As you read this paragraph, a NASA satellite orbits around planet Earth, gathering data on — of all things — soil moisture. Moisture in the soil acts like a thermostat for the planet. Along with affecting agricultural production, it has a large influence on the weather and climate. Its impact on the planet is so important, NASA has sent a satellite into space to measure it.
As sunlight is absorbed by the Earth, it can do two things for soil moisture. It can evaporate moisture in the soil. Or, if there is no moisture, it can warm the soil surface. This affects the amount of moisture in the air and the amount of heat the soil is absorbing, in turn shifting air patterns, weather, and climate.
“Measuring soil moisture is now one of our top priorities because it affects so much,” says Michael Cosh. Cosh works at the Agricultural Research Service’s Hydrology and Remote Sensing Laboratory in Beltsville, MD. “Soil moisture affects our crops, our weather, flooding, human health, and even determines if farmers can get into their fields.”
Soil moisture is an important component of flood risk. If water falls on dry soil, it can be absorbed. But if it falls on saturated soil, it can run off and lead to flooding. Soil moisture is always of top importance for those working in agriculture. “I’ve heard of plants being grown without soil but never heard of one being grown without moisture,” Cosh says. “Soil moisture is just critical for farmers. Growing up in a farming community, it is very rewarding to know I can help make farmers’ jobs easier.”
The problem is that there are many different methods, instruments, and sensors that can measure soil moisture — including the NASA satellite called Soil Moisture Active Passive, or SMAP. Cosh is on a mission to ensure that information is accurate.
The SMAP satellite was originally planned to work in both an active and passive way. The passive sensor works like a camera, taking data from the Earth’s surface. The active sensor sends a radar pulse and collects the bounce back. Unfortunately, the active sensor stopped working on July 7, 2015. However, the SMAP mission is continuing with just the passive sensor.
From space, the satellite obviously can’t directly measure soil moisture, but the signals collected by SMAP are strongly related to the moisture conditions on the surface. Cosh says the satellite actually measures characteristics of the ground and then uses complex equations to estimate soil moisture, with some error. Cosh and his team are hoping to help NASA reduce the errors. They compare their on-ground moisture measurements to the SMAP satellite data.
By using numerous instruments here on Earth, Cosh and his team of collaborators are helping NASA determine the accuracy of its satellite. At the same time, they are working to ensure the methods and instruments they are using on the ground are also comparable.
Cosh explains that to test different instruments he and his team must compare data from an estimate to the “truth,” which is the actual observed soil moisture. Obtaining this “truth” is simple in concept, but difficult in practice. A soil sample is scooped out of the ground, weighed, heated in an oven to evaporate any moisture, and weighed again. The difference between the two weights shows how much soil moisture evaporated. Using instruments to measure soil moisture is much easier but must closely reflect this true measurement — and that’s what Cosh and his team are trying to test.
“The soil moisture community is working to establish guidelines for instrument installation and data collection, and people are talking about building a national soil moisture database program,” he says. “We want everyone talking the same language.”
Using a satellite to gather data on soil moisture begs the question: Can we measure it on other planets? While Cosh says there are currently no plans to do so, the information NASA gains from its Earth experiences could help it explore other planets. “If we aim the satellite at another planet we would have the knowledge built up from Earth experiments to help interpret what that means on another planet,” he says.