Global Molecular Breeding Market - 2022-2029

Global Molecular Breeding Market - 2022-2029

Market Overview

Molecular breeding is the process of genetically improving plants and animals. Molecular breeding is largely used in livestock and crop breeding using the DNA markers associated with specific phenotypic features. Molecular breeding helps in improving the resistance to diseases. Moreover, factors such as raising funds for agri genomics, increasing research & development activities in developing nations on agricultural activities, and advantages associated with the adjuvant solutions are expected to fuel the market's growth.

The global molecular breeding market was valued at USD YY million in 2021. It is forecasted to reach USD YY million by 2029, growing at a CAGR of 16.12% during the forecast period (2022-2029).

Market Dynamics: Growing demand for the molecular breeding with an increasing focus on plant-based products

Commercial demand for plant-based food consumption and production is rising at a rapid pace. Furthermore, the growing demand for organic food grains in the foods and beverages industry is a key trend boosting the molecular breeding market. The rise in industry interest has led to new carbohydrate research and technology adoption. These molecules enhance the yield and improve production. The growing use of molecular breeding has also been expanding the revenue potential in the market. The agricultural sector's focus on enhancing crop production is a key trend bolstering the prospects in the molecular breeding market.

Plant breeding is estimated to have lucrative growth during the forecast period. With the increasing global concern on food security and rising demand for crops in various industries, there has been an increasing need to bridge the supply-demand gap, owing to which the demand for crops with the desired traits has been rising among the plant breeders. The growth of the molecular breeding market is primarily driven by the increasing investment in Agri genomics research, leading to the adoption of advanced crop-yielding tools across the globe. The technological advancement in molecular biology has further decreased the prices of molecular biology products, which in turn, is increasing the adoption rate of the molecular breeding process in the agricultural sector.

However, the high cost associated with molecular breeding compared to conventional breeding techniques is a major factor that will pose a major challenge to the market's growth, the need for more necessary infrastructural facilities and a lack of technical skills. Especially in underdeveloped economies, it will further slow the market growth.

Market Segmentation: Marker-assisted selection segment held a highest market revenue share in the year 2021

The marker-assisted selection segment is expected to dominate the market with a nearly YY% share in the global molecular breeding market in 2021. The growth is accredited to the growing awareness and adoption of genomic selection in the developed and emerging economies of the North American and European regions, such as the US, Germany, and the UK. There are several factors involved in driving the segmental growth, such as its high efficiency and low cost in increasing yield, which in turn, is marking a transition in the molecular breeding process.

Geographical Penetration: North America the dominating region during the forecast period.

North America is likely to have a huge demand owing to the wide-scale application of molecular breeding techniques on crops such as corn and soybean, coupled with the favorable regulations by the US government toward the application of biotechnology in agriculture. For instance, on 25 July 2022, cassava is a popular cash crop in Nigeria that breeders are working to improve. Similar to a sweet potato, it has tuberous roots. On the outside, it may look like a sweet potato. Root dry matter is traditionally measured by weighing root pieces before and after they are dried in an oven. Although this method is accurate, it is time-consuming and labor-intensive when processing roots from an entire field trial. The researchers explored using a low-cost handheld near-infrared spectrometer to make this process faster. In their study, they successfully developed and tested this new method for predicting root dry matter content. The new method will also reduce the number of samples dried in an oven.

The regional market is also making high strides due to the utilization of molecular breeding in increasing yield. For instance, on 3 October 2022, to find a way to help cotton farmers, the United States Department of Agriculture (USDA), Uzbek scientists, some U.S. universities, and others in the cotton industry teamed up. It provided an opportunity to aggressively address the Fusarium wilt problem and protect the cotton industry in both countries. The scientists worked together to find a solution to reduce the vulnerability of the cotton crop to the fungus. These groups strengthened collaborations with a common goal: quickly identifying resistant sources to the disease so they could be intercrossed to develop improved varieties of Pima cotton. The research teams developed new Pima cotton germplasm lines resistant to the disease by crossing varieties from Uzbekistan and the USDA’s cotton germplasm collections. Germplasm is often referred to as a living genetic resource that assists breeders in advancing the diversity of a crop. Crops commonly come in the form of seeds or plant tissue.

Asia-Pacific region will score the highest CAGR during the forecast period. Growing awareness among the farmers about benefits of molecular breeding, increasing personal disposable income and surge in the expenditure for research and development proficiencies are some other important factors fostering the growth of this region. Moreover, the Asia-Pacific region is supposed to experience a signific expansion rate during the conjecture period. Increased awareness of the benefits of molecular breeding among breeders is predicted to drive call during the foreseen period due to breeder adoption of molecular technology. The surge in investments in countries such as India, China and Thailand will boost the molecular breeding market in the Asia-Pacific region.

Competitive Landscape:

The global molecular breeding market is competitive in nature, with many domestic and multinational players competing for market share. Emphasis is given to the merger, expansion, acquisition, and partnership of the companies, along with new product development, as strategic approaches adopted by the leading companies to boost their brand presence among consumers. Companies in the market compete based on product quality offered. Major players focus on expanding their manufacturing facilities, R&D investments, infrastructural development, and leveraging integration opportunities across the value chain. With these strategies, molecular breeding companies cater to increasing demand, ensure competitive effectiveness, develop innovative products & technologies, reduce production costs, and expand their customer base. Some molecular breeding companies are Illumina, Eurofins Scientific, LGC Limited, SGS S.A., Thermo Fisher Scientific, Intertek Group plc, DanBred P/S, LemnaTec GmbH, Slipstream Automation and Charles River Laboratories.

For instance, on 13 June 2022, Peas and Lentils invested in root system development differently. The finding that different root systems would lead to higher crop yields went against the grain. The prevailing pattern was that a “deep but lean” root system would benefit most crops in semi-arid areas. That may have been because wheat plants with deep root systems had access to water deeper in the soil. Yet, the leanness of the root system meant the plants hadn’t invested too many resources in the roots, allowing for higher grain yields. As per a Researcher at the University of Saskatchewan, Breeders are now looking to identify genes or genetic regions in lentils and peas associated with robust root trait data. That could be a game changer for introducing root traits in breeding programs.

COVID-19 Impact: Positive impact on the global molecular breeding market

The COVID-19 pandemic could have a short-term impact on market expansion. Still, it is likely to drive investment in organic products as part of a broader shift towards food security and sustainable agricultural production and ensure supply chains. It should spark interest in new product formulations for biopesticides and biostimulants. According to FAO, in Nepal, the lockdown impacted the breeding of Common carp, Silver carp, Bighead carp and grass carp. Some disruptions in fish feed have also been mentioned. In the Philippines, the lockdown was in effect on the island of Luzon. Agriculture and fisheries production workers are essential for food security and are still operating. The transport of agriculture and fisheries products to markets is still ongoing with Government support. Wet and supermarkets are still open with restrictions. In some cities, food products are brought closer to consumers who do not have means of transport. The only issue reported so far relates to imported seeds.

The global molecular breeding market report would provide access to approximately 61 market data tables, 53 figures and 170 pages


1. Scope and Methodology
1.1. Research Methodology
1.2. Scope of the Market
2. Key Trends and Developments
3. Executive Summary
3.1. Market Snippet by Process
3.2. Market Snippet by Marker
3.3. Market Snippet by Application
3.4. Market Snippet by Region
4. Market Dynamics
4.1. Market impacting factors
4.1.1. Drivers
4.1.2. Restraints
4.1.3. Opportunities
4.2. Impact analysis
5. Industry Analysis
5.1. Porter's five forces analysis
5.2. Supply Chain Analysis
5.3. Patent Analysis
5.4. Regulatory Analysis
6. COVID-19 Analysis
6.1. Analysis of Covid-19 on the Market
6.1.1. Before COVID-19 Market Scenario
6.1.2. Present COVID-19 Market Scenario
6.1.3. After COVID-19 or Future Scenario
6.2. Pricing Dynamics Amid Covid-19
6.3. Demand-Supply Spectrum
6.4. Government Initiatives Related to the Market During the Pandemic
6.5. Manufacturers Strategic Initiatives
7. By Process
7.1. Introduction
7.1.1. Market size analysis, and y-o-y growth analysis (%), By Process Segment
7.1.2. Market attractiveness index, By Process Segment
7.2. QLT Mapping*
7.2.1. Introduction
7.2.2. Market Size Analysis, US$ Million, 2020-2029 And Y-O-Y Growth Analysis (%), 2021-2029
7.3. Market-Assisted Selection
7.4. Market-Assisted Backcrossing
8. By Marker
8.1. Introduction
8.1.1. Market size analysis, and y-o-y growth analysis (%), By Marker Segment
8.1.2. Market attractiveness index, By Marker Segment
8.2. Single Nucleotide Polymorphism*
8.2.1. Introduction
8.2.2. Market Size Analysis, US$ Million, 2020-2029 And Y-O-Y Growth Analysis (%), 2021-2029
8.3. Simple Sequence Repeats
8.4. Express Sequence Tags
8.5. Others
9. By Application
9.1. Introduction
9.1.1. Market size analysis, and y-o-y growth analysis (%), By Application Segment
9.1.2. Market attractiveness index, By Application Segment
9.2. Plant*
9.2.1. Introduction
9.2.2. Market Size Analysis, US$ Million, 2020-2029 And Y-O-Y Growth Analysis (%), 2021-2029
9.3. Livestock
10. By Region
10.1. Introduction
10.1.1. Market Size Analysis, And Y-O-Y Growth Analysis (%), By Region
10.1.2. Market Attractiveness Index, By Region
10.2. North America
10.2.1. Introduction
10.2.2. Key region-specific dynamics
10.2.3. Market Size Analysis, And Y-O-Y Growth Analysis (%), By Process
10.2.4. Market Size Analysis, And Y-O-Y Growth Analysis (%), By Marker
10.2.5. Market Size Analysis, And Y-O-Y Growth Analysis (%), By Application
10.2.6. Market Size Analysis, And Y-O-Y Growth Analysis (%), By Country
10.2.6.1. U.S.
10.2.6.2. Canada
10.2.6.3. Mexico
10.3. South America
10.3.1. Introduction
10.3.2. Key Region-Specific Dynamics
10.3.3. Market Size Analysis, And Y-O-Y Growth Analysis (%), By Process
10.3.4. Market Size Analysis, And Y-O-Y Growth Analysis (%), By Marker
10.3.5. Market Size Analysis, And Y-O-Y Growth Analysis (%), By Application
10.3.6. Market Size Analysis, And Y-O-Y Growth Analysis (%), By Country
10.3.6.1. Brazil
10.3.6.2. Argentina
10.3.6.3. Rest of South America
10.4. Europe
10.4.1. Introduction
10.4.2. Key Region-Specific Dynamics
10.4.3. Market Size Analysis, And Y-O-Y Growth Analysis (%), By Process
10.4.4. Market Size Analysis, And Y-O-Y Growth Analysis (%), By Marker
10.4.5. Market Size Analysis, And Y-O-Y Growth Analysis (%), By Application
10.4.6. Market Size Analysis, And Y-O-Y Growth Analysis (%), By Country
10.4.6.1. Germany
10.4.6.2. U.K.
10.4.6.3. France
10.4.6.4. Spain
10.4.6.5. Italy
10.4.6.6. Rest of Europe
10.5. Asia Pacific
10.5.1. Introduction
10.5.2. Key Region-Specific Dynamics
10.5.3. Market Size Analysis, And Y-O-Y Growth Analysis (%), By Process
10.5.4. Market Size Analysis, And Y-O-Y Growth Analysis (%), By Marker
10.5.5. Market Size Analysis, And Y-O-Y Growth Analysis (%), By Application
10.5.6. Market Size Analysis, And Y-O-Y Growth Analysis (%), By Country
10.5.6.1. China
10.5.6.2. India
10.5.6.3. Japan
10.5.6.4. Australia
10.5.6.5. Rest of Asia Pacific
10.6. Middle East and Africa
10.6.1. Introduction
10.6.2. Key Region-Specific Dynamics
10.6.3. Market Size Analysis, And Y-O-Y Growth Analysis (%), By Process
10.6.4. Market Size Analysis, And Y-O-Y Growth Analysis (%), By Marker
10.6.5. Market Size Analysis, And Y-O-Y Growth Analysis (%), By Application
11. Competitive Landscape
11.1. Competitive scenario
11.2. Competitor strategy analysis
11.3. Market positioning/share analysis
11.4. Mergers and acquisitions analysis
12. Company Profiles
12.1. Illumina*
12.1.1. Company Overview
12.1.2. Product Portfolio and Description
12.1.3. Key Highlights
12.1.4. Financial Overview
12.2. Eurofins Scientific
12.3. LGC Limited
12.4. SGS S.A.
12.5. Thermo Fisher Scientific
12.6. Intertek Group plc
12.7. DanBred P/S
12.8. LemnaTec GmbH
12.9. Slipstream Automation
12.10. Charles River Laboratories
13. DataM
13.1. Appendix
13.2. About us and services
13.3. Contact us

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