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全球種子包衣材料市場：市場規模、產業趨勢、機會分析及預測（2025-2033 年），依產地、成分、類型、作物及地區劃分

Global Seed Coating Material Market: By Origin, Ingredients, Type, Crop, Region- Market Size, Industry Dynamics, Opportunity Analysis and Forecast for 2025-2033

出版日期: 2025年11月26日 | 出版商:

Astute Analytica | 英文 297 Pages | 商品交期: 最快1-2個工作天內

價格

簡介目錄

種子包衣材料市場正經歷顯著成長，預計到 2024 年將達到約 24.91 億美元。這一成長趨勢預計將在未來幾年持續強勁，到 2033 年市場規模預計將成長近一倍，達到約 46.55 億美元。 2025 年至 2033 年預測期內的複合年增長率 (CAGR) 為 7.59%，顯示全球對種子包衣材料的需求持續強勁。

推動這一成長的關鍵因素有很多。最重要的是，農民越來越重視作物保護，以保護他們的投資免受病蟲害和不利環境條件的影響，這些因素會損害種子活力和產量。提高發芽率是另一個關鍵驅動因素，而種子包衣在確保均勻發芽和早期健康生長方面發揮著至關重要的作用。這些益處轉化為農業生產力的提高和糧食安全的增強，使種子包衣成為現代農業實踐的重要組成部分。

市場趨勢

種子包衣材料市場的競爭格局主要由少數幾家大型綜合公司主導，這些公司掌控種子遺傳和化學處理技術。這些行業領導者利用其在整個價值鏈上的全面控制來推動創新並佔顯著的市場佔有率。例如，Corteva 預計收入將超過 170 億美元，並正在策略性地擴展其專有的種子處理技術部門，因此脫穎而出。

巴斯夫也是塑造市場格局的關鍵參與者，其數十億歐元的創新研發管線專注於綜合種子處理和性狀技術。這一重點體現了該公司致力於透過開發結合遺傳學和化學保護的先進解決方案來提高作物產量和抗性的承諾。

近期一項值得關注的進展是，亞什蘭公司宣布將於2025年9月在全球推出Agrimar Ecocoat，這是一種突破性的種子包衣聚合物，代表著農化產業在性能和永續性方面的重大飛躍。 Agrimar Ecocoat採用亞什蘭公司的轉化植物油（TVO）技術平台開發而成，是天然來源、可生物降解且不含微塑膠的解決方案。

主要成長驅動因素

對種子包衣材料日益增長的需求不僅僅是農業技術領域的一種趨勢；它更應被視為一項關鍵的財務策略，旨在保護現代農業中最昂貴的投入——種子本身。鑑於被處理的種子價值龐大，該市場的重要性顯而易見。領先的種子細分市場的年淨銷售額接近95億美元，足以證明其重要性。每包種子所包含的遺傳特性代表著一項重大投資，農民無法承受因保護不足而導致這些資產損失的風險。在已開發國家，高產作物的種子成本已上漲至平均每英畝約 120 美元，因此使用種子包衣成為重要的保障措施。

新機遇

種子包衣市場目前正經歷重大變革，其推動力是緊迫的監管時間表，這些時間表正在從根本上改變該行業的化學成分。幾十年來，標準合成聚合物一直是種子包衣的基礎材料，因其耐用性和性能而備受青睞。然而，隨著人們日益關注環境問題，這些材料的未來充滿不確定性，因為主要地區正在對微塑膠實施嚴格的法規。這項監管轉變不僅僅是指導方針，而是一項明確的強制性規定，它啟動了倒數計時，強制要求在 2028 年 10 月之前逐步淘汰不可生物降解的種子包衣。

優化障礙

不可預測的天氣條件，例如極端溫度和不穩定的降雨模式，對種子性能和作物生長構成重大挑戰。不穩定的氣候模式會降低土壤水分和其他種子發育所需因素的穩定性，使種子難以如預期生長。當降雨不足時，乾旱會阻礙種子吸收所需水分，導致發芽率低甚至不發芽。相反，降雨過多或洪水會導致種子被沖離播種地或沉入積水土壤中，這兩種情況都會嚴重影響作物的生長。

產業價值鏈分析
- 製造商
- 供應商
- 終端用戶
行業展望
- 種子包衣材料需求成長
PESTLE 分析
波特五力分析
- 供應商議價能力
- 買方議價能力
- 替代品威脅
- 新進入者威脅
- 競爭強度
市場動態與趨勢
- 成長驅動因素
- 限制因素
- 挑戰
- 主要趨勢
新冠疫情對市場成長趨勢的影響評估
市場成長及展望
- 市場收入估算及預測（2020-2033 年）
- 市場估計與預測，2020-2033 年
- 價格趨勢分析
競爭格局概覽
- 市場集中度
- 公司市佔率分析（價值，%），2024 年
- 競爭格局圖

第五章全球種子包衣材料市場分析：依原產地劃分

主要發現
市場規模及預測，2020-2033 年
- 天然
- 合成

第六章全球種子包衣材料市場分析：依組成部分

主要發現
市場規模及預測（2020-2033）
- 助劑
- 黏合劑
- 著色劑
- 肥料
- 聚合物
- 播種潤滑劑

第七章全球種子包衣材料市場分析：依類型

主要發現
市場規模及預測（2020-2033）
- 薄膜包衣
- 製粒
- 種子處理
- 其他

第八章全球種子包衣材料市場分析：依作物

主要發現
市場規模及2020-2033 年預測
- 穀物
- 穀類食品
- 油籽
- 水果
- 蔬菜
- 其他

第九章全球種子包衣材料市場區域分析

主要見解
市場規模及預測（2020-2033 年）
- 北美
- 歐洲
- 亞太地區
- 中東和非洲
- 南美

第十章北美種子包衣材料市場分析

第十一章歐洲種子包衣材料市場分析

第十二章亞太地區種子包衣材料市場分析

第十三章：中東與非洲種子包衣材料市場分析

第十四章：南美洲種子包衣材料市場分析

第十五章：中國種子包衣材料市場分析

第十六章：印度種子包衣材料市場分析

第十七章：日本種子包衣材料市場分析

第十八章：韓國種子包衣材料市場分析

第十九章：澳洲與紐西蘭種子包衣材料市場分析

第二十章：東協種子包衣材料市場分析

第二十一章：亞太其他地區種子包衣材料市場分析

第22章：公司簡介

拜耳作物科學股份公司
巴斯夫股份公司
科萊恩國際
科萊恩國際
英科泰克集團
克羅瑪泰克公司
傑曼斯種子技術公司
布雷特楊
基石苯胺公司
精密實驗室
馬亨德拉海外公司
德國種子技術公司
其他主要參與者

簡介目錄

Product Code: AA1223708

The seed coating material market is experiencing significant growth, with its valuation reaching approximately US$ 2,491.0 million in 2024. This upward trend is expected to continue robustly over the coming years, with projections indicating that the market will nearly double in size to reach an estimated US$ 4,655.5 million by 2033. This growth corresponds to a compound annual growth rate (CAGR) of 7.59% during the forecast period from 2025 to 2033, signaling strong and sustained demand for seed coating materials worldwide.

Several key factors are driving this expansion. Foremost among them is the increasing need for enhanced crop protection, as farmers seek to safeguard their investments against pests, diseases, and adverse environmental conditions that can undermine seed viability and crop yields. Improved germination rates are another critical driver, with seed coatings playing a crucial role in ensuring uniform emergence and healthy early growth. These benefits translate into higher agricultural productivity and greater food security, making seed coatings an essential component of modern farming practices.

Noteworthy Market Developments

The competitive landscape of the seed coating material market is largely dominated by a handful of massive, integrated companies that hold sway over both seed genetics and chemical treatments. These industry giants leverage their comprehensive control across the value chain to drive innovation and capture significant market share. Corteva, for example, stands out with projected revenues exceeding $17 billion and has strategically expanded its proprietary seed-applied technology divisions.

BASF is another major player shaping the market dynamics, with a multi-billion euro innovation pipeline focused heavily on integrated seed treatments and trait technologies. This emphasis reflects the company's commitment to developing advanced solutions that combine genetics and chemical protection to improve crop performance and resilience.

In a notable recent development, Ashland announced in September 2025 the global launch of Agrimer Eco-Coat. This is a pioneering seed coating polymer that represents a significant leap forward in both performance and sustainability for the agrochemical industry. Developed using Ashland's Transformed Vegetable Oils (TVO) technology platform, Agrimer Eco-Coat is a nature-derived, inherently biodegradable, and microplastic-free solution.

Core Growth Drivers

The rising demand for seed coating materials should be viewed not merely as an agronomic trend but as a critical financial strategy essential to safeguarding the most expensive input on today's farms: the seed itself. The importance of this market becomes clear when considering the immense value of the seeds being treated. Major seed segments generate net sales approaching $9.5 billion annually, reflecting the high stakes involved. The genetic traits contained within each seed bag represent a significant investment, and farmers cannot afford to jeopardize these assets through suboptimal protection. In advanced economies, where seed costs have escalated to an average of around $120 per acre for high-yield crops, the use of seed coatings is regarded as an indispensable form of insurance.

Emerging Opportunity Trends

The seed coating material market is presently experiencing a significant transformation driven by an urgent regulatory timeline that is fundamentally altering the industry's chemical landscape. For decades, standard synthetic polymers have been the backbone of seed coatings, valued for their durability and performance. However, these materials now face an uncertain future as key regions impose stringent restrictions on microplastics, reflecting growing environmental concerns. This regulatory shift is not merely a guideline but a firm mandate, initiating a countdown toward the mandatory phase-out of non-biodegradable seed coatings by October 2028.

Barriers to Optimization

Unpredictable weather conditions, such as extreme temperatures and irregular rainfall patterns, pose significant challenges to seed performance and crop establishment. When weather patterns become erratic, the consistency of factors like soil moisture-which is crucial for seed development-often deteriorates, making it difficult for seeds to thrive as intended. During periods of insufficient rainfall, drought conditions can prevent seeds from absorbing the necessary water, leading to poor germination rates or seed failure. Conversely, excessive rainfall or flooding can cause seeds to be washed away from their planting sites or submerged in waterlogged soil, both of which severely impair their ability to establish.

Detailed Market Segmentation

By Ingredient, Polymers currently hold the leading position in the seed coating material market, accounting for approximately 30.6% of the total share. Their dominance is primarily attributed to their exceptional binding capabilities and remarkable durability, which are critical qualities during the handling, transport, and planting of seeds. Polymers serve as the essential adhesive matrix that ensures coatings remain uniformly attached to the seed surface, preventing flaking or damage that could compromise seed quality and performance. This structural integrity is vital in maintaining seed viability and ensuring smooth processing throughout the supply chain.

By Origin, Synthetic materials dominate the global seed coating material market, holding an impressive 55.30% share. This commanding presence is largely due to their proven effectiveness in protecting seeds and the well-established manufacturing infrastructure that supports large-scale production. Synthetic coatings have become the preferred choice for many agricultural producers because they reliably deliver consistent performance, ensuring seeds are well-protected throughout their vulnerable early stages in the soil.

By Type, Film coating technology currently leads the seed coating material market, commanding a significant 45.6% share. This dominance is primarily driven by the growing adoption of precision agriculture and the increasing reliance on automated planting systems. As farming practices become more technologically advanced, the need for coatings that maintain seed integrity while supporting efficient planting operations has become critical. Film coatings offer a solution that aligns perfectly with these modern agricultural demands.

By Crop, Grains dominate the seed coating material market, capturing a substantial 30.2% share due to their position as the largest category in terms of planted acreage worldwide. This dominance is closely linked to global food security initiatives, which have driven increased cultivation of staple grains to meet the nutritional needs of growing populations. For example, India reported a significant expansion in summer sowing areas for 2025, with an increase of 6.5 lakh hectares, directly boosting the demand for treated seeds. This surge in acreage reflects broader efforts to enhance crop productivity and ensure stable food supplies, particularly in regions where grains form the backbone of the diet.

Segment Breakdown

By Origin

Natural
Synthetic

By Ingredient

Adjuvants
Binders
Colorants
Fertilizers
Polymers
Seed Planting Lubricants

By Type

Film Coating
Pelleting
Seed Dressing
Others

By Crop

Grain
Cereal
Oilseed
Fruit
Vegetable
Others

By Region

North America
The U.S.
Canada
Mexico
Europe
Western Europe
The UK
Germany
France
Italy
Spain
Rest of Western Europe
Eastern Europe
Poland
Russia
Rest of Eastern Europe
Asia Pacific
China
India
Japan
Australia & New Zealand
South Korea
ASEAN
Rest of Asia Pacific
Middle East & Africa (MEA)
Saudi Arabia
South Africa
UAE
Rest of MEA
South America
Argentina
Brazil
Rest of South America

Geography Breakdown

North America holds a commanding position in the seed coating material market, capturing approximately 30.50% of the total market share. This dominance is a clear reflection of the region's highly advanced agronomic practices and technological sophistication. In both the United States and Canada, seeds are no longer viewed as mere agricultural inputs but are treated as high-value technology platforms integral to modern farming success. This perspective is closely tied to the widespread adoption of genetically modified organisms (GMOs) in key crops such as corn, soybeans, and cotton, which has significantly elevated the cost and value of seeds.
In these markets, the price of a single bag of seed can easily surpass $300, underscoring the premium nature of the product. Given this substantial investment, farmers are motivated to protect their seeds with advanced, multi-functional coatings. These "stacked" coatings combine a blend of fungicides, insecticides, and biological agents designed to shield the seed from a range of threats, ensuring optimal germination and crop health.

Leading Market Participants

Bayer Crop Science AG
BASF SE
Clariant International
Croda International
Incotec Group
Chromatech Incorporated
Germains Seed Technology
Brett Young
Keystone Aniline Corporation
Precision Laboratories
Mahendra Overseas
German Seeds Technology
Other Prominent Players

Table of Content

Chapter 1. Research Framework

1.1. Research Objective
1.2. Product Overview
1.3. Market Segmentation

Chapter 2. Research Methodology

2.1. Qualitative Research
- 2.1.1. Primary & Secondary Sources
2.2. Quantitative Research
- 2.2.1. Primary & Secondary Sources
2.3. Breakdown of Primary Research Respondents, By Region
2.4. Assumption for the Study
2.5. Market Size Estimation
2.6. Data Triangulation

Chapter 3. Executive Summary: Global Seed Coating Material Market

Chapter 4. Global Seed Coating Material Market Overview

4.1. Industry Value Chain Analysis
- 4.1.1. Manufacturers
- 4.1.2. Providers
- 4.1.3. End User
4.2. Industry Outlook
- 4.2.1. Rising Demand Regarding Seed Coating Material
4.3. PESTLE Analysis
4.4. Porter's Five Forces Analysis
- 4.4.1. Bargaining Power of Suppliers
- 4.4.2. Bargaining Power of Buyers
- 4.4.3. Threat of Substitutes
- 4.4.4. Threat of New Entrants
- 4.4.5. Degree of Competition
4.5. Market Dynamics and Trends
- 4.5.1. Growth Drivers
- 4.5.2. Restraints
- 4.5.3. Challenges
- 4.5.4. Key Trends
4.6. Covid-19 Impact Assessment on Market Growth Trend
4.7. Market Growth and Outlook
- 4.7.1. Market Revenue Estimates and Forecast (US$ Mn), 2020 - 2033
- 4.7.2. Market Volume Estimates and Forecast (000'' Tons), 2020 - 2033
- 4.7.3. Price Trend Analysis
4.8. Competition Dashboard
- 4.8.1. Market Concentration Rate
- 4.8.2. Company Market Share Analysis (Value %), 2024
- 4.8.3. Competitor Mapping

Chapter 5. Global Seed Coating Material Market Analysis, By Origin

5.1. Key Insights
5.2. Market Size and Forecast, 2020 - 2033 (US$ Mn & 000" Tons)
- 5.2.1. Natural
- 5.2.2. Synthetic

Chapter 6. Global Seed Coating Material Market Analysis, By Ingredient

6.1. Key Insights
6.2. Market Size and Forecast, 2020 - 2033 (US$ Mn)
- 6.2.1. Adjuvants
- 6.2.2. Binders
  - 6.2.2.1. Bentonite
  - 6.2.2.2. Polyvinyl Acetate (PVA)
  - 6.2.2.3. Polyvinylpyrrolidone (PVP)
  - 6.2.2.4. Methyl Cellulose
  - 6.2.2.5. Styrene Butadiene Rubber
  - 6.2.2.6. Acrylics
  - 6.2.2.7. Waxes or Wax Emulsions
- 6.2.3. Colorants
- 6.2.4. Fertilizers
- 6.2.5. Polymers
- 6.2.6. Seed Planting Lubricants

Chapter 7. Global Seed Coating Material Market Analysis, By Type

7.1. Key Insights
7.2. Market Size and Forecast, 2020 - 2033 (US$ Mn)
- 7.2.1. Film Coating
- 7.2.2. Pelleting
- 7.2.3. Seed Dressing
- 7.2.4. Others

Chapter 8. Global Seed Coating Material Market Analysis, By Crop

8.1. Key Insights
8.2. Market Size and Forecast, 2020 - 2033 (US$ Mn & 000" Tons)
- 8.2.1. Grain
- 8.2.2. Cereal
- 8.2.3. Oilseed
- 8.2.4. Fruit
- 8.2.5. Vegetable
- 8.2.6. Others

Chapter 9. Global Seed Coating Material Market Analysis, By Region

9.1. Key Insights
9.2. Market Size and Forecast, 2020 - 2033 (US$ Mn)
- 9.2.1. North America
  - 9.2.1.1. The U.S.
  - 9.2.1.2. Canada
  - 9.2.1.3. Mexico
- 9.2.2. Europe
  - 9.2.2.1. Western Europe
    - 9.2.2.1.1. The UK
    - 9.2.2.1.2. Germany
    - 9.2.2.1.3. France
    - 9.2.2.1.4. Italy
    - 9.2.2.1.5. Spain
    - 9.2.2.1.6. Rest of Western Europe
  - 9.2.2.2. Eastern Europe
    - 9.2.2.2.1. Poland
    - 9.2.2.2.2. Russia
    - 9.2.2.2.3. Rest of Eastern Europe
- 9.2.3. Asia Pacific
  - 9.2.3.1. China
  - 9.2.3.2. India
  - 9.2.3.3. Japan
  - 9.2.3.4. South Korea
  - 9.2.3.5. Australia & New Zealand
  - 9.2.3.6. ASEAN
  - 9.2.3.7. Rest of Asia Pacific
- 9.2.4. Middle East & Africa
  - 9.2.4.1. UAE
  - 9.2.4.2. Saudi Arabia
  - 9.2.4.3. South Africa
  - 9.2.4.4. Rest of MEA
- 9.2.5. South America
  - 9.2.5.1. Argentina
  - 9.2.5.2. Brazil
  - 9.2.5.3. Rest of South America

Chapter 10. North America Seed Coating Material Market Analysis

10.1. Key Insights
10.2. Market Size and Forecast, 2020 - 2033 (US$ Mn & 000" Tons)
- 10.2.1. By Origin
- 10.2.2. By Ingredient
- 10.2.3. By Type
- 10.2.4. By Crop
- 10.2.5. By Country

Chapter 11. Europe Seed Coating Material Market Analysis

11.1. Key Insights
11.2. Market Size and Forecast, 2020 - 2033 (US$ Mn & 000" Tons)
- 11.2.1. By Origin
- 11.2.2. By Ingredient
- 11.2.3. By Type
- 11.2.4. By Crop
- 11.2.5. By Country

Chapter 12. Asia Pacific Seed Coating Material Market Analysis

12.1. Key Insights
12.2. Market Size and Forecast, 2020 - 2033 (US$ Mn & 000" Tons)
- 12.2.1. By Origin
- 12.2.2. By Ingredient
- 12.2.3. By Type
- 12.2.4. By Crop
- 12.2.5. By Country

Chapter 13. Middle East & Africa Seed Coating Material Market Analysis

13.1. Key Insights
13.2. Market Size and Forecast, 2020 - 2033 (US$ Mn & 000" Tons)
- 13.2.1. By Origin
- 13.2.2. By Ingredient
- 13.2.3. By Type
- 13.2.4. By Crop
- 13.2.5. By Country

Chapter 14. South America Seed Coating Material Market Analysis

14.1. Key Insights
14.2. Market Size and Forecast, 2020 - 2033 (US$ Mn & 000" Tons)
- 14.2.1. By Origin
- 14.2.2. By Ingredient
- 14.2.3. By Type
- 14.2.4. By Crop
- 14.2.5. By Country

Chapter 15. China Seed Coating Material Market Analysis

15.1. Key Insights
15.2. Market Size and Forecast, 2020 - 2033 (US$ Mn & 000" Tons)
- 15.2.1. By Origin
- 15.2.2. By Ingredient
- 15.2.3. By Type
- 15.2.4. By Crop

Chapter 16. India Seed Coating Material Market Analysis

16.1. Key Insights
16.2. Market Size and Forecast, 2020 - 2033 (US$ Mn & 000" Tons)
- 16.2.1. By Origin
- 16.2.2. By Ingredient
- 16.2.3. By Type
- 16.2.4. By Crop

Chapter 17. Japan Seed Coating Material Market Analysis

17.1. Key Insights
17.2. Market Size and Forecast, 2020 - 2033 (US$ Mn & 000" Tons)
- 17.2.1. By Origin
- 17.2.2. By Ingredient
- 17.2.3. By Type
- 17.2.4. By Crop

Chapter 18. South Korea Seed Coating Material Market Analysis

18.1. Key Insights
18.2. Market Size and Forecast, 2020 - 2033 (US$ Mn & 000" Tons)
- 18.2.1. By Origin
- 18.2.2. By Ingredient
- 18.2.3. By Type
- 18.2.4. By Crop

Chapter 19. Australia & New Zealand Seed Coating Material Market Analysis

19.1. Key Insights
19.2. Market Size and Forecast, 2020 - 2033 (US$ Mn & 000" Tons)
- 19.2.1. By Origin
- 19.2.2. By Ingredient
- 19.2.3. By Type
- 19.2.4. By Crop

Chapter 20. ASEAN Seed Coating Material Market Analysis

20.1. Key Insights
20.2. Market Size and Forecast, 2020 - 2033 (US$ Mn & 000" Tons)
- 20.2.1. By Origin
- 20.2.2. By Ingredient
- 20.2.3. By Type
- 20.2.4. By Crop

Chapter 21. Rest of Asia Pacific Seed Coating Material Market Analysis

21.1. Key Insights
21.2. Market Size and Forecast, 2020 - 2033 (US$ Mn & 000" Tons)
- 21.2.1. By Origin
- 21.2.2. By Ingredient
- 21.2.3. By Type
- 21.2.4. By Crop