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Pathogen or Plant Disease Detection and Monitoring Market - A Global and Regional Analysis: Focus on Application, Product, and Region - Analysis and Forecast, 2023-2028


Introduction of Pathogen or Plant Disease Detection and Monitoring Market The global pathogen or plant disease detection and monitoring industry was valued at $1.76 billion in 2022, and it is ex... もっと見る

 

 

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BIS Research
ビーアイエスリサーチ
2023年11月29日 US$4,950
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137 英語

 

Summary

Introduction of Pathogen or Plant Disease Detection and Monitoring Market

The global pathogen or plant disease detection and monitoring industry was valued at $1.76 billion in 2022, and it is expected to grow with a CAGR of 9.68% during the forecast period 2023-2028 to reach $3.03 billion by 2028. This growth of the pathogen or plant disease detection and monitoring market is likely to be driven by the growing need for food security and quality, particularly in developing nations, where substantial losses in crop production and challenges in post-harvest management are attributed to plant diseases. Additionally, the progress in developing new and inventive methods for detecting plant pathogens, including biosensors, point-of-care devices, remote sensing, and nanotechnology, presents the potential for swift, dependable, and cost-effective solutions in in-field diagnostics.

Introduction of Pathogen or Plant Disease Detection and Monitoring

Cutting-edge technology for rapid and accurate detection and continuous monitoring of pathogens or plant diseases, revolutionizing agricultural health and crop management. The global market for plant disease and pathogen detection involves the development, production, and sale of crucial tools and services for agriculture and horticulture. These tools play a vital role in early disease identification, enabling timely intervention and management strategies to protect crops and ensure food security.

Factors such as climate change, international trade, intensified agriculture, and regulatory guidelines are driving the market's growth. The industry faces a significant threat, with plant pathogens causing up to a 40% annual loss in yield for economically important crops. Invasive pests contribute to a yearly financial burden of at least $70 billion and play a role in the global decline of biodiversity.

The report "Scientific Review of the Impact of Climate Change on Plant Pests" underscores the urgent need for effective pest management strategies. The pathogen or plant disease detection and monitoring market is poised for substantial growth due to rising global food demand, new diseases driven by global trade and climate changes, and technological advancements such as biosensors and remote sensing. Advanced detection methods, such as those used by Planet Labs PBC with satellite imagery and analytics, are crucial in safeguarding agricultural productivity and food security.

Factors Influencing Market Expansion:

• Increasing Global Trade and Transportation
• Growing Concerns for Food Security and Safety
• Environmental Regulations and Compliance
• Advancements in Diagnostic Technologies

Market Segmentation:

Segmentation 1: by Application
• Open Field
• Controlled Environment

Based on application, open-field applications in agriculture involve the use of advanced tools and techniques for rapid disease or pathogen identification in outdoor settings. The LAMP-PCR kit, developed by University of Florida researchers, is a notable example employing loop-mediated isothermal amplification for quick DNA amplification without a thermal cycler. This portable diagnostic kit, equipped with a battery-powered device and a smartphone app, facilitates on-site detection of plant pathogens such as citrus canker and tomato yellow leaf curl virus in under an hour. Future opportunities in plant pathogen detection focus on advanced diagnostic kits, remote laboratory services, and digital platforms incorporating IoT and AI. The success of these advancements relies on technological progress and their demonstrated benefits to farmers, promising a more efficient and effective approach to disease detection in agriculture.

Controlled environment applications in indoor agriculture, such as greenhouses and labs, employ precise and sensitive techniques such as culture-based approaches, PCR-based methods, and sequencing-based techniques for pathogen identification and genomic data analysis. Notably, Clustered Regularly Interspaced Short Palindromic Repeats (CRISPR) technology is adapted for diagnostic kits, offering rapid and accurate detection of specific DNA or RNA sequences of plant pathogens. These portable CRISPR-based kits provide on-site use in greenhouses with advantages in specificity, sensitivity, and speed over traditional methods. The future market in controlled environments includes opportunities for advanced diagnostic kits, digital services for remote monitoring and predictive modeling, and specialized lab services, presenting a comprehensive approach to plant pathogen detection with tailored testing and expert advisory services.

Segmentation 2: by Product
• Diagnostic Kits
• Digital Solutions
• Laboratory Services

Based on product, utilizing cutting-edge technologies such as remote sensing and data analytics, digital services enable real-time monitoring in agriculture. This combined approach enhances both accuracy and speed, effectively addressing food security concerns and facilitating proactive disease management. Plant disease detection and monitoring technology have seen significant advancements, particularly in the realm of artificial intelligence, where deep learning revolutionizes the identification of issues through image analysis. Tools such as Plantix on smartphones empower farmers to collect and share georeferenced data on diseases, while remote sensing methods, employing drones or satellites, provide broader-scale monitoring of crop health. The integration of multispectral sensors in drone and satellite technology further advances plant disease detection, capturing images in various light wavelengths for real-time monitoring. This not only reduces pesticide use but also contributes to improved crop yield and quality.

Laboratory services employ established techniques such as PCR and microscopy for precise plant pathogen detection, with notable examples such as the United States Department of Agriculture (USDA) Animal and Plant Health Inspection Service (APHIS) Plant Pathogen Confirmatory Diagnostics Lab, which specializes in accredited biochemical and molecular diagnostics. Recent technological advancements in plant disease detection include commercially available devices with advanced imaging technologies and the rapid growth of portable point-of-care diagnostics utilizing PCR and immunochromatography. A noteworthy trend is the integration of blockchain technology in laboratory and digital services, aiming to enhance traceability, transparency, and secure sharing of plant pathogen detection data. This integration has the potential to bolster confidence in agricultural supply chains by ensuring a more secure and verifiable data-sharing environment.

Diagnostic kits play a crucial role in swiftly and precisely detecting plant diseases through molecular techniques that identify pathogen DNA or proteins. The adoption of advanced molecular methods, such as PCR, immunology, and biosensors, is on the rise due to their ability to offer faster and more precise plant pathogen detection compared to traditional methods. Recent advancements in these diagnostic kits include the incorporation of nanotechnology and biosensors for rapid and precise detection, the integration of point-of-care devices with the Internet of Things (IoT) for on-site diagnosis, and the development of more versatile kits capable of detecting multiple pathogens in a single assay. These innovations contribute to minimizing crop losses, improving pest control, and preventing disease outbreaks by facilitating swift and informed disease management decisions.

Segmentation 3: by Region
• North America - U.S., Canada, Mexico, and Rest-of-North America
• Europe - Germany, France, Italy, Spain, Netherlands, Belgium, Switzerland, Bulgaria, Ukraine, and Rest-of-Europe
• China
• U.K.
• Asia-Pacific - Japan, South Korea, India, Australia and New Zealand, and Rest-of-Asia-Pacific
• South America - Argentina, Brazil, and Rest-of-South America
• Middle East and Africa - South Africa, Turkey, Israel, and Rest-of-Middle East and Africa

Plant pathogen detection in North America is driven by the increasing demand for food security and adherence to international trade regulations and standards. Advancements in molecular techniques and point-of-care devices offer fast, specific, and cost-effective on-site diagnosis. The emergence of new plant diseases and pests due to climate change and human practices necessitates improved detection methods. The availability of research and development funds, regulated diagnostic labs, and major industry players further support growth in this field. Overall, plant pathogen detection is crucial for mitigating crop losses and ensuring food quality in the region.

Recent Developments in the Global Pathogen or Plant Disease Detection and Monitoring Market

• In July 2021, EarthDaily Analytics unveiled the launch schedule for its upcoming constellation of Earth observation satellites. This satellite constellation is poised to significantly enhance geospatial analytics capabilities across various sectors such as agriculture, forestry, environment, financial services, defense, and intelligence. Construction of the new generation of satellites commenced in July 2021, and launches were scheduled for late 2023 or early 2024.
• In August 2023, Agdia Inc. launched the Thrips Spot Viruses ImmunoComb as a new addition to their ImmunoComb product line. This groundbreaking offering integrates three established ImmunoStrips into a convenient format, providing growers with an effective tool to identify and address plant viruses that exhibit similar symptoms and share a common insect vector.
• In September 2023, Abingdon Health plc joined forces with the U.K.-based B-Corp design agency Morrama Ltd to accelerate the development of environment-friendly housings for lateral flow tests. Collaborating under the newly established venture, Eco-Flo Innovations Ltd, the partnership aims to invest in sustainable design solutions tailored for the lateral flow market. This market has been pivotal in both COVID-19 diagnostics and plant health assessments for many years.
• Planet Labs PBC acquired Sinergise in March 2023. This acquisition enhances the company’s data analysis capabilities, potentially contributing valuable insights to plant pathogen detection by bolstering the platform's ability to provide detailed and comprehensive information relevant to agricultural and environmental monitoring.

Demand – Drivers, Challenges, and Opportunities

Market Drivers: Rising Threat of Fungicide Resistance Crops

The pathogen or plant disease detection and monitoring market is experiencing growth due to heightened fungicide use, the development of new fungicides, and the urgency to manage fungicide resistance. This market can play a crucial role by providing tools for rapid, precise, and cost-effective diagnosis of fungal diseases and resistance status in the field. Moreover, it offers solutions for integrating various disease management methods, such as biologicals, conventional fungicides, and novel compounds, to achieve sustainable and effective control of fungal diseases.

A 2021 United Nations-backed study emphasizes that climate change is exacerbating the impact of pests on crucial agricultural crops, posing heightened risks to global food security and the environment. The increasing prevalence of plant diseases, driven by climate change, global food trade, and pathogen evolution, underscores the necessity for robust surveillance to safeguard the global food supply. Key technologies in this domain include disease sensors, high-throughput sequencing, predictive modeling, and data analytics. Furthermore, the market is influenced by interdisciplinary collaborations involving plant pathology, precision agriculture, plant development, risk assessment, genetic diversity, and microbial interactions.

Market Challenges: Lack of Accuracy and Sample Security

Traditional molecular techniques, such as serological and nucleic acid-based assays, face challenges such as inaccurate results due to complex sample preparation, lengthy diagnostic timelines, and specialized laboratory requirements. These methods may struggle with identifying asymptomatic or latent infections and differentiating between viable and non-viable pathogens. Additionally, sample security is a concern, with the risk of contamination, degradation, or loss during transportation, storage, or processing compromising result integrity. These challenges impede widespread adoption across various settings, increasing operational costs and diminishing profitability.

GM crops have significantly transformed agriculture, contributing to increased productivity, economic prosperity, and food security. While these crops offer improved disease resistance, their widespread adoption poses a challenge for plant disease detection. The adoption of Bt corn has expanded due to resistance against corn rootworm and earworm, extending beyond its initial focus on the European corn borer pre-2003. Similarly, the adoption of Bt cotton is influenced by the severity of occurrences of tobacco budworm, bollworm, and pink bollworm. This trend is evident in the provided table for the U.S., a leading adopter of agricultural technology globally.

Market Opportunities: Innovations in Point-of-Care Diagnostics

Point-of-care diagnostics (POCD) are transforming disease detection by providing rapid, accurate, and cost-effective testing near the patient or infection site, eliminating the need for specialized laboratories. The growth of the pathogen or plant disease detection and monitoring market is anticipated to be driven by the adoption of innovative digital techniques. POCD tools and kits are becoming essential for timely disease analysis, offering immediate solutions, facilitating effective surveillance, and minimizing production losses in agriculture.

Integrated devices, such as smartphones, wearables, and IoT, are enabling real-time data collection and analysis related to plant health. These devices cover parameters such as soil conditions, temperature, humidity, nutrient levels, pest presence, and disease symptoms. They also facilitate remote sensing and diagnosis of plant diseases using cutting-edge technologies such as AI, machine learning, computer vision, and spectral imaging. This technological advancement is revolutionizing agricultural practices by allowing for more precise and efficient management of crop health.

The widespread use of advanced assay technologies, including in-field diagnostics, plays a pivotal role in the early detection of plant pathogens. This early detection significantly reduces agricultural losses, benefiting both farmers and the industry.

How can this report add value to an organization?

Product/Innovation Strategy: In the realm of plant disease, technological advancements are transforming agricultural landscapes. Pathogen or plant disease detection and monitoring market solutions utilize diverse technologies such as IoT sensors, drones, and data analytics. These tools offer precise insights into crop health, optimizing irrigation, pest management, and harvest times. Innovations such as satellite imaging and remote sensing provide a holistic view of fields, empowering farmers to make informed decisions. The market encompasses a range of solutions, from real-time monitoring platforms to AI-driven predictive analysis, enabling farmers to enhance productivity and reduce resource wastage significantly.

Growth/Marketing Strategy: The pathogen or plant disease detection and monitoring market has witnessed remarkable growth strategies by key players. Business expansions, collaborations, and partnerships have been pivotal. Companies are venturing into global markets, forging alliances, and engaging in research collaborations to enhance their technological prowess. Collaborative efforts between tech companies and agricultural experts are driving the development of cutting-edge monitoring tools. Additionally, strategic joint ventures are fostering the integration of diverse expertise, amplifying the market presence of these solutions. This collaborative approach is instrumental in developing comprehensive, user-friendly, and efficient phytopathogen detection and monitoring systems.

Competitive Strategy: In the competitive landscape of plant disease diagnosis, manufacturers are diversifying their product portfolios to cover various crops and farming practices. Market segments include soil analysis tools, disease detection systems, and climate analysis solutions. Competitive benchmarking illuminates the strengths of market players, emphasizing their unique offerings and regional strengths. Partnerships with research institutions and agricultural organizations are driving innovation.

Methodology

Key Considerations and Assumptions in Market Engineering and Validation

• The scope of this report has been focused on various types of plant detection and monitoring systems.
• The market revenue has been calculated based on global pathogen or plant disease detection and monitoring.
• The base currency considered for the market analysis is US$. Currencies other than the US$ have been converted to the US$ for all statistical calculations, considering the average conversion rate for that particular year.
• The currency conversion rate has been taken from the historical exchange rate of the Oanda website.
• Nearly all the recent developments from January 2019 to November 2023 have been considered in this research study.
• The information rendered in the report is a result of in-depth primary interviews, surveys, and secondary analysis.
• Where relevant information was not available, proxy indicators and extrapolation have been employed.
• Any future economic downturn has not been considered for the market estimation and forecast.
• Technologies currently used are expected to persist through the forecast with no major technological breakthroughs.

Primary Research

The primary sources involve the pathogen or plant disease detection and monitoring industry experts and stakeholders such as data suppliers, platform developers, and service providers. Respondents such as vice presidents, CEOs, marketing directors, and technology and innovation directors have been interviewed to verify this research study's qualitative and quantitative aspects.

The key data points taken from primary sources include:

• validation and triangulation of all the numbers and graphs
• validation of reports segmentation and key qualitative findings
• understanding the competitive landscape
• validation of the numbers of various markets for market type
• percentage split of individual markets for region-wise analysis

Secondary Research

This research study involves the usage of extensive secondary research, directories, company websites, and annual reports. It also makes use of databases, such as Hoovers, Bloomberg, Businessweek, and Factiva, to collect useful and effective information for an extensive, technical, market-oriented, and commercial study of the global market. In addition to the data sources, the study has been undertaken with the help of other data sources and websites, such as https://www.euspa.europa.eu/ and https://www.worldbank.org/en/home.

Secondary research was done to obtain crucial information about the industry’s value chain, revenue models, the market’s monetary chain, the total pool of key players, and the current and potential use cases and applications.

Key Market Players and Competition Synopsis

The featured companies have been meticulously chosen, drawing insights from primary experts and thorough evaluations of company coverage, product offerings, and market presence.

Among the prominent players in the global pathogen or plant disease detection and monitoring market, private ventures and innovative startups dominate, commanding approximately 85% of the market share in 2022. The remaining 15% is held by public enterprises.

Some prominent names established in this market are:

Company Type 1: Public Companies
• Abingdon Health
• Planet Labs PBC

Company Type 2: Private Companies
• Agdia, Inc.
• BIOREBA AG
• Creative Diagnostics
• Drone Ag
• Libelium Comunicaciones Distribuidas S.L.
• Dronegy
• Ceres Imaging
• Agricolus
• FIXAR-AERO, LLC
• GeoPard Agriculture

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Table of Contents

1 Market
1.1 Industry Outlook
1.1.1 Market Definition
1.1.2 Ongoing Trends
1.1.2.1 Leveraging Data Analytics and Artificial Intelligence for Precision Disease Detection
1.1.3 Ecosystem/Ongoing Programs
1.1.3.1 Consortiums, Associations, and Regulatory Bodies
1.1.3.2 Government Programs
1.2 Business Dynamics
1.2.1 Business Drivers
1.2.1.1 Rising Threat of Fungicide Resistance Crops
1.2.1.2 Frequent Outbreaks of Emerging Plant Diseases
1.2.2 Business Challenges
1.2.2.1 Lack of Accuracy and Sample Security
1.2.2.2 Rapid Adoption of Genetically Modified Organism (GMO) or Gene Adopted Crops
1.2.3 Market Strategies and Developments
1.2.3.1 Business Strategies
1.2.3.1.1 Product Development and Innovations
1.2.3.1.2 Market Development
1.2.3.2 Corporate Strategies
1.2.3.2.1 Mergers and Acquisitions
1.2.3.2.2 Partnerships, Collaborations, and Joint Ventures
1.2.3.2.3 Snapshot of Corporate Strategies Adopted by the Key Players in the Market
1.2.4 Business Opportunities
1.2.4.1 Innovations in Point-of-Care Diagnostics
1.2.4.2 Rapid Adoption of Integrated Solutions
1.3 Case Studies
1.3.1 Libelium Comunicaciones Distribuidas S.L. – Agribio cooperative Case Study
1.3.2 Ceres Imaging- Cardella Winery Case Study
1.4 Start-Up Landscape
1.4.1 Funding Analysis
1.4.1.1 Total Investment
1.4.1.2 Leading Investment by Start-Up Companies
2 Application
2.1 Global Pathogen or Plant Disease Detection and Monitoring Market (by Application)
2.1.1 Open Field
2.1.2 Controlled Environment
3 Products
3.1 Global Pathogen or Plant Disease Detection and Monitoring Market (by Product)
3.1.1 Diagnostic Kits
3.1.2 Laboratory Services
3.1.3 Digital Solution
3.2 Value Chain Analysis
3.3 Patent Analysis
3.4 Pricing Analysis
3.4.1 Diagnostic Kits
3.4.2 Services
4 Region
4.1 Global Pathogen or Plant Disease Detection and Monitoring Market (by Region)
4.2 North America
4.2.1 North America (by Country)
4.2.1.1 U.S.
4.2.1.2 Canada
4.2.1.3 Mexico
4.2.1.4 Rest-of-North America
4.3 South America
4.3.1 South America (by Country)
4.3.1.1 Brazil
4.3.1.2 Argentina
4.3.1.3 Rest-of-South America
4.4 Europe
4.4.1 Europe (by Country)
4.4.1.1 Italy
4.4.1.2 France
4.4.1.3 Netherlands
4.4.1.4 Germany
4.4.1.5 Switzerland
4.4.1.6 Belgium
4.4.1.7 Spain
4.4.1.8 Bulgaria
4.4.1.9 Ukraine
4.4.1.10 Rest-of-Europe
4.5 U.K.
4.6 Middle East and Africa
4.6.1 Middle East and Africa (by Country)
4.6.1.1 South Africa
4.6.1.2 Turkey
4.6.1.3 Israel
4.6.1.4 Rest-of-Middle East and Africa
4.7 China
4.8 Asia-Pacific
4.8.1 Asia-Pacific (by Country)
4.8.1.1 Japan
4.8.1.2 Australia and New Zealand
4.8.1.3 South Korea
4.8.1.4 India
4.8.1.5 Rest-of-Asia-Pacific
5 Markets - Competitive Benchmarking & Company Profiles
5.1 Competitive Benchmarking
5.2 Market Share Analysis
5.3 Company Profiles
5.3.1 Abingdon Health
5.3.1.1 Company Overview
5.3.1.2 Product and Customer Portfolio Analysis
5.3.2 Agdia, Inc.
5.3.2.1 Company Overview
5.3.2.2 Product and Customer Portfolio Analysis
5.3.3 BIOREBA AG
5.3.3.1 Company Overview
5.3.3.2 Product and Customer Portfolio Analysis
5.3.4 Creative Diagnostics
5.3.4.1 Company Overview
5.3.4.2 Product and Customer Portfolio Analysis
5.3.5 Drone Ag
5.3.5.1 Company Overview
5.3.5.2 Product and Customer Portfolio Analysis
5.3.6 Libelium Comunicaciones Distribuidas S.L.
5.3.6.1 Company Overview
5.3.6.2 Product and Customer Portfolio Analysis
5.3.7 Planet Labs PBC
5.3.7.1 Company Overview
5.3.7.2 Product and Customer Portfolio Analysis
5.3.8 Ceres Imaging
5.3.8.1 Company Overview
5.3.8.2 Product and Customer Portfolio Analysis
5.4 Start-Up Companies
5.4.1 Agricolus
5.4.1.1 Company Overview
5.4.1.2 Product and Customer Portfolio Analysis
5.4.2 GeoPard Agriculture
5.4.2.1 Company Overview
5.4.2.2 Product and Customer Portfolio Analysis
5.4.3 Dronegy
5.4.3.1 Company Overview
5.4.3.2 Product and Customer Portfolio Analysis
5.4.4 FIXAR-AERO, LLC
5.4.4.1 Company Overview
5.4.4.2 Product and Customer Portfolio Analysis
6 Research Methodology
6.1 Primary Data Sources
6.2 Secondary Data Sources
6.3 Market Estimation and Forecast
List of Figures
Figure 1: Scope Definition
Figure 2: Global Pathogen or Plant Disease Detection and Monitoring Market Coverage
Figure 3: Factors Driving the Need for Pathogen or Plant Disease Detection and Monitoring Market
Figure 4: Global Pathogen or Plant Disease Detection and Monitoring Market, $Billion, 2022-2028
Figure 5: Market Dynamics of the Global Pathogen or Plant Disease Detection and Monitoring Market
Figure 6: Global Pathogen or Plant Disease Detection and Monitoring Market (by Application), $Billion, 2022-2028
Figure 7: Global Pathogen or Plant Disease Detection and Monitoring Market (by Product), $Billion, 2022-2028
Figure 8: Global Pathogen or Plant Disease Detection and Monitoring Market (by Region), $Million, 2022
Figure 9: Literature Review Study on an AI-Based Strategy for Detecting and Monitoring Pest-Infested Crops and Leaves
Figure 10: Adoption of Genetically Engineered Crops in the U.S., 2000-2023
Figure 11: Share of Key Market Strategies and Developments, January 2019-October 2023
Figure 12: Share of Product Development and Innovations (by Company), January 2019-October 2023
Figure 13: Share of Partnerships, Collaborations, and Joint Ventures (by Company), January 2019-October 2023
Figure 14: Libelium Comunicaciones Distribuidas S.L.– Agribio cooperative Case Study
Figure 15: Ceres Imaging- Cardella Winery Case Study
Figure 16: Total Investment in the Global Pathogen or Plant Disease Detection and Monitoring Market, $Million, 2018-2023
Figure 17: Top Investments in the Global Plant Disease or Pathogen Detection and Monitoring Market, January 2018-July 2023
Figure 18: Value Chain of the Global Pathogen or Plant Disease Detection and Monitoring Market
Figure 19: Competitive Benchmarking Matrix for Key Pathogen or Plant Disease Detection and Monitoring Product Manufacturers
Figure 20: Competitive Benchmarking Matrix for Key Plant Disease or Pathogen Detection and Monitoring Service Providers
Figure 21: Market Share Analysis of Global Pathogen or Plant Disease Detection and Monitoring Market (by Company), 2022
Figure 22: Market Share Analysis of Global Pathogen or Plant Disease Detection and Monitoring Market (by Company), 2022
Figure 23: Global Pathogen or Plant Disease Detection and Monitoring Market: Research Methodology
Figure 24: Data Triangulation
Figure 25: Top-Down and Bottom-Up Approach
Figure 26: Assumptions and Limitations
List of Tables
Table 1: Commercially Available Devices for Plant Pathogen Detection
Table 2: Key Consortiums, Associations, and Regulatory Bodies in the Global Pathogen or Plant Disease Detection and Monitoring Market
Table 3: Government Programs to Promote Pathogen or Plant Disease Detection and Monitoring Market
Table 4: Example of Fungicide Treatment
Table 5: Summary of Plant Pathogens, Pathways, and Distribution, Food and Agriculture Organization (FAO) Report, 2021
Table 6: Mergers and Acquisitions, January 2019-October 2023
Table 7: Some Examples of Point-of-Care Diagnostics (POCD)
Table 8: Pricing Analysis for Different Types of Diagnostic Kits
Table 9: Pricing Analysis for Different Types of Services

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Press Release

The global pathogen or plant disease detection and monitoring market is estimated to reach $3.03 billion by 2028, reveals the premium market intelligence study by BIS Research. The study also highlights that the market is set to witness a CAGR of 9.68% during the forecast period 2023-2028.

The expansion of the market is primarily attributed to increased research and development efforts, as well as experimental field studies conducted by institutions and government bodies. These initiatives aim to evaluate the economic benefits associated with plant disease or pathogen detection and monitoring.

USP of the Report

The USP of the pathogen or plant disease detection and monitoring market report lies in its extensive coverage of the latest industry trends, market insights, technological advancements, and competitive landscape. It provides valuable data and analysis to help businesses make informed decisions, identify growth opportunities, and strategize their market entry or expansion plans in this rapidly evolving sector.

Analyst Perspective

According to Debraj Chakraborty, Principal Analyst at BIS Research, “The pathogen or plant disease detection and monitoring market is rapidly growing, driven by technological advancements such as AI and IoT. There is a pressing need for innovative solutions to counter rising threats to global food security, emphasizing precision and early detection. Stakeholders recognize the economic and environmental benefits, signaling a paradigm shift in the industry with promising opportunities for growth and investment."

Key Companies Operating in The Market

The key players profiled in the report include Abingdon Health, Agdia, Inc., BIOREBA AG, Creative Diagnostics, Drone Ag, Libelium Comunicaciones Distribuidas S.L., Planet Labs PBC, Ceres Imaging, Agricolus, GeoPard Agriculture, Dronegy, and FIXAR-AERO, LLC

Key Questions Answered in the Report

• What is the estimated global pathogen or plant disease detection and monitoring market size in terms of revenue during the forecast period 2023-2028, and what is the expected compound annual growth rate (CAGR) during the forecast period 2023-2028?
• What are the key trends, market drivers, and opportunities in the market pertaining to the global pathogen or plant disease detection and monitoring market?
• What are the major restraints inhibiting the growth of the global pathogen or plant disease detection and monitoring market?
• What kinds of new strategies are being adopted by the existing market players to expand their market position in the industry?
• What is the competitive strength of the key players in the global pathogen or plant disease detection and monitoring market on the basis of analysis of their recent developments, product offerings, and regional presence?
• How is the competitive benchmarking of the key global pathogen or plant disease detection and monitoring market players in the agriculture sector based on the analysis of their market coverage and market potential?
• Which type of players and stakeholders are operating in the ecosystem of the global pathogen or plant disease detection and monitoring market, and what is their significance in the global market?
• Which are the leading consortiums and associations in the global pathogen or plant disease detection and monitoring market, and what are their roles in the market?

 

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