Soil Fertility Testing Market

Soil Fertility Testing Market Analysis, By Chemical, By Structure of Soil, By Off-Site (Organic Matter Levels, Microscopy, Organism Activities) and Region - Market Insights 2024 to 2034

Analysis of Soil Fertility Testing Market Covering 30+ Countries Including Analysis of US, Canada, UK, Germany, France, Nordics, GCC countries, Japan, Korea and many more

Soil Fertility Testing Market Outlook (2024 to 2034)

The global Soil Fertility Testing Market is estimated to be around US$ 1,329.1 million in 2024. Soil Fertility Testing sales are projected to increase at a CAGR of 6.4%, reaching over US$ 2,464.6 million by 2034.

Advanced techniques like spectroscopy and remote sensing are used in conjunction with laboratory-based analysis to enable crucial equipment and services for the assessment of soil health in terms of nutrient content, pH, organic matter, and microbial activity. This involves the possibility of giving very precise recommendations on fertilization, crop rotation, and soil management by use of efficient resource use. This includes aggregating information from user-friendly digital platforms for real-time monitoring and decision-making, improving general efficiency in agricultural practices.

  • The Common Agricultural Policy of the European Union has allocated over US$ 432.2 billion for sustainable farming activities from the year 2021 to 2027, hence promising enormous investment opportunities in the forms of subsidies and incentives towards soil testing services. This would facilitate farmers to continue or adapt best practices that retain soil health and curtail environmental impact to improve crop yield performance. This factor favors market growth in the region.

The wide applicability is in yield optimization and sustainable farming in agriculture, horticulture, and landscaping. It is expected to indicate the fertilizer application, irrigation, and choice of crops to farmers, agronomists, and research institutions involved in agriculture. In addition, soil testing shall contribute to environmental monitoring, both in land restoration and agricultural regulations.

The future outlook in the Soil Fertility Testing Market is promising, with increasing global demand for food that will increase the adoption of precision agriculture and a shift toward organic farming. Other growth drivers include technological innovations that raise further concerns about sustainability.

Report Attributes Details
Soil Fertility Testing Market Size (2023A) US$ 1,258.4 Million
Estimated Market Value (2024E) US$ 1,329.1 Million
Forecasted Market Value (2034F) US$ 2,464.6 Million
Global Market Growth Rate (2024 to 2034) 6.4% CAGR
East Asia Market Share (2024) 17.8%
China Market Growth Rate (2024 to 2034) 7.8% CAGR
Key Companies Profiled Eurofins Agri Testing; SGS Agriculture; Bureau Veritas; Yara; ALS Ltd; Waypoint Analytics; A&L Laboratories (Deveron); Duraroot; Water Agriculture Laboratories Inc; Agvise Laboratories Inc; Crop Nutrition Laboratory Services Ltd.; Anacon Laboratories; Actlabs; Polytest Laboratories; AgroLab; A & L Great Lakes; AgroCares; Other Prominent Players.

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Historic Analysis (2019 to 2023) Vs Future (2024 to 2034) Pathway Analysis

The soil fertility testing market was valued at US$1,258.4 million in 2023, growing at a CAGR of 2.7% from 2019 to 2023.

  • Short Term (2024 to 2027): In the short run, stable growth is expected in the Soil Fertility Testing market due to the adoption of precision agriculture and increased awareness of managing soil health. Proper nutrient analytical tools will be in high demand as farmers look ahead to optimizing crop yields. These will be enabled by government initiatives that advocate for sustainable farming practices and the creation of digital platforms.
  • Medium Term (2027 to 2030): will record exponential market growth. This is possibly due to several reasons increased mainstream usage of artificial intelligence and IoTs in soil tests to monitor real-time data and predictive analytics will further modernize decision-making. The share of organic farming or regenerative agriculture shall also rise in volume, furthering demand for integrated assessments of soil fertility to further shore up market development and growth.
  • Long Term (2030 to 2034): The long-term prospects in the soil fertility testing market will be vastly different with pressing global concerns of food security and implications of climate change. Predominant segments of the market will eventually be advanced automated solutions offering a greater degree of precision and efficiency. Further, the market will keep on gaining geographical ground in emerging regions, as sustainable farming methods remain at the center of global concerns. It would also mean increased integration of data and standardization on a global level.

Based on these facts, the soil fertility testing market is projected to grow at a CAGR of 6.4% from 2024 to 2034, according to Fact.MR, a market research and competitive intelligence provider.

Market Dynamics

What are the driving forces behind Soil Fertility Testing worldwide?

“Expansion of Organic Retail Markets Requiring Certified Soil Health”

The expansion of organic retail markets is driving a significant demand for certified soil health, which directly influences the soil fertility testing market. Organic products are in continuous growing demand due to the rise in consumers being conscious of the quality and origin of their food. Retailers and producers are supposed to ensure that their organic products pass through very strict organic certification standards, which entail very elaborate soil health assessment tests.

In this case, soil fertility testing is, therefore, playing a critical role of providing data that would ascertain if the farming methods employed are truly sustainable and in accordance with guidelines governing organic farming. This trend not only accelerates the growth in the adoption of soil testing services but also reinforces the maintenance of healthy, fertile soils to keep pace with growth in the organic market.

  • As there is a need for suitable soil health certification through the use of standards, such as ISO 13.080.05 on examination of soil issues and ISO 17892-1 on geotechnical testing of soil, to ensure stringent testing of the soil to meet the organic certification requirements as well as those of consumers.

This market is growing, and since it requires strict maintenance of soil health, it's therefore propelling the need for soil fertility testing. Moreover, organic certification entails proving that one's farming practice is sustainable and friendly to the environment, in which soil health itself is a component. As the organic market keeps on expanding, it will require producers to keep testing their soil in order to meet such standards, thus sustaining their certification and positioning within the market. This requires periodic testing of soil fertility, hence making testing services an inherent part of organic farming and the key to market sustainability.

“Increased Food Demand Requiring Ever-Increasing Agricultural Productivity”

A growing population, coupled with increased income, is perpetually tugging upwards on global food demand. This can have only one response: the intensification of agricultural systems through productivity increases. Soil fertility testing thus becomes an indispensable tool for farmers who have to optimize crop yields under challenging conditions of agronomy with the protection of soil health. Such testing helps farmers to precisely estimate nutrient levels and make intelligent decisions on the best fertilization for crops. Hence, with increasing pressure on agricultural yield, more soil fertility tests are envisaged to be implemented to keep farmers productive and achieve food security.

  • As reported by the UN in its 2023 State of Food Security and Nutrition in the World report, there were up to 783 million people who were hungry in 2022 while about 2.4 billion people lacked enough food. If we aim to end famine and malnutrition globally, we need to improve our farming production which is a must for increased food supply due to soaring demand.

With the continuous increase in demand for food, agricultural systems face an uphill struggle of heightened expectations to produce more. An increasing number of farmers rely on soil fertility testing to help them achieve increased yields without compromising their soil health. The fertility test would provide them with very useful information about the level of nutrients inside the soil. Such information gives value to the creation of very specific fertilization strategies. Regarding this, soil fertility tests are of high importance and form part of maintaining agricultural productivity by making the soils fertile to keep pace with the continuously growing demand for more food.

What are the Challenges Encountered by Service Providers of Soil Fertility Testing?

“Lack of Standardized Testing Procedures Across Regions”

One of the major Challenges in the soil fertility testing market is the lack of standardized testing procedures amongst regions. Most countries and sometimes regions within the same country follow different methods, equipment, and criteria for testing soils, which leads to the variability of the results. Variability in such manners makes the process of comparing the soil data across regions problematic, and thus large-scale agricultural planning and decision-making get hampered. It may also lead to complications among farmers and agronomists if there are no regular standards, thereby reducing efficiency in the very soil management practices and eventually lowering crop yields.

Complications arise in the testing of soil fertility due to inconsistent results and interpretations, as there is no standardization in procedures across the regions. Because methodologies and criteria vary around the world, it is often difficult to compare data to arrive at effective decisions on soil management. There is a non-uniformity in methods of measurement that can lead to confusion among farmers who may not be able to make appropriate decisions on nutrient management. It thereby leads to a more challenging task of acquisition of consistent and reliable assessments of soil fertility, which consequently affects agricultural productivity and sustainability.

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Country-wise Insights

Why United States is seeking a high adoption of Soil Fertility Testing?

“Precision Agriculture Demands Optimized Crop Yields and Resource Efficiency”

Market Value (2024E) US$ 279.8 Million
Growth Rate (2024 to 2034) 5.8% CAGR
Projected Value (2034F) US$ 491.4 Million

Precision agriculture has increasingly become pivotal in the United States, as farmers strive to improve crop yields and efficiency in resources. Advanced soil fertility testing is highly in demand due to the need for more precise data on soil health, which will allow the application of nutrients and fertilizers in a manner that can be well-targeted. This, therefore, raises productivity while minimizing waste and environmental impact. Precision agriculture aids U.S. farmers to great degrees with vast and varied agricultural landscapes, helping them manage the soil conditions more effectively for more sustainable and profitable farming.

  • While precision agriculture technologies like variable rate fertilizer applications and yield monitoring have been available since the 1990s, the 2023 USDA report highlights that 27 percent of U.S. farms and ranches are now actively utilizing these advanced practices. an important consideration that we must take into account how new developments might affect existing methods for managing soil fertility testing. We can expect even more extensive applications of precision agriculture as people appreciate its merits in improving crop yields and making better use of resources.
  • In the United States, precision farming is an important factor that maximizes crop yield and efficiency in resource usage. Precision agriculture plays a vital role in maximizing crop yield in the U.S., along with efficient resource utilization. Advanced soil fertility testing has detailed insight into soil health and has introduced exact nutrient management. This technology will enable farmers to apply differential approaches in disparate conditions of soil, economize on inputs, and promote environmental sustainability to ensure that agricultural operations across the nation are productive and eco-friendly.

What makes the Chinese market profitable for Soil Fertility Testing Service Providers?

“Soil Fertility Testing Gain Popularity in China for Recreational Use”

Attribute China
Market Value (2024E) US$ 155.0 Million
Growth Rate (2024 to 2034) 7.8% CAGR
Projected Value (2034F) US$ 329.3 Million

The rapid modernization of agriculture in China has raised the bar for advanced analysis of soil. Its trajectory, which is under change from traditional farming to technology-based farming practices, indicates more and more farmers are adopting precision agriculture techniques. For that shift, a detailed soil fertility assessment is needed to optimize nutrient management for better crop yields. Increased usage of modern agricultural practices and substantial investments in agricultural technology stipulate the soil testing solutions to drive large-scale farming and sustainable productivity.

The rapid modernization of agriculture in China is increasing the demand for advanced analysis of soil. On the way to precision agriculture, farmers are also in need of highly detailed data on soil to improve their yield with efficient resource management. Government support and investment in technologies further accelerate this demand, indicating the vital role that could be played by soil fertility testing in augmenting productivity and sustainability over the vast expanses of China's agriculture.

Category-wise Insights

Why is Chemical Soil Fertility Testing Gathering Attention?

“Provides precise nutrient levels for targeted fertilizer applications.”

Attribute Nano Soil Fertility Testing
Market Value (2024E) US$ 123.3 Million
Growth Rate (2024 to 2034) 7.5% CAGR
Projected Value (2034F) US$ 253.3 Million

Chemical testing of soil fertility will be able to give even more specific nutrient information so that the farmers apply fertilizers only in those parts of the farm where they are needed. They help optimize the amount of nutrients given to each crop for good growth and yields, with minimal applications of more than the required fertilizers. With more specific nutrient information, application rates and techniques can be adjusted.

Chemical soil fertility testing allows for specific fertilizer applications by showing exactly which nutrient concentrations exist. It is in this regard that precise information will enhance crop growth without wasting any resources or creating wastes; this brings about the ability to farm efficiently with better soil health.

Will Off-Site Testing Method the Dominant Revenue for Soil Fertility Testing Service Providers?

“Promising Market for Architectural Soil Fertility Testing in Emerging Economies”

For large or remote farms samples of soil can be collected without conducting on-site testing. It simplifies the process where a farm has large expanses or uneasily accessible areas that may require much hand labor and traveling. Farmers can easily gather soil samples from various locations and send them to a central lab for analysis. This approach will save time, decrease operational costs, and make precise soil fertility testing possible even for remote or very extensive farms, hence ensuring more efficient and effective soil management.

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Competitive Landscape

Key players in the soil fertility testing industry are Eurofins Agri Testing, SGS Agriculture, Bureau Veritas, Yara, ALS Ltd, Waypoint Analytics, A&L Laboratories (Deveron), Duraroot, Water Agriculture Laboratories Inc, Agvise Laboratories Inc

In recent developments, companies unveiled a groundbreaking glass product, boasting enhanced color neutrality and increased light transmission, catering to diverse architectural needs. Also, the enterprise expanded its presence by establishing a strategic office location, aiming to better serve customers and field technicians, reflecting a commitment to growth and service optimization.

  • Eurofins Agro Testing announced, on September 12, 2023, its partnership with SRUC - Scotland's Rural College - taking over the Soil, Forage, and Plant Pathology laboratory services. The rationale behind this acquisition is to make agricultural testing across the UK more robust by merging Eurofins' wide portfolio with the substantial reputation of SRUC in the Scottish market for sustainable farming practices.
  • Eurofins announced on 18 December 2023 its agreement to acquire SGS Crop Science operations in 14 countries, further consolidating its leading position in agroscience contract research services and soil testing. The deal reinforces Eurofins' competencies in agricultural inputs testing, precision farming, and agronomy services. This acquisition fits in with Eurofins' strategy of offering a global, high-value portfolio of testing and research services. Eurofins will employ an additional 480 employees, specifically in soil fertility testing, for the benefit of the customer base worldwide by bringing state-of-the-art data generation and regulatory support for agricultural innovation.

Fact.MR's recently published report offers detailed insights into the price points of major Soil Fertility Testing Service Providers across different regions, along with data on sales growth, production capacity, and potential technological advancements.

Segmentation of Soil Fertility Testing Industry Research

  • By Type :

    • Chemical
    • Physical
    • Bio-logical
  • By Application :

    • Structure of Soil
    • Aeration in Soil
    • Drainage in Soil
    • Chemical Fertility of Soil
  • By Method :

    • On-Site
    • Off-Site
      • Organic Matter Levels
      • Microscopy
      • Organism Activities
      • Fumigation
      • Molecular Method
  • By Region :

    • North America
    • Latin America
    • Western Europe
    • Eastern Europe
    • East Asia
    • South Asia & Pacific
    • Middle East & Africa

Table of Content

  • 1. Executive Summary
  • 2. Industry Introduction, including Taxonomy and Market Definition
  • 3. Trends and Success Factors, including Macro-Economic Factors, Market Dynamics, and Recent Industry Developments
  • 4. Global Demand Analysis 2019 to 2023 and Forecast 2024 to 2034, including Historical Analysis and Future Projections
  • 5. Global Analysis 2019 to 2023 and Forecast 2024 to 2034
    • 5.1. Type
    • 5.2. Application
    • 5.3. Method
  • 6. Global Analysis 2019 to 2023 and Forecast 2024 to 2034, By Type
    • 6.1. Chemical
    • 6.2. Physical
    • 6.3. Biological
  • 7. Global Analysis 2019 to 2023 and Forecast 2024 to 2034, By Application
    • 7.1. Structure of Soil
    • 7.2. Aeration in Soil
    • 7.3. Drainage in Soil
    • 7.4. Chemical Fertility of Soil
  • 8. Global Analysis 2019 to 2023 and Forecast 2024 to 2034, By Method
    • 8.1. On-Site
    • 8.2. Off-Site
      • 8.2.1. Organic Matter Levels
      • 8.2.2. Microscopy
      • 8.2.3. Organism Activities
      • 8.2.4. Fumigation
      • 8.2.5. Molecular Method
  • 9. Global Analysis 2019 to 2023 and Forecast 2024 to 2034, By Region
    • 9.1. North America
    • 9.2. Latin America
    • 9.3. Western Europe
    • 9.4. Eastern Europe
    • 9.5. East Asia
    • 9.6. South Asia & Pacific
    • 9.7. MEA
  • 10. North America Sales Analysis 2019 to 2023 and Forecast 2024 to 2034, by Key Segments and Countries
  • 11. Latin America Sales Analysis 2019 to 2023 and Forecast 2024 to 2034, by Key Segments and Countries
  • 12. Western Europe Sales Analysis 2019 to 2023 and Forecast 2024 to 2034, by Key Segments and Countries
  • 13. Eastern Europe Sales Analysis 2019 to 2023 and Forecast 2024 to 2034, by Key Segments and Countries
  • 14. East Asia Sales Analysis 2019 to 2023 and Forecast 2024 to 2034, by Key Segments and Countries
  • 15. South Asia & Pacific Sales Analysis 2019 to 2023 and Forecast 2024 to 2034, by Key Segments and Countries
  • 16. MEA Sales Analysis 2019 to 2023 and Forecast 2024 to 2034, by Key Segments and Countries
  • 17. Sales Forecast 2024 to 2034 by Type, Application, and Method for 30 Countries
  • 18. Competition Outlook, including Market Structure Analysis, Company Share Analysis by Key Players, and Competition Dashboard
  • 19. Company Profile
    • 19.1. Eurofins Agri Testing
    • 19.2. SGS Agriculture
    • 19.3. Bureau Veritas
    • 19.4. Yara
    • 19.5. ALS Ltd
    • 19.6. Waypoint Analytics
    • 19.7. A&L Laboratories (Deveron)
    • 19.8. Duraroot
    • 19.9. Water Agriculture Laboratories Inc
    • 19.10. Agvise Laboratories Inc
    • 19.11. Crop Nutrition Laboratory Services Ltd.
    • 19.12. Anacon Laboratories
    • 19.13. Actlabs
    • 19.14. Polytest Laboratories
    • 19.15. AgroLab
    • 19.16. A & L Great Lakes
    • 19.17. AgroCares
    • 19.18. Other Players
  • 20. Assumptions & Acronyms Used
  • 21. Research Methodology

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List Of Table

Table 01: Global US$ Mn Forecast by Region, 2019 to 2034

Table 02: Global US$ Mn Forecast by Type, 2019 to 2034

Table 03: Global US$ Mn Forecast by Application, 2019 to 2034

Table 04: Global US$ Mn Forecast by Method, 2019 to 2034

Table 05: North America US$ Mn Forecast by Country, 2019 to 2034

Table 06: North America US$ Mn Forecast by Type, 2019 to 2034

Table 07: North America US$ Mn Forecast by Application, 2019 to 2034

Table 08: North America US$ Mn Forecast by Method, 2019 to 2034

Table 09: Latin America US$ Mn Forecast by Country, 2019 to 2034

Table 10: Latin America US$ Mn Forecast by Type, 2019 to 2034

Table 11: Latin America US$ Mn Forecast by Application, 2019 to 2034

Table 12: Latin America US$ Mn Forecast by Method, 2019 to 2034

Table 13: Western Europe US$ Mn Forecast by Country, 2019 to 2034

Table 14: Western Europe US$ Mn Forecast by Type, 2019 to 2034

Table 15: Western Europe US$ Mn Forecast by Application, 2019 to 2034

Table 16: Western Europe US$ Mn Forecast by Method, 2019 to 2034

Table 17: Eastern Europe US$ Mn Forecast by Country, 2019 to 2034

Table 18: Eastern Europe US$ Mn Forecast by Type, 2019 to 2034

Table 19: Eastern Europe US$ Mn Forecast by Application, 2019 to 2034

Table 20: Eastern Europe US$ Mn Forecast by Method, 2019 to 2034

Table 21: East Asia US$ Mn Forecast by Country, 2019 to 2034

Table 22: East Asia US$ Mn Forecast by Type, 2019 to 2034

Table 23: East Asia US$ Mn Forecast by Application, 2019 to 2034

Table 24: East Asia US$ Mn Forecast by Method, 2019 to 2034

Table 25: South Asia & Pacific US$ Mn Forecast by Country, 2019 to 2034

Table 26: South Asia & Pacific US$ Mn Forecast by Type, 2019 to 2034

Table 27: South Asia & Pacific US$ Mn Forecast by Application, 2019 to 2034

Table 28: South Asia & Pacific US$ Mn Forecast by Method, 2019 to 2034

Table 29: MEA US$ Mn Forecast by Country, 2019 to 2034

Table 30: MEA US$ Mn Forecast by Type, 2019 to 2034

Table 31: MEA US$ Mn Forecast by Application, 2019 to 2034

Table 32: MEA US$ Mn Forecast by Method, 2019 to 2034

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List Of Figures

Figure 01: Global Value Share (%), Growth Rate (Y-o-Y), and US$ Mn Projection by Type, 2019 to 2034

Figure 02: Global Value Share (%), Growth Rate (Y-o-Y), and US$ Mn Projection by Application, 2019 to 2034

Figure 03: Global Value Share (%), Growth Rate (Y-o-Y), and US$ Mn Projection by Method, 2019 to 2034

Figure 04: Global Value Share (%), Growth Rate (Y-o-Y), and US$ Mn Projection by Region, 2019 to 2034

Figure 05: North America Value Share (%), Growth Rate (Y-o-Y), and US$ Mn Projection by Type, 2019 to 2034

Figure 06: North America Value Share (%), Growth Rate (Y-o-Y), and US$ Mn Projection by Application, 2019 to 2034

Figure 07: North America Value Share (%), Growth Rate (Y-o-Y), and US$ Mn Projection by Method, 2019 to 2034

Figure 08: North America Value Share (%), Growth Rate (Y-o-Y), and US$ Mn Projection by Country, 2019 to 2034

Figure 09: Latin America Value Share (%), Growth Rate (Y-o-Y), and US$ Mn Projection by Type, 2019 to 2034

Figure 10: Latin America Value Share (%), Growth Rate (Y-o-Y), and US$ Mn Projection by Application, 2019 to 2034

Figure 11: Latin America Value Share (%), Growth Rate (Y-o-Y), and US$ Mn Projection by Method, 2019 to 2034

Figure 12: Latin America Value Share (%), Growth Rate (Y-o-Y), and US$ Mn Projection by Country, 2019 to 2034

Figure 13: Western Europe Value Share (%), Growth Rate (Y-o-Y), and US$ Mn Projection by Type, 2019 to 2034

Figure 14: Western Europe Value Share (%), Growth Rate (Y-o-Y), and US$ Mn Projection by Application, 2019 to 2034

Figure 15: Western Europe Value Share (%), Growth Rate (Y-o-Y), and US$ Mn Projection by Method, 2019 to 2034

Figure 16: Western Europe Value Share (%), Growth Rate (Y-o-Y), and US$ Mn Projection by Country, 2019 to 2034

Figure 17: Eastern Europe Value Share (%), Growth Rate (Y-o-Y), and US$ Mn Projection by Type, 2019 to 2034

Figure 18: Eastern Europe Value Share (%), Growth Rate (Y-o-Y), and US$ Mn Projection by Application, 2019 to 2034

Figure 19: Eastern Europe Value Share (%), Growth Rate (Y-o-Y), and US$ Mn Projection by Method, 2019 to 2034

Figure 20: Eastern Europe Value Share (%), Growth Rate (Y-o-Y), and US$ Mn Projection by Country, 2019 to 2034

Figure 21: East Asia Value Share (%), Growth Rate (Y-o-Y), and US$ Mn Projection by Type, 2019 to 2034

Figure 22: East Asia Value Share (%), Growth Rate (Y-o-Y), and US$ Mn Projection by Application, 2019 to 2034

Figure 23: East Asia Value Share (%), Growth Rate (Y-o-Y), and US$ Mn Projection by Method, 2019 to 2034

Figure 24: East Asia Value Share (%), Growth Rate (Y-o-Y), and US$ Mn Projection by Country, 2019 to 2034

Figure 25: South Asia & Pacific Value Share (%), Growth Rate (Y-o-Y), and US$ Mn Projection by Type, 2019 to 2034

Figure 26: South Asia & Pacific Value Share (%), Growth Rate (Y-o-Y), and US$ Mn Projection by Application, 2019 to 2034

Figure 27: South Asia & Pacific Value Share (%), Growth Rate (Y-o-Y), and US$ Mn Projection by Method, 2019 to 2034

Figure 28: South Asia & Pacific Value Share (%), Growth Rate (Y-o-Y), and US$ Mn Projection by Country, 2019 to 2034

Figure 29: MEA Value Share (%), Growth Rate (Y-o-Y), and US$ Mn Projection by Type, 2019 to 2034

Figure 30: MEA Value Share (%), Growth Rate (Y-o-Y), and US$ Mn Projection by Application, 2019 to 2034

Figure 31: MEA Value Share (%), Growth Rate (Y-o-Y), and US$ Mn Projection by Method, 2019 to 2034

Figure 32: MEA Value Share (%), Growth Rate (Y-o-Y), and US$ Mn Projection by Country, 2019 to 2034

Know thy Competitors

Competitive landscape highlights only certain players
Complete list available upon request

- FAQs -

What was the Global Soil Fertility Testing Market Size Reported by Fact.MR for 2023?

The global Soil Fertility Testing Market was valued at US$ 1,258.4 million in 2023.

What percentage of Soil Fertility Testing is going to register growth in East Asia?

Expanding at a CAGR of 7.5%, the global Soil Fertility Testing market is projected to increase from a valuation of US$ 236.3 Mn in 2024 to US$ 486.5 Mn by 2034.

What is the North American Market Outlook?

For North America, the market is expected to reach a valuation of US$ 623.9 million in 2034.

What is the market share for Chemical Testing by type in 2024?

The market share for Chemical Soil Fertility Testing by type is approximately 46.5% in 2024.

What is the CAGR for South Korea Soil Fertility Testing for the year 2024 to 2034?

The Compound Annual Growth Rate for Korean Soil Fertility Testing market from 2024 to 2034 is 5.7%.

What value CAGR did the Soil Fertility Testing market exhibit over the last five years?

The historic growth rate of the Soil Fertility Testing Market was 2.7% from 2019-2023.

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