Seed Treatment Market Size
Icons | Lable | Value |
---|---|---|
Study Period | 2017 - 2029 | |
Market Size (2024) | USD 8.74 Billion | |
Market Size (2029) | USD 10.8 Billion | |
Largest Share by Function | Insecticide | |
CAGR (2024 - 2029) | 4.33 % | |
Largest Share by Region | Asia-Pacific | |
Market Concentration | Medium | |
Major Players |
||
|
||
*Disclaimer: Major Players sorted in alphabetical order. |
Seed Treatment Market Analysis
The Seed Treatment Market size is estimated at 8.74 billion USD in 2024, and is expected to reach 10.8 billion USD by 2029, growing at a CAGR of 4.33% during the forecast period (2024-2029).
8.74 Billion
Market Size in 2024 (USD)
10.8 Billion
Market Size in 2029 (USD)
5.51 %
CAGR (2017-2023)
4.33 %
CAGR (2024-2029)
Largest Segment by Function
69.64 %
value share, Insecticide, 2023
Insecticidal seed treatments are highly target-specific in controlling a range of pests, such as aphids, thrips, wireworms, and beetles that attack seeds at the initial stage.
Fastest-Grwoing Segment by Function
4.54 %
Projected CAGR, Insecticide, 2024-2029
Insecticidal seed treatments are cost-effective as they require low application rates and can help reduce the reliance on foliar sprays in the later stages of the crop.
Largest Segment by Crop Type
45.14 %
value share, Grains & Cereals, 2023
The highest consumption of seed treatment chemicals in grains and cereals is attributed to their large area under cultivation, accounting for a share of 49.2% in 2022.
Largest Segment by Region
30.47 %
value share, Asia-Pacific, 2023
Seed treatment market in Asia-Pacific is experiencing significant growth, driven by farmers increasing awareness of need to protect seed and seedlings from diseases and pests.
Leading Market Player
19.08 %
market share, Syngenta Group, 2022
The seed treatment products offered by the company enable uniform distribution and adherence to the surface of the grain for maximum protection.
Growing awareness among farmers is driving the demand for seed treatments
- During 2017-2022, the global chemical fungicide seed treatment market witnessed a substantial growth of 18.3%. Fungal diseases like rice blast cause up to 30% global rice yield loss and severe economic damage. The aim to reduce these losses increased the need for higher fungicidal seed treatments. Metalaxyl, carbendazim, thiram, and captan are the most used active ingredients in fungicidal seed treatment products.
- Insecticidal seed treatments have high target specificity in controlling a range of pests that attack seeds or seedlings, such as aphids, thrips, wireworms, and beetles at the initial stage of the crop’s life cycle. Moreover, insecticidal seed treatments are cost-effective alternatives as they require low application rates and can help reduce the reliance on foliar sprays in the later stages of the crop by providing proper preventive measures at the very initial stages. These factors are expected to drive the market at a CAGR of 4.5% during the forecast period (2023-2029).
- Active ingredients such as imidacloprid, clothianidin, thiamethoxam, fipronil, and chlorpyrifos are highly important in chemical insecticide seed treatment. Imidacloprid, clothianidin, and thiamethoxam are effective against a wide range of sucking insects, such as aphids, whiteflies, and leafhoppers, while fipronil and chlorpyrifos act against soil-dwelling insect pests.
- There is an increasing incidence of nematode infestations globally with severe crop losses. The growing knowledge among farmers about the various alternatives to overcome yield losses led to a significant growth of 4.6% during the historical period.
Seed treatment improves the plant abiotic stress tolerance towards droughts and heatwaves.
- The growing awareness among farmers regarding the need to protect seeds and seedlings from early crop diseases and insect pests in the preharvest stage raises the utilization of seed treatment products, which will give more strength to the crop to grow further with uniform establishment and growth. The global seed treatment market accounted for USD 8.36 billion, with a consumption volume of 719.0 thousand metric tons in 2022.
- In 2022, South America dominated the market with 44.7% of the global seed treatment, with a market value of USD 3.74 billion. The dominance of the South American region is majorly attributed to the changing climatic conditions. Recent droughts and heat waves have hampered crop production. Seed treatment increases the plant's tolerance to adverse conditions like drought and heatwaves, resulting in higher utilization. In 2022, Brazil held the dominant position as the largest market in South America, representing 91.4% of the region's market share. The country's remarkable expansion can be attributed to several factors, including the growing need for food security and the escalating utilization of seed treatment products in crops like soybeans.
- The North America seed treatment market is the second largest, with 19.9% and a market value of USD 1.66 billion in 2022. The United States is the largest seed treatment market, accounting for a share of 83.4% in 2022. The country has been witnessing substantial growth driven by increasing demand for food security and rising adoption of seed treatment products in major grown crops like soybeans, as seed treatment can reduce the seeding rate and increase profitability.
Global Seed Treatment Market Trends
Growing fungal infestations in early crop cycle and effectiveness of fungicide treatment in addressing these issues may lead to a rise in the demand for fungicide seed treatments
- The global average consumption of seed treatment chemicals was recorded at 3.4 kg per hectare of agricultural land in 2022. The usage of seed treatment chemicals is growing with the rising awareness among farmers globally about the significance of seed treatment in crop protection.
- The usage of fungicidal seed treatments is more popular among all pesticides due to the significant threat posed by fungal diseases such as rice blasts, leading to substantial yield losses globally. These diseases can result in up to a 30% loss in rice production, equivalent to feeding 60 million people, causing severe economic damage. Treating seeds with tricyclazole 75 WP at 3g/kg effectively prevents and controls this seed-borne disease even in later stages.
- Imidacloprid, clothianidin, thiamethoxam, fipronil, and chlorpyrifos are crucial active ingredients in chemical insecticides for seed treatment. They exhibit high efficacy against a broad spectrum of pests, including wireworms, seed-corn maggots, grubs, soil-dwelling insects, caterpillars, and beetles.
- South America is the highest per-hectare consumer of seed treatment chemicals, with 1,959 grams per hectare of agricultural land in 2022, followed by Europe and North America, with consumption of 619.0 and 583.0 grams per hectare of seed treatment chemicals, respectively, in the same year.
- Research indicates that the application of insecticides on rice seeds effectively reduced the larval population of rice water weevil. These treatments displayed control efficiency surpassing 90% and resulted in significant yield improvements of up to 25% in South America. Such factors are leading to higher adoption of seed treatments in the region and globally.
Metalaxyl, when used as seed treatment, offers early protection to seeds and seedlings from soil-borne pathogens
- Seed treatments are specialized chemicals applied directly to seeds, offering enhanced protection from pests and diseases, promoting better germination rates, and ensuring healthier plant establishment, contributing to increased crop productivity and sustainable farming practices.
- As a non-systemic insecticide, cypermethrin remains primarily on the surface of treated seeds or plants. It forms a protective barrier that acts in contact with the target pests. Cypermethrin is known for its quick knockdown effect on a wide range of insect pests, making it valuable in seed treatment applications. In 2022, it was priced at USD 21.1 thousand per metric ton.
- Malathion's systemic action enables it to provide protection against pests that feed on different parts of the plant. It is effective in controlling a variety of insect pests, such as aphids, leafhoppers, thrips, scales, and certain caterpillar species that may infest the treated crops. Malathion was priced at USD 12.5 thousand per metric ton in 2022.
- Metalaxyl, when used, offers early protection to seeds and seedlings from soil-borne pathogens, preventing diseases like damping-off and seed rot. It is effective against pathogens such as pythium, phytophthora, and certain downy mildew. In 2022, it was priced at USD 4.4 thousand per metric ton.
- Azoxystrobin's systemic activity allows it to be absorbed by treated plants and translocated within their vascular system, providing extended protection to different parts of the plant, including new growth and foliage. It was priced at USD 4.5 thousand per metric ton in 2022.
- Governments worldwide are promoting seed treatment practices through extension services, subsidies, awareness campaigns, and collaborations within the industry to encourage the adoption of seed treatments.
Seed Treatment Industry Overview
The Seed Treatment Market is moderately consolidated, with the top five companies occupying 59.37%. The major players in this market are BASF SE, Bayer AG, Corteva Agriscience, FMC Corporation and Syngenta Group (sorted alphabetically).
Seed Treatment Market Leaders
BASF SE
Bayer AG
Corteva Agriscience
FMC Corporation
Syngenta Group
Other important companies include ADAMA Agricultural Solutions Ltd, Crystal Crop Protection Ltd, Mitsui & Co. Ltd (Certis Belchim), Nufarm Ltd, Upl Limited.
*Disclaimer: Major Players sorted in alphabetical order.
Seed Treatment Market News
- January 2023: Bayer formed a new partnership with Oerth Bio to enhance crop protection technology and create more eco-friendly crop protection solutions.
- November 2022: Certis Belchim BV acquired the assets of Henry Manufacturing Limited in New Zealand. This includes its portfolio and pipeline of potassium fatty-acid salts, which have various applications in crop protection.
- June 2022: AgriNova New Zealand Ltd was acquired by ADAMA Ltd. With this acquisition, ADAMA expanded its product line in the New Zealand market.
Free with this Report
Along with the report, We also offer a comprehensive and exhaustive data pack with 50+ graphs on insecticide, fungicides, and herbicides consumption per hectare and the average price of active ingredients used in insecticides, fungicides, herbicides, nematicides, and molluscicides. The data pack includes Globe, North America, Europe, Asia-Pacific, South America, and Africa.
Seed Treatment Market Report - Table of Contents
EXECUTIVE SUMMARY & KEY FINDINGS
REPORT OFFERS
1. INTRODUCTION
1.1. Study Assumptions & Market Definition
1.2. Scope of the Study​
1.3. Research Methodology
2. KEY INDUSTRY TRENDS
2.1. Consumption Of Pesticide Per Hectare
2.2. Pricing Analysis For Active Ingredients
2.3. Regulatory Framework
2.3.1. Argentina
2.3.2. Australia
2.3.3. Brazil
2.3.4. Canada
2.3.5. Chile
2.3.6. China
2.3.7. France
2.3.8. Germany
2.3.9. India
2.3.10. Indonesia
2.3.11. Italy
2.3.12. Japan
2.3.13. Mexico
2.3.14. Myanmar
2.3.15. Netherlands
2.3.16. Pakistan
2.3.17. Philippines
2.3.18. Russia
2.3.19. South Africa
2.3.20. Spain
2.3.21. Thailand
2.3.22. Ukraine
2.3.23. United Kingdom
2.3.24. United States
2.3.25. Vietnam
2.4. Value Chain & Distribution Channel Analysis
3. MARKET SEGMENTATION (includes market size in Value in USD and Volume, Forecasts up to 2029 and analysis of growth prospects)
3.1. Function
3.1.1. Fungicide
3.1.2. Insecticide
3.1.3. Nematicide
3.2. Crop Type
3.2.1. Commercial Crops
3.2.2. Fruits & Vegetables
3.2.3. Grains & Cereals
3.2.4. Pulses & Oilseeds
3.2.5. Turf & Ornamental
3.3. Region
3.3.1. Africa
3.3.1.1. By Country
3.3.1.1.1. South Africa
3.3.1.1.2. Rest of Africa
3.3.2. Asia-Pacific
3.3.2.1. By Country
3.3.2.1.1. Australia
3.3.2.1.2. China
3.3.2.1.3. India
3.3.2.1.4. Indonesia
3.3.2.1.5. Japan
3.3.2.1.6. Myanmar
3.3.2.1.7. Pakistan
3.3.2.1.8. Philippines
3.3.2.1.9. Thailand
3.3.2.1.10. Vietnam
3.3.2.1.11. Rest of Asia-Pacific
3.3.3. Europe
3.3.3.1. By Country
3.3.3.1.1. France
3.3.3.1.2. Germany
3.3.3.1.3. Italy
3.3.3.1.4. Netherlands
3.3.3.1.5. Russia
3.3.3.1.6. Spain
3.3.3.1.7. Ukraine
3.3.3.1.8. United Kingdom
3.3.3.1.9. Rest of Europe
3.3.4. North America
3.3.4.1. By Country
3.3.4.1.1. Canada
3.3.4.1.2. Mexico
3.3.4.1.3. United States
3.3.4.1.4. Rest of North America
3.3.5. South America
3.3.5.1. By Country
3.3.5.1.1. Argentina
3.3.5.1.2. Brazil
3.3.5.1.3. Chile
3.3.5.1.4. Rest of South America
4. COMPETITIVE LANDSCAPE
4.1. Key Strategic Moves
4.2. Market Share Analysis
4.3. Company Landscape
4.4. Company Profiles (includes Global level Overview, Market level overview, Core Business Segments, Financials, Headcount, Key Information, Market Rank, Market Share, Products and Services, and analysis of Recent Developments)
4.4.1. ADAMA Agricultural Solutions Ltd
4.4.2. BASF SE
4.4.3. Bayer AG
4.4.4. Corteva Agriscience
4.4.5. Crystal Crop Protection Ltd
4.4.6. FMC Corporation
4.4.7. Mitsui & Co. Ltd (Certis Belchim)
4.4.8. Nufarm Ltd
4.4.9. Syngenta Group
4.4.10. Upl Limited
5. KEY STRATEGIC QUESTIONS FOR CROP PROTECTION CHEMICALS CEOS
6. APPENDIX
6.1. Global Overview
6.1.1. Overview
6.1.2. Porter’s Five Forces Framework
6.1.3. Global Value Chain Analysis
6.1.4. Market Dynamics (DROs)
6.2. Sources & References
6.3. List of Tables & Figures
6.4. Primary Insights
6.5. Data Pack
6.6. Glossary of Terms
List of Tables & Figures
- Figure 1:
- PESTICIDE CONSUMPTION PER HECTARE, GRAMS, GLOBAL, 2017 - 2022
- Figure 2:
- ACTIVE INGREDIENT PRICE PER METRIC TON, USD, GLOBAL, 2017 - 2022
- Figure 3:
- SEED TREATMENT VOLUME METRIC TON, GLOBAL, 2017 - 2029
- Figure 4:
- SEED TREATMENT VALUE USD, GLOBAL, 2017 - 2029
- Figure 5:
- SEED TREATMENT MARKET BY FUNCTION, METRIC TON, GLOBAL, 2017 - 2029
- Figure 6:
- SEED TREATMENT MARKET BY FUNCTION, USD, GLOBAL, 2017 - 2029
- Figure 7:
- VALUE SHARE OF SEED TREATMENT BY FUNCTION, %, GLOBAL, 2017 VS 2023 VS 2029
- Figure 8:
- VOLUME SHARE OF SEED TREATMENT BY FUNCTION, %, GLOBAL, 2017 VS 2023 VS 2029
- Figure 9:
- CONSUMPTION OF FUNGICIDE, METRIC TON, GLOBAL, 2017 - 2029
- Figure 10:
- CONSUMPTION OF FUNGICIDE, USD, GLOBAL, 2017 - 2029
- Figure 11:
- VALUE SHARE OF FUNGICIDE BY CROP TYPE, %, GLOBAL, 2022 VS 2029
- Figure 12:
- CONSUMPTION OF INSECTICIDE, METRIC TON, GLOBAL, 2017 - 2029
- Figure 13:
- CONSUMPTION OF INSECTICIDE, USD, GLOBAL, 2017 - 2029
- Figure 14:
- VALUE SHARE OF INSECTICIDE BY CROP TYPE, %, GLOBAL, 2022 VS 2029
- Figure 15:
- CONSUMPTION OF NEMATICIDE, METRIC TON, GLOBAL, 2017 - 2029
- Figure 16:
- CONSUMPTION OF NEMATICIDE, USD, GLOBAL, 2017 - 2029
- Figure 17:
- VALUE SHARE OF NEMATICIDE BY CROP TYPE, %, GLOBAL, 2022 VS 2029
- Figure 18:
- SEED TREATMENT MARKET BY CROP TYPE, METRIC TON, GLOBAL, 2017 - 2029
- Figure 19:
- SEED TREATMENT MARKET BY CROP TYPE, USD, GLOBAL, 2017 - 2029
- Figure 20:
- VALUE SHARE OF SEED TREATMENT BY CROP TYPE, %, GLOBAL, 2017 VS 2023 VS 2029
- Figure 21:
- VOLUME SHARE OF SEED TREATMENT BY CROP TYPE, %, GLOBAL, 2017 VS 2023 VS 2029
- Figure 22:
- SEED TREATMENT CONSUMED BY COMMERCIAL CROPS, METRIC TON, GLOBAL, 2017 - 2029
- Figure 23:
- SEED TREATMENT CONSUMED BY COMMERCIAL CROPS, USD, GLOBAL, 2017 - 2029
- Figure 24:
- VALUE SHARE OF COMMERCIAL CROPS BY FUNCTION, %, GLOBAL, 2022 VS 2029
- Figure 25:
- SEED TREATMENT CONSUMED BY FRUITS & VEGETABLES, METRIC TON, GLOBAL, 2017 - 2029
- Figure 26:
- SEED TREATMENT CONSUMED BY FRUITS & VEGETABLES, USD, GLOBAL, 2017 - 2029
- Figure 27:
- VALUE SHARE OF FRUITS & VEGETABLES BY FUNCTION, %, GLOBAL, 2022 VS 2029
- Figure 28:
- SEED TREATMENT CONSUMED BY GRAINS & CEREALS, METRIC TON, GLOBAL, 2017 - 2029
- Figure 29:
- SEED TREATMENT CONSUMED BY GRAINS & CEREALS, USD, GLOBAL, 2017 - 2029
- Figure 30:
- VALUE SHARE OF GRAINS & CEREALS BY FUNCTION, %, GLOBAL, 2022 VS 2029
- Figure 31:
- SEED TREATMENT CONSUMED BY PULSES & OILSEEDS, METRIC TON, GLOBAL, 2017 - 2029
- Figure 32:
- SEED TREATMENT CONSUMED BY PULSES & OILSEEDS, USD, GLOBAL, 2017 - 2029
- Figure 33:
- VALUE SHARE OF PULSES & OILSEEDS BY FUNCTION, %, GLOBAL, 2022 VS 2029
- Figure 34:
- SEED TREATMENT CONSUMED BY TURF & ORNAMENTAL, METRIC TON, GLOBAL, 2017 - 2029
- Figure 35:
- SEED TREATMENT CONSUMED BY TURF & ORNAMENTAL, USD, GLOBAL, 2017 - 2029
- Figure 36:
- VALUE SHARE OF TURF & ORNAMENTAL BY FUNCTION, %, GLOBAL, 2022 VS 2029
- Figure 37:
- SEED TREATMENT MARKET BY REGION, METRIC TON, GLOBAL, 2017 - 2029
- Figure 38:
- SEED TREATMENT MARKET BY REGION, USD, GLOBAL, 2017 - 2029
- Figure 39:
- VALUE SHARE OF SEED TREATMENT BY REGION, %, GLOBAL, 2017 VS 2023 VS 2029
- Figure 40:
- VOLUME SHARE OF SEED TREATMENT BY REGION, %, GLOBAL, 2017 VS 2023 VS 2029
- Figure 41:
- SEED TREATMENT MARKET BY COUNTRY, METRIC TON, GLOBAL, 2017 - 2029
- Figure 42:
- SEED TREATMENT MARKET BY COUNTRY, USD, GLOBAL, 2017 - 2029
- Figure 43:
- VALUE SHARE OF SEED TREATMENT BY COUNTRY, %, GLOBAL, 2017 VS 2023 VS 2029
- Figure 44:
- VOLUME SHARE OF SEED TREATMENT BY COUNTRY, %, GLOBAL, 2017 VS 2023 VS 2029
- Figure 45:
- SEED TREATMENT CONSUMED BY SOUTH AFRICA, METRIC TON, GLOBAL, 2017 - 2029
- Figure 46:
- SEED TREATMENT CONSUMED BY SOUTH AFRICA, USD, GLOBAL, 2017 - 2029
- Figure 47:
- VALUE SHARE OF SOUTH AFRICA BY FUNCTION, %, GLOBAL, 2022 VS 2029
- Figure 48:
- SEED TREATMENT CONSUMED BY REST OF AFRICA, METRIC TON, GLOBAL, 2017 - 2029
- Figure 49:
- SEED TREATMENT CONSUMED BY REST OF AFRICA, USD, GLOBAL, 2017 - 2029
- Figure 50:
- VALUE SHARE OF REST OF AFRICA BY FUNCTION, %, GLOBAL, 2022 VS 2029
- Figure 51:
- SEED TREATMENT MARKET BY COUNTRY, METRIC TON, GLOBAL, 2017 - 2029
- Figure 52:
- SEED TREATMENT MARKET BY COUNTRY, USD, GLOBAL, 2017 - 2029
- Figure 53:
- VALUE SHARE OF SEED TREATMENT BY COUNTRY, %, GLOBAL, 2017 VS 2023 VS 2029
- Figure 54:
- VOLUME SHARE OF SEED TREATMENT BY COUNTRY, %, GLOBAL, 2017 VS 2023 VS 2029
- Figure 55:
- SEED TREATMENT CONSUMED BY AUSTRALIA, METRIC TON, GLOBAL, 2017 - 2029
- Figure 56:
- SEED TREATMENT CONSUMED BY AUSTRALIA, USD, GLOBAL, 2017 - 2029
- Figure 57:
- VALUE SHARE OF AUSTRALIA BY FUNCTION, %, GLOBAL, 2022 VS 2029
- Figure 58:
- SEED TREATMENT CONSUMED BY CHINA, METRIC TON, GLOBAL, 2017 - 2029
- Figure 59:
- SEED TREATMENT CONSUMED BY CHINA, USD, GLOBAL, 2017 - 2029
- Figure 60:
- VALUE SHARE OF CHINA BY FUNCTION, %, GLOBAL, 2022 VS 2029
- Figure 61:
- SEED TREATMENT CONSUMED BY INDIA, METRIC TON, GLOBAL, 2017 - 2029
- Figure 62:
- SEED TREATMENT CONSUMED BY INDIA, USD, GLOBAL, 2017 - 2029
- Figure 63:
- VALUE SHARE OF INDIA BY FUNCTION, %, GLOBAL, 2022 VS 2029
- Figure 64:
- SEED TREATMENT CONSUMED BY INDONESIA, METRIC TON, GLOBAL, 2017 - 2029
- Figure 65:
- SEED TREATMENT CONSUMED BY INDONESIA, USD, GLOBAL, 2017 - 2029
- Figure 66:
- VALUE SHARE OF INDONESIA BY FUNCTION, %, GLOBAL, 2022 VS 2029
- Figure 67:
- SEED TREATMENT CONSUMED BY JAPAN, METRIC TON, GLOBAL, 2017 - 2029
- Figure 68:
- SEED TREATMENT CONSUMED BY JAPAN, USD, GLOBAL, 2017 - 2029
- Figure 69:
- VALUE SHARE OF JAPAN BY FUNCTION, %, GLOBAL, 2022 VS 2029
- Figure 70:
- SEED TREATMENT CONSUMED BY MYANMAR, METRIC TON, GLOBAL, 2017 - 2029
- Figure 71:
- SEED TREATMENT CONSUMED BY MYANMAR, USD, GLOBAL, 2017 - 2029
- Figure 72:
- VALUE SHARE OF MYANMAR BY FUNCTION, %, GLOBAL, 2022 VS 2029
- Figure 73:
- SEED TREATMENT CONSUMED BY PAKISTAN, METRIC TON, GLOBAL, 2017 - 2029
- Figure 74:
- SEED TREATMENT CONSUMED BY PAKISTAN, USD, GLOBAL, 2017 - 2029
- Figure 75:
- VALUE SHARE OF PAKISTAN BY FUNCTION, %, GLOBAL, 2022 VS 2029
- Figure 76:
- SEED TREATMENT CONSUMED BY PHILIPPINES, METRIC TON, GLOBAL, 2017 - 2029
- Figure 77:
- SEED TREATMENT CONSUMED BY PHILIPPINES, USD, GLOBAL, 2017 - 2029
- Figure 78:
- VALUE SHARE OF PHILIPPINES BY FUNCTION, %, GLOBAL, 2022 VS 2029
- Figure 79:
- SEED TREATMENT CONSUMED BY THAILAND, METRIC TON, GLOBAL, 2017 - 2029
- Figure 80:
- SEED TREATMENT CONSUMED BY THAILAND, USD, GLOBAL, 2017 - 2029
- Figure 81:
- VALUE SHARE OF THAILAND BY FUNCTION, %, GLOBAL, 2022 VS 2029
- Figure 82:
- SEED TREATMENT CONSUMED BY VIETNAM, METRIC TON, GLOBAL, 2017 - 2029
- Figure 83:
- SEED TREATMENT CONSUMED BY VIETNAM, USD, GLOBAL, 2017 - 2029
- Figure 84:
- VALUE SHARE OF VIETNAM BY FUNCTION, %, GLOBAL, 2022 VS 2029
- Figure 85:
- SEED TREATMENT CONSUMED BY REST OF ASIA-PACIFIC, METRIC TON, GLOBAL, 2017 - 2029
- Figure 86:
- SEED TREATMENT CONSUMED BY REST OF ASIA-PACIFIC, USD, GLOBAL, 2017 - 2029
- Figure 87:
- VALUE SHARE OF REST OF ASIA-PACIFIC BY FUNCTION, %, GLOBAL, 2022 VS 2029
- Figure 88:
- SEED TREATMENT MARKET BY COUNTRY, METRIC TON, GLOBAL, 2017 - 2029
- Figure 89:
- SEED TREATMENT MARKET BY COUNTRY, USD, GLOBAL, 2017 - 2029
- Figure 90:
- VALUE SHARE OF SEED TREATMENT BY COUNTRY, %, GLOBAL, 2017 VS 2023 VS 2029
- Figure 91:
- VOLUME SHARE OF SEED TREATMENT BY COUNTRY, %, GLOBAL, 2017 VS 2023 VS 2029
- Figure 92:
- SEED TREATMENT CONSUMED BY FRANCE, METRIC TON, GLOBAL, 2017 - 2029
- Figure 93:
- SEED TREATMENT CONSUMED BY FRANCE, USD, GLOBAL, 2017 - 2029
- Figure 94:
- VALUE SHARE OF FRANCE BY FUNCTION, %, GLOBAL, 2022 VS 2029
- Figure 95:
- SEED TREATMENT CONSUMED BY GERMANY, METRIC TON, GLOBAL, 2017 - 2029
- Figure 96:
- SEED TREATMENT CONSUMED BY GERMANY, USD, GLOBAL, 2017 - 2029
- Figure 97:
- VALUE SHARE OF GERMANY BY FUNCTION, %, GLOBAL, 2022 VS 2029
- Figure 98:
- SEED TREATMENT CONSUMED BY ITALY, METRIC TON, GLOBAL, 2017 - 2029
- Figure 99:
- SEED TREATMENT CONSUMED BY ITALY, USD, GLOBAL, 2017 - 2029
- Figure 100:
- VALUE SHARE OF ITALY BY FUNCTION, %, GLOBAL, 2022 VS 2029
- Figure 101:
- SEED TREATMENT CONSUMED BY NETHERLANDS, METRIC TON, GLOBAL, 2017 - 2029
- Figure 102:
- SEED TREATMENT CONSUMED BY NETHERLANDS, USD, GLOBAL, 2017 - 2029
- Figure 103:
- VALUE SHARE OF NETHERLANDS BY FUNCTION, %, GLOBAL, 2022 VS 2029
- Figure 104:
- SEED TREATMENT CONSUMED BY RUSSIA, METRIC TON, GLOBAL, 2017 - 2029
- Figure 105:
- SEED TREATMENT CONSUMED BY RUSSIA, USD, GLOBAL, 2017 - 2029
- Figure 106:
- VALUE SHARE OF RUSSIA BY FUNCTION, %, GLOBAL, 2022 VS 2029
- Figure 107:
- SEED TREATMENT CONSUMED BY SPAIN, METRIC TON, GLOBAL, 2017 - 2029
- Figure 108:
- SEED TREATMENT CONSUMED BY SPAIN, USD, GLOBAL, 2017 - 2029
- Figure 109:
- VALUE SHARE OF SPAIN BY FUNCTION, %, GLOBAL, 2022 VS 2029
- Figure 110:
- SEED TREATMENT CONSUMED BY UKRAINE, METRIC TON, GLOBAL, 2017 - 2029
- Figure 111:
- SEED TREATMENT CONSUMED BY UKRAINE, USD, GLOBAL, 2017 - 2029
- Figure 112:
- VALUE SHARE OF UKRAINE BY FUNCTION, %, GLOBAL, 2022 VS 2029
- Figure 113:
- SEED TREATMENT CONSUMED BY UNITED KINGDOM, METRIC TON, GLOBAL, 2017 - 2029
- Figure 114:
- SEED TREATMENT CONSUMED BY UNITED KINGDOM, USD, GLOBAL, 2017 - 2029
- Figure 115:
- VALUE SHARE OF UNITED KINGDOM BY FUNCTION, %, GLOBAL, 2022 VS 2029
- Figure 116:
- SEED TREATMENT CONSUMED BY REST OF EUROPE, METRIC TON, GLOBAL, 2017 - 2029
- Figure 117:
- SEED TREATMENT CONSUMED BY REST OF EUROPE, USD, GLOBAL, 2017 - 2029
- Figure 118:
- VALUE SHARE OF REST OF EUROPE BY FUNCTION, %, GLOBAL, 2022 VS 2029
- Figure 119:
- SEED TREATMENT MARKET BY COUNTRY, METRIC TON, GLOBAL, 2017 - 2029
- Figure 120:
- SEED TREATMENT MARKET BY COUNTRY, USD, GLOBAL, 2017 - 2029
- Figure 121:
- VALUE SHARE OF SEED TREATMENT BY COUNTRY, %, GLOBAL, 2017 VS 2023 VS 2029
- Figure 122:
- VOLUME SHARE OF SEED TREATMENT BY COUNTRY, %, GLOBAL, 2017 VS 2023 VS 2029
- Figure 123:
- SEED TREATMENT CONSUMED BY CANADA, METRIC TON, GLOBAL, 2017 - 2029
- Figure 124:
- SEED TREATMENT CONSUMED BY CANADA, USD, GLOBAL, 2017 - 2029
- Figure 125:
- VALUE SHARE OF CANADA BY FUNCTION, %, GLOBAL, 2022 VS 2029
- Figure 126:
- SEED TREATMENT CONSUMED BY MEXICO, METRIC TON, GLOBAL, 2017 - 2029
- Figure 127:
- SEED TREATMENT CONSUMED BY MEXICO, USD, GLOBAL, 2017 - 2029
- Figure 128:
- VALUE SHARE OF MEXICO BY FUNCTION, %, GLOBAL, 2022 VS 2029
- Figure 129:
- SEED TREATMENT CONSUMED BY UNITED STATES, METRIC TON, GLOBAL, 2017 - 2029
- Figure 130:
- SEED TREATMENT CONSUMED BY UNITED STATES, USD, GLOBAL, 2017 - 2029
- Figure 131:
- VALUE SHARE OF UNITED STATES BY FUNCTION, %, GLOBAL, 2022 VS 2029
- Figure 132:
- SEED TREATMENT CONSUMED BY REST OF NORTH AMERICA, METRIC TON, GLOBAL, 2017 - 2029
- Figure 133:
- SEED TREATMENT CONSUMED BY REST OF NORTH AMERICA, USD, GLOBAL, 2017 - 2029
- Figure 134:
- VALUE SHARE OF REST OF NORTH AMERICA BY FUNCTION, %, GLOBAL, 2022 VS 2029
- Figure 135:
- SEED TREATMENT MARKET BY COUNTRY, METRIC TON, GLOBAL, 2017 - 2029
- Figure 136:
- SEED TREATMENT MARKET BY COUNTRY, USD, GLOBAL, 2017 - 2029
- Figure 137:
- VALUE SHARE OF SEED TREATMENT BY COUNTRY, %, GLOBAL, 2017 VS 2023 VS 2029
- Figure 138:
- VOLUME SHARE OF SEED TREATMENT BY COUNTRY, %, GLOBAL, 2017 VS 2023 VS 2029
- Figure 139:
- SEED TREATMENT CONSUMED BY ARGENTINA, METRIC TON, GLOBAL, 2017 - 2029
- Figure 140:
- SEED TREATMENT CONSUMED BY ARGENTINA, USD, GLOBAL, 2017 - 2029
- Figure 141:
- VALUE SHARE OF ARGENTINA BY FUNCTION, %, GLOBAL, 2022 VS 2029
- Figure 142:
- SEED TREATMENT CONSUMED BY BRAZIL, METRIC TON, GLOBAL, 2017 - 2029
- Figure 143:
- SEED TREATMENT CONSUMED BY BRAZIL, USD, GLOBAL, 2017 - 2029
- Figure 144:
- VALUE SHARE OF BRAZIL BY FUNCTION, %, GLOBAL, 2022 VS 2029
- Figure 145:
- SEED TREATMENT CONSUMED BY CHILE, METRIC TON, GLOBAL, 2017 - 2029
- Figure 146:
- SEED TREATMENT CONSUMED BY CHILE, USD, GLOBAL, 2017 - 2029
- Figure 147:
- VALUE SHARE OF CHILE BY FUNCTION, %, GLOBAL, 2022 VS 2029
- Figure 148:
- SEED TREATMENT CONSUMED BY REST OF SOUTH AMERICA, METRIC TON, GLOBAL, 2017 - 2029
- Figure 149:
- SEED TREATMENT CONSUMED BY REST OF SOUTH AMERICA, USD, GLOBAL, 2017 - 2029
- Figure 150:
- VALUE SHARE OF REST OF SOUTH AMERICA BY FUNCTION, %, GLOBAL, 2022 VS 2029
- Figure 151:
- MOST ACTIVE COMPANIES BY NUMBER OF STRATEGIC MOVES, GLOBAL, 2017-2022
- Figure 152:
- MOST ACTIVE COMPANIES BY NUMBER OF STRATEGIC MOVES, GLOBAL, 2017-2022
- Figure 153:
- MARKET SHARE OF MAJOR PLAYERS, %, GLOBAL 2023
Seed Treatment Industry Segmentation
Fungicide, Insecticide, Nematicide are covered as segments by Function. Commercial Crops, Fruits & Vegetables, Grains & Cereals, Pulses & Oilseeds, Turf & Ornamental are covered as segments by Crop Type. Africa, Asia-Pacific, Europe, North America, South America are covered as segments by Region.
- During 2017-2022, the global chemical fungicide seed treatment market witnessed a substantial growth of 18.3%. Fungal diseases like rice blast cause up to 30% global rice yield loss and severe economic damage. The aim to reduce these losses increased the need for higher fungicidal seed treatments. Metalaxyl, carbendazim, thiram, and captan are the most used active ingredients in fungicidal seed treatment products.
- Insecticidal seed treatments have high target specificity in controlling a range of pests that attack seeds or seedlings, such as aphids, thrips, wireworms, and beetles at the initial stage of the crop’s life cycle. Moreover, insecticidal seed treatments are cost-effective alternatives as they require low application rates and can help reduce the reliance on foliar sprays in the later stages of the crop by providing proper preventive measures at the very initial stages. These factors are expected to drive the market at a CAGR of 4.5% during the forecast period (2023-2029).
- Active ingredients such as imidacloprid, clothianidin, thiamethoxam, fipronil, and chlorpyrifos are highly important in chemical insecticide seed treatment. Imidacloprid, clothianidin, and thiamethoxam are effective against a wide range of sucking insects, such as aphids, whiteflies, and leafhoppers, while fipronil and chlorpyrifos act against soil-dwelling insect pests.
- There is an increasing incidence of nematode infestations globally with severe crop losses. The growing knowledge among farmers about the various alternatives to overcome yield losses led to a significant growth of 4.6% during the historical period.
Function | |
Fungicide | |
Insecticide | |
Nematicide |
Crop Type | |
Commercial Crops | |
Fruits & Vegetables | |
Grains & Cereals | |
Pulses & Oilseeds | |
Turf & Ornamental |
Region | |||||||||||||||
| |||||||||||||||
| |||||||||||||||
| |||||||||||||||
| |||||||||||||||
|
Market Definition
- Function - Insecticides, fungicides, and nematicides are the crop protection chemicals used to treat seeds or seedlings.
- Application Mode - Seed treatment is a method of applying crop protection chemicals to the seeds before sowing or the seedlings before transplanting to the main field.
- Crop Type - This represents the consumption of crop protection chemicals by Cereals, Pulses, Oilseeds, Fruits, Vegetables, Turf, and Ornamental crops.
Keyword | Definition |
---|---|
±õ°Â²Ñ​ | Integrated weed management (IWM) is an approach to incorporate multiple weed control techniques throughout the growing season to give producers the best opportunity to control problematic weeds.​ |
±á´Ç²õ³Ù​ | Hosts are the plants that form relationships with beneficial microorganisms and help them colonize.​ |
±Ê²¹³Ù³ó´Ç²µ±ð²Ô​ | A disease-causing organism.​ |
±á±ð°ù²ú¾±²µ²¹³Ù¾±´Ç²Ô​ | Herbigation is an effective method of applying herbicides through irrigation systems.​ |
Maximum residue levels (MRL)​ | Maximum Residue Limit (MRL) is the maximum allowed limit of pesticide residue in food or feed obtained from plants and animals. |
±õ´Ç°Õ​ | The Internet of Things (IoT) is a network of interconnected devices that connect and exchange data with other IoT devices and the cloud.​ |
Herbicide-tolerant varieties (HTVs)​ | Herbicide-tolerant varieties are plant species that have been genetically engineered to be resistant to herbicides used on crops.​ |
°ä³ó±ð³¾¾±²µ²¹³Ù¾±´Ç²Ô​ | Chemigation is a method of applying pesticides to crops through an irrigation system.​ |
Crop Protection​ | Crop protection is a method of protecting crop yields from different pests, including insects, weeds, plant diseases, and others that cause damage to agricultural crops.​ |
Seed Treatment​ | Seed treatment helps to disinfect seeds or seedlings from seed-borne or soil-borne pests. Crop protection chemicals, such as fungicides, insecticides, or nematicides, are commonly used for seed treatment. |
¹ó³Ü³¾¾±²µ²¹³Ù¾±´Ç²Ô​ | Fumigation is the application of crop protection chemicals in gaseous form to control pests. |
Bait | ​A bait is a food or other material used to lure a pest and kill it through various methods, including poisoning. |
Contact Fungicide​ | Contact pesticides prevent crop contamination and combat fungal pathogens.​ They act on pests (fungi) only when they come in contact with the pests. |
Systemic Fungicide​ | A systemic fungicide is a compound taken up by a plant and then translocated within the plant, thus protecting the plant from attack by pathogens.​ |
Mass Drug Administration (MDA)​ | Mass drug administration is the strategy to control or eliminate many neglected tropical diseases​. |
²Ñ´Ç±ô±ô³Ü²õ°ì²õ​ | Mollusks are pests that feed on crops, causing crop damage and yield loss. Mollusks include octopi, squid, snails, and slugs. |
Pre-emergence Herbicide​ | Preemergence herbicides are a form of chemical weed control that prevents germinated weed seedlings from becoming established.​ |
Post-emergence Herbicide​ | Postemergence herbicides are applied to the agricultural field to control weeds after emergence (germination) of seeds or seedlings.​ |
Active Ingredients​ | Active ingredients are the chemicals in pesticide products that kill, control, or repel pests.​ |
United States Department of Agriculture (USDA)​ | The Department of Agriculture provides leadership on food, agriculture, natural resources, and related issues​. |
Weed Science Society of America (WSSA) ​ | The WSSA, a non-profit professional society, promotes research, education, and extension outreach activities related to weeds​. |
Suspension concentrate​ | Suspension concentrate (SC) is one of the formulations of crop protection chemicals with solid active ingredients dispersed in water.​ |
Wettable powder​ | A wettable powder (WP) is a powder formulation that forms a suspension when mixed with water prior to spraying. ​ |
·¡³¾³Ü±ô²õ¾±´Ú¾±²¹²ú±ô±ðÌý³¦´Ç²Ô³¦±ð²Ô³Ù°ù²¹³Ù±ðÌý​ | Emulsifiable concentrate (EC) is a concentrated liquid formulation of pesticide that needs to be diluted with water to create a spray solution.​ |
Plant-parasitic nematodes ​ | Parasitic Nematodes feed on the roots of crops, causing damage to the roots. These damages allow for easy plant infestation by soil-borne pathogens, which results in crop or yield loss. |
Australian Weeds Strategy (AWS)​ | The Australian Weeds Strategy, owned by the Environment and Invasives Committee, provides national guidance on weed management.​ |
Weed Science Society of Japan (WSSJ) ​ | WSSJ aims to contribute to the prevention of weed damage and the utilization of weed value by providing the chance for research presentation and information exchange.​ |
Research Methodology
ÌÇÐÄvlog´«Ã½ follows a four-step methodology in all our reports.
- Step-1: Identify Key Variables: In order to build a robust forecasting methodology, the variables and factors identified in Step-1 are tested against available historical market numbers. Through an iterative process, the variables required for market forecast are set and the model is built on the basis of these variables.
- Step-2: Build a Market Model: Market-size estimations for the forecast years are in nominal terms. Inflation is not a part of the pricing, and the average selling price (ASP) is kept constant throughout the forecast period.
- Step-3: Validate and Finalize: In this important step, all market numbers, variables and analyst calls are validated through an extensive network of primary research experts from the market studied. The respondents are selected across levels and functions to generate a holistic picture of the market studied.
- Step-4: Research Outputs: Syndicated Reports, Custom Consulting Assignments, Databases & Subscription Platforms