Agriculture Sensor Market Size - By Sensor Type, By Connectivity, By Power Source, & By End Use - Global Forecast, 2025 - 2034

Agriculture Sensor Market Size

The global agriculture sensor market size was valued at USD 2.01 billion and 7.90 million units in 2024. The market is expected to grow from USD 2.25 billion in 2025 to USD 3.85 billion in 2030 and USD 6.11 billion and 23.80 million units by 2034, at CAGR of 11.7% during the forecasted period of 2025-2034, according to Global Market Insights Inc.

• The expansion of the agriculture sensor market results from the seamless integration of the Internet of Things (IoT), cloud computing, artificial intelligence (AI), and machine learning (ML), which together are continuously transforming conventional agribusiness into precise, data-centric enterprises. Modern IoT sensors are now more reliable, robust, and economically viable, facilitating uninterrupted, in situ measurement of key agronomic parameters, including soil moisture, ambient temperature, and physiological crop indices. These networks of devices furnish farmers with actionable intelligence delivered to mobile interfaces, thereby enabling remote fine-tuning of practices and swift intervention in the face of stress signals.
   
• Rising global consciousness regarding natural resource limits, particularly with regard to water and soil health, accelerates the uptake of sensor-based solutions designed to embed sustainability into production systems. Precision soil moisture probes, deployed in vulnerable regions, dramatically reduce irrigation volumes by synchronizing water application with actual crop needs, thereby extending soil moisture reserves. Complementary multispectral sensing platforms further calibrate the application of nutrients and crop protection agents, maintaining agronomic effectiveness while safeguarding soil biota and minimizing runoff, thereby satisfying both yield and ecological governance requirements.
   
• In the face of demographic expansion projected to elevate global population to 9–10 billion by the second half of the century, the agro-industrial sector is obliged to elevate output without exceeding finite ecological margins. Sensors provide precision agriculture, facilitating interventions that are calibrated and illustrated by variable-rate irrigation systems and differentiated fertilization schedules, which directly correlate resource application with crop demand as sensed in real time. Such sensors enhance crop yield alongside reductions in both manual inputs and environmental stress.
   
• Growth in sensor deployment throughout the North America region can be mainly traced to the initial embrace of precision agriculture, the extensive integration of IoT and artificial intelligence in large-scale agricultural enterprises, and the presence of a well-established farming infrastructure. Ongoing investment in research and development, paired with the routine application of sensors for soil, weather, and livestock management, boosting overall productivity and simultaneously lowering resource input expenses.
   

Agriculture Sensor Market Trends

• The integration of the IoT, AI, and remote sensing is crafting agriculture’s evolution into a networked, information-centric system. Low-power, wide-area protocols LoRaWAN and NB-IoT form the communication backbone for thousands of sensors spanning large parcels, permitting timely, on-site decisions. Sophisticated algorithms analyze the resultant data streams, yielding forecasts for irrigation, pest control, and yield potential.
   
• Drones and satellites bearing optical and multispectral payloads extend monitoring geography, reduce the demand for on-foot field checks, and scale the approach to entire regions. Together, these components constitute the base layer of an increasingly fully digital agriculture sector.
   
• Environmental pressures have become the principal driver behind the broader uptake of precision technologies in agriculture. Sensors enable producers to tailor irrigation intervals, curtail nutrient leaching, and diminish greenhouse gas emissions. Soil moisture and nutrient probes enable irrigation schedules to track the plant’s immediate needs, while variable-rate fertilization applications adjust nutrient delivery to specific soil conditions, thus curtailing surplus use and shielding adjacent ecosystems.
   
• Policymakers and regional multilateral organisations are supporting these IoT-based platforms with an array of grants, subsidised loans, and coherent regulatory frameworks, thereby ensuring that sensor configurations integrate smoothly with overarching goals of climate-smart agriculture.
   
• The recent decline in sensor pricing, the expanded availability of solar-powered options, and widespread smartphone penetration are now permitting small and medium farmers to engage in smart agriculture. In various developing regions, producer cooperatives and public digital agriculture initiatives are rapidly distributing basic soil moisture and water-quality sensors.
   
• Commercial platforms are migrating sensors into all-encompassing farm-management interfaces, tying granular agronomic observations to supply-chain optimisation, and thereby nurturing a transparent, algorithmically informed agronomy that retains relevance across farm sizes.
   

Agriculture Sensor Market Analysis

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Based on connectivity, the agriculture sensor market is divided into wired sensors and wireless sensors.
 

• The wireless sensors market was the largest and was valued at USD 1.16 billion in 2024. Wireless Sensors constitute the largest segment as producers favor wireless technology for its lower installation costs and its ability to span extensive areas without the burden of fixed infrastructure. The growing ownership of smartphones and the rapid adoption of cloud-based services have cemented wireless solutions as the standard in both advanced and developing agricultural markets.
   
• Manufacturers concentrate on bolstering wireless robustness, developing devices that operate interchangeably across Wi-Fi, Bluetooth, and LoRaWAN protocols, and packaging modular kits that allow for incremental acquisition and deployment. An intuitive smartphone dashboard for real-time monitoring further attract operators who are only beginning to embrace digital agronomy.
   
• The wired sensors market was valued at USD 851.5 million in 2024. The market for wired segment is steadily expanding, and driven by their demonstrated reliability, precision, and constant data flow. This is especially critical for applications such as soil moisture measurement, irrigation optimization, and enclosed-environment horticulture. Compared to wireless alternatives, wired systems are less vulnerable to electromagnetic interference, eliminate the logistical burden of routine battery changes, and are particularly advantageous on expansive, data-intensive operations, where uninterrupted monitoring is non-negotiable.
   
• Manufacturers focus on enhancing sensor durability, simplifying deployment, and ensuring seamless integration with current farm management platforms to foster wider adoption. The deployment of modular, plug-and-play wired units, incorporating durable cabling tailored for demanding agricultural conditions, will reduce ongoing servicing pressures for producers.
   

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Based on sensor type, the agriculture sensor market is divided into soil sensors, water sensors, climate/weather sensors, location sensors, optical sensors, mechanical sensors, biosensors and others.
 

• The soil sensors market was the largest and was valued at USD 492.3 million in 2024, due to their critical role in tracking moisture, nutrient concentrations, and temperature variables that correlate directly with harvest potential. They have gained traction on operations such as optimizing irrigation and soil nutrient regimes remains a pressing priority, notably in water-limited regions of North America, India, and Africa. Their attractive price point, straightforward installation, and tangible return on investment underwrite their market leadership.
   
• The optical sensors market is the fastest growing segment and is anticipated to grow with a CAGR of 13.8% during the forecast period. This momentum derives majorly from the rising adoption of unmanned aerial systems, microsatellites, and high-fidelity imaging payloads. Leveraging spectral imaging and the normalised difference vegetation index (NDVI), these sensors furnish finely resolved evaluations of plant stress, pest pressure, and canopy integrity. Government-led programmes, alongside agri-tech accelerators, are systematically embedding optical sensors within multiyear monitoring frameworks, thereby embedding them as a core infrastructure of forthcoming digital agronomy ecosystems.
   

On the basis of power source, the agriculture sensor market is categorized into battery-powered, solar-powered and hybrid.
 

• The Battery-powered market was the largest and was valued at USD 850.3 million in 2024. This segment continues to lead primarily as it offers farmers a cost-effective and widely distributable solution. Their straightforward installation and minimal technical requirements make them an attractive choice for operators initiating the shift toward digital agriculture. Small and medium-sized farms, which often operate on tighter margins, favour them for the low initial capital outlay they afford.
   
• The solar-powered agriculture sensor market was the fastest growing segment and is anticipated to grow with a CAGR of 12.7% during the forecast period. The solar-powered sensor witnessed the agricultural industry push toward sustainability and energy independence. These sensors are particularly valuable in remote or large-scale farms where frequent battery changes are impractical, and where reliable grid electricity is unavailable. The combination of zero operating costs and alignment with climate-smart practices makes solar adoption a key growth trend.
   
• To accelerate adoption, manufacturers design hybrid solar-battery models for reliability under cloudy conditions. Developing rugged, weather-resistant designs and offering financing options for large farms will help overcome the higher initial investment barrier.
   

Based on end use segment, the agriculture sensor market is categorized into farmers/individual growers, agricultural cooperatives, research institutes & universities, agribusiness corporations, government & public agencies and others.
 

• The agribusiness corporation market was the largest and was valued at USD 568.4 million in 2024. The largest end user group is Agribusiness Corporations, which deploy sensors at scale to enhance productivity, monitor crop health, and optimize supply chains. Their ability to invest heavily in precision farming and integrated digital platforms ensures that they account for the majority of sensor demand globally. These corporations use data-driven systems for farming, logistics and quality control, reinforcing their dominant role.
   
• Sensor providers develop comprehensive enterprise-grade platforms that integrate multiple sensor types with AI, data analytics, and automation solutions. Offering customization, API integration, and long-term service contracts will strengthen relationships with agribusiness clients and lock in recurring revenue.
   
• The farmers/individual grower market is the fastest growing segment and is anticipated to grow with a CAGR of 13.5% during the forecast period. This segment has fastest growth, especially in Asia, Latin America, and Africa, where the falling cost of sensors, mobile app integration, and government incentives are driving adoption. Smallholders are increasingly leveraging basic soil and water sensors to reduce resource wastage and improve yields, signaling a democratization of digital agriculture.
   

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The North America agriculture sensor market held 34.2% market share in 2024 and is growing at a 12% CAGR. North America is driven by large-scale mechanized farming, government subsidies for smart agriculture, and adoption of IoT-driven precision farming solutions to optimize yields. Climate variability also pushes farmers toward data-driven monitoring systems.
 

• The U.S. agriculture sensor market has been expanding steadily, achieving a CAGR of 12.2% and reaching a valuation of USD 540.8 million in 2024. The rising USDA’s investment in digital agriculture, extensive precision farming adoption in corn, soybean, and wheat production, and high-tech agritech startups, is driving the demand for the agriculture sensors.
   
• Companies focus on integrating AI and data analytics with sensors, work closely with insurers and food processors to show ROI benefits, and launch bundled solutions with analytics platforms to increase stickiness among U.S. farmers.
   
• The Canada agriculture sensor market is projected to grow significantly with a CAGR of 11.1% during the forecast period. Canada market is driven by export-oriented grain and oilseed production, sustainability mandates, and diverse climates requiring advanced soil and climate sensors.
   

The Europe agriculture sensor market held 19.8% market share in 2024 and is growing at a 11.3% CAGR during the forecasted period, Europe agriculture sensors market benefits from the EU Green Deal, Common Agricultural Policy (CAP) subsidies, and a push toward sustainable farming practices to cut emissions and reduce pesticide use.
 

• Germany market reached a valuation of USD 93 million in 2024 and is anticipated to grow with a CAGR of 12.2% during the forecast period. Germany leads Europe with advanced farm mechanization, strong demand for precision farming in cereals and high-value crops, and a robust agricultural engineering ecosystem. Companies in Germany partner with OEMs like Claas and Fendt to integrate sensors directly into machinery, while delivering ROI-driven dashboards that highlight effective gains and cost savings to attract pragmatic German farmers.
   
• The UK agriculture sensor market is anticipated to reach USD 91.2 million in 2034. The UK is seeing rapid growth due to food self-sufficiency goals, post-Brexit agri-tech funding, and precision farming adoption in arable crops like barley and wheat. The solution providers in the UK expand AI-enabled platforms for predictive analytics, offer leasing or financing options to mid-sized farms, and engage with government-backed agri-tech accelerator programs to widen reach.
   

The Asia-Pacific region is the fastest growing in the agriculture sensor market and is expected to grow at a CAGR of 13.3% during the forecasted period. The Asia Pacific is witnessing fastest growth due to rising population, rapid mechanization in China and India, and government-backed smart agriculture initiatives.
 

• The China market is projected to grow significantly, reaching USD 267.8 million by 2034. China market is fueled by government policies like “Digital Village Strategy,” large-scale farm consolidation, and rapid adoption of smart irrigation and greenhouse monitoring. Manufacturers in China are aligned with government programs, collaborate with local distributors, and develop high-volume, affordable sensors optimized for rice, wheat, and greenhouse farming.
   
• The Japan agriculture sensor market is projected to grow significantly with a CAGR of 11.3% during the forecast period. Japan’s aging farming population drives demand for automation and IoT solutions, with strong adoption in horticulture and greenhouse farming. Agri companies in Japan focus on robotics-integrated sensor systems, deliver plug-and-play precision farming kits, and collaborate with agricultural universities to build trust with the tech-forward yet risk-averse farmer base.
   

Latin America agriculture sensor market held 8.8% market share in 2024 and is growing with a CAGR of 7.1% during the forecasted period. Latin America benefits from large-scale soybean and sugarcane farming, rising agritech adoption in Brazil and Argentina, and growing export demands. Companies in the region partner with local agri-cooperatives, develop durable sensors for tropical climates, and offer bilingual cloud-based interfaces tailored to regional needs.
 

The Middle East & Africa agriculture sensor industry was valued at USD 132.5 million in 2024. MEA growth is fueled by food security concerns, water scarcity, and government smart farming initiatives in UAE and Saudi Arabia. Agri companies focuses on water-efficiency sensors, establish partnerships with government-backed projects, and design solar-powered, rugged sensors for farming environments.
 

• The agriculture sensor market in UAE reached a valuation of USD 38.5 million in 2024 and is anticipated to grow with a CAGR of 9.4% during the forecast period. The UAE is pushing rapid adoption of agri-sensors due to vertical farming projects, water scarcity, and food security policies.
   
• The South Africa market is anticipated to reach USD 30.8 million in 2034. South Africa is growing due to large-scale maize, fruit, and vineyard farming along with increasing digital adoption in agribusiness.
   

Agriculture Sensor Market Share

• The top 5 companies CropX, Wevolver, Pycno, Acclima and Sentek hold around 55% of the market, driven by rising global demand for data-driven farming, the need to optimize water and nutrient use under climate stress, and the push for higher yields with lower resource intensity. CropX leverages AI and strategic acquisitions to scale globally, Wevolver taps into solar-powered consumer-friendly designs to broaden adoption, Pycno enables affordable wireless deployment for small and mid-size farms, Acclima delivers high-precision instruments trusted in research and commercial settings, and Sentek strengthens its position with rugged localized profiling systems. Together, these companies are capitalizing on the convergence of sustainability mandates, digital farming adoption, and the shift toward precision agriculture across both developed and emerging markets.
   
• CropX is a global leader and reached 16.1% share in 2024, as its agronomic sensor solutions and data-driven farm management. Their platform integrates proprietary soil sensors, weather stations, telemetry gateways, and advanced AI models to deliver insights on irrigation timing, nutrient management, disease risk, and crop health. Operating across over 70 countries and serving more than 20,000 users with support for more than 100 crop types, CropX’s rural focus, ease of use, and scalability have positioned it at the forefront of digital agronomy. The company has expanded through key acquisitions, including EnGeniousAg for nitrogen sensing, Dacom Farm Intelligence, Tule Technologies, and Green Brain to broaden their technological footprint and global presence.
   
• Wevolver holds 13.5% share of the agriculture sensors market. Wevolver was founded in 2013 in Oakland, California, and specializes in solar-powered smart soil sensors and irrigation controllers designed for both consumer gardens and commercial farms. Their flagship product measures a suite of soil and environmental variables including moisture, temperature, light, humidity, and nutrition—and connects via cloud-enabled apps. Originally launched via Kickstarter and now available through retail channels like Home Depot, Wevolver’s elegant, solar-powered design developed by Yves Behar offers an accessible entry point into precision agriculture.
   
• Acclima holds 8.8% share in 2024 of the agriculture sensor market. Acclima develops highly accurate, durable soil moisture and environmental sensors, with applications spanning agriculture, golf course management, and research. Their instruments, valued for robustness and precision, are used in environments requiring long-term, high-performance monitoring. While not as focused on consumer-friendly interfaces as some counterparts, Acclima has earned a reputation for technical excellence in field sensing.
   
• Sentek was at 6.6% of the market share in 2024 for agriculture sensor market. Sentek is an established South Australian provider of soil moisture, temperature, and salinity sensors, known for their long-standing specialization in layered soil profiling. Their solutions are widely adopted in commercial farming, horticulture, and research institutions across Australia, valued for customized deployment and localized calibration in challenging environments.
   

Agriculture Sensor Market Companies

List of prominent players operating in the market include:

• Acclima Inc.
• Acuity Agriculture
• AgSmarts Inc.
• Aker Technology Co., Ltd.
• AquaSpy Inc.
• Auroras (Auroras s.r.l.)
• Bosch Sensortec
• Caipos GmbH
• Changsha Zoko Link Technology Co., Ltd.
• CropX Inc.
• Decagon Devices (METER Group)
• dol-sensors A/S
• Honde Technology Co., Ltd.
• Hunan Rika Electronic Tech Co., Ltd.
• John Deere
• Libelium Comunicaciones Distribuidas SL
• Lindsay Corporation
• Monnit Corporation
• OMRON Electronic Components
• Pycno
• Sensaphone
• Sensoterra
• Sentek Ltd
• Teralytic
• Texas Instruments Incorporated
• Vegetronix Inc.
• Wevolver
   
• Companies like John Deere and Bosch stand out due to their strong integration of sensor technology into precision agriculture platforms. They benefit from scale, global distribution networks, and established relationships with agribusinesses. For instance, John Deere integrates soil, optical, and GPS sensors into its farm machinery, offering a seamless ecosystem. These leaders drive adoption through advanced R&D, partnerships with digital agriculture platforms, and continuous product innovation aligned with sustainable farming goals.
   
• Firms such as Texas Instruments and CropX act as challengers in this space. While they hold strong technological capabilities and are competitive in specific sensor categories (e.g., soil moisture, climate, or biosensors), they face scaling challenges in addressing the diverse requirements of global agriculture. Their growth largely depends on expanding their customer base beyond niche applications and strengthening integration with farm management software and IoT platforms.
   
• In the agricultural sensor market, several companies are considered followers rather than key players due to their relatively smaller market presence, limited product portfolios, or niche focus. While these companies contribute to the market with specialized solutions such as soil moisture sensors, weather stations, or IoT-based monitoring they typically operate in regional or niche segments.
   

Agriculture Sensor Industry News

• In August 2025, OMRON Electronic Components announced the launch of its next-generation Weather Sensor, developed to address the rising demand for accurate and reliable environmental data across agriculture, meteorology, and smart city applications. The release marked a significant step forward in enabling smarter, data-driven decision-making in diverse environmental monitoring scenarios.
   

The agriculture sensor market research report includes an in-depth coverage of the industry with estimates and forecast in terms of revenue (USD million) from 2021 – 2034 for the following segments:

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Market, By Sensor Type

• Soil sensors
• Water sensors
• Climate/weather sensors
• Location sensors
• Optical sensors
• Mechanical sensors
• Biosensors
• Others

Market, By Connectivity

• Wired sensors
• Wireless sensors

Market, By Power Source

• Battery-powered
• Solar-powered
• Hybrid

Market, By End Use

• Farmers/individual growers
• Agricultural cooperatives
• Research institutes & universities
• Agribusiness corporations
• Government & public agencies
• Others

The above information is provided for the following regions and countries:

• North America 
  • U.S.
  • Canada
• Europe 
  • Germany
  • UK
  • France
  • Italy
  • Spain
  • Netherlands
• Asia Pacific 
  • China
  • India
  • Japan
  • South Korea
  • Australia
• Latin America
  • Brazil
  • Mexico
  • Argentina
• Middle East and Africa
  • Saudi Arabia
  • South Africa
  • UAE