Crop Monitoring Statistics and Facts (2025)

Introduction

Crop Monitoring Statistics: The crop monitoring industry is expanding because farmers need better technology to increase food production and efficiency. Since the world’s population is expected to grow by 70% by 2050, agriculture must become more advanced. Farmers now use smart devices like IoT sensors, drones, and satellite images to monitor plant health, soil conditions, and weather patterns. Drones allow farmers to collect detailed crop data and detect problems like diseases or lack of water early.

New AI-powered systems can now study this data and offer helpful recommendations. This enables farmers to make smarter decisions about watering, pesticide application, and harvesting, leading to higher productivity and lower expenses. These technologies are becoming more important as farmers face challenges like climate change and the growing demand for eco-friendly farming methods. In this article, we shall shed more light on crop monitoring statistics.

Editor’s Choice

• The Crop Monitoring Market was valued at $2.6 billion in 2022 and is expected to grow to $9.8 billion by 2032, with a CAGR of 14.6% from 2023 to 2032.
• Crop Monitoring Statistics stated that Crop monitoring uses technology to track and manage crops in real-time. The goal is to increase harvests, reduce waste, and make farming more efficient.
• Sensing and imagery led the market with a 53% share in 2022, providing detailed crop and environmental data.
• Medium-sized farms are the biggest users of crop monitoring, while small farms are starting to adopt affordable solutions.
• Crop scouting and monitoring had the largest share (36.4% in 2022) and a CAGR of 13.6%, helping farmers detect pests, diseases, and other crop issues.
• North America had the largest market share (45% in 2022) thanks to strong technology adoption.
• Asia-Pacific is expanding quickly, and it is using satellite images, IoT sensors, and drones to improve farming and address food security challenges.

What is Crop Monitoring?

Crop monitoring is important in today’s farming because it helps experts monitor how crops grow, stay healthy, and respond to environmental changes. By checking crops regularly, farmers can spot problems early, use resources more efficiently, and increase harvests. This section focuses on the key role crop monitoring plays in modern agriculture.

Types of Crop Monitoring Technologies

Farmers and crop experts use different technologies to monitor crops and gather important information about plant health, soil conditions, and environmental changes. These tools include:

(Source: sciencedirect.com)

• Remote Sensing: Uses satellite or aerial images to collect large-scale data on crop health, soil moisture, and field conditions. It helps monitor large farms quickly and efficiently.
• IoT Devices (Internet of Things): Sensors placed in fields track real-time data on soil moisture, temperature, humidity, and plant health. These devices provide detailed information to help farmers adjust irrigation, fertilization, and resource use.
• Drones: Equipped with high-resolution cameras and special sensors, drones capture detailed images of specific areas in a field. They help farmers monitor crop growth, spot pests, and detect nutrient shortages early.
• Satellite Imagery: Offers a wide view of crops and environmental conditions over large areas. It is useful for tracking long-term changes in plant health, soil quality, and weather effects.

By understanding how each technology works, farmers can choose the best tools for their needs—whether they need large-scale satellite data or precise details from drones and IoT sensors.

Regional Crop Monitoring Statistics

(Source: nature.com)

North America

(Source: polarismarketresearch.com)

• In 2023, North America had the largest share of the smart crop monitoring market, accounting for 31.31% of total revenue.
• This growth is due to advanced technology, large-scale farms, and government support.
• Many farmers use precision agriculture to improve crop production and make farming more efficient.

S. Market Trends

• The U.S. smart crop monitoring market is expected to grow at the fastest rate, with a CAGR of 12.7% from 2024 to 2030.
• Crop Monitoring Statistics stated that the country’s large and diverse farmland makes it a great place to test new farming technologies.
• There is a strong focus on developing affordable, high-accuracy sensors.
• Additionally, the use of blockchain technology in agriculture is becoming more common, further increasing the demand for smart farming solutions.

Asia Pacific Market Trends

• The smart crop monitoring market in Asia Pacific is predicted to expand at a CAGR of 15.4% from 2024 to 2030, the fastest growth among all regions.
• Countries like China, India, and Japan are adopting precision farming to boost food production and improve efficiency.
• Crop Monitoring Statistics stated that government programs play a big role in this growth.
• For example, India’s “Digital Agriculture Mission” encourages farmers to use technology for better productivity, while China’s “Smart Agriculture” initiative focuses on using advanced tools to improve farming results.

Europe Market Trends

• The European market for smart crop monitoring is expected to grow at a CAGR of 13.7% from 2024 to 2030.
• Crop Monitoring Statistics stated that strict environmental laws and a strong focus on sustainable farming are pushing farmers to use smart monitoring technology.
• These innovations help reduce farming’s impact on the environment while improving overall efficiency.

Crop Monitoring Market Segment

Crop Monitoring Market by Application

• The crop monitoring market is divided into different uses, including Field Mapping, Crop Scouting, Soil Monitoring, Yield Monitoring, and Weather Monitoring & Forecasting.
• In 2024, the Weather Monitoring & Forecasting category had the biggest share of the market at 35.1%.
• Crop Monitoring Statistics stated that crop monitoring helps farmers use resources more efficiently, leading to higher productivity.
• Weather tracking tools allow farmers to adjust inputs like water and fertilizer based on changing weather patterns.
• With climate change affecting farming, more growers are using weather-based planning to prevent crop losses.
• The market for these tools started to bounce back after the COVID-19 pandemic and was fully recovered by 2021, as food demand continued to increase.

Field Mapping – Fastest-Growing Segment

• The Field Mapping sector is predicted to expand at a CAGR of 5.6% over the forecast period.
• This technology helps farmers organize and manage farmland data by connecting field information to databases.
• It also allows for better tracking of soil, crops, and environmental conditions, making it an essential tool for precision farming.

(Source: stellarmr.com)

Crop Monitoring Market by Component

• The crop monitoring market is divided into Hardware, Software, and Services.
• In 2024, the Software segment led the market with a 48.3% share.
• This growth is due to the widespread use of the internet, the increasing number of smartphone users, and the need to improve farming through advanced technology like artificial intelligence (AI), machine learning (ML), and big data analytics.
• Crop Monitoring Statistics stated that the crop monitoring software market is expected to grow the fastest as farmers use digital tools to streamline farm operations.
• Additionally, the demand for satellite-based remote sensing technology has risen significantly.
• The COVID-19 pandemic further accelerated the shift toward these high-tech farming solutions.

Smart Crop Monitoring Market Statistics

(Reference: statista.com)

• The report states that the sensor technology market for crop monitoring was worth $418.5 million in 2023 and is expected to increase to $831.2 million by 2028.

Crop Monitoring Market By Market.us

• In 2022, the Global Crop Monitoring Market was valued at USD 2.6 billion.
• It is estimated to reach USD 9.8 billion by 2032, growing at a CAGR of 14.6% from 2023 to 2032.

• The hardware segment is the most lucrative in the Crop Monitoring Market, with a CAGR of 17.4% in 2022. Hardware such as sensors, cameras, and drones play a crucial role in collecting and processing crop-related data.
• Sensing and imagery technology accounted for the largest market share of 53% in 2022, providing detailed crop and environmental data using sensors and imaging technology.
• Medium-sized farms dominate the market as they benefit from these technologies to overcome challenges and maximize yields and profits. Small-scale crop monitoring is also growing with affordable solutions for small farmers.
• Crop scouting and monitoring held a 36.4% market share with a CAGR of 13.6% in 2022. This segment involves visual inspection of crops to identify pest infestations, diseases, and other issues affecting yield.
• North America accounted for the largest market share of 45% in 2022. The Asia-Pacific region benefits from advanced technologies like satellite imagery, IoT sensors, and drones and is projected to expand rapidly due to increased adoption of precision agriculture and food security concerns.
• The global Crop Monitoring Market is highly competitive, with key players including Trimble Inc., Topcon Corporation, Yara International, and The Climate Corporation utilizing advanced technologies like drones, IoT, and sensors for efficient crop monitoring and increased productivity.

Drone Technology In Agriculture

• Drones are being used more and more in different industries, but they are growing the fastest in farming.
• Studies show that the agricultural drone market was worth $1.2 billion in 2019 and is expected to reach $4.8 billion by 2024.
• Crop Monitoring Statistics stated that farms of all sizes are starting to use drones for tasks like crop monitoring and security.
• The data drones collect help farmers make smarter decisions, a method known as precision farming.
• In many places, drones are already a key part of large-scale farming.
• By using drone data, farmers can plan planting and crop treatments more effectively to get the best harvests.
• Some reports suggest that precision farming can increase crop yields by up to 5%, which is a big improvement in an industry where profits are often small.

(Source: croptracker.com)

• Planting and Seeding

1. Drones are now being used for planting seeds, though this is not yet very common in farming.
2. Right now, most automated drone seeders are used in forestry, but they could become more popular in the future.
3. Drones make it easier to plant in hard-to-reach areas while keeping workers safe.
4. They are also highly efficient—just 10 drones operated by two people can plant up to 400,000 trees per day.

Spray Application

• Using drones to spray crops is already widespread in Southeast Asia.
• In South Korea, drones handle about 30% of all agricultural spraying.
• These drones can reach difficult areas, like steep tea fields on mountains.
• Spray drones help protect workers by replacing backpack sprayers, which can expose them to chemicals.
• They also apply pesticides and fertilizers more precisely, reducing chemical costs and improving efficiency.
• However, rules about spray drones differ from country to country. For example, Canada has not yet approved them due to concerns about spray drift.
• Some proposals suggest that only trained professionals should operate spray drones.
• Yamaha, for example, does not sell its spray drones but rents them to licensed operators.

Security

• Drones are becoming an important security tool for farms. They help farmers save time by monitoring remote areas without needing to travel long distances.
• Drone cameras can provide real-time updates on farm operations, check equipment locations, and ensure smooth operation.
• Farms that grow high-value crops like cannabis can use drones to patrol fences and perimeters, reducing the need for extra security staff.
• Drones also help locate lost or injured livestock in grazing areas. Tasks that once took hours can now be done in just minutes using drones.

Pollination Drones

• Some of the latest drone technologies for farming are still in the testing phase. One of the most discussed innovations is pollination drones.
• Crop Monitoring Statistics stated that scientists in Japan and the Netherlands are developing small drones that can pollinate crops without damaging them.
• The goal is to create autonomous pollination drones that can work without human control and track plant health.

AI-Powered Drones

(Reference: media.market.us)

• Another exciting drone development involves artificial intelligence (AI).
• Smart drones could be especially helpful for small farmers in developing countries.
• Right now, most drones are designed to monitor large-scale crops like corn, which are planted in organised rows.
• However, they have trouble identifying mixed-crop fields or less common plants.
• To make drone technology useful for all farmers, researchers are improving AI so drones can recognise a wider variety of crops and different planting patterns. This will help better track crop health and improve farm management.

Drone Irrigation

• New research in Australia is showing how drones can improve irrigation. As climate change causes more droughts, better water management is essential.
• Drones equipped with microwave sensors can measure soil moisture levels without plant leaves getting in the way.
• This allows farmers to use water more efficiently, helping to save resources and keep crops healthy.

Advantages of Advanced Crop Monitoring

New crop monitoring technology helps farmers and agronomists improve farming by providing real-time data and better ways to make decisions. Here are some key benefits:

(Source: grandviewresearch.com)

• Live Crop Data – Farmers can instantly check crop health, allowing them to fix small issues before they turn into big problems.
• More Accurate Farming—These advanced tools provide detailed location-based data, helping farmers apply water, fertilizers, and pesticides more precisely. This reduces waste and increases crop yields.
• Faster Pest & Disease Detection – Monitoring systems can spot early signs of pests or plant diseases, allowing farmers to act quickly and prevent major crop damage.
• Better Use of Resources – With constant monitoring, farmers can use water, nutrients, and energy more efficiently, cutting costs and lowering environmental impact.
• Eco-Friendly Farming—This technology uses fewer chemicals, protects the soil, promotes sustainable practices, and helps maintain a healthy environment.
• Higher Profits and Yields—Real-time crop analysis allows farmers to improve their strategies, leading to higher and more reliable harvests.

By adopting advanced crop monitoring, farmers can save money, reduce waste, and grow healthier crops, making agriculture more efficient and sustainable.

Conclusion

Crop monitoring data proves that modern technology is making farming more efficient, profitable, and eco-friendly. Research shows that real-time tracking and precision agriculture can help farmers boost crop yields by up to 5% while also reducing waste and lowering expenses. Detecting pests and diseases early allows farmers to take action quickly, preventing big losses.

In addition, smarter resource management helps cut down on water and fertiliser use, supporting sustainable farming. As technology continues to improve, data-driven farming will help growers achieve higher profits, healthier crops, and long-term agricultural success. This article has shed enough light on Crop Monitoring Statistics.