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精密農業

市場調查報告書

商品編碼

1733806

2026-2032 年作物監測市場（按產品、農場類型、技術、應用和地區分類）

Crop Monitoring Market By Offering, Farm Type, Technology, Application & Region For 2026-2032

出版日期: 2025年05月13日 | 出版商:

Verified Market Research | 英文 202 Pages | 商品交期: 2-3個工作天內

價格

簡介目錄

2026-2032年作物監測市場評估

精準農業技術的日益普及是作物監測市場大幅擴張的主要因素，該技術利用人工智慧（AI）和物聯網（IoT）等現代技術來提高農業生產力和資源效率。根據 Verified Market Research 分析師估計，2024 年作物監測市場價值約為 31.3 億美元，預測期內將達到 93.7 億美元的估值。

對永續農業實踐的日益成長的需求以及無人機、數據分析和衛星圖像等最尖端科技的採用，使農民能夠做出更好的決策並改善作物管理，從而推動了作物監測市場的成長。這將使市場從 2026 年到 2032 年的複合年成長率達到 14.69%。

作物監測市場定義/概述

作物監測是使用各種技術工具和技術對農業領域中作物的健康狀況、生長和發育進行持續觀察和評估，以收集和分析土壤濕度、養分水平、害蟲存在和植物整體健康狀況等因素的數據。這種方法在現代農業中至關重要，因為它可以幫助農民做出明智的決策，改善作物管理並最大限度地提高產量。作物監測應用包括使用無人機和衛星等遙感技術記錄高解析度照片來分析作物健康狀況，使用物聯網設備收集即時環境數據，以及使用數據分析來識別模式和異常。

不斷成長的全球糧食需求將如何推動作物監測市場？

全球人口成長和糧食需求增加是作物監測市場的主要驅動力。根據聯合國糧食及農業組織 (FAO) 的數據，到 2050 年全球糧食產量必須增加 60%，才能養活預計的 97 億人口。對集約化農業生產的強烈需求推動了現代作物監測系統的使用，以最大限度地提高產量和資源利用率。

與氣候變遷相關的極端天氣事件變得越來越普遍，需要實施日益強大的作物監測系統。根據世界氣象組織（WMO）的報告，過去50年與天氣有關的災害增加了5倍。預計光是 2021 年，自然災害造成的全球經濟損失將達到 2,700 億美元，其中農業損失佔比最大。這一趨勢鼓勵農民使用先進的作物監測技術來降低風險並適應不斷變化的條件。

此外，精密農業技術正在迅速發展和採用，推動作物監測市場向前發展。根據 Verified Market Research 的調查，全球精密農業市場預計將從 2023 年的 87.1 億美元成長到 2032 年的 206.1 億美元，複合年成長率為 11.37%。這種成長主要得益於物聯網感測器、無人機和人工智慧分析等技術在作物監測中的應用，使農民能夠做出數據驅動的決策並最佳化他們的營運。

作物監測市場面臨的主要挑戰是什麼？

現代農業監測技術的高成本是一個主要障礙，特別是對於低度開發國家的小農戶而言。許多農民沒有財力投資無人機、物聯網設備和軟體解決方案等先進設備。這些經濟限制限制了他們採用現代農業實踐的能力，從而限制了這些技術可能產生重大影響的地方的整體市場成長。

此外，農村地區網路連線和基礎設施薄弱嚴重阻礙了農業監測系統的有效性。許多現代監控解決方案依賴基於雲端基礎的分析和即時資料傳輸，這在遠端位置可能難以執行。連通性差會導致資料處理和決策延遲，最終限制作物監測的效率和可靠性。

Trimble
Topcon Corporation
Yara International
The Climate Corporation（Bayer AG）
CropX Technologies
Cropio
Earth Observing System
PrecisionHawk
Ag Leader Technology
Taranis
Deere & Company
AGCO Corporation
Kasco Manufacturing
SkyMap Global
Planet Labs
Farmers Edge
Linc Global
Granular（Corteva Agriscience）
Solinftec
NexGen Agri
World Sensing
Agribotix
Prospero
Senmatic
Ynsect

第12章市場展望市場展望與機會

新興技術
未來市場趨勢
投資機會

第13章附錄

簡稱列表
來源和參考文獻

簡介目錄

Product Code: 63914

Crop Monitoring Market Valuation - 2026-2032

The growing use of precision farming methods, which use modern technologies like artificial intelligence (AI) and the Internet of Things (IoT) to boost agricultural productivity and resource efficiency, is the main driver of the crop monitoring market's significant expansion. According to the analyst from Verified Market Research, the crop monitoring market is estimated to reach a valuation of USD 9.37 Billion over the forecast subjugating around USD 3.13 Billion valued in 2024.

The increased need for sustainable agricultural practices and the incorporation of cutting-edge technologies like drones, data analytics, and satellite imaging, which enable farmers to make better decisions and improve crop management, is driving the growth of the crop monitoring market. It enables the market to grow at a CAGR of 14.69% from 2026 to 2032.

Crop Monitoring Market: Definition/ Overview

Crop monitoring is the ongoing observation and evaluation of crop health, growth, and development in agricultural fields, using a variety of technological tools and techniques to collect and analyze data on factors such as soil moisture, nutrient levels, pest presence, and overall plant health. This method is critical in modern agriculture because it allows farmers to make informed decisions that improve crop management and maximize yields. Crop monitoring applications include using remote sensing technology such as drones and satellites to record high-resolution photos for crop health analysis, using IoT devices to collect real-time environmental data, and identifying patterns and anomalies using data analytics.

How Does the Increasing Global Food Demand Propel the Crop Monitoring Market?

The growing global population and rising food demand are key drivers of the crop monitoring market. According to the Food and Agriculture Organization (FAO) of the United Nations, global food production must increase by 60% by 2050 to feed the predicted 9.7 billion. This strong demand for enhanced agricultural production is driving the use of modern crop monitoring systems to maximize yields and resource utilization.

Climate change-related extreme weather events are becoming more common, necessitating the implementation of increasingly robust crop monitoring systems. The World Meteorological Organization (WMO) reported that the number of weather-related disasters has increased by a factor of five in the last 50 years. Natural disasters are expected to cost the world $270 billion in economic damages in 2021 alone, with agriculture accounting for a major chunk. This trend encourages farmers to use sophisticated crop monitoring techniques to reduce risks and adapt to changing conditions.

Furthermore, precision agricultural technologies are rapidly evolving and being adopted, which is moving the crop monitoring market ahead. According to Verified Market Research, the global precision farming market is predicted to increase from USD 8.71 Billion in 2023 to USD 20.61 Billion by 2032, at an 11.37% CAGR. This rise is being driven mostly by the rising use of technology such as IoT sensors, drones, and AI-powered analytics in crop monitoring, which allow farmers to make data-driven decisions and optimize their operations.

What are the Primary Challenges Faced by the Crop Monitoring Market?

The high costs associated with modern agricultural monitoring technology provide a substantial obstacle, particularly for smallholder farmers in underdeveloped countries. Many of these farmers do not have the financial capacity to invest in advanced equipment like drones, IoT devices, and software solutions. This financial limitation restricts their ability to use contemporary agricultural methods, limiting overall market growth in locations where such technology could have a significant influence.

Furthermore, the inadequacy of internet connectivity and infrastructure in rural regions is a significant hindrance to the efficacy of agricultural monitoring systems. Many modern monitoring solutions rely on cloud-based analytics and real-time data transfer, which might be difficult to execute on remote sites. Poor connectivity causes delays in data processing and decision-making, eventually limiting the efficiency and reliability of crop monitoring efforts.

Category-Wise Acumens

What are the Potential Drivers Driving the Hardware Components in the Market?

According to VMR analysis, the hardware segment is estimated to hold the largest market share during the forecast period. The growing demand for real-time data collecting is a major reason for the hardware segment's dominance. Farmers are increasingly relying on equipment like sensors, drones, and cameras to get precise data on crop health, soil conditions, and environmental factors. This real-time data enables better decision-making, optimizes resource use, and increases overall agricultural output, strengthening the hardware segment's market leadership.

Technological developments in agricultural hardware make a substantial contribution to the segment's growth. Precision sensors and advanced imaging technologies have revolutionized agricultural monitoring solutions, increasing their efficiency and efficacy. As these technologies become more available and affordable, farmers are more likely to invest in hardware that improves monitoring capabilities, increasing the segment's market share.

Furthermore, the increasing emphasis on precision agriculture is another significant aspect boosting the hardware segment. As farmers strive to maximize yields while reducing inputs, the use of hardware solutions that enable precision farming practices becomes critical. This shift toward data-driven farming approaches highlights the significance of dependable monitoring equipment, resulting in greater hardware investments and cementing its market dominance.

How does the Increasing Demand for Higher Agricultural Productivity Influence the Growth of Crop Scouting & Monitoring?

The crop scouting & monitoring segment is estimated to dominate the crop monitoring market during the forecast period. Crop scouting and monitoring are becoming increasingly popular due to the growing desire for improved agricultural output. As farmers strive to maximize yields while minimizing resource consumption, the ability to monitor crop health and growth conditions in real time becomes critical. This tool enables early interventions, such as pest control and nutrient management, ensuring that crops receive the care they require to survive and create maximum yield.

Advancements in imaging and sensing technologies have a substantial impact on the growth of the agricultural scouting and monitoring segment. The combination of drones, satellite imaging, and IoT devices enables more exact data collection and processing, allowing farmers to properly analyze crop conditions. These advances improve decision-making processes, allowing farmers to recognize concerns early and execute corrective actions swiftly, thus reinforcing the segment's leading position in the market.

Furthermore, the increased emphasis on sustainable farming practices drives the crop scouting and monitoring segment. As environmental concerns grow, farmers are embracing strategies that reduce chemical use and optimize inputs. Crop scouting promotes sustainable agriculture by providing essential insights on crop health and resource requirements, allowing for focused interventions that reduce waste and encourage environmentally friendly practices, further solidifying its market dominance.

Country/Region-wise Acumens

What Drivers Contribute to the Dominance of the Asia Pacific Region in the Market?

According to VMR analyst, the Asia Pacific region is estimated to dominate the crop monitoring market during the forecast period. The Asia Pacific region has a large agricultural sector and is under substantial population pressure, necessitating the need for effective crop monitoring. According to the Food and Agriculture Organization (FAO), Asia has about 60% of the world's population but just 23% of its agricultural land. The UN predicts that Asia's population will grow from 4.6 billion in 2020 to 5.2 billion by 2050, exacerbating the need for increased agricultural output. This demographic strain is a major driving force for the region's adoption of modern crop monitoring systems.

The Asia-Pacific region is especially sensitive to climate change and extreme weather events, demanding improved crop monitoring methods. According to the Economic and Social Commission for Asia and the Pacific (ESCAP), Asia-Pacific saw 5,881 natural disasters between 1970 and 2019, accounting for more than 40% of the global total. These disasters resulted in economic losses of nearly USD 1.5 Trillion, with a substantial impact on agriculture. This susceptibility is encouraging the use of sophisticated crop monitoring systems to increase resilience and reduce crop losses.

Furthermore, many Asian countries are pursuing legislation and steps to encourage smart agriculture, which would grow the crop monitoring market. For example, China's 14th Five-Year Plan (2021-2025) prioritizes the advancement of smart agriculture. According to the Chinese Ministry of Agriculture and Rural Affairs, digital farming technology penetration in China is predicted to increase to 15% by 2025, up from 7.3% in 2020. This government drive, combined with the region's technological prowess, is hastening the adoption of modern crop monitoring technology throughout the Asia Pacific.

What are the Significant Drivers Boosting North America's Crop Monitoring Market?

North America is estimated to exhibit substantial growth within the market during the forecast period. North America, particularly the United States, is known for its large-scale farming operations, which have accelerated the use of advanced crop monitoring systems. According to the USDA's 2017 Census of Agriculture, the average farm size in the United States was 441 acres, with big farms (2,000 acres or more) accounting for 58% of farmland. These big activities necessitate advanced monitoring systems to efficiently manage vast areas, resulting in market growth. The USDA also notes that the number of farms utilizing precision agricultural technologies climbed from 25% in 2012 to 61% in 2018, indicating rapid adoption in the region.

Furthermore, climate change and water scarcity are having an increasing influence in portions of North America, necessitating the development of more effective crop monitoring systems. According to the United States Environmental Protection Agency (EPA), the average temperature in the 48 contiguous states has risen by 1.8 degrees Fahrenheit (1 degree Celsius) since 1901. Also, the USDA reports that agriculture accounts for roughly 80% of the nation's consumptive water demand. These reasons are encouraging farmers to deploy modern crop monitoring technologies to improve water usage and adapt to changing climate conditions. For example, the USDA says that the usage of soil moisture sensors in US farms has increased from 10% in 2003 to 26% in 2018, illustrating the growing relevance of accurate monitoring in resource management.

Competitive Landscape

The crop monitoring market has a dynamic and diverse competitive landscape, with established and creative startups competing for market share. Competitive strategies include expanding product portfolios to appeal to different crops and farming practices, emphasizing distinctive products and regional capabilities, and collaborating with research institutes and agricultural organizations to encourage innovation.

Some of the prominent players operating in the crop monitoring market include:

Trimble

Topcon Corporation

Yara International

The Climate Corporation (Bayer AG)

CropX Technologies

Cropio

Earth Observing System

PrecisionHawk

Ag Leader Technology

Taranis

Deere & Company

AGCO Corporation

Kasco Manufacturing

SkyMap Global

Planet Labs

Latest Developments

In May 2024, FarmEye announced its acquisition of two top agtech businesses in Brazil and Kenya. The move is part of FarmEye's ambition to broaden its worldwide reach and provide specialized solutions to farmers in emerging areas. The acquired firms contribute complementary technology for drone-based crop scouting and predictive analytics, which will be incorporated into FarmEye's platform.

In June 2024, Spicebox announced the release of an enhanced crop monitoring system for key spice crops such as cumin, coriander, turmeric, chili, black pepper, and cardamom. The new technology uses satellite imaging, IoT sensors, and machine learning to deliver real-time information to spice producers in India, allowing them to optimize harvests and control risks.