Molecular Breeding market growth from 2026-2030 is driven by tech advances like CRISPR and rising awareness of environmental impact in agriculture.
According to a recent report by TechSci Research titled “Molecular Breeding Market – Global Industry Size, Share, Trends, Competition Forecast & Opportunities, 2030F”, the global molecular breeding market was valued at USD 7.21 billion in 2024. It is expected to grow at a compound annual growth rate (CAGR) of 7.63% through 2030, signaling robust expansion fueled by shifting consumer demands and technological integration.
Molecular breeding, a method that applies molecular biology tools to enhance plant and animal traits, is increasingly being recognized as a transformative force in modern agriculture. As the demand for healthier, more sustainable, and higher-quality food continues to rise, molecular breeding has become a strategic tool in meeting these evolving consumer preferences. Today’s consumers are far more conscious of the nutritional value, taste, and environmental impact of the food they consume. This growing awareness is propelling the need for crops that not only offer improved nutrition but also demonstrate longer shelf life and resistance to environmental stressors.
By leveraging the precision of molecular techniques, breeders can selectively target traits that align with consumer expectations. This includes developing crop varieties that resist diseases naturally, reduce dependency on chemical fertilizers and pesticides, and thrive under varying climatic conditions. As sustainability becomes a global priority, molecular breeding is being adopted as a key strategy in achieving environmentally responsible agricultural practices. Moreover, the accessibility of genetic information and advancements in genomics are allowing scientists and consumers alike to better understand the potential of this technology, thereby further boosting its adoption and market growth.
One of the most impactful technological trends shaping the molecular breeding industry is the integration of bioinformatics. As the sector becomes increasingly data-driven, the fusion of biology with computational tools is redefining how genetic information is processed, interpreted, and applied. Bioinformatics plays a crucial role in analyzing the vast volumes of data generated by genomic studies. These tools assist breeders in identifying specific genes and markers associated with desirable traits such as drought tolerance, pest resistance, and higher yield.
A significant outcome of this integration is the enhancement of Marker-Assisted Selection (MAS). This technique allows breeders to use genetic markers to select plants or animals that carry the genes of interest, thereby streamlining the development of improved breeds and varieties. By reducing the need for prolonged field testing and manual selection, bioinformatics-driven approaches enable quicker decision-making and more efficient breeding cycles. As computational technologies continue to evolve, their application in molecular breeding is expected to increase, driving innovation and delivering more targeted outcomes in crop improvement.
The report also highlights Single Nucleotide Polymorphisms (SNPs) as a leading marker type within the market. SNPs are small genetic variations at a single DNA base pair and are among the most abundant markers used in genomics. They are highly valued in molecular breeding due to their precision, high-throughput capability, and cost-effectiveness. SNPs are especially useful in tracking traits related to yield performance, disease resistance, and environmental adaptability. With sequencing technologies becoming more affordable and accessible, the use of SNPs has surged, allowing researchers to work with larger datasets and more complex traits.
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From a regional standpoint, Europe emerges as a significant player in the global molecular breeding market. The region’s emphasis on sustainable farming practices, stringent agricultural quality standards, and proactive environmental policies create fertile ground for the growth of molecular breeding initiatives. European governments and institutions invest heavily in biotechnology research, encouraging innovation and development in genetic sciences. Additionally, the European Union provides regulatory support that fosters responsible genetic modification and molecular breeding while aligning with sustainability goals.
Europe’s commitment to climate change mitigation also fuels the adoption of molecular breeding, as the technology supports the development of crops capable of withstanding extreme weather conditions. With a focus on precision agriculture and reducing environmental impact, molecular breeding aligns well with the continent’s agricultural strategies. This synergy between policy, technology, and market needs contributes to Europe’s strong performance in the global molecular breeding landscape.
In summary, the molecular breeding market is on a firm upward trajectory, driven by growing consumer demand for healthier and more sustainable food options, as well as technological advances in bioinformatics and genomics. The integration of data-driven tools in breeding programs, the increasing use of efficient markers like SNPs, and strong regional initiatives—especially in Europe—are shaping the market’s future. As agriculture continues to face challenges from climate change, population growth, and resource limitations, molecular breeding stands out as a key enabler of innovative and sustainable food production.
Major companies operating in Global Molecular Breeding Market are:
Eurofins Scientific SE
GC Group
Illumina
SGS SA
Thermo-Fisher Scientific Inc.
Intertek Group plc
LemnaTec GmbH
Charles River Laboratories.
Bayer AG
Slipstream Automation
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“The integration of multi-omics approaches, encompassing genomics, transcriptomics, proteomics, and metabolomics, is a significant recent development. This holistic approach provides a comprehensive understanding of the molecular processes within plants, enabling breeders to make informed decisions in crop improvement. By analyzing the entire molecular profile of crops, multi-omics approaches enhance the identification of key genes and pathways associated with desirable traits”, said Mr. Karan Chechi, Research Director of TechSci Research, a research-based management consulting firm.
“Molecular Breeding Market – Global Industry Size, Share, Trends, Opportunity, & Forecast 2018-2028F Segmented By Marker (Simple Sequence Repeat, Single Nucleotide Polymorphism, Expressed Sequence Tags, Others), By Application (Plant, Livestock), By Process (Marker Assisted Selection, QTL Mapping, Marker assisted back crossing), By Region and Competition, 2020-2030F”, has evaluated the future growth potential of Global Molecular Breeding Market and provides statistics & information on market size, structure and future market growth. The report intends to provide cutting-edge market intelligence and help decision makers take sound investment decisions. Besides, the report also identifies and analyzes the emerging trends along with essential drivers, challenges, and opportunities in Global Molecular Breeding Market.
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