Small Robot Company (SRC) announced it has achieved its proof-of-concept milestone for developing robotic soil health intelligence, working in a collaborative project led by PES Technologies.
This could provide farmers with accurate, repeatable soil health monitoring at the farm scale. Agronomists and farmers could use this information to guide precision improvements to soil health, maximizing yield, and increasing revenue with minimum chemical input.
The groundbreaking pilot project is being conducted using SRC’s Tom monitoring robot to take soil samples with PES Technologies’ soil health sensor mounted on the robot. The sensor detects Volatile Organic Compounds (VOCs) released from soil. In the wider project, the sensor output is being correlated with information about 10+ soil health indicators, including microbial biomass and soil organic matter content.
The project consortium comprises PES Technologies, Small Robot Company, NIAB-EMR, HL Hutchinson Limited, the University of Essex, and the Natural Resources Institute at the University of Greenwich. The project is funded by the government’s Innovate UK grant program. Trial sites include the Lockerley Estate in Hampshire, where robots are a key part of its regenerative farming strategy.
Game-changing for soil health
Phase one of the pilot is now complete, with the proof-of-concept milestone now achieved. The team developed and attached a mechanical sampler to the robot, collecting soil samples from the trial site for in situ detection of VOCs. The soil sample size collected is 10cm3 (400g).
Working together, the consortium is using machine learning approaches to profile soil health trialing VOC sensing technology for automated, continuous in-field sensing with the SRC robots. Microbial VOCs other than carbon dioxide has not previously been exploited in a practical low-cost, on-farm method for measurement of soil health.
The next phase of the robotics element of the project is for NIAB-EMR to conduct ground truthing on soil health data gathered. Samples collected by the robot will be sent to the lab for testing and analysis and compared with the PES sensor data. This will be conducted in the autumn, including at five existing on-farm sites at Lockerley Estate, including comparisons with five years of historical data.
PES Technologies are developing a game-changing soil health analysis tool to provide farmers with a cost-effective technology for the rapid assessment of soil health. In the project, the tool’s output data is being related to a variety of biological, chemical, and physical soil health indicators, including microbial biomass and soil organic matter content, by analyzing the activities and diversity of a soil’s microbial community.
Prior to this project in 2018, PES Technologies demonstrated the feasibility of using the sensor for detecting differences in soil volatiles in collaboration with NIAB-EMR.
Sam Watson Jones, President, and co-founder, Small Robot Company, said,
“Developing farming systems that can regenerate soil health at scale has to be one of our highest priorities. This is vital for food security. Farming is seeing a big shift from intensively managing the soil to regeneratively managing the soil. Our autonomous robots can already deliver a highly precise per plant view. The next step is to bring this precise viewpoint to soil biology. At a level of detail far in excess of current best practice.”
Andrej Porovic, CEO, PES Technologies comments:
“Healthy soils are key to profitable farming. Poor soil health is reducing the productivity and profitability of the agricultural industry worldwide – in particular, it is impacting yields and soils’ resilience to changes in climate. There are more micro-organisms per gram of healthy soil than there are people on the planet – but without these living microbes, the soil is not soil, but just dust. Choosing the right way to improve soil health is vital. We believe that putting our technology on SRC’s robots would be a real game-changer.”
Craig Livingstone, one of the first farmers to trial the new technology, SRC Farmer Advisory Group and National Food Strategy Board representative says,
“Robotics offer us a real chance to answer the many questions of modern agriculture in responding to climate change, carbon sequestration, biodiversity and of course soil and food security. The light weight, low impact monitoring robot Tom is now on my farm scanning emerging wheat, and taking soil samples to assess soil health. In time, by reducing the trafficking on our soil, minimising the use of pesticides, I’m convinced this can only add to more productive, functioning soils capable of producing quality nutritious food.”
Gateway for Carbon Testing
In the future, robotic monitoring could also provide accurate, repeatable carbon measurements at the farm scale. This could be transformational in providing accurate carbon sequestration measurement to support UK farming’s transition to Net Zero by 2040. In the UK alone, 18 million tonnes of emissions could be converted into anything up to 6 million tonnes of CO₂ locked back into the soil, every year. That is a net difference of 24 million tonnes, the equivalent of two-thirds of the UK’s emissions from aviation.
“The UK – and UK agriculture – have made bold commitments to Net Zero. Robotics can already take billions of accurate measurements in each field. This will transform the way that farms are able to sequester and cycle carbon and measure that accurately. The opportunity for the UK (and global) agriculture to support the transition towards Net Zero is enormous,”
agreed Sam Watson Jones.
Craig Livingstone said:
“The climate and biodiversity emergency is here and now for farming. The carbon objectives for our business are really important, focusing strongly on our operations emissions reductions and carbon sequestration. An overarching strategic aim for our business is to be Net Zero, and robotics will be a key tool to take us there.”
Rob Macklin, the National Trust’s Head of Farming and Soils, commented:
“Technology needs to play a big part in solving many of the issues we currently face in farming – particularly improving soil health and carbon sequestration, reducing our reliance on fossil fuel power and fertilizers, and avoiding the adverse impacts of synthetic chemicals on the environment. We have started small robot trials at Wimpole and intend to extend trials to other estates in the near future.
Calum Murray, Innovate UK’s Head of Agriculture & Food, said:
“It’s fantastic to see how Innovate UK’s funding has supported Small Robot Company to develop game changing technologies that will revolutionize the agriculture sector. At Innovate UK, we are proud to be supporting the transformation of the UK’s food production systems, improving productivity and sustainability, and helping the industry move towards achieving net zero emissions by 2040.”
Source: Small Robot Company