![]() |
市場調查報告書
商品編碼
1725053
2032 年農業土壤採樣和檢測市場預測:按產品、樣品類型、檢測目的、應用、最終用戶和地區進行的全球分析Agriculture Soil Sampling and Testing Market Forecasts to 2032 - Global Analysis By Product, Sample Type, Testing Objective, Application, End User and By Geography |
根據 Stratistics MRC 的數據,全球農業土壤採樣和檢測市場預計在 2025 年達到 49.6 億美元,預計到 2032 年將達到 94.5 億美元,預測期內的複合年成長率為 9.65%。
農業土壤採樣和測試是最大限度提高作物產量和維持土壤健康的重要程序。從田地內的各個位置採集土壤樣本,並在實驗室中進行測試,以檢查營養水平、pH 值平衡、有機物含量和其他重要的土壤特性。有了這些訊息,農民就可以對輪作、灌溉技術和施肥做出明智的決定。此外,透過了解土壤的具體要求,農民可以提高產量,節省投入成本並減少對環境的影響。定期進行土壤測試也有利於永續農業,因為它可以確保土壤的長期肥力和生產力。
據農業改良和推廣服務處稱,土壤測試是土壤資源管理的重要組成部分。建議每兩公頃土地採集一個土壤樣本,以確保準確標籤和有效的營養管理。
對精密農業的興趣日益濃厚
土壤測試和採樣的背景是精密農業技術的使用。農民擴大從一刀切的投入應用轉向針對特定地點的營養管理。土壤測試提供有關土壤成分和養分狀況的全面資訊。透過消除浪費並充分利用可用資源,您可以提高作物產量並降低成本。此外,隨著精密農業在全球範圍內變得越來越普遍,特別是在已開發國家和大型農場,對頻繁和精確的土壤測試服務的需求預計將急劇增加。
昂貴的測試設備和服務
儘管土壤採樣和測試有許多好處,但成本卻相當高,尤其是對小農和邊際農戶而言。勞動力、物流以及有時所需的專用設備和諮詢服務都是實驗室費用以外的成本。在政府不補貼檢測的地區,農民可能不願意支付此類服務的費用,尤其是在投入成本上升和農作物價格波動已經擠壓他們的利潤率的情況下。此外,開發中國家缺乏現成的、價格合理且可靠的檢測設施,限制了其廣泛採用。高昂的初始成本和持續成本仍然是市場成長的主要障礙,尤其是在資源有限的農村地區。
可再生和永續農業實踐的成長
全球範圍內可再生和永續農業實踐的發展趨勢為土壤檢測服務的長期前景提供了參考。這些耕作實踐著重於增加有機物、增強生物多樣性和恢復土壤健康。隨著政府、環境非政府組織和食品公司透過資助和認證計畫支持再生農業實踐,對常規、科學支持的土壤測試的需求將會成長。此外,在經過驗證的永續條件下種植的產品在高階市場和具有環保意識的消費者中越來越受歡迎,他們需要有關土壤健康的記錄數據。
傳統農民不願採用
特別是在新興國家,市場面臨嚴重威脅,因為傳統和老一代農民不願意採用或完全反對它。由於這些農民通常遵循傳統的耕作方法,土壤測試的好處可能不會立即顯現。許多人認為土壤測試浪費金錢,並對結果持懷疑態度,特別是如果他們過去有過溝通錯誤或測試結果延遲的不良經歷。如果沒有足夠的教育、後續支持和社區相關性,土壤測試就不會廣泛應用,即使透過政府計畫免費或低成本提供。這種心態阻礙了行為和文化層面的發展。
新冠疫情對農業土壤採樣和檢測市場產生了多方面的影響。在最初的幾個月裡,特別是在開發中國家,封鎖和旅行限制導致實驗室暫時關閉、土壤採樣延遲和實地工作中斷。供應鏈中斷也導致了設備和檢測試劑的短缺。但疫情使得糧食安全和有韌性的農耕實踐變得更加重要,導致人們對科學土壤管理和精密農業的興趣日益濃厚。這導致在恢復階段緩慢過渡到數位化、遠程和非接觸式土壤測試解決方案。這加速了數據主導的農場諮詢平台和攜帶式檢測套組的採用。
預計預測期內複合樣本部分將實現最大程度的成長。
預計在預測期內,複合樣品部分將佔據最大的市場佔有率。複合採樣過程包括從各個田地收集土壤樣本,並將它們組合起來形成代表性的樣本。這種方法具有經濟性,並且能夠對土壤健康狀況進行全面評估。對於希望提高作物產量和土壤管理技術的農民來說,這兩者都至關重要。複合樣本提供了 pH 值、營養水平和土壤肥力的全面視圖,從而可以提供更準確的施肥和灌溉管理建議。此外,複合土壤採樣因其有效性和實用性而被廣泛應用於大規模和小規模農業作業,從而增強了其市場主導地位。
營養檢測領域預計將在預測期內以最高複合年成長率成長
預計營養測試部分將在預測期內見證最高的成長率。分析土壤樣本以找出鉀、磷和氮等重要營養物質的濃度稱為營養測試。有了這些知識,農民可以更有效地施肥,並提高作物的品質和產量。此外,由於技術進步和對永續農業實踐的重視推動精密農業的應用日益廣泛,對精準營養測試的需求也在成長。環境問題和減少營養物徑流的監管壓力也在推動這一領域的成長。因此,營養測試正成為現代農業實踐的重要組成部分。
預計北美地區將在預測期內佔據最大的市場佔有率。精密農業技術的廣泛使用、嚴格的環境法規以及對永續農業實踐的重視是造成這一優勢的一些原因。例如,在美國,土壤健康卡計畫的推行使得土壤檢測大幅增加,透過科學方法提高了農業生產力。此外,該地區的土壤採樣和測試需求也受到公共和私人測試實驗室、實驗室和 Krishi Vigyan Kendras 的推動,這些實驗室改善了測試服務的取得。
預計亞太地區在預測期內的複合年成長率最高。這種快速擴張很大程度上歸功於中國和印度等國家擴大使用尖端農業技術,這些技術因使農業更加永續性和高效而受到重視。該地區有機農業產業的成長和減少環境影響的努力進一步推動了對土壤檢測服務的需求。此外,政府鼓勵精密農業和提高土壤健康意識的計畫正在加速土壤採樣和測試工具的採用,使亞太地區成為該領域快速擴張的市場。
According to Stratistics MRC, the Global Agriculture Soil Sampling and Testing Market is accounted for $4.96 billion in 2025 and is expected to reach $9.45 billion by 2032 growing at a CAGR of 9.65% during the forecast period. An essential procedure for maximizing crop yield and preserving soil health is agricultural soil sampling and testing. To ascertain the nutrient levels, pH balance, organic matter content, and other crucial soil characteristics, soil samples are taken from various locations within a field and examined in a lab. Farmers can use this information to help them make well-informed decisions about crop rotation, irrigation techniques, and fertilizer application. Moreover, growers can increase yields, save input costs, and lessen their environmental impact by knowing the unique requirements of their soil. Because it guarantees soil fertility and productivity over the long term, routine soil testing also promotes sustainable farming.
According to the Department of Agricultural Extension, soil testing is an essential component of soil resource management. It is recommended to collect one soil sample for every 2 hectares of land to ensure accurate representation and effective nutrient management.
Growing interest in precision farming
One of the main forces behind soil testing and sampling is the use of precision agriculture technologies. Farmers are increasingly switching to site-specific nutrient management from uniform input application. Applying fertilizers and amendments at different rates is made possible by soil testing, which offers comprehensive information about the composition and nutrient status of the soil. By cutting waste and making the best use of available resources, this raises crop yields and lowers expenses. Additionally, the need for frequent and precise soil testing services is anticipated to increase dramatically as precision agriculture gains traction worldwide, particularly in developed countries and among large-scale farms.
Expensive testing equipment and services
Soil sampling and testing can be rather costly, especially for smallholder and marginal farmers, despite its advantages. Labor, logistics, and occasionally the requirement for specialized equipment or consulting services are included in the expenses in addition to laboratory fees. Farmers in areas where the government does not subsidize testing might be reluctant to spend money on these services, particularly if their profit margins are already being squeezed by rising input costs or volatile crop prices. Furthermore, the lack of readily available, reasonably priced, and trustworthy testing facilities in developing nations deters widespread adoption. The high upfront and ongoing costs continue to be a major obstacle to the market's growth, particularly in farming communities with limited resources.
Growth of regenerative and sustainable farming methods
Long-term prospects for soil testing services are presented by the global movement toward regenerative and sustainable farming practices. These methods concentrate on boosting organic matter, enhancing biodiversity, and restoring soil health-all of which call for ongoing soil test monitoring. Demand for routine, scientifically supported soil testing will increase as governments, environmental NGOs, and food companies support regenerative practices through funding and certification programs. Additionally, products grown under verified sustainable conditions are becoming more and more popular with premium markets and environmentally conscious consumers, which call for documented soil health data.
Adoption reluctance among conventional farmers
The market is seriously threatened by traditional or older-generation farmers' hesitancy or outright opposition, especially in developing countries. Because they frequently follow traditional farming methods, these farmers might not immediately see the advantages of soil testing. Many people, particularly those who have had a bad experience with poorly communicated or delayed findings in the past, think it is a needless expense or doubt the results. Unless there is sufficient education, follow-up support, and localized relevance, soil testing is not widely used, even when government programs offer it for free or at a reduced cost. Growth is hampered by this mindset on a behavioral and cultural level.
On the agriculture soil sampling and testing market, the COVID-19 pandemic had a mixed effect. Particularly in developing nations, lockdowns and mobility restrictions during the first few months caused temporary closures of testing laboratories, delayed the collection of soil samples, and interfered with field operations. Equipment and testing reagent shortages were also caused by disruptions in the supply chain. However, the pandemic also made food security and resilient farming methods more important, which sparked a surge in interest in scientific soil management and precision farming. Because of this, during the recovery phase, there was a slow transition to digital, remote, and contactless soil testing solutions. This sped up the adoption of data-driven farm advisory platforms and portable testing kits.
The composite samples segment is expected to be the largest during the forecast period
The composite samples segment is expected to account for the largest market share during the forecast period. The process of composite sampling entails gathering soil samples from various fields and combining them to produce a representative sample. This approach is favored due to its affordability and capacity to offer a comprehensive evaluation of soil health, both of which are essential for farmers seeking to enhance crop yields and soil management techniques. Composite samples provide a comprehensive view of pH, nutrient levels, and soil fertility, allowing for more precise fertilizer and irrigation management recommendations. Moreover, composite soil sampling is used extensively in both large-scale and small-scale agricultural operations due to its effectiveness and practicality, which fuels its market dominance.
The nutrient testing segment is expected to have the highest CAGR during the forecast period
Over the forecast period, the nutrient testing segment is predicted to witness the highest growth rate. Analyzing soil samples to find concentrations of vital nutrients like potassium, phosphorus, and nitrogen is known as nutrient testing. With this knowledge, farmers can apply fertilizer more efficiently, increasing crop quality and yield. Additionally, the demand for precise nutrient testing is being fueled by the growing use of precision agriculture, which is being driven by technological advancements and an emphasis on sustainable farming practices. Environmental concerns and regulatory pressure to reduce nutrient runoff are also driving this segment's growth. Nutrient testing is consequently becoming an essential part of contemporary agricultural methods.
During the forecast period, the North American region is expected to hold the largest market share. The extensive use of precision agriculture technologies, strict environmental regulations, and a focus on sustainable farming methods are some of the reasons for this dominance. For example, the introduction of the Soil Health Card Scheme in the United States has greatly increased soil testing activities, improving agricultural productivity using scientific methods. Furthermore, the region's need for soil sampling and testing has also been fueled by the existence of both public and private testing labs, research institutes, and Krishi Vigyan Kendras, which have all improved access to testing services.
Over the forecast period, the Asia Pacific region is anticipated to exhibit the highest CAGR. The main cause of this quick expansion is the growing use of cutting-edge agricultural technologies in nations like China and India, where improving agricultural sustainability and productivity is highly valued. The need for soil testing services is further fueled by the region's growing organic farming industry and initiatives to lessen its environmental impact. Additionally, government programs encouraging precision farming and raising awareness of soil health are speeding up the adoption of soil sampling and testing tools, making APAC a rapidly expanding market in this field.
Key players in the market
Some of the key players in Agriculture Soil Sampling and Testing Market include 3M Company, Bureau Veritas SA, ALS Limited, Intertek Group PLC, LGC Limited, SGS S.A., TUV Nord Group, Agilent Technologies Inc, Eurofins Scientific, Merck KGaA, AHK Group (Alfred H Knight), Dairyland Laboratories, Gujarat State Fertilizers & Chemicals Limited (GSFC), R J Hill Laboratories Ltd and Agvise Laboratories.
In March 2025, 3M and Sumitomo Electric Industries, Ltd. announce an assembler agreement enabling Sumitomo Electric to offer variety of optical fiber connectivity products featuring 3M(TM) Expanded Beam Optical (EBO) Interconnect technology, a high-performance solution to meet scalability needs of next-generation data centers and advanced network architectures.
In October 2024, Eurofins Scientific has reached an agreement with SYNLAB to acquire its clinical diagnostics operations in Spain. SYNLAB's clinical diagnostics operations in Spain provide clinical diagnostics testing, including genetics and anatomical pathology services, throughout the country, achieving revenues of approximately €140m in 2023.
In July 2024, Agilent Technologies Inc. announced it has signed a definitive agreement to acquire BIOVECTRA, a leading specialized contract development and manufacturing organization, for $925 million. Based in Canada, BIOVECTRA produces biologics, highly potent active pharmaceutical ingredients, and other molecules for targeted therapeutics.
Note: Tables for North America, Europe, APAC, South America, and Middle East & Africa Regions are also represented in the same manner as above.