How large is the China vegetable seed market in 2025?

The China vegetable seed market size stands at USD 1.05 billion in 2025 and is on track to reach USD 1.32 billion by 2030. Read More

What is driving growth in protected cultivation seed demand?

Rapid greenhouse expansion in the Yangtze River Delta and Pearl River Delta, combined with IoT-enabled climate control, is boosting seed demand for varieties suited to controlled environments. Read More

Which breeding technology dominates the market?

Hybrid varieties lead with 72% China vegetable seed market share due to superior yield consistency, disease resistance, and R&D advances such as CRISPR gene editing. Read More

How significant is counterfeit seed in lower-tier cities?

Counterfeit seed circulation causes individual grower losses up to RMB 45,000 (USD 6,300) per case and exerts a ?1.3% drag on market CAGR. Read More

China Vegetable Seed Market Size & Share Analysis - Industry Research Report

Name: China Vegetable Seed Market Size & Share Analysis - Industry Research Report - Growth Trends
Creator: Mordor Intelligence
License: https://www.mordorintelligence.com/privacy-policy

Market Overview

Study Period	2017 - 2030
Base Year For Estimation	2024
Forecast Data Period	2025 - 2030
Market Size (2025)	USD 1.05 Billion
Market Size (2030)	USD 1.32 Billion
Growth Rate (2025 - 2030)	4.70% CAGR
Market Concentration	Low
Major Players *Disclaimer: Major Players sorted in no particular order Image © Mordor Intelligence. Reuse requires attribution under CC BY 4.0.

China Vegetable Seeds Market Summary — Image © Mordor Intelligence. Reuse requires attribution under CC BY 4.0.

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China Vegetable Seeds Market Analysis by Mordor Intelligence

The China vegetable seeds market size reached USD 1.05 billion in 2025 and is projected to expand to USD 1.32 billion by 2030, reflecting a 4.7% CAGR. This sustained advance stems from Beijing’s push for agricultural self-reliance, accelerated regulatory approval for gene-edited crops, and rapid gains in protected cultivation acreage. Steady investments in domestic breeding centers, the rollout of e-commerce seed channels, and rising Gen-Z demand for diverse vegetables reinforce both volume and value growth in the China vegetable seeds market. Competition remains fragmented, with the top five suppliers jointly holding less share of the China vegetable seeds market in 2024, creating room for consolidation, specialty crop focus, and technology-driven differentiation. Opportunities center on hybrids tailored for automated greenhouse systems, counterfeit-proof distribution models, and varieties optimized for climate resilience.

Key Report Takeaways

By breeding technology, hybrids captured 72% revenue share of the China vegetable seeds market in 2024, while the segment is advancing at a 4.8% CAGR through 2030.
By cultivation mechanism, Open Field cultivation accounted for 83% of the China vegetable seeds market size in 2024, while protected cultivation is growing at a 7.1% CAGR to 2030.
By crop family, Solanaceae led with 35.6% of China vegetable seeds market share in 2024, while unclassified vegetables are forecast to post a 5.7% CAGR between 2025 and 2030.

China Vegetable Seeds Market Trends and Insights

Drivers Impact Analysis

Driver	(~) % Impact on CAGR Forecast	Geographic Relevance	Impact Timeline
Government push for seed industry self-reliance	+1.2%	National, with focus on Hainan and Gansu breeding hubs	Long term (≥ 4 years)
Rapid adoption of protected cultivation	+0.9%	Yangtze River Delta, expanding to Pearl River Delta	Medium term (2-4 years)
Expansion of e-commerce seed channels	+0.6%	Nationwide and higher use in tier-1 and tier-2 cities	Short term (≤ 2 years)
Vegetable diet diversification by Gen-Z	+0.5%	Major urban centers such as Beijing, Shanghai, and Shenzhen	Medium term (2-4 years)
Growth of contract farming for exports	+0.7%	Shandong, Hebei, and Fujian	Medium term (2-4 years)
Advances in CRISPR-Cas breeding	+0.8%	National and concentrated in leading research institutes	Long term (≥ 4 years)
Source: Mordor Intelligence

Government Push for Seed Industry Self-Reliance

Beijing earmarked RMB 2.4 billion (USD 336 million) in 2024 to upgrade biological breeding capacity, channeling funds to vegetable research programs.^{[1]Source: State Council Information Office, “Central Document No. 1 Implementation Guidelines,” scio.gov.cn}Preferential tax treatment for firms whose varieties contain at least 80% domestic genetics shortens payback on R&D. Nanfan, branded as China’s “Seed Silicon Valley,” enables two to three breeding cycles per year, cutting product development timelines by one-third while supporting localized germplasm banks that protect intellectual property. Accelerated review pathways now trim 12–18 months off domestic variety approvals, keeping the China vegetable seeds market responsive to shifting consumer and climatic demands.^{[2]Source: Ministry of Agriculture and Rural Affairs, “Gene-Edited Crop Variety Approval Announcement,” moa.gov.cn}

Rapid Adoption of Protected Cultivation in the Yangtze River Delta

Jiangsu alone added 150,000 hectares of greenhouse space in 2024, a 23% jump over 2023, with integrated IoT nodes tracking moisture, temperature, and nutrients.^{[3]Source: Jiangsu Agricultural Technology Extension Center, “Protected Cultivation Development Report 2024,” jsagri.gov.cn} Yield gains of 35-50% and crop loss reductions near 70% make premium hybrid seeds economically attractive despite higher upfront costs. Greenhouse produce trades at 40-60% price premiums versus open-field equivalents, justifying specialized seed lines engineered for uniform growth under LED lighting and hydroponic systems. These conditions steadily lift the China vegetable seeds market as protected cultivation spreads across affluent coastal provinces.

Expansion of E-Commerce Seed Channels

Seed sales through digital platforms rose 45% year-over-year in 2024, positioning online marketplaces as the fastest-growing distribution route. Embedded QR codes let growers verify authenticity directly with breeders, curbing counterfeit circulation that previously caused farm losses of RMB 1.2 billion (USD 168 million) annually. The platform model enables seed companies to gather real-time market intelligence on variety performance and farmer preferences, accelerating breeding program responsiveness to market demands. Direct-to-farm shipping trims transaction costs 15-20%, making higher-value hybrids more accessible and enlarging the addressable base for the China vegetable seeds market.

Vegetable Diet Diversification Among Gen-Z Consumers

Urban residents aged 18-35 lifted vegetable intake 28% between 2022 and 2024, favoring novel colors, flavors, and functional nutrition. Demand for purple carrots, rainbow chard, and antioxidant-rich peppers spurs breeders to create visually striking, nutrient-dense varieties. The trend toward "Instagram-worthy" food presentation drives demand for visually distinctive varieties, enabling seed companies to differentiate products based on aesthetic characteristics rather than solely on yield or disease resistance. Health-conscious consumers increasingly seek vegetables with enhanced antioxidant content, creating opportunities for biofortified varieties developed through conventional breeding or gene editing techniques.

Restraints Impact Analysis

Restraint	(~) % Impact on CAGR Forecast	Geographic Relevance	Impact Timeline
Counterfeit seed circulation	-1.3%	Tier-3 and tier-4 cities	Short term (≤ 2 years)
Climate-induced disease outbreaks	-1.1%	National and higher risk in southern provinces	Medium term (2-4 years)
Regulatory delays for gene-edited hybrids	-0.8%	Nationwide	Medium term (2-4 years)
Farm-level labor shortages	-0.9%	Rural regions, especially central provinces	Long term (≥ 4 years)
Source: Mordor Intelligence

Counterfeit Seed Circulation in Tier-3 Cities

Law enforcement tallied more than 200 counterfeit seed cases in 2024, with individual growers losing RMB 20,000 (USD 2,800) to RMB 45,000 (USD 6,300) per incident. Qualification-renting business models enable unscrupulous operators to use legitimate companies' licenses for illegal seed production, complicating enforcement efforts and regulatory oversight. Rural distribution networks often lack proper storage facilities and cold chain infrastructure, leading to seed quality degradation that farmers may attribute to variety performance rather than handling issues. The problem disproportionately affects vegetable seeds due to higher unit values and complex breeding characteristics that are difficult for farmers to verify before planting.

Climate-Induced Disease Outbreaks

Unpredictable rainfall and temperature swings in 2024 fueled downy mildew and bacterial wilt epidemics, slashing yields and boosting vegetable prices by 40%. Pathogens evolve faster under climate stress, eroding resistance genes. Climate change accelerates pathogen evolution and migration patterns, rendering existing resistance genes ineffective and requiring constant breeding program updates to maintain variety performance. The economic impact extends beyond direct crop losses to include increased pesticide applications, reduced marketable yields, and consumer concerns about food safety and quality.

Segment Analysis

By Breeding Technology: Hybrids Extend Lead as R&D Accelerates

Advanced breeding techniques position hybrid varieties as the dominant force in China's vegetable seed market, capturing 72% market share in 2024 while maintaining the strongest growth momentum at 4.8% CAGR through 2030. The segment's leadership stems from superior yield consistency, disease resistance, and uniformity characteristics that justify premium pricing for commercial growers seeking predictable returns on investment. CRISPR-Cas gene editing applications accelerate hybrid development timelines, with Chinese research institutions successfully modifying tomato varieties for enhanced lycopene content and broccoli cultivars with improved heat tolerance. Open pollinated varieties and hybrid derivatives occupy the remaining 28% market share, serving price-sensitive farmers and organic production systems that prohibit hybrid technology use.

The technology gap between hybrid and open-pollinated varieties continues widening as breeding companies concentrate R&D investments in proprietary genetics that generate recurring revenue streams through annual seed purchases. Hybrid varieties demonstrate 25-40% yield advantages over open-pollinated alternatives in controlled trials, with particularly strong performance under stress conditions including drought, disease pressure, and suboptimal growing environments. Small-scale farmers increasingly adopt hybrid seeds despite higher upfront costs due to improved crop reliability and reduced risk of total crop failure. The regulatory approval of gene-edited varieties in December 2024 creates additional differentiation opportunities for hybrid developers while open-pollinated varieties remain limited to conventional breeding improvements.

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By Cultivation Mechanism: Protected Systems Propel Premium Seed Demand

Open-field cultivation maintains largest market share of 83% in 2024 through cost advantages and suitability for commodity vegetable production, though growth rates lag at 4.2% CAGR as farmers face increasing pressure from weather variability and labor constraints. Protected systems command 40-60% price premiums for their produce, justifying higher seed costs and enabling farmers to invest in premium varieties with enhanced characteristics. Climate change impacts drive additional adoption of protected cultivation as insurance against extreme weather events that can destroy entire open-field crops. The technology integration includes automated seeding, transplanting, and harvesting equipment that requires uniform seed germination and plant characteristics, favoring hybrid varieties over traditional open-pollinated seeds.

Protected cultivation emerges as the fastest-growing segment at 7.1% CAGR through 2030 despite representing only 17% market share in 2024, reflecting the economics of intensive production systems that optimize land utilization and extend growing seasons. Greenhouse and tunnel systems enable year-round vegetable production with 2-3 crop cycles annually compared to single harvests in open-field systems, creating demand for specialized seed varieties adapted to controlled environments. The Yangtze River Delta region leads protected cultivation adoption with over 400,000 hectares under cover, utilizing IoT sensors, automated irrigation, and climate control systems that require seeds optimized for artificial growing conditions.

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By Crop Family: Solanaceae Maintains Command While Diversity Rises

Solanaceae varieties, dominated by tomato production, maintain market leadership with 35.6% share in 2024, benefiting from strong domestic consumption and export demand for processed products. Tomato breeding programs focus on developing varieties with extended shelf life, enhanced processing characteristics, and resistance to emerging viral diseases that threaten production stability. Chinese consumers' preference for fresh tomatoes in cooking applications supports continued demand growth, while food processing companies require specific varieties with high solids content and uniform ripening characteristics for sauce and paste production. Chili and eggplant varieties within the Solanaceae family serve specialized market segments with distinct flavor profiles and culinary applications that resist substitution by other crop families.

Unclassified vegetables represent the fastest-growing segment at 5.7% CAGR through 2030, driven by consumer diversification toward specialty crops including asparagus, lettuce, and exotic leafy greens that command premium pricing in urban markets. This category benefits from Gen-Z dietary preferences for plant-based nutrition and visually appealing ingredients that enhance social media food presentation. Brassicas, Cucurbits, and Roots and Bulbs maintain stable market positions with growth rates aligned to overall market expansion, serving established consumption patterns and traditional cooking methods. The Ministry of Agriculture and Rural Affairs promotes crop diversification through technical support programs that encourage farmers to experiment with non-traditional varieties, supporting the growth of unclassified vegetable segments.

Geography Analysis

Regional specialization shapes the China vegetable seeds market. The Yangtze River Delta supplies over 35% of the national greenhouse capacity, driving advanced seed uptake for controlled environments. Shandong Province delivers 28% of total seed output, benefiting from legacy breeding centers and export-oriented logistic corridors.

Southern provinces, Guangdong, Fujian, and Hainan leverage tropical climates for year-round multiplication. Hainan’s Nanfan hub alone enables two to three breeding cycles annually, speeding product turnover. Northern belts such as Hebei and Henan prioritize large-scale mechanized production, selecting varieties compatible with automated harvesters.

Western regions remain nascent but receive infrastructure upgrades that will gradually stimulate seed demand as cold-chain access improves. Climate risk distribution also varies: typhoons pressure the south, while northern zones gain extended seasons, reshaping the trait priorities breeders pursue across the China vegetable seeds market.

Competitive Landscape

The China vegetable seeds market exhibits fragmentation with the top 5 companies controlling limited combined market share, creating opportunities for both consolidation and niche specialization strategies. Market concentration remains limited due to diverse crop requirements, regional preferences, and the technical complexity of developing varieties adapted to China's varied climatic conditions. International players like Syngenta Group leverage global breeding expertise and established distribution networks to maintain market leadership, while domestic companies capitalize on local market knowledge and government support for indigenous seed development.

The competitive dynamic increasingly favors companies with integrated breeding programs that combine conventional techniques with biotechnology applications, particularly CRISPR gene editing capabilities that accelerate variety development. Technology adoption serves as the primary differentiation factor, with leading companies investing heavily in digital agriculture platforms, precision breeding techniques, and data analytics capabilities that enhance farmer relationships and market responsiveness. Beijing Dabeinong Technology's approval for gene-edited varieties in December 2024 demonstrates how regulatory compliance capabilities create competitive advantages in biotechnology applications Ministry of Agriculture and Rural Affairs.

White-space opportunities exist in specialty crop segments where consumer preferences drive demand for unique varieties that command premium pricing, including heritage tomatoes, exotic peppers, and nutritionally enhanced vegetables. Emerging disruptors focus on direct-to-farmer sales models through e-commerce platforms that bypass traditional distributor networks and provide better margins for both seed companies and growers. The Ministry of Agriculture and Rural Affairs' seed industry development policies favor companies demonstrating technological innovation and domestic breeding capabilities, influencing competitive positioning and market access opportunities.

China Vegetable Seeds Industry Leaders

Syngenta Group
Hefei Fengle Seed Industry
Yuan Longping High-Tech Agriculture (CITIC Agri Fund)
Groupe Limagrain
Takii & Co., Ltd.
*Disclaimer: Major Players sorted in no particular order

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Recent Industry Developments

March 2025: Mitsui & Co. acquired a 34% interest in Tianjin Derit Seeds, a Chinese company that breeds and sells hybrid vegetable seeds. This investment aligns with Mitsui's expansion in the Asian agricultural input market and reinforces its international seed business strategy.
March 2025: The International Seed Federation (ISF) at the 2025 China Seed Congress focused on strengthening partnerships with Chinese stakeholders in plant breeding innovation, seed technology, and germplasm exchange. The congress demonstrated China's commitment to enhancing its domestic seed industry, including the vegetable segment, through international cooperation and regulatory harmonization.
February 2024: Shouguang, known as China's "vegetable capital," is strengthening its domestic vegetable seed breeding programs to decrease dependence on imported varieties. The region currently produces more than 260 vegetable varieties and distributes seeds to over 20 Chinese provinces.

Free With This Report

We provide a complimentary and exhaustive set of data points on regional and country-level metrics that present the fundamental structure of the industry. Presented in the form of 90+ free charts, the section covers difficult-to-find data from various regions regarding the area under cultivation for different crops within the scope

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Table of Contents for China Vegetable Seeds Industry Report

1. EXECUTIVE SUMMARY AND KEY FINDINGS

2. REPORT OFFERS

3. INTRODUCTION

3.1 Study Assumptions and Market Definition
3.2 Scope of the Study
3.3 Research Methodology

4. KEY INDUSTRY TRENDS

4.1 Area Under Cultivation
- 4.1.1 Vegetables
4.2 Most Popular Traits
- 4.2.1 Tomato and Lettuce
4.3 Breeding Techniques
- 4.3.1 Vegetables
4.4 Regulatory Framework
4.5 Value Chain and Distribution Channel Analysis
4.6 Market Drivers
- 4.6.1 Government push for seed-industry self-reliance
- 4.6.2 Rapid adoption of protected cultivation in the Yangtze River Delta
- 4.6.3 Expansion of e-commerce seed channels
- 4.6.4 Vegetable diet diversification among Gen-Z consumers
- 4.6.5 Growth of contract farming by processed-food exporters
- 4.6.6 Advances in CRISPR-Cas breeding reducing R&D cycle
4.7 Market Restraints
- 4.7.1 Counterfeit seed circulation in tier-3 cities
- 4.7.2 Climate-induced disease outbreaks
- 4.7.3 Regulatory delays for gene-edited hybrids
- 4.7.4 Farm-level labor shortages driving crop shift to grains

5. Market Size and Growth Forecasts (Value and Volume)

5.1 Breeding Technology
- 5.1.1 Hybrids
- 5.1.2 Open Pollinated Varieties and Hybrid Derivatives
5.2 Cultivation Mechanism
- 5.2.1 Open Field
- 5.2.2 Protected Cultivation
5.3 Crop Family
- 5.3.1 Brassicas
- 5.3.1.1 Cabbage
- 5.3.1.2 Carrot
- 5.3.1.3 Cauliflower and Broccoli
- 5.3.1.4 Other Brassicas
- 5.3.2 Cucurbits
- 5.3.2.1 Cucumber and Gherkin
- 5.3.2.2 Pumpkin and Squash
- 5.3.2.3 Other Cucurbits
- 5.3.3 Roots and Bulbs
- 5.3.3.1 Garlic
- 5.3.3.2 Onion
- 5.3.3.3 Potato
- 5.3.3.4 Other Roots and Bulbs
- 5.3.4 Solanaceae
- 5.3.4.1 Chilli
- 5.3.4.2 Eggplant
- 5.3.4.3 Tomato
- 5.3.4.4 Other Solanaceae
- 5.3.5 Unclassified Vegetables
- 5.3.5.1 Asparagus
- 5.3.5.2 Lettuce
- 5.3.5.3 Peas
- 5.3.5.4 Spinach
- 5.3.5.5 Other Unclassified Vegetables

6. COMPETITIVE LANDSCAPE

6.1 Key Strategic Moves
6.2 Market Share Analysis
6.3 Company Landscape
6.4 Company Profiles (includes Global level Overview, Market level overview, Core Segments, Financials as available, Strategic Information, Market Rank/Share for key companies, Products and Services, and Recent Developments)
- 6.4.1 Syngenta Group
- 6.4.2 Yuan Longping High-Tech Agriculture (CITIC Agri Fund)
- 6.4.3 BASF
- 6.4.4 Groupe Limagrain
- 6.4.5 Rijk Zwaan Holding
- 6.4.6 Sakata Seed Corporation
- 6.4.7 Takii and Co., Ltd.
- 6.4.8 East-West Seed
- 6.4.9 Bejo Zaden BV
- 6.4.10 Hefei Fengle Seed Industry
- 6.4.11 Shandong Denghai Seeds
- 6.4.12 Beijing Dabeinong Technology
- 6.4.13 Jiangsu Hongqi Seed Co.

7. KEY STRATEGIC QUESTIONS FOR SEEDS CEOS

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List of Tables & Figures

Figure 1:
AREA UNDER CULTIVATION OF VEGETABLES, HECTARE, CHINA, 2017-2022

Figure 2:
VALUE SHARE OF MAJOR TOMATO TRAITS, %, CHINA, 2022

Figure 3:
VALUE SHARE OF MAJOR LETTUCE TRAITS, %, CHINA, 2022

Figure 4:
VALUE SHARE OF VEGETABLES BREEDING TECHNIQUES, %, CHINA, 2022

Figure 5:
VOLUME OF VEGETABLES SEED, METRIC TON, CHINA, 2017 - 2030

Figure 6:
VALUE OF VEGETABLES SEED, USD, CHINA, 2017 - 2030

Figure 7:
VOLUME OF VEGETABLES SEED BY BREEDING TECHNOLOGY CATEGORIES, METRIC TON, CHINA, 2017 - 2030

Figure 8:
VALUE OF VEGETABLES SEED BY BREEDING TECHNOLOGY CATEGORIES, USD, CHINA, 2017 - 2030

Figure 9:
VOLUME SHARE OF VEGETABLES SEED BY BREEDING TECHNOLOGY CATEGORIES, %, CHINA, 2017 VS 2023 VS 2030

Figure 10:
VALUE SHARE OF VEGETABLES SEED BY BREEDING TECHNOLOGY CATEGORIES, %, CHINA, 2017 VS 2023 VS 2030

Figure 11:
VOLUME OF HYBRIDS VEGETABLES SEED, METRIC TON, CHINA, 2017 - 2030

Figure 12:
VALUE OF HYBRIDS VEGETABLES SEED, USD, CHINA, 2017 - 2030

Figure 13:
VALUE SHARE OF HYBRIDS VEGETABLES SEED BY CROP, %, CHINA, 2023 AND 2030

Figure 14:
VOLUME OF OPEN POLLINATED VARIETIES & HYBRID DERIVATIVES VEGETABLES SEED, METRIC TON, CHINA, 2017 - 2030

Figure 15:
VALUE OF OPEN POLLINATED VARIETIES & HYBRID DERIVATIVES VEGETABLES SEED, USD, CHINA, 2017 - 2030

Figure 16:
VALUE SHARE OF OPEN POLLINATED VARIETIES & HYBRID DERIVATIVES VEGETABLES SEED BY CROP, %, CHINA, 2023 AND 2030

Figure 17:
VOLUME OF VEGETABLES SEED BY CULTIVATION MECHANISM CATEGORIES, METRIC TON, CHINA, 2017 - 2030

Figure 18:
VALUE OF VEGETABLES SEED BY CULTIVATION MECHANISM CATEGORIES, USD, CHINA, 2017 - 2030

Figure 19:
VOLUME SHARE OF VEGETABLES SEED BY CULTIVATION MECHANISM CATEGORIES, %, CHINA, 2017 VS 2023 VS 2030

Figure 20:
VALUE SHARE OF VEGETABLES SEED BY CULTIVATION MECHANISM CATEGORIES, %, CHINA, 2017 VS 2023 VS 2030

Figure 21:
VOLUME OF VEGETABLES SEED SOWN IN OPEN FIELD, METRIC TON, CHINA, 2017 - 2030

Figure 22:
VALUE OF VEGETABLES SEED SOWN IN OPEN FIELD, USD, CHINA, 2017 - 2030

Figure 23:
VALUE SHARE OF SEEDS SOWN IN OPEN FIELD BY CROP, %, CHINA, 2023 AND 2030

Figure 24:
VOLUME OF VEGETABLES SEED SOWN IN PROTECTED CULTIVATION, METRIC TON, CHINA, 2017 - 2030

Figure 25:
VALUE OF VEGETABLES SEED SOWN IN PROTECTED CULTIVATION, USD, CHINA, 2017 - 2030

Figure 26:
VALUE SHARE OF SEEDS SOWN IN PROTECTED CULTIVATION BY CROP, %, CHINA, 2023 AND 2030

Figure 27:
VOLUME OF VEGETABLES SEED BY CROP FAMILY CATEGORIES, METRIC TON, CHINA, 2017 - 2030

Figure 28:
VALUE OF VEGETABLES SEED BY CROP FAMILY CATEGORIES, USD, CHINA, 2017 - 2030

Figure 29:
VOLUME SHARE OF VEGETABLES SEED BY CROP FAMILY CATEGORIES, %, CHINA, 2017 VS 2023 VS 2030

Figure 30:
VALUE SHARE OF VEGETABLES SEED BY CROP FAMILY CATEGORIES, %, CHINA, 2017 VS 2023 VS 2030

Figure 31:
VOLUME OF VEGETABLES SEED BY CROP CATEGORIES, METRIC TON, CHINA, 2017 - 2030

Figure 32:
VALUE OF VEGETABLES SEED BY CROP CATEGORIES, USD, CHINA, 2017 - 2030

Figure 33:
VOLUME SHARE OF VEGETABLES SEED BY CROP CATEGORIES, %, CHINA, 2017 VS 2023 VS 2030

Figure 34:
VALUE SHARE OF VEGETABLES SEED BY CROP CATEGORIES, %, CHINA, 2017 VS 2023 VS 2030

Figure 35:
VOLUME OF CABBAGE SEED, METRIC TON, CHINA, 2017 - 2030

Figure 36:
VALUE OF CABBAGE SEED, USD, CHINA, 2017 - 2030

Figure 37:
VALUE SHARE OF CABBAGE SEED BY BREEDING TECHNOLOGY, %, CHINA, 2023 AND 2030

Figure 38:
VOLUME OF CARROT SEED, METRIC TON, CHINA, 2017 - 2030

Figure 39:
VALUE OF CARROT SEED, USD, CHINA, 2017 - 2030

Figure 40:
VALUE SHARE OF CARROT SEED BY BREEDING TECHNOLOGY, %, CHINA, 2023 AND 2030

Figure 41:
VOLUME OF CAULIFLOWER & BROCCOLI SEED, METRIC TON, CHINA, 2017 - 2030

Figure 42:
VALUE OF CAULIFLOWER & BROCCOLI SEED, USD, CHINA, 2017 - 2030

Figure 43:
VALUE SHARE OF CAULIFLOWER & BROCCOLI SEED BY BREEDING TECHNOLOGY, %, CHINA, 2023 AND 2030

Figure 44:
VOLUME OF OTHER BRASSICAS SEED, METRIC TON, CHINA, 2017 - 2030

Figure 45:
VALUE OF OTHER BRASSICAS SEED, USD, CHINA, 2017 - 2030

Figure 46:
VALUE SHARE OF OTHER BRASSICAS SEED BY BREEDING TECHNOLOGY, %, CHINA, 2023 AND 2030

Figure 47:
VOLUME OF VEGETABLES SEED BY CROP CATEGORIES, METRIC TON, CHINA, 2017 - 2030

Figure 48:
VALUE OF VEGETABLES SEED BY CROP CATEGORIES, USD, CHINA, 2017 - 2030

Figure 49:
VOLUME SHARE OF VEGETABLES SEED BY CROP CATEGORIES, %, CHINA, 2017 VS 2023 VS 2030

Figure 50:
VALUE SHARE OF VEGETABLES SEED BY CROP CATEGORIES, %, CHINA, 2017 VS 2023 VS 2030

Figure 51:
VOLUME OF CUCUMBER & GHERKIN SEED, METRIC TON, CHINA, 2017 - 2030

Figure 52:
VALUE OF CUCUMBER & GHERKIN SEED, USD, CHINA, 2017 - 2030

Figure 53:
VALUE SHARE OF CUCUMBER & GHERKIN SEED BY BREEDING TECHNOLOGY, %, CHINA, 2023 AND 2030

Figure 54:
VOLUME OF PUMPKIN & SQUASH SEED, METRIC TON, CHINA, 2017 - 2030

Figure 55:
VALUE OF PUMPKIN & SQUASH SEED, USD, CHINA, 2017 - 2030

Figure 56:
VALUE SHARE OF PUMPKIN & SQUASH SEED BY BREEDING TECHNOLOGY, %, CHINA, 2023 AND 2030

Figure 57:
VOLUME OF OTHER CUCURBITS SEED, METRIC TON, CHINA, 2017 - 2030

Figure 58:
VALUE OF OTHER CUCURBITS SEED, USD, CHINA, 2017 - 2030

Figure 59:
VALUE SHARE OF OTHER CUCURBITS SEED BY BREEDING TECHNOLOGY, %, CHINA, 2023 AND 2030

Figure 60:
VOLUME OF VEGETABLES SEED BY CROP CATEGORIES, METRIC TON, CHINA, 2017 - 2030

Figure 61:
VALUE OF VEGETABLES SEED BY CROP CATEGORIES, USD, CHINA, 2017 - 2030

Figure 62:
VOLUME SHARE OF VEGETABLES SEED BY CROP CATEGORIES, %, CHINA, 2017 VS 2023 VS 2030

Figure 63:
VALUE SHARE OF VEGETABLES SEED BY CROP CATEGORIES, %, CHINA, 2017 VS 2023 VS 2030

Figure 64:
VOLUME OF GARLIC SEED, METRIC TON, CHINA, 2017 - 2030

Figure 65:
VALUE OF GARLIC SEED, USD, CHINA, 2017 - 2030

Figure 66:
VALUE SHARE OF GARLIC SEED BY BREEDING TECHNOLOGY, %, CHINA, 2023 AND 2030

Figure 67:
VOLUME OF ONION SEED, METRIC TON, CHINA, 2017 - 2030

Figure 68:
VALUE OF ONION SEED, USD, CHINA, 2017 - 2030

Figure 69:
VALUE SHARE OF ONION SEED BY BREEDING TECHNOLOGY, %, CHINA, 2023 AND 2030

Figure 70:
VOLUME OF POTATO SEED, METRIC TON, CHINA, 2017 - 2030

Figure 71:
VALUE OF POTATO SEED, USD, CHINA, 2017 - 2030

Figure 72:
VALUE SHARE OF POTATO SEED BY BREEDING TECHNOLOGY, %, CHINA, 2023 AND 2030

Figure 73:
VOLUME OF OTHER ROOTS & BULBS SEED, METRIC TON, CHINA, 2017 - 2030

Figure 74:
VALUE OF OTHER ROOTS & BULBS SEED, USD, CHINA, 2017 - 2030

Figure 75:
VALUE SHARE OF OTHER ROOTS & BULBS SEED BY BREEDING TECHNOLOGY, %, CHINA, 2023 AND 2030

Figure 76:
VOLUME OF VEGETABLES SEED BY CROP CATEGORIES, METRIC TON, CHINA, 2017 - 2030

Figure 77:
VALUE OF VEGETABLES SEED BY CROP CATEGORIES, USD, CHINA, 2017 - 2030

Figure 78:
VOLUME SHARE OF VEGETABLES SEED BY CROP CATEGORIES, %, CHINA, 2017 VS 2023 VS 2030

Figure 79:
VALUE SHARE OF VEGETABLES SEED BY CROP CATEGORIES, %, CHINA, 2017 VS 2023 VS 2030

Figure 80:
VOLUME OF CHILLI SEED, METRIC TON, CHINA, 2017 - 2030

Figure 81:
VALUE OF CHILLI SEED, USD, CHINA, 2017 - 2030

Figure 82:
VALUE SHARE OF CHILLI SEED BY BREEDING TECHNOLOGY, %, CHINA, 2023 AND 2030

Figure 83:
VOLUME OF EGGPLANT SEED, METRIC TON, CHINA, 2017 - 2030

Figure 84:
VALUE OF EGGPLANT SEED, USD, CHINA, 2017 - 2030

Figure 85:
VALUE SHARE OF EGGPLANT SEED BY BREEDING TECHNOLOGY, %, CHINA, 2023 AND 2030

Figure 86:
VOLUME OF TOMATO SEED, METRIC TON, CHINA, 2017 - 2030

Figure 87:
VALUE OF TOMATO SEED, USD, CHINA, 2017 - 2030

Figure 88:
VALUE SHARE OF TOMATO SEED BY BREEDING TECHNOLOGY, %, CHINA, 2023 AND 2030

Figure 89:
VOLUME OF OTHER SOLANACEAE SEED, METRIC TON, CHINA, 2017 - 2030

Figure 90:
VALUE OF OTHER SOLANACEAE SEED, USD, CHINA, 2017 - 2030

Figure 91:
VALUE SHARE OF OTHER SOLANACEAE SEED BY BREEDING TECHNOLOGY, %, CHINA, 2023 AND 2030

Figure 92:
VOLUME OF VEGETABLES SEED BY CROP CATEGORIES, METRIC TON, CHINA, 2017 - 2030

Figure 93:
VALUE OF VEGETABLES SEED BY CROP CATEGORIES, USD, CHINA, 2017 - 2030

Figure 94:
VOLUME SHARE OF VEGETABLES SEED BY CROP CATEGORIES, %, CHINA, 2017 VS 2023 VS 2030

Figure 95:
VALUE SHARE OF VEGETABLES SEED BY CROP CATEGORIES, %, CHINA, 2017 VS 2023 VS 2030

Figure 96:
VOLUME OF ASPARAGUS SEED, METRIC TON, CHINA, 2017 - 2030

Figure 97:
VALUE OF ASPARAGUS SEED, USD, CHINA, 2017 - 2030

Figure 98:
VALUE SHARE OF ASPARAGUS SEED BY BREEDING TECHNOLOGY, %, CHINA, 2023 AND 2030

Figure 99:
VOLUME OF LETTUCE SEED, METRIC TON, CHINA, 2017 - 2030

Figure 100:
VALUE OF LETTUCE SEED, USD, CHINA, 2017 - 2030

Figure 101:
VALUE SHARE OF LETTUCE SEED BY BREEDING TECHNOLOGY, %, CHINA, 2023 AND 2030

Figure 102:
VOLUME OF PEAS SEED, METRIC TON, CHINA, 2017 - 2030

Figure 103:
VALUE OF PEAS SEED, USD, CHINA, 2017 - 2030

Figure 104:
VALUE SHARE OF PEAS SEED BY BREEDING TECHNOLOGY, %, CHINA, 2023 AND 2030

Figure 105:
VOLUME OF SPINACH SEED, METRIC TON, CHINA, 2017 - 2030

Figure 106:
VALUE OF SPINACH SEED, USD, CHINA, 2017 - 2030

Figure 107:
VALUE SHARE OF SPINACH SEED BY BREEDING TECHNOLOGY, %, CHINA, 2023 AND 2030

Figure 108:
VOLUME OF OTHER UNCLASSIFIED VEGETABLES SEED, METRIC TON, CHINA, 2017 - 2030

Figure 109:
VALUE OF OTHER UNCLASSIFIED VEGETABLES SEED, USD, CHINA, 2017 - 2030

Figure 110:
VALUE SHARE OF OTHER UNCLASSIFIED VEGETABLES SEED BY BREEDING TECHNOLOGY, %, CHINA, 2023 AND 2030

Figure 111:
MOST ACTIVE COMPANIES BY NUMBER OF STRATEGIC MOVES, COUNT, CHINA, 2017-2023

Figure 112:
MOST ADOPTED STRATEGIES, COUNT, CHINA, 2017-2023

Figure 113:
VALUE SHARE OF MAJOR PLAYERS, %, CHINA

China Vegetable Seeds Market Report Scope

Hybrids, Open Pollinated Varieties & Hybrid Derivatives are covered as segments by Breeding Technology. Open Field, Protected Cultivation are covered as segments by Cultivation Mechanism. Brassicas, Cucurbits, Roots & Bulbs, Solanaceae, Unclassified Vegetables are covered as segments by Crop Family.

Breeding Technology

Hybrids

Open Pollinated Varieties and Hybrid Derivatives

Cultivation Mechanism

Open Field

Protected Cultivation

Crop Family

Brassicas	Cabbage
	Carrot
	Cauliflower and Broccoli
	Other Brassicas
Cucurbits	Cucumber and Gherkin
	Pumpkin and Squash
	Other Cucurbits
Roots and Bulbs	Garlic
	Onion
	Potato
	Other Roots and Bulbs
Solanaceae	Chilli
	Eggplant
	Tomato
	Other Solanaceae
Unclassified Vegetables	Asparagus
	Lettuce
	Peas
	Spinach
	Other Unclassified Vegetables

Breeding Technology	Hybrids
	Open Pollinated Varieties and Hybrid Derivatives
Cultivation Mechanism	Open Field
	Protected Cultivation

Crop Family	Brassicas	Cabbage
		Carrot
		Cauliflower and Broccoli
		Other Brassicas

	Cucurbits	Cucumber and Gherkin
		Pumpkin and Squash
		Other Cucurbits

	Roots and Bulbs	Garlic
		Onion
		Potato
		Other Roots and Bulbs

	Solanaceae	Chilli
		Eggplant
		Tomato
		Other Solanaceae

	Unclassified Vegetables	Asparagus
		Lettuce
		Peas
		Spinach
		Other Unclassified Vegetables

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Market Definition

Commercial Seed - For the purpose of this study, only commercial seeds have been included as part of the scope. Farm-saved Seeds, which are not commercially labeled are excluded from scope, even though a minor percentage of farm-saved seeds are exchanged commercially among farmers. The scope also excludes vegetatively reproduced crops and plant parts, which may be commercially sold in the market.
Crop Acreage - While calculating the acreage under different crops, the Gross Cropped Area has been considered. Also known as Area Harvested, according to the Food & Agricultural Organization (FAO), this includes the total area cultivated under a particular crop across seasons.
Seed Replacement Rate - Seed Replacement Rate is the percentage of area sown out of the total area of crop planted in the season by using certified/quality seeds other than the farm-saved seed.
Protected Cultivation - The report defines protected cultivation as the process of growing crops in a controlled environment. This includes greenhouses, glasshouses, hydroponics, aeroponics, or any other cultivation system that protects the crop against any abiotic stress. However, cultivation in an open field using plastic mulch is excluded from this definition and is included under open field.

Keyword	Definition
Row Crops	These are usually the field crops which include the different crop categories like grains & cereals, oilseeds, fiber crops like cotton, pulses, and forage crops.
Solanaceae	These are the family of flowering plants which includes tomato, chili, eggplants, and other crops.
Cucurbits	It represents a gourd family consisting of about 965 species in around 95 genera. The major crops considered for this study include Cucumber & Gherkin, Pumpkin and squash, and other crops.
Brassicas	It is a genus of plants in the cabbage and mustard family. It includes crops such as carrots, cabbage, cauliflower & broccoli.
Roots & Bulbs	The roots and bulbs segment includes onion, garlic, potato, and other crops.
Unclassified Vegetables	This segment in the report includes the crops which don’t belong to any of the above-mentioned categories. These include crops such as okra, asparagus, lettuce, peas, spinach, and others.
Hybrid Seed	It is the first generation of the seed produced by controlling cross-pollination and by combining two or more varieties, or species.
Transgenic Seed	It is a seed that is genetically modified to contain certain desirable input and/or output traits.
Non-Transgenic Seed	The seed produced through cross-pollination without any genetic modification.
Open-Pollinated Varieties & Hybrid Derivatives	Open-pollinated varieties produce seeds true to type as they cross-pollinate only with other plants of the same variety.
Other Solanaceae	The crops considered under other Solanaceae include bell peppers and other different peppers based on the locality of the respective countries.
Other Brassicaceae	The crops considered under other brassicas include radishes, turnips, Brussels sprouts, and kale.
Other Roots & Bulbs	The crops considered under other roots & bulbs include Sweet Potatoes and cassava.
Other Cucurbits	The crops considered under other cucurbits include gourds (bottle gourd, bitter gourd, ridge gourd, Snake gourd, and others).
Other Grains & Cereals	The crops considered under other grains & cereals include Barley, Buck Wheat, Canary Seed, Triticale, Oats, Millets, and Rye.
Other Fibre Crops	The crops considered under other fibers include Hemp, Jute, Agave fibers, Flax, Kenaf, Ramie, Abaca, Sisal, and Kapok.
Other Oilseeds	The crops considered under other oilseeds include Ground nut, Hempseed, Mustard seed, Castor seeds, safflower seeds, Sesame seeds, and Linseeds.
Other Forage Crops	The crops considered under other forages include Napier grass, Oat grass, White clover, Ryegrass, and Timothy. Other forage crops were considered based on the locality of the respective countries.
Pulses	Pigeon peas, Lentils, Broad and horse beans, Vetches, Chickpeas, Cowpeas, Lupins, and Bambara beans are the crops considered under pulses.
Other Unclassified Vegetables	The crops considered under other unclassified vegetables include Artichokes, Cassava Leaves, Leeks, Chicory, and String beans.

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Research Methodology

Mordor Intelligence 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, and Subscription Platforms