(Press-News.org) UNIVERSITY PARK, Pa. — Measuring temperature and nitrogen levels in soil is important for agriculture systems but detecting them apart from one another is difficult to do. Huanyu “Larry” Cheng, James L. Henderson, Jr. Memorial Associate Professor of Engineering Science and Mechanics at Penn State, led researchers in the development of a multi-parameter sensor that can effectively decouple temperature and nitrogen signals so that each can be measured accurately. The results were recently published by Advanced Materials.
“For efficient fertilization, there is a need for continuous and real-time monitoring of soil conditions, specifically nitrogen utilization and soil temperature,” Cheng said. “This is essential for evaluating crop health, reducing environmental pollution and promoting sustainable and precision agriculture.”
Using nitrogen as a fertilizer is common practice in agriculture, and the goal is to use the ideal amount for the best crop output. When too little is nitrogen is used, the crop’s yield may be less than optimum. When too much is used, fertilizer is wasted, plants can burn and harmful nitrogen gases are released into the environment. Accurate detection of nitrogen levels — specifically, the loss of nitrogen in the form of a gas — can help farmers achieve optimal levels of fertilization for plant growth.
“Plant growth is also impacted by temperature, which influences the physical, chemical and microbiological processes in soil,” said co-author Li Yang, professor in the School of Artificial Intelligence at China’s Hebei University of Technology. “Continuous monitoring enables farmers to develop strategies and interventions when temperatures are too hot or too cold for their crops.”
Unfortunately, both gases and temperature — along with relative humidity variations — can cause changes in the resistance reading of the sensor, so the sensor cannot tell them apart. Sensing mechanisms that can obtain nitrogen gas and temperature measurements independent of each other are rarely reported, according to Cheng.
Cheng’s team designed and fabricated a high-performance sensor to completely decouple the detection of nitrogen loss and soil temperature. The multi-parameter sensor is based on vanadium oxide-doped, laser-induced graphene foam. Vanadium oxide can adsorb and interact with nitrogen gases, and doping metal complexes in graphene have also been found to improve gas adsorption and detection sensitivity.
The sensor is encapsulated by a soft membrane that blocks nitrogen gas permeation so the sensor responds only to temperature variations. Additionally, the encapsulation can be removed and the sensor operated at an elevated temperature. Doing so removes the influence of relative humidity and temperature in the soil to allow for accurate measurement of the nitrogen gas. The combination of the encapsulated sensor and the unencapsulated sensor can completely decouple temperature and nitrogen gas without interference.
Decoupling temperature variations and nitrogen gas emissions can be leveraged to design and apply multimodal devices with decoupled sensing mechanisms for precision agriculture in all weather conditions, according to Cheng.
“The capability to simultaneously detect ultra-low nitrogen oxide concentrations and small temperature changes paves the way for the development of future multimodal electronic devices with decoupled sensing mechanisms for precision agriculture, health monitoring and other applications,” Cheng said.
Cheng’s work was supported in part by the National Institutes of Health, the National Science Foundation and Penn State. The National Natural Science Foundation of China, the Key Research and Development Project of Hebei Province and the China Postdoctoral Science Foundation also provided support.
Co-authors include Ankan Dutta, doctoral student of biomedical engineering at Penn State; Li Yang, Xue Chen, Shuaijie Du, Shiji Guo, Chuizhou Meng, Guangyu Niu, Ya Wang, Ye Xue and Jaiya Yan, all affiliated with Hebei University of Technology, China; Cheng Zhang, Minjiang University, China; and Peng Zhou, Tiajin Tianzhong Yimai Technology Development Co. Ltd., China.
Cheng is also affiliated with Penn State’s Institutes of Energy and the Environment; the Materials Research Institute; the Institute for Computational and Data Sciences; the Engineering, Energy, and Environmental Institute; the Sustainability Institute; and additional centers at Penn State.
END
New soil sensor may improve efficiency of crop fertilization
2023-03-28
ELSE PRESS RELEASES FROM THIS DATE:
Story tip: A wise tool for modifying microbes
2023-03-28
A DNA editing tool adapted by Oak Ridge National Laboratory scientists makes engineering microbes for everything from bioenergy production to plastics recycling easier and faster.
The Serine recombinase-Assisted Genome Engineering, or SAGE system, lets scientists quickly insert and test new DNA designs in a variety of microorganisms. Engineered microbes hold promise for making biofuels, recycling mixed plastics, aiding soil carbon storage and treating health disorders.
“SAGE works in virtually all microorganisms, revolutionizing what we’re able to do with microbes,” ...
Individualized brain fingerprints can help to uncover early signs of Alzheimer’s disease
2023-03-28
Neuroscientists from the Medical University of South Carolina (MUSC) report in Brain Connectivity that they have detected subtle differences in the way the brain functions in older adults with preclinical Alzheimer’s disease (AD).
Adults with preclinical AD have the earliest signs of disease, such as buildup of amyloid-beta proteins in their brains. However, they have no noticeable symptoms of cognitive decline.
The research team, led by Andreana Benitez, Ph.D., and Stephanie Fountain-Zaragoza, Ph.D., used a novel brain imaging analysis technique to construct individualized maps of brain function. They then looked to see if there were ...
Tax on sugary drinks helps health during pregnancy
2023-03-28
Taxes on sugary drinks reduce the risk of gestational diabetes and unhealthy weight gain in pregnant women, reports a new UC San Francisco study of more than 5 million women.
Published by the American Journal of Preventive Medicine, this is the first study to examine how sugar-sweetened beverage (SSB) taxes affect the health of mothers and children immediately before and after birth. Researchers compared mothers who were living in cities that had SSB taxes in effect while they were pregnant to mothers in cities with no SSB taxes. In addition to significantly lowering the risk of diabetes and unhealthy weight gain ...
Technology to protect bioactive compounds from food during digestion
2023-03-28
Bioactive compounds present mostly in fruit and vegetables perform different bodily functions relating to health and well-being. Their effects are considered antioxidant, antidiabetic, antiaging and anticancer, among others.
Many studies are looking for ways to optimize absorption of bioactive compounds by the organism and increase their bioavailability – the proportion that enters the bloodstream after absorption. One way is to coat the compounds with another material and package them on the nanometric scale (a nanometer is a billionth of a meter). Nanoencapsulation, as this technique is known, assures slow release of the compounds so that they take longer to digest and can survive ...
New drug combination holds unusually positive results for HPV-negative patients with advanced head and neck cancer
2023-03-28
WASHINGTON (March 28, 2023)— A new combination drug treatment showed promising results in patients with pan-refractory, recurrent/metastatic head and neck cancer, according to a study published today in the Journal of Clinical Oncology.
Head and neck cancer is a deadly form of cancer that arises in the lining of the mouth and throat. Worldwide more than 700,000 people were diagnosed with head and neck cancer in 2021. The disease is caused by the human papillomavirus (HPV) or environmental carcinogens, including the regular use of tobacco or alcohol. When the cancer comes back after curative ...
NASA wallops supports second rocket lab electron launch
2023-03-28
NASA’s Wallops Flight Facility supported the successful launch of a Rocket Lab Electron rocket at 6:39 p.m. EDT, Thursday, March 16, from Virginia’s Mid-Atlantic Regional Spaceport on Wallops Island, Virginia.
The mission, named “Stronger Together,” carried two, 100-kilogram commercial satellites to low-Earth orbit for Capella Space.
“I’m extremely proud of the NASA team that helped ensure a safe and successful launch operation today,” said ...
Researchers find new molecule that shows promise in slowing SARS-CoV-2
2023-03-28
Researchers have designed a molecule that slows the effects of one of SARS-CoV-2's more dangerous components – an enzyme called a protease that cuts off the immune system's communications and helps the virus replicate.
While much more needs to happen to develop a drug, scientists can begin to imagine what that drug could look like – thanks to new images of the molecule bound to the protease.
“We have been searching for an effective molecule like this one for a while,” said Suman Pokhrel, a Stanford University graduate student in chemical and systems biology and one of the paper’s lead authors. “It is ...
Rural educators find solutions to support multilingual learners
2023-03-28
A new study found a professional development program helped teachers in a rural school district in the Southeast to collaborate and identify innovative solutions to serve multilingual learners, or students learning English as a second language.
The study, published in the Journal of Research in Rural Education, suggests professional development can help prepare teachers in rural districts that have fewer resources and a growing need to support multilingual learners.
“Professional development is essential in rural communities, where you might not have resources for specialists like a literacy coach, bilingual school psychologist, or bilingual family engagement specialist,” ...
Retinal scans: A non-invasive, inexpensive method to track human aging
2023-03-28
Buck Institute professor Pankaj Kapahi thinks the eye is a window to aging. His lab, in collaboration with Google Health and Zuckerberg San Francisco General Hospital, has shown how imaging of the fundus, the blood vessel-rich tissue in the retina, can be used to track human aging, in a way that is noninvasive, less expensive and more accurate than other aging clocks that are currently available. Publishing in eLife, researchers also did a genome-wide association study (GWAS) to establish the genetic basis for such a clock, which they call eyeAge.
“This type of imaging could be really ...
New additives could turn concrete into an effective carbon sink
2023-03-28
CAMBRIDGE, MA -- Despite the many advantages of concrete as a modern construction material, including its high strength, low cost, and ease of manufacture, its production currently accounts for approximately 8 percent of global carbon dioxide emissions.
Recent discoveries by a team at MIT have revealed that introducing new materials into existing concrete manufacturing processes could significantly reduce this carbon footprint, without altering concrete’s bulk mechanical properties.
The findings are published today in the ...