United States DNA Barcoding Services Market By Type (Plant DNA Barcoding Services, Animal DNA Barcoding Services, Microbial DNA Barcoding Services), By Method (Sanger Sequencing, Short Read Sequencing, Long Read Sequencing), By Application (Pathogen Identification and Monitoring, Product Authentication and Quality Control, Biodiversity and Conservation Monitoring, Forensic and Legal Investigations, Others), By End Use (Pharmaceutical & Biotechnology Companies, Agriculture and Food Industry, Academic & Research Institutes, Others), By Region and Competition, Forecast & Opportunities, 2020-2030F

Market Overview

The United States DNA Barcoding Services Market was valued at USD 64.38 Million in 2024 and is expected to reach USD 124.95 Million by 2030 with a CAGR of 11.66%. ​The DNA barcoding services market in the United States is experiencing significant growth, driven by advancements in sequencing technologies and increasing demand for accurate species identification across various sectors. The integration of next-generation sequencing (NGS) has enhanced the precision and efficiency of DNA barcoding, making it a valuable tool in fields such as biodiversity research, environmental monitoring, and forensic analysis. This technological progress has led to a broader adoption of DNA barcoding services, as organizations seek reliable methods for species authentication and genetic analysis.​

A key driver of this market expansion is the rising emphasis on biodiversity conservation and environmental sustainability. DNA barcoding offers a rapid and non-invasive approach to cataloging species, detecting invasive organisms, and monitoring ecosystem health. As environmental policies become more stringent and the need for biodiversity data increases, the demand for DNA barcoding services is expected to grow. This trend is particularly evident in sectors like agriculture and forestry, where accurate species identification is crucial for managing resources and ensuring compliance with environmental regulations.​

Despite its growth, the DNA barcoding services market faces challenges that could impact its trajectory. High costs associated with sequencing technologies and data analysis can limit accessibility for smaller organizations and researchers. Additionally, the complexity of interpreting genetic data requires specialized expertise, which may not be readily available in all sectors. These factors can hinder the widespread adoption of DNA barcoding services, particularly in regions or industries with limited resources. Addressing these challenges will be essential for realizing the full potential of DNA barcoding in various applications.

Key Market Drivers

Expansion of Biodiversity and Conservation Programs

​The expansion of biodiversity and conservation programs in the United States has significantly contributed to the growth of the DNA barcoding services market. In 2023, the U.S. Fish and Wildlife Service (FWS) reported that its biologists completed 1,896 wildlife habitat projects across all states and U.S. territories, restoring and enhancing over 167,000 acres of habitat. These initiatives have increased the demand for accurate and efficient species identification methods, such as DNA barcoding, to monitor and assess biodiversity effectively. Similarly, the U.S. Geological Survey (USGS) has been at the forefront of utilizing environmental DNA (eDNA) technologies to monitor marine biodiversity.

In 2023, USGS researchers conducted eDNA sampling from the surface to the seafloor, utilizing remotely operated vehicles and other instruments to investigate biological communities in deepwater habitats. This approach underscores the growing reliance on DNA-based methods for comprehensive biodiversity assessments.​

These government-led conservation efforts highlight the increasing integration of DNA barcoding into biodiversity monitoring programs. The ability to identify species through genetic markers enables more precise tracking of species distributions, detection of invasive species, and assessment of ecosystem health. As conservation programs expand and evolve, the demand for DNA barcoding services is expected to rise, further driving market growth. The adoption of DNA barcoding aligns with the need for scalable, non-invasive, and accurate tools to support large-scale biodiversity monitoring and conservation strategies. This trend reflects a broader shift towards incorporating advanced molecular techniques into environmental management practices.​

In summary, the expansion of biodiversity and conservation programs in the United States has created a favorable environment for the growth of the DNA barcoding services market. Government agencies' commitment to enhancing biodiversity monitoring and conservation efforts has led to increased demand for advanced genetic tools, positioning DNA barcoding as a critical component in the nation's environmental stewardship initiatives.

Growth of Environmental DNA (eDNA) Applications

The growth of environmental DNA (eDNA) applications is significantly driving the United States DNA barcoding services market. eDNA refers to genetic material shed by organisms into their surroundings, such as water, soil, or air. By analyzing these genetic traces, researchers can identify species without the need for direct sampling or observation. This has revolutionized the way biodiversity is monitored, enabling non-invasive assessments of ecosystems. The ability to collect and analyze eDNA has expanded the scope of DNA barcoding, making it a critical tool in environmental science.

A key driver behind the growth of eDNA applications is the increasing need for accurate and efficient biodiversity assessments, especially in aquatic ecosystems. eDNA enables scientists to detect rare, invasive, or endangered species with minimal disturbance to their habitats. This is particularly beneficial in monitoring aquatic environments, where traditional survey methods can be invasive, time-consuming, or costly. The ability to track a broad range of species, from microorganisms to large animals, using water or soil samples is valuable for conservation efforts.

In 2023, the U.S. Geological Survey (USGS) initiated efforts to incorporate eDNA data into the Nonindigenous Aquatic Species (NAS) database, which houses over 570,000 records of nonindigenous species nationally. This integration aims to enhance invasive species monitoring and management across the country. Similarly, the National Oceanic and Atmospheric Administration (NOAA) conducted an eDNA survey in 2023 to characterize marine communities across the northeast U.S. continental shelf and slope, highlighting the growing reliance on eDNA for large-scale environmental monitoring. These initiatives underscore the expanding role of eDNA in environmental monitoring and its impact on the DNA barcoding services market.

Technological Advancements in Genomic Sequencing

​Technological advancements in genomic sequencing have significantly propelled the growth of the United States DNA barcoding services market. The integration of next-generation sequencing (NGS) technologies has enhanced the accuracy, speed, and cost-effectiveness of DNA barcoding, making it a preferred method for species identification across various sectors. These advancements have enabled the processing of large volumes of genetic data, facilitating comprehensive biodiversity assessments and environmental monitoring. The increased accessibility and efficiency of genomic sequencing have expanded the applications of DNA barcoding, particularly in areas such as food safety, conservation biology, and forensic science.​

A notable application of DNA barcoding is in combating seafood fraud. The National Oceanic and Atmospheric Administration (NOAA) has utilized DNA barcoding to build comprehensive genetic reference libraries, aiding in the identification of seafood species and ensuring consumer safety. In June 2023, NOAA highlighted the importance of these genetic libraries in protecting consumers from seafood fraud, underscoring the role of DNA barcoding in maintaining food integrity. ​

Despite its advantages, the DNA barcoding services market faces challenges related to the high costs of sequencing technologies and the need for specialized expertise in data analysis. These factors can limit the widespread adoption of DNA barcoding, particularly among smaller organizations and institutions with limited resources. Addressing these challenges through technological innovations and training programs is essential for enhancing the accessibility and effectiveness of DNA barcoding services.

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Key Market Challenges

High Cost of Equipment and Analysis

The high cost of equipment and analysis poses a significant challenge to the United States DNA barcoding services market. DNA barcoding requires specialized instruments, such as sequencers and other high-performance analytical tools, which come with substantial upfront and maintenance costs. These devices are essential for sequencing DNA accurately, but their prices can be prohibitive, especially for small and medium-sized businesses or research institutions with limited budgets. The need for highly skilled personnel to operate these advanced technologies adds another layer of financial strain. Moreover, the cost of reagents, consumables, and sample preparation kits can further drive up the overall expense of DNA barcoding analysis. This financial burden restricts the accessibility of DNA barcoding services, making it difficult for some organizations to invest in this technology.

The process of DNA analysis itself is also resource-intensive, requiring sophisticated computational infrastructure to process and interpret the data generated by sequencers. As sequencing technologies evolve, the need for constant upgrades and the integration of new bioinformatics tools to ensure accurate results also contributes to the rising costs. For companies offering DNA barcoding services, maintaining a competitive edge in this space requires continuous investment in cutting-edge technology, further escalating operational costs. This challenge is particularly relevant for smaller market players who may struggle to balance affordability with the need for high-quality, precise results. As the market for DNA barcoding services grows, addressing the high costs associated with equipment and analysis will be crucial to ensuring widespread adoption and expanding service availability across various industries.

Lack of Standardization Across Laboratories

A significant challenge for the United States DNA barcoding services market is the lack of standardization across laboratories. DNA barcoding involves the use of specific genetic markers to identify species, and its accuracy and reliability depend heavily on the protocols followed by different laboratories. However, variations in methods, equipment, and protocols used by different labs often lead to inconsistent results. These inconsistencies can be attributed to the absence of universally accepted standards for sample collection, DNA extraction, sequencing, and data analysis. With no standardized framework in place, results may vary based on the laboratory's chosen techniques, which complicates the interpretation of data and limits the reproducibility of findings. This lack of uniformity can hinder the acceptance and application of DNA barcoding in various fields such as biodiversity monitoring, forensic science, and food safety.

Furthermore, the absence of standardized guidelines makes it difficult to establish reliable reference databases. As each lab may use different procedures to process and sequence samples, compiling and comparing data across studies becomes more challenging. This fragmentation can result in the creation of disconnected data sets that are not easily integrated into a broader, unified resource. Such inconsistencies can undermine the reliability of DNA barcoding as a tool for species identification, particularly in critical applications like tracking invasive species or ensuring the authenticity of food products. Addressing the lack of standardization through the development of uniform protocols, regulatory oversight, and the establishment of centralized data repositories would be crucial in overcoming this challenge and advancing the market.

Key Market Trends

Integration of DNA Barcoding with Environmental DNA (eDNA) Monitoring

​ The integration of DNA barcoding with environmental DNA (eDNA) monitoring is transforming biodiversity research and conservation strategies in the United States. DNA barcoding involves sequencing short genetic markers in an organism's DNA to identify species, while eDNA refers to genetic material shed by organisms into the environment, which can be collected from water, soil, or air samples. By combining these approaches, researchers can detect and monitor species presence and abundance without the need for direct observation or physical capture. This synergy enhances the sensitivity and efficiency of biodiversity assessments, allowing for more comprehensive ecological monitoring.

In the U.S., this integrated methodology is increasingly utilized in various applications, including invasive species detection, habitat restoration projects, and the monitoring of endangered species. The adoption of next-generation sequencing technologies has further propelled this integration, enabling high-throughput analysis and more accurate biodiversity inventories. Federal and state agencies, such as the National Genomics Center for Wildlife and Fish Conservation, are actively employing these combined techniques to inform conservation decisions and policy-making. This trend reflects a broader commitment to leveraging advanced genomic tools for environmental stewardship and sustainable management of natural resources.

Adoption of Next-Generation Sequencing (NGS) for High-Throughput Barcoding

​​The United States DNA barcoding services market is experiencing significant growth, primarily driven by the widespread adoption of Next-Generation Sequencing (NGS) technologies. NGS enables the rapid, high-throughput sequencing of DNA, facilitating comprehensive species identification and genetic analysis across various sectors, including agriculture, pharmaceuticals, environmental monitoring, and food safety. This advancement has led to more efficient and accurate DNA barcoding processes, replacing traditional methods like Sanger sequencing. The increasing demand for precise species identification, especially in food safety and quality control, has further accelerated the adoption of NGS-based barcoding services.

Additionally, the growing emphasis on biodiversity conservation and the need for regulatory compliance in various industries have contributed to the expansion of DNA barcoding applications. The U.S. market's robust infrastructure, coupled with substantial investments in genomic research and development, positions it as a leader in the global DNA barcoding services market. As NGS technologies continue to evolve, their integration into DNA barcoding services is expected to enhance the accuracy, efficiency, and scalability of genetic analyses, driving further market growth.​

Segmental Insights

Type Insights

Based on the Type, Microbial DNA Barcoding Services emerged as the dominant segment in the United States DNA Barcoding Services Market in 2024. This is driven by the increasing demand for precise microbial identification across multiple sectors. Microorganisms play critical roles in ecosystems, agriculture, healthcare, and industrial biotechnology, yet their immense diversity makes traditional classification methods inadequate. DNA barcoding enables the rapid and accurate identification of bacteria, archaea, and fungi by analyzing standardized genetic markers, such as 16S rRNA for bacteria and ITS regions for fungi, which are widely used in microbial taxonomy. The growth of microbiome research, particularly in human health and nutrition, has further accelerated the demand for microbial barcoding. Applications in food safety testing, environmental monitoring, and pharmaceutical production have also fueled segment growth. Industries increasingly rely on microbial DNA barcoding to detect contamination, trace pathogen sources, and ensure regulatory compliance.

Method Insights

Based on the Method, Short Read Sequencing emerged as the dominant segment in the United States DNA Barcoding Services Market in 2024. This is due to its widespread adoption, high accuracy, and cost efficiency. This method, typically associated with platforms like Illumina, enables the generation of millions of short DNA fragments in parallel, making it ideal for high-throughput barcoding applications. Its precision in reading base pairs and low error rate have made it the preferred choice for taxonomic classification and biodiversity assessments across various domains, including ecology, agriculture, and public health. Short read sequencing is particularly effective for targeting standard barcode regions such as COI (cytochrome oxidase I) in animals, ITS (internal transcribed spacer) in fungi, and 16S rRNA in bacteria. These markers are typically short enough to be fully covered by the read lengths provided by this method, enabling robust identification of species with minimal computational complexity.

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Regional Insights

The Mid-West region emerged as the dominant region in the United States DNA Barcoding Services Market in 2024. This is driven by a combination of academic research excellence, strong agricultural sectors, and supportive state-level initiatives. The region is home to numerous leading universities and research institutions that have integrated DNA barcoding into their biodiversity and ecological studies. These institutions often collaborate with local industries, including agriculture and food production, to apply DNA barcoding for quality control, species verification, and supply chain transparency.​ State-level initiatives have further bolstered the adoption of DNA barcoding technologies. For instance, the state of Nebraska has positioned itself as a hub for biomanufacturing and biotechnology innovation, hosting events like Bio Innovations Midwest to connect bio pioneers and promote the region as the heartland of the U.S. bioeconomy. Such initiatives create an ecosystem conducive to the growth of DNA barcoding services, attracting investments and fostering collaboration between academia, industry, and government entities.

Recent Developments

• In January 2025, Quantum-Si Incorporated announced a new preprint showcasing its advanced protein barcoding and next-generation sequencing workflow. The study demonstrates how integrating the benchtop Platinum instrument with this workflow enables highly sensitive and accessible multiplexed protein analysis. This innovation offers a scalable alternative to traditional methods like mass spectrometry, with potential applications in protein engineering, targeted drug delivery, and nucleic acid therapy development.
• In October 2024, Twist Bioscience Corporation launched the FlexPrep Ultra-High Throughput Library Preparation Kit, featuring a proprietary enzyme to support cost-effective, large-scale next-generation sequencing (NGS). Targeted at population and agricultural genomics, the kit integrates Normalization by Ligation (NBL) technology, enabling early sample pooling and multiplexing while eliminating the need for upfront quantitation. This advancement streamlines high-throughput workflows and reduces per-sample costs, accelerating NGS adoption among microarray users.
• In September 2024, Quantum-Si announced that Boston-based biotech Liberate Bio has adopted its Platinum Next-Generation Protein Sequencer to enhance gene therapy development. Liberate Bio is using the platform’s protein barcoding capabilities to screen lipid nanoparticle delivery vehicles in vivo, improving delivery and translation efficiency. The technology provides high-resolution protein analysis without the need for complex equipment or specialized expertise, significantly accelerating and streamlining their gene therapy discovery process.
• In September 2024, Zebra Technologies Corporation launched three new solutions designed to enhance retail and warehouse operations: the Zebra Kiosk System, Workcloud Actionable Intelligence 7.0, and the ET60W/ET65W rugged Windows tablets. The launches were announced at the company’s annual ZONE customer conference in Las Vegas and will be showcased at ZONE EMEA in Birmingham. The new solutions, leveraging AI, cloud, and machine learning, aim to improve inventory management, task efficiency, and employee engagement. Zebra also expanded its integrated hardware and software portfolio to further optimize modern retail workflows.

Key Market Players

• Eurofins Genomics
• CD Genomics
• BIOSERVE
• Illumina, Inc.
• PacBio
• Oxford Nanopore Technologies
• AllGenetics & Biology SL
• 1st BASE
• Bento Bioworks Ltd
• Genetika Science

Report Scope:

In this report, the United States DNA Barcoding Services Market has been segmented into the following categories, in addition to the industry trends which have also been detailed below:

• United States DNA Barcoding Services Market, By Type:

o   Plant DNA Barcoding Services

o   Animal DNA Barcoding Services

o   Microbial DNA Barcoding Services

• United States DNA Barcoding Services Market, By Method:

o   Sanger Sequencing

o   Short Read Sequencing

o   Long Read Sequencing

• United States DNA Barcoding Services Market, By Application:

o   Pathogen Identification and Monitoring

o   Product Authentication and Quality Control

o   Biodiversity and Conservation Monitoring

o   Forensic and Legal Investigations

o   Others

• United States DNA Barcoding Services Market, By End Use:

o   Pharmaceutical & Biotechnology Companies

o   Agriculture and Food Industry

o   Academic & Research Institutes

o   Others

• United States DNA Barcoding Services Market, By Region:

o   North-East

o   Mid-West

o   West

o   South

Competitive Landscape

Company Profiles: Detailed analysis of the major companies present in the United States DNA Barcoding Services Market.

Available Customizations:

United States DNA Barcoding Services Market report with the given market data, TechSci Research offers customizations according to a company's specific needs. The following customization options are available for the report:

Company Information

• Detailed analysis and profiling of additional market players (up to five).

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