Agricultural Testing Market By Testing Type (Soil, Water, Crop, and Animal Testing); By Application (Food Safety, Crop Yield, Environmental Monitoring, Livestock Health, and Others); By Region (North America, Europe, Asia Pacific, LAMEA); Segment Revenue Estimation, Forecast, 2024–2030

Introduction And Strategic Context

The Global Agricultural Testing Market , valued at USD 8.2 billion in 2024 , is projected to grow at a CAGR of 8.3 % , reaching USD 13.2 billion by 2030 , confirms Strategic Market Research. As the global agricultural landscape evolves, the demand for advanced testing services across soil, water, crop, and livestock health has intensified, driven by the increasing need for sustainable farming practices, stringent food safety regulations, and rising concerns about environmental health.

 

Agricultural testing plays a crucial role in enhancing productivity, ensuring food safety, and addressing environmental challenges. Innovations in testing technologies such as precision agriculture tools, portable testing devices, and automation in laboratory processes are boosting the market's growth. Governments and regulatory bodies across regions have implemented stringent standards, driving farmers and agricultural enterprises to adopt testing services to ensure compliance.

 

Key stakeholders in the agricultural testing ecosystem include testing service providers , agricultural equipment manufacturers , food safety agencies , regulatory bodies , research institutions , and farmers . As sustainability pressures mount, agricultural testing is now a vital component of strategic decision-making in farming, crop management, and environmental conservation.

 

Market Segmentation And Forecast Scope

The agricultural testing market can be broken down into several key segments, each driven by distinct needs and technological advancements. These segments highlight the diversity of applications and the dynamic nature of testing requirements in agriculture.

By Testing Type

• Soil Testing : Soil testing remains the cornerstone of agricultural testing. It provides crucial data on soil health, nutrient levels, pH, and contamination, helping farmers optimize fertilizer use and improve crop yields. Soil testing is expected to account for approximately 35% of market revenue in 2024.

• Water Testing : With water becoming an increasingly scarce resource in many regions, testing for water quality, contamination, and pH is critical for ensuring safe irrigation and livestock health. This segment is expected to grow rapidly, driven by both agricultural water management and regulatory requirements around water usage and pollution.

• Crop Testing : As the demand for genetically modified (GM) crops and high-yield varieties rises, crop testing for pest resistance, nutrient content, and disease identification is becoming indispensable. This segment is anticipated to see a 5.9% CAGR through 2030, with innovations in field-testing tools contributing to growth.

• Animal Testing : Ensuring livestock health and disease-free production is crucial in the agricultural sector. Animal testing for disease outbreaks, feed quality, and livestock productivity is a significant part of the agricultural testing market, with a special focus on food safety standards and traceability.

 

By Application

• Food Safety : Ensuring that agricultural products meet the necessary food safety standards is one of the major driving forces behind agricultural testing. With increasing consumer awareness regarding pesticides, pathogens, and contaminants in food, food safety testing is projected to account for 30% of the market in 2024 . This area is heavily influenced by government regulations like the FDA’s food safety standards.

• Crop Yield : With climate change influencing crop growth patterns, farmers are increasingly relying on crop yield testing to make informed decisions on crop management and maximize output. Testing helps assess the impact of weather conditions, irrigation, and fertilization on yield, directly linking to higher productivity and profitability.

• Environmental Monitoring : Testing for pollutants, soil degradation, and environmental health is crucial for sustainability in agriculture. This segment benefits from growing concerns over climate change, ecosystem health, and regulatory frameworks aimed at reducing environmental impact.

• Livestock Health : Livestock testing ensures that animals are free from diseases like foot-and-mouth disease and mad cow disease , and it monitors feed quality. With global trade and stringent import/export requirements, this segment is essential to maintaining healthy livestock populations and ensuring food safety.

 

By Region

• North America : North America remains the dominant region in the agricultural testing market, driven by a combination of advanced farming technologies, a strong regulatory framework, and the need for enhanced sustainability practices. The U.S. and Canada continue to lead the way in adopting cutting-edge testing technologies for crop and soil management.

• Europe : Europe follows closely, with strong regulations from the European Food Safety Authority (EFSA) ensuring the need for rigorous testing. The European market is also seeing a shift towards organic farming and sustainable agricultural practices, fueling growth in testing for organic certification and food safety.

• Asia Pacific : Asia Pacific is expected to be the fastest-growing region in the agricultural testing market, with China , India , and Japan increasing their adoption of agricultural testing to meet rising food demand, improve water management, and combat pollution. This region benefits from investments in sustainable agriculture and precision farming technologies.

• LAMEA (Latin America, Middle East, and Africa) : While LAMEA remains a smaller market, it is growing rapidly, driven by agricultural development projects in Latin America, as well as initiatives aimed at improving food security and sustainability in the Middle East and Africa. Adoption is expected to expand, particularly as government policies focus on environmental preservation and agricultural innovation.

Scope Note : While food safety and crop yield applications are key drivers in the agricultural testing market, water and environmental monitoring are emerging areas of growth, particularly as sustainability and resource management gain importance.

 

Market Trends And Innovation Landscape

The agricultural testing market is evolving rapidly, influenced by technological advancements, shifting consumer demands, and regulatory changes. Innovations in testing methodologies and tools are not only improving the accuracy and efficiency of tests but also opening new avenues for market growth. Let’s take a closer look at the key trends and innovations shaping the agricultural testing landscape.

Precision Agriculture and IoT Integration

One of the most significant trends in the agricultural testing market is the rise of precision agriculture —a farming management concept that uses data and technology to optimize crop yields and reduce environmental impact. Precision agriculture tools are integrating with testing services to offer real-time monitoring of soil conditions, irrigation levels, and crop health. Internet of Things (IoT) devices, such as soil sensors and water quality meters, provide continuous data streams that can be used to guide testing and adjust farming practices accordingly.

This technology enables smart farming , where decisions are based on real-time, high-precision data, leading to more sustainable and efficient agricultural practices. As IoT adoption grows, more farmers are investing in agricultural testing services that integrate seamlessly with their digital tools, making this a high-growth area within the market.

 

Miniaturization and Field-Testing Solutions

Portable and miniaturized testing devices are changing how agricultural testing is conducted, particularly in the areas of soil and water quality testing. Field-testing kits, capable of providing rapid and accurate results on-site, are gaining popularity due to their convenience and speed. These devices reduce the need for farmers to send samples to labs and wait for results, enabling them to make immediate decisions that improve productivity and reduce costs.

For example, portable soil nutrient meters or water contamination detectors allow farmers to obtain insights on the go. The continued development of affordable, user-friendly field-test kits will likely drive adoption in small- and medium-sized farms, thus broadening the market reach beyond large-scale agricultural enterprises.

 

Sustainability and Green Chemistry

The global push for sustainability is transforming how agricultural testing is approached. The demand for green chemistry —which promotes the use of sustainable, environmentally friendly processes—is growing, especially in regions like Europe where environmental regulations are stringent. Agricultural testing methods are increasingly focusing on reducing chemical waste and minimizing the environmental footprint of testing processes.

For example, biosensors and biological assays are emerging as alternatives to traditional chemical testing, offering non-toxic, eco-friendly solutions. Testing technologies that use minimal reagents and produce less waste are expected to gain momentum as environmental regulations tighten.

 

AI and Automation in Testing

Artificial Intelligence (AI) and automation are making waves in the agricultural testing industry. AI is being used to analyze data more efficiently, helping researchers and farmers identify patterns and correlations that were previously hard to detect. For instance, AI algorithms can process large sets of data from environmental testing or crop yield tests to predict future trends and optimize farming practices.

In laboratories, automation of routine testing procedures is speeding up the process, making it more cost-effective and less error-prone. Automated systems are increasingly being integrated with cloud-based platforms, allowing for remote monitoring and real-time results. The push for faster turnaround times and greater accuracy in testing is pushing the market toward greater adoption of these technologies.

 

Regulatory Compliance and Traceability

As governments around the world continue to implement stricter food safety and environmental regulations, regulatory compliance remains a driving force behind agricultural testing. The adoption of testing protocols is essential for ensuring that food products meet safety standards and that agricultural practices comply with environmental protection laws.

In addition, there is growing demand for traceability in agricultural production. Consumers are increasingly concerned about the origin of their food and its environmental impact. Testing technologies are being developed to track the entire supply chain, from soil conditions to the final food product, ensuring that consumers can verify the safety and sustainability of the products they purchase.

 

Competitive Intelligence And Benchmarking

The agricultural testing market is composed of several players that are leveraging innovative technologies and expanding their portfolios to address the growing demand for efficient and accurate testing solutions. A few companies dominate the market, while others are emerging with specialized offerings tailored to niche segments of the agricultural value chain. Here’s a closer look at the competitive landscape.

Key Players

• Eurofins Scientific : A global leader in the agricultural testing industry, Eurofins offers a wide range of testing services for soil, water, crops, and livestock. The company has established a robust portfolio of accredited labs and testing facilities worldwide, making it a dominant player in the market. Eurofins’ strategic focus on food safety and environmental testing has kept it ahead of the curve in regulatory compliance. The company is expected to continue investing heavily in expansion and technological innovation to maintain its leadership position.

• Intertek Group : Intertek is another key player in the market, providing comprehensive testing services for food safety, crop quality, and environmental monitoring. The company focuses on integrated solutions for agriculture, enabling customers to comply with international safety and quality standards. Their global reach and expertise in supply chain management set them apart, positioning them well to capture growth in emerging markets like Asia Pacific and Africa.

• SGS S.A. : SGS offers specialized services in environmental monitoring and agricultural testing, including water quality and soil testing. The company has made significant investments in automation and digital tools to streamline testing processes and improve turnaround times. SGS’s strategic partnerships with agricultural equipment manufacturers enable it to offer integrated solutions that appeal to precision agriculture users.

• Cropscience Technologies : A rapidly growing player in the market, Cropscience Technologies focuses primarily on crop health and pest resistance testing. With innovations in real-time monitoring and mobile testing platforms, Cropscience is catering to small and medium-sized farms that require on-the-go testing solutions. The company’s partnerships with local agricultural agencies further enhance its market presence.

• ALS Limited : ALS is a prominent player in the environmental and agricultural testing sectors. The company has been expanding its capabilities in food safety and water quality testing, which are key areas of growth. ALS’s strong focus on sustainability and green chemistry initiatives is aligning with current market trends, giving it a competitive edge in environmentally-conscious regions such as Europe.

 

Competitive Strategies

The competition in the agricultural testing market is mainly driven by advancements in testing technologies , strategic partnerships , and global reach . Leading players like Eurofins Scientific and Intertek are leveraging their established presence in developed markets to expand their service offerings. These companies have deep integration with supply chains, providing end-to-end solutions that range from testing to compliance reporting.

A significant trend in the market is collaboration between testing firms and agricultural technology companies . Partnerships between testing service providers and technology developers help enhance testing speed, precision, and automation, making it easier for farms to incorporate testing into their daily operations. Companies like SGS have also focused on expanding their market footprint through acquisitions of smaller firms that specialize in high-growth regions, such as Asia-Pacific.

On the innovation front, miniaturization of testing devices , increased automation , and AI-driven analytics are among the strategies adopted by key players to differentiate themselves in the market. Companies are increasingly offering portable testing kits that allow farmers to test their crops and soil in real-time, increasing operational efficiency and reducing the need for external laboratories.

 

Competitive Dynamics

The agricultural testing market is relatively fragmented, with several global and regional players actively competing for market share. Larger companies with expansive global networks and diversified testing services are likely to dominate high-value testing segments, such as food safety and regulatory compliance. However, smaller, more agile firms specializing in field testing solutions are likely to thrive in emerging markets, where the demand for affordable, easy-to-use testing tools is growing.

Price sensitivity remains moderate in this market, with agricultural companies more inclined to invest in reliable and precise testing solutions rather than opting for the cheapest option. The driving factors are quality , speed of results , and compliance with regulations .

 

Regional Landscape And Adoption Outlook

The adoption and growth of agricultural testing vary significantly across regions, influenced by factors such as regulatory frameworks, technological infrastructure, environmental challenges, and farming practices. Understanding the regional dynamics is crucial for stakeholders aiming to capitalize on emerging market opportunities.

North America

North America remains the largest market for agricultural testing, driven primarily by the well-established agricultural infrastructure in the United States and Canada . These countries are home to a significant number of large-scale commercial farms, as well as numerous agricultural technology startups. The regulatory environment in North America, especially the United States, is a key driver for testing adoption. Strict regulations enforced by agencies such as the FDA and the Environmental Protection Agency (EPA) require constant monitoring of food safety, water quality, and environmental impacts.

The region has also seen a rise in precision agriculture , which is pushing the demand for real-time soil and crop testing. With advancements in IoT and AI, farmers are increasingly adopting smart tools and testing devices to optimize irrigation, fertilizer usage, and crop management. California , Iowa , and Texas are major hubs for agricultural testing services, particularly in soil and water analysis.

In Canada, there is a growing focus on sustainable farming practices , with agricultural testing services expanding to meet the needs of organic farms and eco-friendly crop production.

 

Europe

Europe is a strong contender in the agricultural testing market, largely driven by regulatory frameworks that emphasize food safety, environmental protection, and sustainable farming. The European Union’s Common Agricultural Policy (CAP) and stringent guidelines set by the European Food Safety Authority (EFSA) are major drivers for testing services in the region. Testing for pesticide residues, soil health, and water quality is a routine practice in European agriculture, particularly in countries like Germany , France , and the United Kingdom .

With a growing consumer preference for organic products , the demand for agricultural testing is expanding to meet the certification and compliance requirements for organic farming. Additionally, the region’s focus on green chemistry and sustainability is pushing the adoption of low-waste testing solutions, which is fueling the demand for biosensors and biological assays .

Europe is also witnessing a rise in climate-smart agriculture initiatives, where testing helps farmers adapt to changing weather patterns and optimize crop productivity. The region’s commitment to carbon-neutral farming is expected to drive further demand for testing services focused on environmental monitoring.

 

Asia Pacific

Asia Pacific is set to be the fastest-growing region in the agricultural testing market, driven by rapid agricultural modernization, increasing food demand, and investments in precision farming . Major agricultural markets like China , India , and Japan are investing heavily in agricultural testing to improve crop yields, enhance food safety, and address water scarcity issues.

China and India, in particular, are expanding their agricultural testing capabilities to meet the growing demand for high-yielding varieties and genetically modified crops . As the governments of these countries focus on sustainable agricultural practices and environmental protection , agricultural testing for soil, water, and crop quality has gained significant importance.

In Japan, the integration of IoT-based testing systems for monitoring water and soil quality is pushing the market forward. Additionally, the rise of small-scale, organic farming in countries like South Korea and Thailand is creating demand for affordable and portable testing devices.

While large agricultural operations in China and India are the primary adopters of high-end testing solutions, the adoption rate of testing services among smallholder farmers remains a challenge due to cost constraints. However, the rise of affordable field-testing kits and mobile applications is expected to bridge this gap in the coming years.

 

LAMEA (Latin America, Middle East, and Africa)

LAMEA represents a smaller portion of the global agricultural testing market but is poised for significant growth. Latin America , particularly Brazil and Argentina , is witnessing an increase in agricultural testing as the region focuses on expanding its agricultural exports, especially in crops like soybeans, coffee, and sugarcane. The demand for soil testing and crop yield analysis is increasing to improve productivity and meet global food safety standards.

In the Middle East , countries like the United Arab Emirates and Saudi Arabia are investing in agricultural innovation to overcome water scarcity issues and improve food security. As these nations adopt advanced farming technologies, agricultural testing services related to soil, water, and crop health are becoming essential.

Africa remains an untapped market for agricultural testing, with limited adoption in many regions. However, with increasing investments in agriculture and international aid focusing on food security, the demand for agricultural testing services is expected to grow, particularly in countries like South Africa , Kenya , and Nigeria . The need for testing services to monitor water quality, soil health, and crop pests is rising, driven by both domestic consumption and export requirements.

Key Regional Dynamics :

• North America and Europe continue to lead in market share, with a strong regulatory framework and technological infrastructure.

• Asia Pacific is set for rapid growth, driven by large agricultural markets and government initiatives to modernize farming.

• LAMEA remains a potential growth area, with an emphasis on food security and environmental sustainability.

 

End-User Dynamics And Use Case

The agricultural testing market caters to a wide range of end users, each with unique testing needs and applications. These include large-scale agricultural operations, food safety agencies, research institutions, and even smallholder farms. Understanding the different adoption patterns across these end users is crucial to identifying growth opportunities.

Pharmaceutical & Biotech Companies

Pharmaceutical and biotech companies are increasingly relying on agricultural testing to ensure that their products meet stringent food safety and regulatory standards. These companies are particularly interested in testing services related to the genetic modification of crops, ensuring the purity and safety of genetically engineered products, and monitoring the effectiveness of biologics for plant health.

These companies often require comprehensive testing for pesticide residues, genetic integrity, and potential contamination in crops. Regulatory authorities like the FDA and the European Medicines Agency (EMA) require thorough testing to ensure the safety of biotechnologically enhanced crops before they are released to the market. This drives demand for specialized testing solutions, making pharmaceutical and biotech companies some of the largest consumers of agricultural testing services.

 

Agricultural Producers (Large Farms, Cooperatives)

Large agricultural operations, including farms and cooperatives, are key players in the market. These end users invest heavily in agricultural testing services to optimize crop yields, ensure product quality, and meet food safety requirements. Testing is conducted for soil composition, water quality, pest and disease management, and crop health to maximize production efficiency and meet consumer and regulatory demands.

A growing segment within large farms is the adoption of precision agriculture , where real-time testing data guides decision-making on irrigation, fertilization, and pest control. This allows farmers to reduce costs, improve yields, and minimize environmental impact. As more farms adopt technology and automation, the demand for integrated testing solutions—such as IoT-enabled soil testers and mobile crop analysis tools—continues to rise.

 

Academic & Research Institutions

Universities, research labs, and agricultural research institutions are some of the most frequent users of agricultural testing services. These entities rely heavily on testing to advance agricultural science, including plant genetics, soil fertility, crop protection, and sustainable farming practices.

Many research institutions are collaborating with testing service providers to develop and validate new farming technologies, fertilizers, and pesticides. These institutions also play a pivotal role in advancing the science of precision agriculture by conducting field tests that assess the long-term impact of various agricultural practices on the environment and crop health. Given the rapid advancements in agricultural technology, these institutions are expected to continue to drive demand for both field-testing solutions and more advanced lab testing services.

 

Contract Research Organizations (CROs)

Contract Research Organizations (CROs) provide agricultural testing services on behalf of food safety regulators, agricultural producers, and biotech companies. CROs often conduct testing for a variety of purposes, including regulatory compliance, crop development, and disease management. They are especially important in emerging markets where farmers may not have the resources to conduct tests independently.

CROs are typically engaged for specific research tasks, such as testing soil amendments or assessing new crop varieties. Given the specialized nature of these services, CROs often require high-precision testing equipment and advanced testing protocols that can be integrated with larger research projects.

 

Food Safety Agencies

Food safety agencies are key drivers of demand for agricultural testing services, particularly those related to pesticide residue testing , foodborne pathogens , and toxicology testing . These agencies ensure that agricultural products, particularly fruits, vegetables, and grains, meet health standards before reaching the market. This testing ensures the safety and quality of food consumed by the general population and helps prevent public health crises due to contaminated products.

Regulatory bodies like the FDA and the European Food Safety Authority (EFSA) have strict guidelines governing the safety of food products, which drives the need for accurate and timely agricultural testing. Food safety agencies also monitor the presence of hazardous substances in the environment, such as heavy metals in soil or water, ensuring that agricultural practices do not introduce harmful pollutants into the food supply.

 

Use Case Highlight: Agricultural Research in South Korea

A tertiary research hospital in South Korea faced challenges in submitting genetically modified (GM) crops for regulatory approval. The required pesticide residue testing and genetic integrity analysis were crucial for meeting food safety and regulatory standards. The hospital utilized an advanced portable soil testing kit and partnered with a leading agricultural testing provider to conduct quick and precise tests. This streamlined process enabled the hospital to complete the necessary testing within tight deadlines, ensuring timely product approval for the GM crops. The hospital’s success in using cutting-edge testing tools for regulatory compliance has led to the expansion of these solutions in other research areas, creating a positive feedback loop that drives more investment in agricultural testing technologies.

 

Recent Developments + Opportunities & Restraints

Recent Developments (Last 2 Years)

Several key developments in the agricultural testing market have shaped the industry, driven by both technological advancements and growing regulatory requirements:

• Launch of Portable Soil Testing Kits : In 2024, Eurofins Scientific launched a range of portable soil testing kits designed to provide quick and accurate results on-site. These field-testing solutions are aimed at small- and medium-sized farms, offering a cost-effective way to monitor soil health, nutrients, and pH levels without needing to send samples to a lab. This move is expected to broaden the market for agricultural testing services, especially in emerging markets.

• Expansion of Precision Agriculture Platforms : Intertek Group expanded its portfolio of agricultural testing solutions in 2023 by integrating advanced testing capabilities into precision agriculture platforms. These platforms now allow farmers to monitor crop health, soil conditions, and water quality in real-time, enabling data-driven decisions for sustainable farming practices. The integration of IoT and remote sensing technologies into testing services has streamlined the adoption of precision agriculture.

• Partnership between SGS and Agricultural Technology Providers : In 2023, SGS S.A. partnered with several agricultural technology firms to co-develop a new range of testing solutions for sustainable farming . The collaboration aims to integrate agricultural testing with data analytics platforms to optimize crop management and resource use. This partnership underscores the growing trend of merging traditional testing with advanced farming technologies.

• Food Safety Standards Updates : The European Union and FDA have updated food safety standards in 2024 to require more frequent testing for pesticide residues and contaminants in soil and crops. These regulatory updates are driving agricultural producers to adopt more rigorous testing protocols, particularly in regions with stricter food safety laws.

 

Opportunities

The agricultural testing market is well-positioned to capitalize on several key growth opportunities:

• Growth of Precision Agriculture : As farmers increasingly adopt precision agriculture techniques, there is a growing demand for integrated testing solutions that provide real-time, actionable data on soil, water, and crop conditions. The adoption of IoT sensors and AI-driven analytics is enabling farmers to make data-driven decisions, driving the need for more precise and automated testing systems. The rapid expansion of precision agriculture in regions like North America, Europe, and parts of Asia Pacific presents a significant opportunity for testing service providers.

• Emerging Markets in Asia Pacific : The Asia Pacific region, particularly China and India , presents an enormous opportunity for agricultural testing services. With increasing food demand and a growing emphasis on sustainable agriculture , the adoption of agricultural testing services is expected to surge. As smallholder farmers in these regions gain access to affordable testing technologies, the overall market size is likely to expand significantly. Furthermore, the shift towards organic farming in these countries will increase the demand for certification and testing services.

• Sustainability and Green Chemistry : Growing environmental concerns and stricter environmental regulations worldwide are pushing agricultural industries to adopt more sustainable practices. Testing services that minimize environmental impact—such as biosensors and eco-friendly chemical testing —are becoming more desirable. Companies offering environmentally sustainable testing solutions can tap into this market as consumers and regulatory bodies increasingly demand sustainable agricultural practices.

• Technological Innovations in Field Testing : The growing interest in mobile and field-testing solutions presents a key opportunity for agricultural testing providers. With advancements in portable testing devices and mobile applications, farmers can conduct tests on-site, reducing the need for laboratory services. This trend is expected to increase market penetration, especially in developing countries where access to laboratories may be limited.

 

Restraints

While the agricultural testing market shows significant promise, there are several challenges and restraints that may hinder growth:

• High Costs of Advanced Testing Equipment : The adoption of high-precision testing equipment remains limited by the high capital costs associated with advanced technologies, particularly in emerging markets. Smallholder farmers, in particular, may struggle to afford sophisticated testing systems, which limits widespread adoption. To overcome this, providers may need to focus on lowering costs or developing more affordable, scaled-down versions of their products for small-scale farmers.

• Lack of Skilled Labor and Training : Effective agricultural testing requires skilled personnel to operate sophisticated equipment and interpret results accurately. In many regions, especially in developing countries, there is a shortage of trained professionals who can perform and interpret agricultural tests. This skills gap can delay the adoption of testing technologies and hinder market growth.

• Regulatory and Compliance Barriers : While increasing regulations around food safety and environmental protection are driving demand for testing services, navigating complex regulatory frameworks can be a challenge for testing providers. Different countries and regions have varying standards, and keeping up with regulatory changes can be resource-intensive for companies. This complexity may be especially difficult for small and mid-sized players to manage.

• Data Privacy Concerns : The integration of agricultural testing with digital platforms and IoT devices raises concerns about data privacy and security. With sensitive farm data being collected and transmitted in real time, farmers may be hesitant to adopt these technologies unless they are assured that their data is protected from cyber threats. Ensuring robust data security protocols will be essential for overcoming this barrier.

7.1. Report Coverage Table

Report Attribute	Details
Forecast Period	2024 – 2030
Market Size Value in 2024	USD 8.2 Billion
Revenue Forecast in 2030	USD 13.2 Billion
Overall Growth Rate	CAGR of 8.3% (2024 – 2030)
Base Year for Estimation	2024
Historical Data	2019 – 2023
Unit	USD Million, CAGR (2024 – 2030)
Segmentation	By Testing Type, By Application, By End User, By Geography
Market Drivers	- Growth in precision agriculture adoption - Increasing regulatory demand for food safety - Rising environmental sustainability pressures
Customization Option	Available upon request