到 2030 年植物表現型市場預測：按產品、技術、應用、最終用戶和地區進行的全球分析

根據 Stratistics MRC 的數據，2024 年全球植物表現型市場規模為 2 億美元，預計到 2030 年將達到 6 億美元，預測期內複合年成長率為 15.2%。植物表現型分析是對植物性狀和特性的定量評估，通常在實驗室或專業領域等受控環境中進行。這些性狀包括植物形態（大小、形態、結構）、生理（生長速度、光合活性）和對環境因素的反應（抗病性、耐旱性）等各個方面。植物表現型分析的目標是了解遺傳和環境因素如何相互作用以影響植物的生長、發育和整體性能。

根據世界衛生組織 (WHO) 每週流行病學更新報道，冠狀病毒病 (COVID-19) 已在全球造成超過 1.77 億人感染，並導致 380 萬人死亡。

永續農業的需要

由於注重長期環境和經濟永續性，永續農業在市場上變得越來越重要。隨著人們對氣候變遷和糧食安全的日益關注，相關人員正在優先考慮最佳化資源利用、盡量減少環境影響和提高作物復原力的解決方案。將永續實踐納入植物表現型分析技術可確保高效且環保的作物管理，滿足全球永續性目標並滿足消費者對道德生產食品的需求。

缺乏技術純熟勞工

這個市場面臨著技術純熟勞工短缺的挑戰。高階資料分析、機器人技術和植物科學領域的專家需求量很大，但供應有限。這種短缺阻礙了創新，並減緩了提高作物產量和復原力的研究和開發工作。學術界、工業界和政府之間的合作對於解決這一差距至關重要，為進入這一細分市場的專業人員提供專門的培訓計劃和獎勵。

糧食安全需求不斷成長

由於全球對糧食安全的日益關注，市場需求大幅增加。由於人口成長和環境問題，對高效和永續農業的需求不斷增加。植物表現型分析技術在提高作物生產力、抗病性和產量方面發揮重要作用，使其成為確保糧食安全的重要工具。預計這一趨勢將繼續推動植物表現型分析領域的成長和創新。

高成本

市場面臨高成本的重大挑戰。這一成本主要歸因於綜合植物分析所需的先進技術，如成像設備、感測器和資料分析工具。此外，維護這些技術並確保表現型資料收集的準確性進一步增加了整體成本。因此，公司和研究人員在實施和擴展植物表現型解決方案方面面臨經濟障礙，限制了該領域的廣泛採用和創新。

COVID-19 的影響：

COVID-19 的爆發對植物表現型市場產生了重大影響，導致供應鏈中斷、計劃延誤和研發資金減少。這些挑戰減緩了先進表現型分析技術的採用並阻礙了市場成長。然而，疫情後人們對糧食安全和永續農業的認知不斷增強，以及對作物改良和產量最佳化的創新表現型解決方案的重新關注，預計將推動市場復甦。

預計光合作用性能部分在預測期內將是最大的

光合作用性能涵蓋葉綠素螢光成像、氣體交換測量和頻譜分析等多種技術，預計在預測期內將達到最大值。這些技術使研究人員和農業專業人員能夠即時評估植物健康、壓力反應和生產力。面對氣候變遷和糧食安全挑戰，對永續農業實踐和作物改良策略的需求正在增加對精確和高性能表現型分析工具的需求。

相關企業領域預計在預測期內複合年成長率最高

預計相關企業領域在預測期內的複合年成長率最高。這些公司利用先進技術來評估植物性狀，例如生長、發育和對環境因素的反應。利用表現型分析解決方案來加強作物育種計劃、最佳化資源利用並提高整體農業生產力。這些公司在將表現型資料轉化為永續農業實踐和糧食安全的可行見解方面發揮著至關重要的作用。

比最大的地區

由於技術進步和對精密農業解決方案的需求不斷增加，預計北美在預測期內將佔據最大的市場佔有率。無人機和感測器等成像技術的創新使得植物測量變得更加準確和高效。因此，該地區的農業部門正在實現更高的作物產量、減少資源浪費並改善環境永續性。

複合年成長率最高的地區：

由於對優質作物的需求增加、技術進步以及政府促進永續農業的措施等多種因素，預計亞太地區在預測期內將維持最高的複合年成長率。該地區正在快速推進植物表現型分析技術，包括高性能表現型分析系統、成像技術、無人機和感測器。這些技術使研究人員和農民能夠準確評估植物性狀、監測作物健康並最佳化農業實踐。

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目錄

第1章執行概述

第2章 前言

• 概述
• 相關利益者
• 調查範圍
• 調查方法
  • 資料探勘
  • 資料分析
  • 資料檢驗
  • 研究途徑
• 研究資訊來源
  • 主要研究資訊來源
  • 二次研究資訊來源
  • 先決條件

第3章市場趨勢分析

• 介紹
• 促進因素
• 抑制因素
• 機會
• 威脅
• 產品分析
• 技術分析
• 應用分析
• 最終用戶分析
• 新興市場
• COVID-19 的影響

第4章波特五力分析

• 供應商的議價能力
• 買方議價能力
• 替代品的威脅
• 新進入者的威脅
• 競爭公司之間的敵對關係

第5章全球植物表現型市場：依產品

• 介紹
• 感應器
  • 溫度感應器
  • 影像感測器
  • 歸一化植被指數感測器
• 軟體
  • 影像分析
  • 資料採集
  • 系統控制
• 裝置
  • 地點
  • 應用特定系統
  • 分析系統
  • 平台/營運商

第6章全球植物表現型市場：依技術分類

• 介紹
• 成像技術
• 基於感測器的技術
• 機器學習和人工智慧
• 高效能表現型分析 (HTP)
• 其他

第7章全球植物表現型市場：依應用分類

• 介紹
• 特徵識別
• 光合性能
• 形態和生長評價
• 高效能篩檢
• 其他

第8章全球植物表現型市場：依最終用戶分類

• 介紹
• 研究機構
• 農業相關企業
• 政府機關
• 其他

第9章全球植物表現型市場：按地區

• 介紹
• 北美洲
  • 美國
  • 加拿大
  • 墨西哥
• 歐洲
  • 德國
  • 英國
  • 義大利
  • 法國
  • 西班牙
  • 歐洲其他地區
• 亞太地區
  • 日本
  • 中國
  • 印度
  • 澳洲
  • 紐西蘭
  • 韓國
  • 其他亞太地區
• 南美洲
  • 阿根廷
  • 巴西
  • 智利
  • 南美洲其他地區
• 中東/非洲
  • 沙烏地阿拉伯
  • 阿拉伯聯合大公國
  • 卡達
  • 南非
  • 其他中東/非洲

第10章 主要進展

• 合約、夥伴關係、協作和合資企業
• 收購和合併
• 新產品發布
• 業務擴展
• 其他關鍵策略

第11章 公司概況

• LemnaTec
• Phenospex
• CropDesign
• BASF SE
• Plant-DiTech
• Hiphen
• Delta-T Devices Ltd.
• Phenomix
• Keygene
• Qubit Systems
• Vienna Biocenter
• Photon Systems Instruments
• Heinz Walz Gmbh
• Rothamsted Research

According to Stratistics MRC, the Global Plant Phenotyping Market is accounted for $0.2 billion in 2024 and is expected to reach $0.6 billion by 2030 growing at a CAGR of 15.2% during the forecast period. Plant phenotyping refers to the quantitative assessment of plant traits and characteristics, usually in a controlled environment such as a laboratory or a specialized field setting. These traits can include various aspects like plant morphology (size, shape, structure), physiology (growth rate, photosynthetic activity), and responses to environmental factors (disease resistance, drought tolerance). The goal of plant phenotyping is to understand how genetic and environmental factors interact to influence plant growth, development, and overall performance.

According to the Coronavirus (COVID-19) Weekly Epidemiological Update by the World Health Organization, over 177 million cases and 3.8 million deaths are reported across the globe due to coronavirus disease (COVID-19).

Market Dynamics:

Driver:

Need for sustainable agriculture

Sustainable agriculture is becoming increasingly crucial in the market due to its focus on long-term environmental and economic viability. With rising concerns about climate change and food security, stakeholders are prioritizing solutions that optimize resource use, minimize environmental impact, and enhance crop resilience. Integrating sustainable practices into Plant Phenotyping technologies ensures efficient and eco-friendly crop management, aligning with global sustainability goals and meeting consumer demands for ethically produced food.

Restraint:

Limited skilled labor

The market faces challenges due to a scarcity of skilled labor. Professionals adept in advanced data analysis, robotics, and plant science are in high demand but limited supply. This shortage hinders innovation and slows down research and development efforts in improving crop yields and resilience. Collaborative efforts between academia, industry, and government are essential to address this gap by offering specialized training programs and incentives for professionals entering this niche field.

Opportunity:

Increasing demand for food security

The market is witnessing a significant surge in demand due to the increasing focus on food security globally. With growing populations and environmental challenges, there's a heightened need for efficient and sustainable agricultural practices. Plant phenotyping technologies play a crucial role in enhancing crop productivity, disease resistance, and overall yield, making them indispensable tools for ensuring food security. This trend is expected to continue driving growth and innovation in the Plant Phenotyping sector.

Threat:

High cost

The market witnesses a significant challenge in terms of high costs. The expenses primarily stem from advanced technologies like imaging equipment, sensors, and data analysis tools necessary for comprehensive plant analysis. Additionally, maintaining these technologies and ensuring accuracy in phenotypic data collection further adds to the overall expenses. As a result, businesses and researchers face financial hurdles in adopting and scaling plant phenotyping solutions, limiting widespread implementation and innovation in this field.

Covid-19 Impact:

The COVID-19 pandemic significantly impacted the Plant Phenotyping market, leading to disruptions in supply chains, project delays, and reduced funding for research and development. These challenges slowed down the adoption of advanced phenotyping technologies and hindered market growth. However, increased awareness of food security and sustainable agriculture post-pandemic is expected to drive the market recovery, with a renewed focus on innovative phenotyping solutions for crop improvement and yield optimization.

The photosynthetic performance segment is expected to be the largest during the forecast period

The photosynthetic performance is expected to be the largest during the forecast period encompassing various technologies like chlorophyll fluorescence imaging, gas exchange measurements, and spectral analysis. These methods allow researchers and agricultural professionals to assess plant health, stress responses, and productivity in real time. The demand for precise, high-throughput phenotyping tools is escalating, driven by the need for sustainable agriculture practices and crop improvement strategies in the face of climate change and food security challenges.

The agriculture companies segment is expected to have the highest CAGR during the forecast period

The agriculture companies segment is expected to have the highest CAGR during the forecast period. These companies utilize advanced technologies to assess plant traits such as growth, development, and response to environmental factors. By leveraging phenotyping solutions, they enhance crop breeding programs, optimize resource utilization, and improve overall agricultural productivity. These companies play a pivotal role in translating phenotypic data into actionable insights for sustainable farming practices and food security.

Region with largest share:

North America is projected to hold the largest market share during the forecast period driven by advancements in technology and increased demand for precision agriculture solutions. Innovations in imaging techniques, such as drones and sensors, have allowed for more accurate and efficient plant measurements. This has resulted in improved crop yields, reduced resource wastage, and better environmental sustainability practices across the agricultural sector in the region.

Region with highest CAGR:

Asia Pacific is projected to hold the highest CAGR over the forecast period due to various factors such as increasing demand for high-quality crops, advancements in technology, and government initiatives to promote sustainable agriculture. The region has seen rapid advancements in plant phenotyping technologies, including high-throughput phenotyping systems, imaging techniques, drones, and sensors. These technologies enable researchers and farmers to accurately assess plant traits, monitor crop health, and optimize agricultural practices.

Key players in the market

Some of the key players in Plant Phenotyping market include LemnaTec, Phenospex, CropDesign, BASF SE, Plant-DiTech, Hiphen, Delta-T Devices Ltd., Phenomix, Keygene, Qubit Systems, Vienna Biocenter, Photon Systems Instruments, Heinz Walz Gmbh, and Rothamsted Research.

Key Developments:

In March 2023, Delta-T Devices launched the Delta-T FieldSpec(R) X5 portable phenotyping system. The system is an upgraded version of the Delta-T FieldSpec(R) X4 system and includes new features such as a thermal camera and a wider range of sensors.

In January 2023, OptiSens launched the OptiSens Canopy Sensor 2.0. The sensor is a non-intrusive sensor that measures canopy light interception and photosynthesis. The sensor has been upgraded to include a new algorithm that can more accurately measure these parameters.

In September 2022, Royal Van Zanten (RVZ) partnered with Interplant, a spray rose breeder. The collaboration aims to provide growers in East Africa with access to RVZ's extensive range of Alstroemeria, Statice, Chrysanthemum, and Limonium varieties.

Products Covered:

• Sensors
• Software
• Equipment

Technologies Covered:

• Imaging Technology
• Sensor-Based Technology
• Machine Learning and AI
• High-Throughput Phenotyping (HTP)
• Other Technologies

Applications Covered:

• Trait Identification
• Photosynthetic Performance
• Morphology and Growth Assessment
• High-Throughput Screening
• Other Applications

End Users Covered:

• Research Institutions
• Agriculture Companies
• Government Agencies
• Other End Users

Regions Covered:

• North America
  • US
  • Canada
  • Mexico
• Europe
  • Germany
  • UK
  • Italy
  • France
  • Spain
  • Rest of Europe
• Asia Pacific
  • Japan
  • China
  • India
  • Australia
  • New Zealand
  • South Korea
  • Rest of Asia Pacific
• South America
  • Argentina
  • Brazil
  • Chile
  • Rest of South America
• Middle East & Africa
  • Saudi Arabia
  • UAE
  • Qatar
  • South Africa
  • Rest of Middle East & Africa

What our report offers:

• Market share assessments for the regional and country-level segments
• Strategic recommendations for the new entrants
• Covers Market data for the years 2022, 2023, 2024, 2026, and 2030
• Market Trends (Drivers, Constraints, Opportunities, Threats, Challenges, Investment Opportunities, and recommendations)
• Strategic recommendations in key business segments based on the market estimations
• Competitive landscaping mapping the key common trends
• Company profiling with detailed strategies, financials, and recent developments
• Supply chain trends mapping the latest technological advancements

Free Customization Offerings:

All the customers of this report will be entitled to receive one of the following free customization options:

• Company Profiling
  • Comprehensive profiling of additional market players (up to 3)
  • SWOT Analysis of key players (up to 3)
• Regional Segmentation
  • Market estimations, Forecasts and CAGR of any prominent country as per the client's interest (Note: Depends on feasibility check)
• Competitive Benchmarking
  • Benchmarking of key players based on product portfolio, geographical presence, and strategic alliances

Table of Contents

1 Executive Summary

2 Preface

• 2.1 Abstract
• 2.2 Stake Holders
• 2.3 Research Scope
• 2.4 Research Methodology
  • 2.4.1 Data Mining
  • 2.4.2 Data Analysis
  • 2.4.3 Data Validation
  • 2.4.4 Research Approach
• 2.5 Research Sources
  • 2.5.1 Primary Research Sources
  • 2.5.2 Secondary Research Sources
  • 2.5.3 Assumptions

3 Market Trend Analysis

• 3.1 Introduction
• 3.2 Drivers
• 3.3 Restraints
• 3.4 Opportunities
• 3.5 Threats
• 3.6 Product Analysis
• 3.7 Technology Analysis
• 3.8 Application Analysis
• 3.9 End User Analysis
• 3.10 Emerging Markets
• 3.11 Impact of Covid-19

4 Porters Five Force Analysis

• 4.1 Bargaining power of suppliers
• 4.2 Bargaining power of buyers
• 4.3 Threat of substitutes
• 4.4 Threat of new entrants
• 4.5 Competitive rivalry

5 Global Plant Phenotyping Market, By Product

• 5.1 Introduction
• 5.2 Sensors
  • 5.2.1 Temperature Sensors
  • 5.2.2 Image Sensors
  • 5.2.3 Normalized Difference Vegetation Index Sensors
• 5.3 Software
  • 5.3.1 Image Analysis
  • 5.3.2 Data Acquisition
  • 5.3.3 System Control
• 5.4 Equipment
  • 5.4.1 Site
  • 5.4.2 Application-Specific Systems
  • 5.4.3 Analysis Systems
  • 5.4.4 Platform/Carrier

6 Global Plant Phenotyping Market, By Technology

• 6.1 Introduction
• 6.2 Imaging Technology
• 6.3 Sensor-Based Technology
• 6.4 Machine Learning and AI
• 6.5 High-Throughput Phenotyping (HTP)
• 6.6 Other Technologies

7 Global Plant Phenotyping Market, By Application

• 7.1 Introduction
• 7.2 Trait Identification
• 7.3 Photosynthetic Performance
• 7.4 Morphology and Growth Assessment
• 7.5 High-Throughput Screening
• 7.6 Other Applications

8 Global Plant Phenotyping Market, By End User

• 8.1 Introduction
• 8.2 Research Institutions
• 8.3 Agriculture Companies
• 8.4 Government Agencies
• 8.5 Other End Users

9 Global Plant Phenotyping Market, By Geography

• 9.1 Introduction
• 9.2 North America
  • 9.2.1 US
  • 9.2.2 Canada
  • 9.2.3 Mexico
• 9.3 Europe
  • 9.3.1 Germany
  • 9.3.2 UK
  • 9.3.3 Italy
  • 9.3.4 France
  • 9.3.5 Spain
  • 9.3.6 Rest of Europe
• 9.4 Asia Pacific
  • 9.4.1 Japan
  • 9.4.2 China
  • 9.4.3 India
  • 9.4.4 Australia
  • 9.4.5 New Zealand
  • 9.4.6 South Korea
  • 9.4.7 Rest of Asia Pacific
• 9.5 South America
  • 9.5.1 Argentina
  • 9.5.2 Brazil
  • 9.5.3 Chile
  • 9.5.4 Rest of South America
• 9.6 Middle East & Africa
  • 9.6.1 Saudi Arabia
  • 9.6.2 UAE
  • 9.6.3 Qatar
  • 9.6.4 South Africa
  • 9.6.5 Rest of Middle East & Africa

10 Key Developments

• 10.1 Agreements, Partnerships, Collaborations and Joint Ventures
• 10.2 Acquisitions & Mergers
• 10.3 New Product Launch
• 10.4 Expansions
• 10.5 Other Key Strategies

11 Company Profiling

• 11.1 LemnaTec
• 11.2 Phenospex
• 11.3 CropDesign
• 11.4 BASF SE
• 11.5 Plant-DiTech
• 11.6 Hiphen
• 11.7 Delta-T Devices Ltd.
• 11.8 Phenomix
• 11.9 Keygene
• 11.10 Qubit Systems
• 11.11 Vienna Biocenter
• 11.12 Photon Systems Instruments
• 11.13 Heinz Walz Gmbh
• 11.14 Rothamsted Research

List of Tables

• Table 1 Global Plant Phenotyping Market Outlook, By Region (2022-2030) ($MN)
• Table 2 Global Plant Phenotyping Market Outlook, By Product (2022-2030) ($MN)
• Table 3 Global Plant Phenotyping Market Outlook, By Sensors (2022-2030) ($MN)
• Table 4 Global Plant Phenotyping Market Outlook, By Temperature Sensors (2022-2030) ($MN)
• Table 5 Global Plant Phenotyping Market Outlook, By Image Sensors (2022-2030) ($MN)
• Table 6 Global Plant Phenotyping Market Outlook, By Normalized Difference Vegetation Index Sensors (2022-2030) ($MN)
• Table 7 Global Plant Phenotyping Market Outlook, By Software (2022-2030) ($MN)
• Table 8 Global Plant Phenotyping Market Outlook, By Image Analysis (2022-2030) ($MN)
• Table 9 Global Plant Phenotyping Market Outlook, By Data Acquisition (2022-2030) ($MN)
• Table 10 Global Plant Phenotyping Market Outlook, By System Control (2022-2030) ($MN)
• Table 11 Global Plant Phenotyping Market Outlook, By Equipment (2022-2030) ($MN)
• Table 12 Global Plant Phenotyping Market Outlook, By Site (2022-2030) ($MN)
• Table 13 Global Plant Phenotyping Market Outlook, By Application-Specific Systems (2022-2030) ($MN)
• Table 14 Global Plant Phenotyping Market Outlook, By Analysis Systems (2022-2030) ($MN)
• Table 15 Global Plant Phenotyping Market Outlook, By Platform/Carrier (2022-2030) ($MN)
• Table 16 Global Plant Phenotyping Market Outlook, By Technology (2022-2030) ($MN)
• Table 17 Global Plant Phenotyping Market Outlook, By Imaging Technology (2022-2030) ($MN)
• Table 18 Global Plant Phenotyping Market Outlook, By Sensor-Based Technology (2022-2030) ($MN)
• Table 19 Global Plant Phenotyping Market Outlook, By Machine Learning and AI (2022-2030) ($MN)
• Table 20 Global Plant Phenotyping Market Outlook, By High-Throughput Phenotyping (HTP) (2022-2030) ($MN)
• Table 21 Global Plant Phenotyping Market Outlook, By Other Technologies (2022-2030) ($MN)
• Table 22 Global Plant Phenotyping Market Outlook, By Application (2022-2030) ($MN)
• Table 23 Global Plant Phenotyping Market Outlook, By Trait Identification (2022-2030) ($MN)
• Table 24 Global Plant Phenotyping Market Outlook, By Photosynthetic Performance (2022-2030) ($MN)
• Table 25 Global Plant Phenotyping Market Outlook, By Morphology and Growth Assessment (2022-2030) ($MN)
• Table 26 Global Plant Phenotyping Market Outlook, By High-Throughput Screening (2022-2030) ($MN)
• Table 27 Global Plant Phenotyping Market Outlook, By Other Applications (2022-2030) ($MN)
• Table 28 Global Plant Phenotyping Market Outlook, By End User (2022-2030) ($MN)
• Table 29 Global Plant Phenotyping Market Outlook, By Research Institutions (2022-2030) ($MN)
• Table 30 Global Plant Phenotyping Market Outlook, By Agriculture Companies (2022-2030) ($MN)
• Table 31 Global Plant Phenotyping Market Outlook, By Government Agencies (2022-2030) ($MN)
• Table 32 Global Plant Phenotyping Market Outlook, By Other End Users (2022-2030) ($MN)

Note: Tables for North America, Europe, APAC, South America, and Middle East & Africa Regions are also represented in the same manner as above.