Plant Phenotyping Market Size, Share, and Industry Analysis by Type (Equipment [Platform, Application, and Site, Analysis System, and Automation Type], Software [System Control, Data Acquisition, and Others], and Sensors [Temperature Sensors, Image Sensors, and Others]), By Service (Data Analysis and Statistical Analysis), and Regional Forecast till 2032

The global plant phenotyping market is rapidly growing as the agricultural industry turns to advanced technologies to improve crop yield and resilience. Phenotyping, which involves assessing plant traits such as growth, structure, and stress responses, is becoming crucial for addressing global challenges such as food security and climate change. Additionally, increasing research and development activities along with companies’ involvement in registering patents will drive the industry growth.

According to the National Library of Medicine, research activities in plant phenomics have increased significantly, with China emerging as a major player, filing nearly 70% of patents from 2010 to 2021. The demand for data-driven agriculture and precision farming has spurred the development of phenotyping tools and techniques that enable farmers and researchers to understand plant behavior under various conditions. This market growth is further driven by the increasing use of automation and sensor technologies for monitoring plant traits efficiently.

Plant Phenotyping Market

Rising Demand for Sustainable Agriculture and Precision Farming Fuels the Market Growth

A major driver of the market is the increasing focus on sustainable agriculture. As farmers and agricultural companies look to reduce resource use while maximizing output, phenotyping allows for optimized crop breeding and cultivation. According to a new United Nations report, the global population is predicted to surge from its current 7.8 billion to 9.8 billion by 2050, necessitating a marked increase in agricultural productivity to meet the growing demand for food. Plants, particularly crops, are crucial to agricultural production and are the primary source of food for humans.

Another driver is the growing adoption of precision farming practices, where phenotyping tools help monitor crop conditions in real-time, improving decision-making. Additionally, the rise of genomic research in agriculture has made plant phenotyping essential for linking plant traits to genetic data, further accelerating innovation in crop breeding.

Plant Phenotyping Restraint

Lack of Skills and Investment to Hamper the Market Growth

One significant restraint in the plant phenotyping market is the high cost of advanced equipment and technology. Due to this financial burden, small-scale farmers and research institutes often face challenges in adopting phenotyping systems. Another issue is the complexity of data analysis, as large volumes of data collected through phenotyping require specialized software and expertise, which can limit accessibility. Furthermore, to handle this technology and advanced machinery, individuals need specific products and technical knowledge. Lack of product knowledge in developing nations will restrict product penetration in the near future.

Plant Phenotyping Opportunity

Emerging Industry 4.0 Technologies Application in the Agriculture Sector to Drive the Market Growth

The plant phenotyping market offers significant opportunities through the integration of AI and machine learning in data analysis. As more researchers and agricultural companies adopt these technologies, phenotyping becomes more efficient and scalable. There is also growing potential for developing phenotyping solutions for climate-smart agriculture, where plants are bred to withstand extreme weather conditions and environmental stressors.

Lastly, collaborations between research institutions and agricultural companies are providing a platform for innovations in phenotyping tools and methods, fostering advancements in both hardware and software technologies.

Segmentation

KEY INSIGHTS

The report covers the following key insights:

• Overview of the Parent Market
• Supply Chain Analysis
• Regulatory Landscape
• Recent Industry Developments – New Product Launches, Merger & Acquisitions, Investment, and Others
• Qualitative Analysis Related to COVID-19

Analysis by Type

Based on type, the plant phenotyping market is divided into equipment [platform, application, and site, analysis system, and automation type], software [system control, data acquisition, and others], and sensors [temperature sensors, image sensors, and others].

The equipment-based phenotyping segment is leading in the market as it includes drones, sensors, imaging systems, and other automated tools that enhance large-scale data collection. The efficiency of these tools in monitoring plant growth and stress responses makes them a preferred choice for research institutes and agricultural companies. Precision agriculture's increasing adoption is pushing the demand for advanced phenotyping equipment.

The software-based phenotyping segment is witnessing fast growth due to advancements in AI, machine learning, and big data analytics. Software-based solutions enable researchers to interpret vast amounts of phenotypic data, accelerating plant breeding programs and improving decision-making processes in agriculture.

Analysis by Service

Based on service, the market is subdivided into data analysis and statistical analysis.

Statistical analysis is the leading approach for interpreting phenotypic data. Agricultural researchers rely heavily on statistical tools to identify correlations between phenotypic traits and environmental factors. Although it is a mature field, it is continuously growing, driven by the need for more advanced techniques to handle large datasets generated by modern phenotyping platforms.

Data analysis is a critical component of the plant phenotyping process, providing actionable insights that guide crop breeding and stress resistance research. This segment is growing rapidly due to the increasing need for predictive models that can analyze vast amounts of phenotypic data. The adoption of AI and machine learning tools in this area has made it a focal point for agricultural companies and research institutes.

Regional Analysis

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Based on region, the market has been studied across North America, Europe, Asia Pacific, South America, and the Middle East & Africa.

North America is the leading region in the plant phenotyping market, primarily due to the high adoption of precision farming techniques and strong investment in agricultural research. The presence of major research institutes and agricultural technology companies in the U.S. and Canada further boosts market growth.

Europe, particularly countries such as Germany and France, is a significant player in the plant phenotyping market. Government support for sustainable agriculture practices and investments in research and development drive the market in this region. In the same way that disease control techniques maintain healthy and productive cattle, advanced plant breeding using biotechnology and gene editing increases yields and resistance to drought. Efficient solutions for crops and irrigation increase water productivity while lowering labor costs.

Key Market Players

• Lemnatec GmbH (Germany)
• Phenospex (Netherlands)
• CropDesign (Bayer AG) (Germany)
• WPS (Weighing, Picking, Sorting) Horti Systems (Netherlands)
• Photon Systems Instruments (Czech Republic)
• BASF (Germany)
• Qubit Systems Incorporation (Canada)
• Heinz Walz GmbH (Germany)
• WIWAM (Belgium)

Key Industry Developments

• In May 2024, the LemnaTec PhenoAIxpert company, known for making phenotyping technology, built a rhizobia imaging system that produces images of roots growing along the clear plate. This technology can be used by both the automated PhenoAIxpert HT and the manually operated PhenoAIxpert Pro.
• In April 2024, WPS, a Netherlands-based agri-solutions company, introduced its recent development in plant research automation - WPS Phenotyping Gantry. This new technology offers data-driven and scalable solutions to users.