Automated on-demand data, accessible anywhere

With software in LI-COR Cloud, you can concentrate on water management rather than data management. The platform empowers you to manage your entire evapotranspiration measurement system from a single centralized source.

  • View all the variables for your project:
    Easily adjust your variables for the ET sensor or the IoE Module.
  • Add additional Water Nodes to scale up, then move them anywhere:
    GPS will automatically map all locations and update any changes.
  • Invite additional users and share your data:
    Every team member can remotely access your ET data anywhere, anytime.
  • Visualize the data your way.
    Change graph views with pre-defined or custom time windows.

Built on the scientific standard by the industry leaders

For more than 50 years, we have been building trusted tools for environmental monitoring. The leading global research networks use our solutions, and researchers worldwide trust our eddy covariance systems to take precise, accurate measurements for publication in high-impact, peer-reviewed journals.

We wrote the book on the eddy covariance method–and the Water Node is designed, engineered, and built on that foundation.

How does the Water Node measure Actual Evapotranspiration?

The LI-710 Evapotranspiration Sensor applies the eddy covariance method to measurements of vertical wind and water vapor concentration at 10 Hz, providing fully processed results every 30 minutes.

See real-time data from a network of Water Nodes in our recent webinar.

Real-Time Evapotranspiration Data: Advanced Solutions for Natural and Agricultural Environments

with Taylor Thomas

Watch the Recording

We compared measurements from the LI-710 Evapotranspiration Sensor to ET data calculated with the Penman-Monteith equation - the standard for estimating evapotranspiration. The Water Node reports lower cumulative daily evapotranspiration, so the equation results in overestimation. When compared with the eddy covariance method, the Water Node reports evapotranspiration with similar accuracy to traditional eddy covariance, but with a more streamlined solution.

Penman Monteith Estimates
A comparison of the LI-710 to Potential ET, Reference ET, and traditional eddy covariance methods using open and closed-path analyzers shows that the LI-710 reports evapotranspiration with the accuracy of traditional eddy covariance.
Penman Monteith Estimates
30-minute latent energy fluxes measured by 5 LI-710s and an LI-7200 (traditional enclosed path) compared against an LI-7500 (traditional open path).

The difference between the Water Node’s direct measurement and the estimate seems small–only 25-45 mm in the example above. However, when added up across an entire field for the complete growing season, the water savings comes to 3 million gallons of water.

What would saving 3 million gallons of water mean for you?

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Case Studies

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