植物育種市場:現狀分析與未來預測 (2024年～2032年)

植物育種市場將呈現約13.5%的成長率。對植物育種研發的優惠政策、資金和激勵措施正在推動這一市場的發展。此外，植物育種產業的研發、投資、產品進步和合作不斷增加，正在推動植物育種市場的發展。例如，2024年6月，全球領先的農業科技公司先正達集團向世界各地的學術研究人員開放了部分基因組編輯和育種技術，這是其致力於激發創新和推進農業可持續發展的一部分。這些權利可以透過先正達的創新協作平台 Shoots 獲得。

依類型，市場分為傳統技術和生物技術。其中，傳統類別在預測期內將呈現更高的複合年增長率。這是因為傳統植物育種提供了經濟實惠的非基因改造方法來增強植物特性，例如提高產量、抗病性和氣候適應性。透過雜交育種和標記輔助選擇（MAS），科學家可以培育出優良植物品種，而無需面臨監管問題。不斷增長的糧食需求和氣候課題促使農民和農業企業選擇傳統的作物改良方法，因為它們提供了可持續和市場友好的解決方案，從而促進了市場成長。

市場依屬性細分為抗除草劑性、抗病性和產量提高性。其中，抗除草劑性狀對植物育種業的貢獻最大，因為它是一種培育能夠耐受特定除草劑的作物同時最大限度地減少雜草控制問題的技術。農民需要耐除草劑的作物，因為他們希望消除人工除草並擁有更高的生產率。透過 CRISPR 和基因改造育種等技術進行的基因改造和基因編輯正在加速為大豆、玉米和棉花農場創造耐除草劑作物。隨著精準農業的採用者認識到有效的雜草管理可以提高產量並降低成本，該領域將繼續發展。

根據應用，市場分為穀物、油籽和豆類、水果和蔬菜以及其他。其中，穀物類對植物育種業的貢獻最大。小麥、米、玉米和大麥是全球飲食的基礎，需要提高產量以及抗旱和抗病特性來滿足日益增長的糧食需求。標記輔助選擇（MAS）和基因組選擇正在幫助研究人員創造能夠抵抗氣候變遷影響的高產品種。穀物生產為強化食品和生物強化食品提供了額外的資金，這些食品含有更多的必需營養素，如維生素 A 和鐵，可以對抗營養不良。雜交和基因改造穀物在新興市場中成長迅速，由於它們在氣候變遷下改善了糧食安全，因此市場規模不斷擴大。

為了更了解植物育種的市場介紹，我們根據北美（美國、加拿大和北美其他地區）、歐洲（德國、英國、法國、西班牙、義大利和歐洲其他地區）、亞太地區（中國、日本、印度和亞太其他地區）和世界其他地區的全球存在情況對市場進行了分析。由於農業技術的進步、大量的研究投入以及對高產量和氣候適應性作物的需求不斷增加，北美植物育種市場正在不斷擴大。該地區利用生物技術創新、CRISPR 基因編輯和標記輔助選擇 (MAS) 實現了快速、精準的作物開發。美國和加拿大的植物育種市場受到政府有效政策以及科迪華、拜耳、先正達等大型種子公司的支持，非基因改造和有機作物的使用也日益增多。環境問題和糧食安全需求正在加速北美地區現代育種技術的使用，使該地區成為全球植物演化發展的重要參與者。

推動市場的主要公司包括Bayer AG，Bejo Zaden B.V.，Corteva，Enza Zaden，KWS SAAT SE &Co.KGaA，Limagrain，Rijk Zwaan Zaadteelt en Zaadhandel B.V.，Sakata Seed Corp.，Syngenta Crop Protection AG，Takii Europe B.V.等。

目錄

第1章 市場概要

• 市場定義
• 主要目的
• 相關利益者
• 限制事項

第2章 分析方法或前提條件

• 分析流程
• 分析方法
• 受訪者簡介

第3章 摘要整理

• 產業摘要
• 各市場區隔預測
  • 市場成長的強度
• 地區展望

第4章 市場動態

• 促進因素
• 機會
• 阻礙因素
• 趨勢
• PESTEL分析
• 需求面分析
• 供給面分析
  • 企業合併·收購 (M&A)
  • 事業合作和投資情勢
  • 產業洞察：領先的新創公司及其獨特的策略

第5章 價格分析

• 價格分析:各地區
• 價格的影響因素

第6章 全球植物育種的市場收益 (2022～2032年)

第7章 市場分析:各類型

• 傳統
• 生物科技型

第8章 市場分析:特性

• 除草劑抗性
• 耐病性
• 產量改善

第9章 市場分析:各用途

• 穀物
• 油籽·豆類
• 水果·蔬菜
• 其他

第10章 市場分析:各地區

• 北美
  • 美國
  • 加拿大
  • 其他北美地區
• 歐洲
  • 德國
  • 英國
  • 法國
  • 義大利
  • 西班牙
  • 其他歐洲地區
• 亞太地區
  • 中國
  • 日本
  • 印度
  • 其他亞太地區
• 全球其他地區

第11章 價值鏈分析

• 限制分析
• 市場參與企業的一覽

第12章 競爭情形

• 競爭儀表板
• 企業的市場定位分析
• 波特的五力分析

第13章 企業簡介

• Bayer AG
  • 企業概要
  • 主要的財務指標
  • SWOT分析
  • 產品系列
  • 近幾年趨勢
• Bejo Zaden B.V.
• Corteva
• Enza Zaden
• KWS SAAT SE & Co. KGaA
• Limagrain
• Rijk Zwaan Zaadteelt en Zaadhandel B.V.
• SAKATA SEED CORPORATION
• Syngenta Crop Protection AG
• Takii Europe B.V.

第14章 縮寫與前提條件

第15章 附錄

Plant breeding within the global market specializes in the creation of advanced crop varieties through conventional alongside modern breeding approaches to boost product output as well as disease opposition and climate tolerance levels. The market is moving forward because of rising food requirements together with changes in climate conditions along with ecological demands in agricultural operations. The combination of CRISPR gene editing and AI-driven breeding with marker-assisted selection (MAS) speeds up the process of developing crops. Market expansion happens due to sustained government support and research institution-agribusiness partnerships while agricultural biotechnology receives increased funding.

The plant breeding market is set to show a growth rate of about 13.5%. Favorable policies, funding, and incentives for research and development in plant breeding boost this market. Also, increasing R&D, investment, product advancements, and collaborations in this industry drive the Plant Breeding market. For instance, in June 2024, as part of its commitment to stimulate innovation and advance sustainability in agriculture, Syngenta Group, one of the world's top agricultural technology corporations, granted academic researchers worldwide access to chosen genome-editing and breeding technologies. These rights are accessible through Syngenta's innovation cooperation platform Shoots.

Based on type, the market is segmented into conventional and biotechnological. Among these, the conventional category is to witness higher CAGR during the forecast period. This is due to the because conventional plant breeding provides affordable non-GMO ways to enhance plant characteristics including yield improvement and disease resistance as well as climate resilience capabilities. Through hybrid breeding along with marker-assisted selection (MAS), scientists develop superior plant varieties without facing regulatory issues. The increasing food requirements and climate difficulties drive farmers and agribusinesses to choose conventional methods for crop improvement since they offer both sustainable and market-friendly solutions thus contributing to market growth.

Based on the trait, the market is segmented into herbicide tolerance, disease resistance, and yield improvement. Among these, the herbicide tolerance category is the largest contributor to the plant breeding industry because this technology develops crops that defend against specific herbicides while minimizing weed control problems. Farming operations require herbicide-resistant crops because farmers need more productive systems that eliminate manual weeding procedures. Genetic modification and gene editing through technologies like CRISPR and transgenic breeding have speeded up the creation of herbicide-resistant crops targeting soybean corn and cotton farms. The segment continues to grow because precision agriculture adopters understand how effective weed management enables better yields and cost reduction.

Based on the application, the market is segmented into cereals & grains, oilseeds & pulses, fruits & vegetables, and others. Among these, the cereals & grains category is the largest contributor to the plant breeding industry because these foods play an essential part in securing food supplies at the global level. Wheat rice maize and barley along with barley serve as dietary base components worldwide that require yield improvement and drought-resistant and disease-resistant traits to fulfill growing food requirements. Marked-assisted selection (MAS) as well as genomic selection assist researchers in creating high-yield cereal varieties that resist climate change impacts. Grain production receives additional funding for both fortified and biofortified food products which contain increased amounts of essential nutrients such as Vitamin A alongside iron to fight malnutrition. Markets expand because of fast-growing hybrid and genetically upgraded cereal implementation in developing areas which creates better food security even during climate change conditions.

For a better understanding of the market adoption of plant breeding, the market is analyzed based on its worldwide presence in countries such as North America (U.S., Canada, and the Rest of North America), Europe (Germany, U.K., France, Spain, Italy, Rest of Europe), Asia-Pacific (China, Japan, India, Rest of Asia-Pacific), Rest of World. Among these, the North American plant breeding market expands through technological advancements in agriculture combined with intensive research investment and increasing crop requirements for high production and climate resistance. Fast and precise crop development becomes achievable because the region uses biotechnological innovations and CRISPR gene editing as well as marker-assisted selection (MAS). Plant breeding markets in the U.S. and Canada are supported by effective government policies together with major seed companies including Corteva Bayer and Syngenta along with rising non-GMO and organic crop use. Environmental fears and food stability needs are speeding up the usage of modern breeding techniques across North America which establishes this region as a vital participant in worldwide plant evolutionary developments.

Some major players running in the market include Bayer AG; Bejo Zaden B.V.; Corteva; Enza Zaden; KWS SAAT SE & Co. KGaA; Limagrain; Rijk Zwaan Zaadteelt en Zaadhandel B.V.; SAKATA SEED CORPORATION; Syngenta Crop Protection AG; Takii Europe B.V.

TABLE OF CONTENTS

1.Market Introduction

• 1.1. Market Definitions
• 1.2. Main Objective
• 1.3. Stakeholders
• 1.4. Limitation

2.Research Methodology or Assumption

• 2.1. Research Process of the Global Plant Breeding Market
• 2.2. Research Methodology of the Global Plant Breeding Market
• 2.3. Respondent Profile

3.Executive Summary

• 3.1. Industry Synopsis
• 3.2. Segmental Outlook
  • 3.2.1. Market Growth Intensity
• 3.3. Regional Outlook

4.Market Dynamics

• 4.1. Drivers
• 4.2. Opportunity
• 4.3. Restraints
• 4.4. Trends
• 4.5. PESTEL Analysis
• 4.6. Demand Side Analysis
• 4.7. Supply Side Analysis
  • 4.7.1. Merger & Acquisition
  • 4.7.2. Collaboration & Investment and Scenario
  • 4.7.3. Industry Insights: Leading Startups and Their Unique Strategies

5.Pricing Analysis

• 5.1. Regional Pricing Analysis
• 5.2. Price Influencing Factors

6.Global Plant Breeding Market Revenue (USD Bn), 2022-2032F

7.Market Insights By Type

• 7.1. Conventional
• 7.2. Biotechnological

8.Market Insights By Trait

• 8.1. Herbicide Tolerance
• 8.2. Disease Resistance
• 8.3. Yield Improvement

9.Market Insights By Application

• 9.1. Cereals & Grains
• 9.2. Oilseeds & Pulses
• 9.3. Fruits & Vegetables
• 9.4. Others

10.Market Insights By Region

• 10.1. North America
  • 10.1.1. U.S.
  • 10.1.2. Canada
  • 10.1.3. Rest of North America
• 10.2. Europe
  • 10.2.1. Germany
  • 10.2.2. U.K.
  • 10.2.3. France
  • 10.2.4. Italy
  • 10.2.5. Spain
  • 10.2.6. Rest of Europe
• 10.3. Asia-Pacific
  • 10.3.1. China
  • 10.3.2. Japan
  • 10.3.3. India
  • 10.3.4. Rest of Asia-Pacific
• 10.4. Rest of World

11.Value Chain Analysis

• 11.1. Marginal Analysis
• 11.2. List of Market Participants

12.Competitive Landscape

• 12.1. Competition Dashboard
• 12.2. Competitor Market Positioning Analysis
• 12.3. Porter Five Forces Analysis

13.Company Profiled

• 13.1. Bayer AG
  • 13.1.1. Company Overview
  • 13.1.2. Key Financials
  • 13.1.3. SWOT Analysis
  • 13.1.4. Product Portfolio
  • 13.1.5. Recent Developments
• 13.2. Bejo Zaden B.V.
• 13.3. Corteva
• 13.4. Enza Zaden
• 13.5. KWS SAAT SE & Co. KGaA
• 13.6. Limagrain
• 13.7. Rijk Zwaan Zaadteelt en Zaadhandel B.V.
• 13.8. SAKATA SEED CORPORATION
• 13.9. Syngenta Crop Protection AG
• 13.10. Takii Europe B.V.

14.Acronyms & Assumption

15.Annexure