Global Soil Monitoring Market Outlook
Revenue, 2024
$813M
Forecast, 2034
$3.40B
CAGR, 2025 - 2034
15.4%
The Soil Monitoring industry revenue is expected to be around $937.9 million in 2025 and expected to showcase growth with 15.4% CAGR between 2025 and 2034. The expected growth demonstrates that soil monitoring has evolved into a critical operational skill for sustainable food security and climate resilient farming and environmentally friendly land management because all value chain participants need detailed soil information to enhance their operations and defend their crops and environmental stability. The market adoption of Agricultural and Non agricultural applications reaches 100.0% of total adoption while Hardware Component leads industry revenue through its 2025 sales of 468.14 million which supports precision agriculture and smart irrigation and environmental monitoring through connected soil sensors and soil moisture sensors and probes and data loggers.
Soil monitoring, Soil Testing, requires continuous measurement of essential soil parameters through IoT enabled sensor networks and telemetry systems which produce real time data for operational and strategic decision making. The main uses of soil monitoring include agricultural applications for precise irrigation management and variable fertilizer application and soil health improvement and non farm uses in civil engineering and landscaping and land restoration and environmental impact studies. The combination of remote sensing technology with wireless sensor networks and farm management software systems creates new opportunities for predictive maintenance and automated control and better resource management in various industries.
Market Key Insights
The Soil Monitoring market is projected to grow from $812.8 million in 2024 to $3.40 billion in 2034. This represents a CAGR of 15.4%, reflecting rising demand across Precision Agriculture, Smart Irrigation, and Environmental Monitoring.
METER Group, Sentek Technologies, and The Toro Company are among the leading players in this market, shaping its competitive landscape.
The Soil Monitoring market shows its highest market share through the United States and China which will experience 13.9% to 18.5% annual growth rates from 2024 to 2030.
The research predicts that Indonesia, Mexico and South Africa will experience the highest market expansion through 10.8% to 16.2% CAGR.
Transition like Digital Field Intelligence is expected to add $263 million to the Soil Monitoring market growth by 2030
.The Soil Monitoring market will experience a $2.6 billion expansion from 2024 to 2034 while Non-agricultural Application manufacturers will capture most of the market growth.
With
rising climate-resilient agriculture initiatives and expanding precision farming adoption transforming real-time soil monitoring accuracy and coverage, and
Rapid integration of wireless IoT sensor networks enhancing continuous, data-driven soil monitoring and remote decision-making, Soil Monitoring market to expand 319% between 2024 and 2034.
Opportunities in the Soil Monitoring
The Indian and Southeast Asian regions with water scarcity maintain their large horticulture farms which produce fruits and vegetables and plantations through manual field inspections that result in unstable crop yields and excessive fertilizer usage. The combination of wireless moisture and salinity probes with drip irrigation controls remains inaccessible to most farms beyond their flagship operations. The Asian Pacific horticulture sector will also experience its most significant hardware driven expansion through in situ sensor networks for precision irrigation because soil monitoring hardware already reached US$463.51 million in 2024 and will reach US$925.34 million by 2030.
Growth Opportunities in North America and Asia-Pacific
The main force behind North American soil monitoring activities stems from large scale Agricultural operations which use precision agriculture and data based crop management systems for their adoption decisions while golf courses and sports turf and municipal green infrastructure create profitable market segments. The market demands complete solutions which unite soil moisture sensors with smart irrigation systems and agricultural data analysis to help farmers enhance their resource usage and prove their soil health progress while meeting rising water conservation standards. The market competition exists between established irrigation and equipment manufacturers and specialized soil technology companies including METER Group and The Toro Company and new analytics startups that use remote sensing and wireless sensor networks to create integrated solutions. The market requires companies to differentiate themselves through reliable performance in challenging outdoor environments and seamless equipment integration and dedicated agricultural expertise to achieve market leadership. The company should concentrate on developing high precision sensors and subscription based decision systems for row crops and permanent crops and create specific Non agricultural solutions for sports turf and landscaping managers who need water conservation and regulatory adherence and asset defense instead of yield optimization.
The Asia Pacific region shows the greatest interest in soil monitoring through agricultural applications because China and India and Australia implement precision agriculture to combat water shortages and soil deterioration and enhance land productivity on their fragmented agricultural region's. The market demands affordable solutions which unite durable soil moisture sensors with mobile applications and smart irrigation systems and localized agricultural models and user friendly interfaces for commercial farms and progressive smallholder operations. The competition includes Sentek Technologies and CropX Inc and Stevens Water Monitoring Systems Inc together with regional electronics manufacturers and ag tech ventures that use remote sensing and cloud analytics to provide localized services. The success of products depends on three essential factors which include channel strength and government program alignment and flexible pricing models. The investment strategy should focus on developing upgradeable modular hardware while building relationships with irrigation dealers and cooperatives and integrating with digital farming platforms while choosing specific non agricultural applications for mining rehabilitation and infrastructure development and urban landscape management.
Market Dynamics and Supply Chain
01
Driver: Rising climate resilient agriculture initiatives and expanding precision farming adoption transforming real time soil monitoring accuracy and coverage
The government along with agribusinesses and food processing companies have also expanded their climate resilient agriculture programs through high resolution soil monitoring systems which predict drought risks and water availability and crop stress at individual field levels. The growing number of initiatives now requires soil moisture sensors and soil nutrient probes and remote sensing platforms to support regenerative agriculture and carbon sequestration verification and sustainable land management. The fast growth of precision agriculture technology also drives investors to support development of connected soil monitoring equipment which operates with machine learning systems for yield forecasting and automated application rates. Farmers now use soil moisture analysis to control their precision irrigation systems which help them reduce water usage and optimize fertilizer application and power consumption. The integration of precision farming systems with satellite data and field based sensor networks has also transformed soil monitoring from occasional tests to ongoing data based assessments which improve soil health while lowering expenses and safeguarding agricultural productivity in the long run.
Soil monitoring has also evolved from manual spot checks to autonomous real time surveillance through the deployment of low power wireless sensor networks and IoT in agriculture. The current battery efficient long range communication systems allow dense networks of soil moisture sensors and salinity probes to send data directly to cloud based analytics platforms. The platforms use advanced data analytics and AI to identify irregularities while forecasting nutrient shortages and activating automated precision irrigation and fertigation systems. The remote dashboard system enables agronomists and farm managers to track multiple soil conditions across different locations while performing field comparisons and data driven decision making from any location which reduces their need for physical site visits. The system enhances operational performance and response times through its ability to monitor multiple sites and perform field comparisons and data driven decision making from any location.
02
Restraint: High upfront costs and uncertain ROI slow farmer adoption of advanced soil monitoring solutions
The high cost of capital intensive hardware and subscription based analytics platforms and installation fees prevents many mid size farms from acquiring comprehensive soil monitoring systems which results in reduced unit sales and decreased revenue growth in precision agriculture. The adoption of IoT soil sensors and soil moisture monitoring systems remains limited in emerging markets because growers choose to use manual sampling methods which postpones software license renewals and decreases smart farming service demand and restricts vendor scale efficiency.
03
Opportunity: AI powered soil nutrient and moisture analytics platforms will empower North American agri input suppliers and cooperatives and Climate resilient soil health monitoring services can unlock productivity for smallholder cereal farmers in Sub Saharan Africa
North American agri input manufacturers and cooperatives now look for advisory services which demonstrate the field level effectiveness of their seeds and fertilizers. The development of AI based platforms which analyze ongoing soil moisture and nutrient and weather data to create specific recommendations and sustainability performance indicators remains in its early stages and lacks unity. The global market for soil monitoring software will experience the fastest growth because it will expand from US$147.26 million in 2024 to US$330.29 million by 2030. The software market for cloud based analytics will experience the most significant growth because it serves both input providers and co ops.
Smallholder farmers who grow maize and sorghum and millet in Sub Saharan Africa struggle with soil deterioration because they lack access to specific agronomic guidance for their individual fields. The development of soil monitoring services which combine affordable sensor technology with satellite data and credit services and input advice has not only advanced past donor funded experimental stages. The global market for soil monitoring services will grow from US$93.52 million in 2024 to reach US$407.72 million by 2030. The subscription based service model for African cereal smallholders will establish itself as the fastest expanding segment in soil monitoring.
04
Challenge: Fragmented standards and poor data interoperability reduce confidence in scalable soil monitoring deployments
The combination of different sensor protocols and non compatible data platforms and varying calibration methods creates barriers for complete soil monitoring system integration with farm management software which reduces the overall value for big businesses. The implementation of multi region environmental monitoring projects faces delays from agribusinesses because they purchase fewer devices per hectare which extends sales cycles for analytics providers and leads them to select alternative decision support tools with simpler integration capabilities.
Supply Chain Landscape
1
Soil Sensor Components
METER GroupStevens Water Monitoring Systems Inc
2
Soil Monitoring Hardware
Sentek TechnologiesThe Toro Company
3
Data Analytics Platforms
CropX Inc.METER Group
4
End-User
precision agriculturesmart irrigationenvironmental monitoring
1
Soil Sensor Components
METER GroupStevens Water Monitoring Systems Inc
2
Soil Monitoring Hardware
Sentek TechnologiesThe Toro Company
3
Data Analytics Platforms
CropX Inc.METER Group
4
End-User
precision agriculturesmart irrigationenvironmental monitoring
Use Cases of Soil Monitoring in Precision Agriculture & Smart Irrigation
Precision Agriculture : The implementation of precision agriculture depends on soil monitoring which uses in situ soil moisture sensors and soil nutrient sensors and temperature probes to create optimized crop input plans and yield maximization. The combination of row crops and orchards and vineyards operations produced $606.31 million in revenue during 2025 and experts predict this market segment will expand at 15.1% annually from 2026 to 2030 because farmers build out their connected field systems. The majority of projects use buried capacitance and TDR soil moisture sensors and multi depth probes and IoT based soil monitoring nodes which connect to wireless sensor networks that send data to cloud platforms for converting measurements into irrigation and fertilization and planting guidance which supports climate resilient farming practices. The hardware segment which includes sensors and dataloggers and telemetry units makes up 57.6% of total demand in 2025 while analytics software and advisory services follow at 18.3% and 24.10% respectively to create complete soil health management systems. METER Group stands out for its research grade soil moisture and matric potential instruments which deliver precise and dependable results for both agricultural operations and scientific research. Sentek Technologies stands out through its multi depth profile probes which enable detailed irrigation planning and CropX Inc. leads with cloud based agronomic analytics that convert frequent soil data into specific field recommendations for agricultural soil monitoring. These companies lead the development of data based agricultural soil monitoring through their innovative solutions.
Smart Irrigation : Smart irrigation systems monitor agricultural fields and non agricultural region's including golf courses and urban landscapes through real time soil tracking to optimize water delivery and minimize waste while maintaining crop health and landscape appearance. The combination of in ground soil sensors with tensiometers and variable rate irrigation systems and connected controllers enables smart irrigation to function as a fundamental water saving tool for soil monitoring in region's facing water scarcity. The Toro Company uses its extensive turf and landscape irrigation customer base to develop controllers and valve systems which work perfectly with soil probes for exact zone management. Sentek Technologies markets deep profile sensors which tree crop and vineyard farmers use extensively while METER Group delivers advanced sensors and telemetry systems for high value horticulture operations. The software optimization platform from CropX Inc. uses soil data and weather information and crop models to generate irrigation plans which optimize yield production and water conservation and operational expenses for extensive asset networks.
Environmental Monitoring : The non agricultural soil monitoring sector in environmental monitoring serves watershed management and flood prediction and contamination detection and land conservation efforts which represent a rapidly expanding market that generated 206.44 million in 2025 non agricultural revenue and shows a 16.26% CAGR growth rate from 2026 to 2030. The projects depend on extended soil moisture tracking systems which combine surface and subsurface sensors with remote monitoring stations that use telemetry to send data to central processing facilities. The systems enable organizations and scientists to monitor infiltration rates and erosion susceptibility and groundwater replenishment and structural integrity of infrastructure. Stevens Water Monitoring Systems Inc. leads this market through its development of durable field sensors and dataloggers and communication systems which operate well in extreme environmental conditions to secure government and research and utility contracts. METER Group supports this through its precise scientific instruments and complete data management solutions which environmental scientists and climate researchers depend on. The providers show how modern soil monitoring systems with advanced capabilities help organizations create data driven policies and perform risk evaluations and develop sustainable land management strategies.
Recent Developments
The Soil Testing sector shows fast growth because smart agriculture solutions have become popular for precision farming and climate resilient crop management. The integration of wireless soil sensors and IoT based soil health platforms with real time soil moisture monitoring systems into farm management systems enhances both nutrient management and irrigation scheduling operations. The market now focuses on remote sensing and satellite based soil analysis which works together with in field soil testing to support large scale data driven decision making.
April 2024 : The European Parliament approved its stance regarding the proposed EU Soil Monitoring Law which enhanced EU wide standards for systematic soil monitoring and soil health monitoring to support faster deployment of IoT soil sensors and soil moisture sensors in precision agriculture and smart irrigation systems throughout member states.
July 2023 : The European Commission introduced the EU Soil Monitoring Law which established the first complete system for soil monitoring across the European Union to support growing investments in sophisticated soil monitoring solutions and digital platforms for extensive agricultural and land management soil health assessment.
Impact of Industry Transitions on the Soil Monitoring Market
As a core segment of the Industrial Service industry,
the Soil Monitoring market develops in line with broader industry shifts.
Over recent years, transitions such as Digital Field Intelligence and Climate Centric Land Management have redefined priorities
across the Industrial Service sector,
influencing how the Soil Monitoring market evolves in terms of demand, applications and competitive dynamics.
These transitions highlight the structural changes shaping long-term growth opportunities.
01
Digital Field Intelligence
The Soil Monitoring market is undergoing a significant transformation as it shifts from traditional manual sampling to advanced continuous sensor based systems integrated within precision agriculture platforms. This evolution, driven by the incorporation of IoT sensors and remote sensing technologies, facilitates real time soil data collection, enabling agribusinesses to optimize variable rate irrigation and fertilizer application. As a result, fertilizer manufacturers are compelled to innovate specific product formulations, while crop insurance and agri finance sectors leverage environmental monitoring data to refine risk pricing. This transition, exemplified by the rise of Digital Field Intelligence, is projected to contribute an impressive $262 million to the Soil Monitoring market by 2030, underscoring the strategic imperative for stakeholders to adapt to these technological advancements to enhance operational efficiency and profitability. This industry transition is expected to add $263 million in the industry revenue between 2024 and 2030.
02
Climate Centric Land Management
Soil monitoring now plays a vital role in climate smart agriculture and land restoration which has led to its expansion into forestry and construction and energy sectors. The combination of detailed soil carbon and compaction data enables projects that focus on carbon sequestration and sustainable biomass harvesting and environmentally friendly construction methods. Engineering companies use continuous soil data analytics to create infrastructure plans which reduce the risk of erosion and landslides. The placement of renewable energy turbines and solar farms depends on soil stability and drainage conditions and long term soil health indicators.