Global Horticulture Genomics Market Size, Trends & Analysis - Forecasts to 2026 By Product & Services (Consumables, Systems & Software, and Services), By Technology (Sequencing, PCR, Nucleic Acid Extraction & Purification, Microarrays, and Others), By Application (Cereals & Grains, Oilseeds & Pulses, Fruits & Vegetables, and Others), By Region (North America, Asia Pacific, CSA, Europe, and the Middle East and Africa), Competitive Landscape Company Market Share Analysis, and Competitor Analysis
The global horticulture genomics market is projected to grow at a CAGR value of 9.5% between 2021 and 2026. The growing investment in genomics research for horticulture applications to improve plant breeding and conservation of genetic resources is the major driver of the horticulture genomics market. Horticulture plants have always been in high demand as they are used to meet nutrient needs, decorative purposes in urban and rural landscapes, and as herbal medicinal sources.
The growing human population has increased the stress on the agriculture industry to produce more food crops to sustain themselves. With land being a finite resource, the need for efficient utilization of land has increased the demand for genetic engineering to increase yields and quality of food crops. Technological advancements in the field of bioengineering and DNA/RNA sequencing have played a crucial role in the demand for genomics in the horticulture industry.
The application of genomics to allow crops to become resilient to harsh environments, reduce the usage of pesticides, and increase the breeding of novel crops are expected to increase the demand for genomics in the horticulture industry during the forecast period. Advancements in the field of comparative genomics and transcriptome analysis for plant breeding, marker-assisted breeding, and recombinant DNA technology are expected to further enhance the growth of the horticulture genomics market.
The growing adoption of genomics for conservation of endangered plant species through improving the adaptability of plants and providing scientists a better understanding of natural selection, adaptation, microevolution, and recombination is also expected to play a crucial part in the growth of the horticulture genomics industry.
While innovation and technological advancements have made genomics more cost-effective in recent years, the high cost of infrastructure and intensive research costs will hamper the growth of the market. The high capital cost makes it harder to implement automation in the horticulture genomics industry. Unforeseen impacts and hazardous side effects of genetically modified organisms and the perceived dangers of such species among the general public will hamper the growth of the market.
Based on the products & services, the market is segmented into consumables, systems & software, and services. The services segment is expected to hold the dominant share of the revenues generated in the plant genomics market. The high demand for genomic services such as marker-assisted plant breeding techniques and other molecular and genetic engineering services has contributed to the dominance of the services segment in the market.
Heavy investments in the development of novel techniques and growing demand for genetically modified food crops are expected to drive the growth of the services segment during the forecast period.
Based on the technology, the market is segmented into sequencing, PCR, nucleic acid extraction & purification, microarrays, and others. The sequencing segment is envisaged to hold the largest share of the revenues generated in the market. DNA/RNA sequencing is used extensively in the breeding, conservation, and identification of plant species. Growing investment in sequencing studies to understand the evolution of plants and other ecological questions is expected to increase the demand for sequencing during the forecast period.
The demand for sequencing from biodiversity conservationists to ensure the survival of plant species is expected to result in the sequencing segment becoming the fastest-growing segment during the forecast period. Growing demand for seedless fruits and the growing demand for plant traits such as herbicide tolerance, yield improvement, and other traits are expected to be the major drivers of the sequencing segment.
Based on application, the market is segmented into cereals & grains, oilseeds & pulses, fruits & vegetables, and others. The cereals & grains segment is expected to hold the lion’s share of the revenues generated in the horticulture genomics industry. The growing demand for cereals such as rice, wheat, corn has contributed to the dominance of the cereals and crops segments. The adoption of bioengineering techniques and tools to improve yields and prevent diseases in the crops has resulted in the dominance of the cereals and grains segment.
The fruits and vegetable segment is expected to grow at the fastest growth rate during the forecast period. Growing demand for genetically engineered traits such as seedless fruits, herbicide resistance, and disease resistance are expected to increase the demand for horticulture genomics among fruits and vegetable farmers. Fruits and vegetables are perishable goods with low shelf lives and are highly marketable products. Companies are more inclined to invest in the development of novel genome engineering solutions for fruits and vegetables as they can gain better prices in the market.
Based on region, the market is segmented into North America, Europe, Central and South America, Middle East and Africa, and Asia Pacific regions. The APAC region is expected to hold the lion’s share of the horticulture genomics market and is also expected to show the fastest growth rate among all regions. Agriculture is the backbone of the economies of many countries in the region. Heavy investment by governments in the region to develop the agricultural industry has played a major role in the dominance of the region in the horticulture genomics industry.
The growing demand to improve food security in the region and the growing adoption of modern plant breeding techniques by farmers in the region are expected to have a positive impact on the demand for plant genomics in the region. Companies in the region are also investing heavily in the research and development of novel horticulture genomics techniques.
Eurofins Scientific, Illumina, Inc., Agilent Technologies, Qiagen, Nrgene, Neogen Corporation, Keygene, LC Sciences, Traitgenetics GmbH, Novogene Corporation, Oxford Nanopore Technologies, Genewiz, BGI Genomics, Floragenex, and Genotypic Technology Pvt. Ltd., among others, are the key players in the horticulture genomics market.
Please note: This is not an exhaustive list of companies profiled in the report.
Chapter 1 Methodology
1.1 Market Scope & Definitions
1.2 Estimates & Forecast Calculation
1.3 Historical Data Overview and Validation
1.4 Data Sources
1.4.1 Secondary
1.4.2 Primary
Chapter 2 Report Outlook
2.1 Horticulture Genomics Industry Overview, 2020-2026
2.1.1 Industry Overview
2.1.2 Product & Services Overview
2.1.3 Technology Overview
2.1.4 Application Overview
2.1.6 Regional Overview
Chapter 3 Horticulture Genomics Market Trends
3.1 Market Segmentation
3.2 Industry Background, 2020-2026
3.3 Market Key Trends
3.3.1 Positive Trends
3.3.1.1 Growing demand for improving crop yield efficiency and genetically modified traits in crops
3.3.2 Industry Challenges
3.3.2.1 High cost of infrastructure and R&D
3.4 Prospective Growth Scenario
3.4.1 Product & Services Growth Scenario
3.4.2 Technology Growth Scenario
3.4.3 Application Growth Scenario
3.5 COVID-19 Influence over Industry Growth
3.6 Porter’s Analysis
3.7 PESTEL Analysis
3.8 Value Chain & Supply Chain Analysis
3.9 Regulatory Framework
3.9.1 North America
3.9.2 Europe
3.9.3 APAC
3.9.4 LATAM
3.9.5 MEA
3.10 End-User Overview
3.11 Market Share Analysis, 2020
3.11.1 Company Positioning Overview, 2020
Chapter 4 Horticulture Genomics Market, By Product & Services
4.1 Product & Services Outlook
4.2 Consumables
4.2.1 Market Size, By Region, 2020-2026 (USD Billion)
4.3 Systems & Software
4.3.1 Market Size, By Region, 2020-2026 (USD Billion)
4.4 Services
4.4.1 Market Size, By Region, 2020-2026 (USD Billion)
Chapter 5 Horticulture Genomics Market, By Technology
5.1 Technology Outlook
5.2 Sequencing
5.2.1 Market Size, By Region, 2020-2026 (USD Billion)
5.3 PCR
5.3.1 Market Size, By Region, 2020-2026 (USD Billion)
5.4 Nucleic Acid Extraction & Purification
5.4.1 Market Size, By Region, 2020-2026 (USD Billion)
5.5 Microarrays
5.5.1 Market Size, By Region, 2020-2026 (USD Billion)
5.6 Others
5.6.1 Market Size, By Region, 2020-2026 (USD Billion)
Chapter 6 Horticulture Genomics Market, By Application
6.1 Application Outlook
6.2 Cereals & Grains
6.2.1 Market Size, By Region, 2020-2026 (USD Billion)
6.3 Oilseeds & Pulses
6.3.1 Market Size, By Region, 3030-3036 (USD Billion)
6.4 Fruits & Vegetables
6.4.1 Market Size, By Region, 2020-2026 (USD Billion)
6.5 Others
6.5.1 Market Size, By Region, 2020-2026 (USD Billion)
Chapter 7 Horticulture Genomics Market, By Region
7.1 Regional outlook
7.2 North America
7.2.1 Market Size, By Country 2020-2026 (USD Billion)
7.2.2 Market Size, By Product & Services, 2020-2026 (USD Billion)
7.2.3 Market Size, By Technology, 2020-2026 (USD Billion)
7.2.4 Market Size, By Application, 2020-2026 (USD Billion)
7.2.6 U.S.
7.2.6.1 Market Size, By Product & Services, 2020-2026 (USD Billion)
7.2.4.2 Market Size, By Technology, 2020-2026 (USD Billion)
7.2.4.3 Market Size, By Application, 2020-2026 (USD Billion)
7.2.7 Canada
7.2.7.1 Market Size, By Product & Services, 2020-2026 (USD Billion)
7.2.7.2 Market Size, By Technology, 2020-2026 (USD Billion)
7.2.7.3 Market Size, By Application, 2020-2026 (USD Billion)
7.3 Europe
7.3.1 Market Size, By Country 2020-2026 (USD Billion)
7.3.2 Market Size, By Product & Services, 2020-2026 (USD Billion)
7.3.3 Market Size, By Technology, 2020-2026 (USD Billion)
7.3.4 Market Size, By Application, 2020-2026 (USD Billion)
7.3.6 Germany
7.3.6.1 Market Size, By Product & Services, 2020-2026 (USD Billion)
7.3.6.2 Market Size, By Technology, 2020-2026 (USD Billion)
7.3.6.3 Market Size, By Application, 2020-2026 (USD Billion)
7.3.7 UK
7.3.7.1 Market Size, By Product & Services, 2020-2026 (USD Billion)
7.3.7.2 Market Size, By Technology, 2020-2026 (USD Billion)
7.3.7.3 Market Size, By Application, 2020-2026 (USD Billion)
7.3.8 France
7.3.7.1 Market Size, By Product & Services, 2020-2026 (USD Billion)
7.3.7.2 Market Size, By Technology, 2020-2026 (USD Billion)
7.3.7.3 Market Size, By Application, 2020-2026 (USD Billion)
7.3.9 Italy
7.3.9.1 Market Size, By Product & Services, 2020-2026 (USD Billion)
7.3.9.2 Market Size, By Technology, 2020-2026 (USD Billion)
7.3.9.3 Market Size, By Application, 2020-2026 (USD Billion)
7.3.10 Spain
7.3.10.1 Market Size, By Product & Services, 2020-2026 (USD Billion)
7.3.10.2 Market Size, By Technology, 2020-2026 (USD Billion)
7.3.10.3 Market Size, By Application, 2020-2026 (USD Billion)
7.3.11 Russia
7.3.11.1 Market Size, By Product & Services, 2020-2026 (USD Billion)
7.3.11.2 Market Size, By Technology, 2020-2026 (USD Billion)
7.3.11.3 Market Size, By Application, 2020-2026 (USD Billion)
7.4 Asia Pacific
7.4.1 Market Size, By Country 2020-2026 (USD Billion)
7.4.2 Market Size, By Product & Services, 2020-2026 (USD Billion)
7.4.3 Market Size, By Technology, 2020-2026 (USD Billion)
7.4.4 Market Size, By Application, 2020-2026 (USD Billion)
7.4.6 China
7.4.6.1 Market Size, By Product & Services, 2020-2026 (USD Billion)
7.4.6.2 Market Size, By Technology, 2020-2026 (USD Billion)
7.4.6.3 Market Size, By Application, 2020-2026 (USD Billion)
7.4.7 India
7.4.7.1 Market Size, By Product & Services, 2020-2026 (USD Billion)
7.4.7.2 Market Size, By Technology, 2020-2026 (USD Billion)
7.4.7.3 Market Size, By Application, 2020-2026 (USD Billion)
7.4.8 Japan
7.4.7.1 Market Size, By Product & Services, 2020-2026 (USD Billion)
7.4.7.2 Market Size, By Technology, 2020-2026 (USD Billion)
7.4.7.3 Market Size, By Application, 2020-2026 (USD Billion)
7.4.9 Australia
7.4.9.1 Market Size, By Product & Services, 2020-2026 (USD Billion)
7.4.9.2 Market size, By Technology, 2020-2026 (USD Billion)
7.4.9.3 Market Size, By Application, 2020-2026 (USD Billion)
7.4.10 South Korea
7.4.10.1 Market Size, By Product & Services, 2020-2026 (USD Billion)
7.4.10.2 Market Size, By Technology, 2020-2026 (USD Billion)
7.4.10.3 Market Size, By Application, 2020-2026 (USD Billion)
7.5 Latin America
7.5.1 Market Size, By Country 2020-2026 (USD Billion)
7.5.2 Market Size, By Product & Services, 2020-2026 (USD Billion)
7.5.3 Market Size, By Technology, 2020-2026 (USD Billion)
7.5.4 Market Size, By Application, 2020-2026 (USD Billion)
7.5.6 Brazil
7.5.6.1 Market Size, By Product & Services, 2020-2026 (USD Billion)
7.5.6.2 Market Size, By Technology, 2020-2026 (USD Billion)
7.5.6.3 Market Size, By Application, 2020-2026 (USD Billion)
7.5.7 Mexico
7.5.7.1 Market Size, By Product & Services, 2020-2026 (USD Billion)
7.5.7.2 Market Size, By Technology, 2020-2026 (USD Billion)
7.5.7.3 Market Size, By Application, 2020-2026 (USD Billion)
7.5.8 Argentina
7.5.7.1 Market Size, By Product & Services, 2020-2026 (USD Billion)
7.5.7.2 Market Size, By Technology, 2020-2026 (USD Billion)
7.5.7.3 Market Size, By Application, 2020-2026 (USD Billion)
7.6 MEA
7.6.1 Market Size, By Country 2020-2026 (USD Billion)
7.6.2 Market Size, By Product & Services, 2020-2026 (USD Billion)
7.6.3 Market Size, By Technology, 2020-2026 (USD Billion)
7.6.4 Market Size, By Application, 2020-2026 (USD Billion)
7.6.6 Saudi Arabia
7.6.6.1 Market Size, By Product & Services, 2020-2026 (USD Billion)
7.6.6.2 Market Size, By Technology, 2020-2026 (USD Billion)
7.6.6.3 Market Size, By Application, 2020-2026 (USD Billion)
7.6.7 UAE
7.6.7.1 Market Size, By Product & Services, 2020-2026 (USD Billion)
7.6.7.2 Market Size, By Technology, 2020-2026 (USD Billion)
7.6.7.3 Market Size, By Application, 2020-2026 (USD Billion)
7.6.8 South Africa
7.6.7.1 Market Size, By Product & Services, 2020-2026 (USD Billion)
7.6.7.2 Market Size, By Technology, 2020-2026 (USD Billion)
7.6.7.3 Market Size, By Application, 2020-2026 (USD Billion)
Chapter 8 Company Landscape
8.1 Competitive Analysis, 2020
8.2 Eurofins Scientific
8.2.1 Company Overview
8.2.2 Financial Analysis
8.2.3 Strategic Positioning
8.2.4 Info Graphic Analysis
8.3 Illumina, Inc.
8.3.1 Company Overview
8.3.2 Financial Analysis
8.3.3 Strategic Positioning
8.3.4 Info Graphic Analysis
8.4 Agilent Technologies
8.4.1 Company Overview
8.4.2 Financial Analysis
8.4.3 Strategic Positioning
8.4.4 Info Graphic Analysis
8.5 Qiagen
8.5.1 Company Overview
8.5.2 Financial Analysis
8.5.3 Strategic Positioning
8.5.4 Info Graphic Analysis
8.6 Nrgene
8.6.1 Company Overview
8.6.2 Financial Analysis
8.6.3 Strategic Positioning
8.6.4 Info Graphic Analysis
8.7 Neogen Corporation
8.7.1 Company Overview
8.7.2 Financial Analysis
8.7.3 Strategic Positioning
8.7.4 Info Graphic Analysis
8.8 Keygene
8.8.1 Company Overview
8.8.2 Financial Analysis
8.8.3 Strategic Positioning
8.8.4 Info Graphic Analysis
8.9 LC Sciences
8.8.1 Company Overview
8.8.2 Financial Analysis
8.8.3 Strategic Positioning
8.8.4 Info Graphic Analysis
8.10 Traitgenetics GmbH
8.10.1 Company Overview
8.10.2 Financial Analysis
8.10.3 Strategic Positioning
8.10.4 Info Graphic Analysis
8.11 Novogene Corporation
8.11.1 Company Overview
8.11.2 Financial Analysis
8.11.3 Strategic Positioning
8.11.4 Info Graphic Analysis
8.12 Other Companies
8.12.1 Company Overview
8.12.2 Financial Analysis
8.12.3 Strategic Positioning
8.12.4 Info Graphic Analysis
The Global Horticulture Genomics Market has been studied from the year 2019 till 2026. However, the CAGR provided in the report is from the year 2021 to 2026. The research methodology involved three stages: Desk research, Primary research, and Analysis & Output from the entire research process.
The desk research involved a robust background study which meant referring to paid and unpaid databases to understand the market dynamics; mapping contracts from press releases; identifying the key players in the market, studying their product portfolio, competition level, annual reports/SEC filings & investor presentations; and learning the demand and supply-side analysis for the Horticulture Genomics Market.
The primary research activity included telephonic conversations with more than 50 tier 1 industry consultants, distributors, and end-use product manufacturers.
Finally, based on the above thorough research process, an in-depth analysis was carried out considering the following aspects: market attractiveness, current & future market trends, market share analysis, SWOT analysis of the company and customer analytics.
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