Plant Breeding and CRISPR Plant Market Rise: Climate Change and Tech Fuel Growth

Written by Lisa Tate  »  Updated on: October 26th, 2024

Climate change and advancements in technology are driving the global plant breeding and CRISPR plant market. The market is projected to grow at a compound annual growth rate (CAGR) of 6.91% through 2029.

According to TechSci Research report, “Plant Breeding and CRISPR Plant Market – Global Industry Size, Share, Trends, Competition Forecast & Opportunities, 2029”, the Global Plant Breeding and CRISPR Plant Market stood at USD 11.16 billion in 2023 and is anticipated to grow with a CAGR of 6.91% in the forecast period, 2025-2029. The global agricultural sector is currently experiencing a significant transformation due to advancements in plant breeding and CRISPR (Clustered Regularly Interspaced Short Palindromic Repeats) technologies.

These pioneering methodologies offer the potential to revolutionize crop development, tackling the issues posed by an expanding population, climate change, and the need for sustainable agricultural practices. This article explores the complexities of the Global Plant Breeding and CRISPR Plant Market, analyzing prominent factors driving its growth, the challenges it faces, and its potential implications for global food security.

The Global Plant Breeding and CRISPR Plant Market stand at the forefront of agricultural innovation, providing remedies to urgent global challenges. As technology progresses and stakeholders navigate regulatory frameworks, the potential of these advancements to promote sustainable agriculture and bolster global food security is considerable. Anticipated in the upcoming years are additional breakthroughs and partnerships that will significantly influence the trajectory of plant breeding and CRISPR technologies within the agricultural industry.

Global Plant Breeding and CRISPR Plant Market is segmented into type, trait, application, regional distribution, and company.

Traditional breeding methods have served as the foundation of agriculture. This approach involves selecting plants with desired traits and crossbreeding them over multiple generations. Although effective, traditional breeding is time-consuming and can lack precision, often necessitating extensive field trials to achieve desired results. Despite its drawbacks, traditional breeding remains crucial, particularly in developing regions where access to advanced biotechnologies is limited.

The emergence of biotechnological methods has transformed the landscape of plant breeding. Techniques like marker-assisted selection (MAS) and tissue culture have accelerated the breeding process significantly. MAS facilitates the pinpointing of genes linked to particular traits, simplifying the selection of desirable plants. Meanwhile, tissue culture permits the rapid multiplication of plants from small tissue samples, ensuring genetic consistency. These biotechnological approaches augment the effectiveness of traditional methods, serving as a bridge to more sophisticated genetic engineering technologies.

Genetic Engineering, epitomized by the groundbreaking CRISPR-Cas technology, stands as the pinnacle of innovation in plant breeding. CRISPR enables precise and targeted modifications to the plant genome, facilitating the insertion, deletion, or alteration of specific genes. This precision expedites the development of crops with desired traits, including disease resistance, enhanced nutritional content, and improved environmental resilience. Genetic engineering significantly truncates the breeding timeline, rendering it a potent tool in addressing pressing agricultural challenges.

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In the Plant Breeding and CRISPR Plant Market, herbicide tolerance stands as a pivotal trait, empowering crops to endure herbicide application. This trait facilitates efficient weed management without jeopardizing the cultivated plants. The market's emphasis on herbicide tolerance has driven the creation of crops capable of thriving in the presence of targeted herbicides, thereby optimizing agricultural processes and diminishing the environmental footprint of weed control efforts.

Disease resistance represents a fundamental trait in agriculture, combating the persistent menace of pathogens capable of devastating crop yields. Leveraging plant breeding and CRISPR technologies, researchers can implement genetic alterations to bolster a plant's innate defenses, yielding crops inherently resilient to a broad spectrum of diseases. This trait not only safeguards food security but also mitigates the necessity for chemical interventions, aligning with sustainable agricultural practices.

The market continues to prioritize the pursuit of heightened crop yields. Through the utilization of plant breeding and CRISPR technologies, crops with enhanced productivity are developed, guaranteeing a greater yield per acre. This is essential for addressing the escalating global food demand while maximizing resource efficiency.

In the oilseed and pulses sector, ongoing innovations target enhancements in oil content, nutritional value, and disease resistance. Utilizing CRISPR technology permits meticulous modifications, thereby elevating the overall quality and productivity of crops such as soybeans, canola, and lentils.

Within the fruits and vegetables sector, the focus centers on enhancing taste, nutritional content, and shelf life. Plant Breeding and CRISPR technologies are harnessed to develop varieties featuring enriched flavor profiles, heightened vitamin content, and resilience against pests and diseases.

Cash crops such as cotton and tobacco reap the rewards of genetic modifications aimed at enhancing fiber quality, pest resilience, and overall crop yield. These advancements not only cater to economic concerns for farmers but also play a pivotal role in promoting sustainable agricultural practices.

In addition to food production, Plant Breeding and CRISPR technologies are gaining traction in the turf and ornamental sector. The emphasis lies in crafting visually appealing, resilient, and low-maintenance plant varieties tailored for landscaping and ornamental uses.

In Europe, despite rigorous regulatory frameworks, innovation in the Plant Breeding and CRISPR Plant Market remains unabated. The region's steadfast dedication to sustainable agriculture harmonizes perfectly with the objectives of these technologies. Nations such as the United Kingdom and Germany are making substantial investments in research endeavors, with a focus on cultivating crops exhibiting heightened resilience to environmental pressures, decreased dependency on chemical inputs, and enhanced nutritional attributes.

The European Union's recent decision to regulate gene-edited crops according to the attributes of the final product, rather than the specific technology employed, introduces a more nuanced regulatory framework. This adjustment has revitalized the industry, fostering an environment where companies and researchers are motivated to fully explore the potential of CRISPR technology in plant breeding.

Major companies operating in Global Plant Breeding and CRISPR Plant Market are:

Bayer AG

Syngenta Crop Protection AG

Corteva, Inc.

BASF SE

Limagrain GmbH

DLF Ltd.

Bioceres Crop Solutions Corp

KWS SAAT SE & Co. KGaA

Benson Hill Inc

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“Collaborations between the public and private sectors are on the rise, accelerating the pace of research and development in the Plant Breeding and CRISPR Plant Market. Governments, research institutions, and biotechnology companies are pooling resources and expertise to address global challenges such as food security, aligning their efforts towards sustainable and impactful solutions.,” said Mr. Karan Chechi, Research Director with TechSci Research, a research-based management consulting firm.

“Plant Breeding and CRISPR Plant Market – Global Industry Size, Share, Trends, Opportunity, & Forecast, Segmented By Type (Conventional Method, Biotechnological Method, Genetic Engineering), By Trait (Herbicide Tolerance, Disease Resistance, Yield Improvement, Temperature Tolerance, Grain Size Improvement, Others), By Application (Cereals & Grains, Oilseed & Pulses, Fruits & Vegetables, Cash crops, Turf & Ornamental, Others), By Region, Competition, 2019-2029F”, has evaluated the future growth potential of Global Plant Breeding and CRISPR Plant 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 Plant Breeding and CRISPR Plant Market.

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