Environmental Biotechnology Market By Product Type (Bioremediation, Biofuels, Waste Treatment, Pollution Control, Biodegradable Materials), By End-User Industry (Agriculture, Water Treatment, Energy, Waste Management, Food & Beverage, Pharmaceuticals), By Application (Air Pollution Control, Water Treatment, Waste Management, Soil Remediation, Biodiversity Preservation), and By Technology (Genetic Engineering, Microbial Technology, Enzyme-based Technology, Phytoremediation, Biodegradation); Global Insights & Forecast (2023 ? 2030)

As per Intent Market Research, the Environmental Biotechnology Market was valued at USD 12.2 Billion in 2024-e and will surpass USD 27.0 Billion by 2030; growing at a CAGR of 12.0% during 2025-2030.

The environmental biotechnology market is undergoing significant growth, driven by the increasing focus on sustainability and reducing environmental pollution. As industries face growing pressure to adopt eco-friendly practices, the use of biological processes for pollution management, waste treatment, and renewable energy production has gained traction. Environmental biotechnology leverages natural organisms and biological systems to address global environmental challenges, including soil remediation, air pollution control, and water treatment. With technological advancements, this sector is poised to make substantial contributions to environmental sustainability and energy efficiency, offering solutions across multiple industries such as agriculture, energy, and water treatment.

Bioremediation Segment is Largest Owing to Its Efficiency in Pollution Cleanup

Bioremediation is the largest subsegment in the environmental biotechnology market, driven by its significant role in pollution control and environmental restoration. This process uses microorganisms, fungi, or plants to break down hazardous substances, offering an efficient and cost-effective method of cleaning up contaminated soil, water, and air. Bioremediation is particularly favored due to its sustainability and low environmental impact compared to traditional methods, such as chemical treatment or incineration. Its application spans various industries, including oil and gas, manufacturing, and agriculture, where soil and water contamination are prevalent issues.

The growth of the bioremediation market is fueled by the increasing environmental regulations and the need for cleaner, greener alternatives. Governments and industries are adopting bioremediation techniques to comply with stringent environmental standards, making it an essential tool in the fight against pollution. Additionally, the versatility of bioremediation, in dealing with organic and inorganic pollutants, positions it as a key player in environmental sustainability efforts globally.

Agriculture Sector is Fastest Growing in End-User Industry

The agriculture industry is witnessing rapid growth in the use of environmental biotechnology. Agricultural practices are increasingly adopting biotechnological methods to improve soil health, manage waste, and enhance crop productivity while reducing chemical inputs. Bioremediation and microbial technology, for instance, are employed to restore soils contaminated by pesticides and fertilizers. Additionally, the development of bio-based fertilizers and biopesticides is contributing to the shift towards sustainable farming practices. The demand for more environmentally friendly farming solutions is pushing this segment to become the fastest growing in the environmental biotechnology market.

The increasing pressure on the agriculture sector to reduce its environmental footprint is driving the adoption of these biotechnological solutions. By utilizing environmental biotechnology, agricultural operations can reduce the dependency on harmful chemicals, promoting healthier ecosystems and improving the quality of food production. This shift towards sustainable farming is not only a necessity but also a strategic move for businesses aiming to align with environmental goals and regulations.

Water Treatment is Fastest Growing Application Area

Water treatment is the fastest growing application in the environmental biotechnology market, owing to the increasing global concerns over water scarcity, pollution, and the need for clean water. Biotechnological solutions such as microbial treatment, algae-based processes, and bioremediation are becoming crucial tools for purifying contaminated water. These methods offer sustainable and cost-effective alternatives to conventional water treatment technologies, which often require high energy consumption and the use of toxic chemicals. Additionally, the use of biotechnology in wastewater treatment helps in reducing harmful pollutants and improving water quality, thus contributing to public health and environmental protection.

The growing demand for clean drinking water, coupled with industrial wastewater management challenges, is driving the expansion of this application area. As more regions face water pollution and contamination from industrial activities, environmental biotechnology plays a critical role in developing effective solutions to restore and preserve water resources for future generations.

Microbial Technology is Largest Technology Segment

Microbial technology holds the largest share in the environmental biotechnology market due to its widespread use in pollution control and waste management. This technology utilizes microorganisms to degrade organic pollutants in wastewater, soil, and air, making it a highly effective method for environmental cleanup. Microbial technology is applied across industries such as oil and gas, agriculture, and waste management to treat wastewater, reduce emissions, and restore ecosystems. Its efficiency in breaking down harmful chemicals, heavy metals, and organic pollutants contributes to its dominance in the market.

Microbial technology also benefits from advancements in genetic engineering and synthetic biology, which enhance the capabilities of microorganisms to target specific contaminants. The development of specialized strains that can degrade complex pollutants has further expanded the applications of microbial technology in various environmental restoration efforts. This combination of biological systems and cutting-edge technology positions microbial technology as a key player in the future of environmental biotechnology.

North America is Largest Region in the Environmental Biotechnology Market

North America holds the largest market share in environmental biotechnology, driven by stringent environmental regulations, high levels of industrial activity, and strong investment in research and development. The United States, in particular, is a leader in adopting sustainable technologies across various sectors, including agriculture, waste management, and water treatment. Government policies aimed at reducing environmental pollution and promoting cleaner technologies have fostered the growth of environmental biotechnology solutions in the region.

Additionally, North American companies are at the forefront of innovation, developing new biotechnological products and services that align with global sustainability goals. With the increasing need for renewable energy solutions and cleaner manufacturing practices, North America remains a key player in driving the adoption of environmental biotechnology worldwide.

Competitive Landscape and Leading Companies

The competitive landscape of the environmental biotechnology market is highly dynamic, with key players focusing on technological advancements, partnerships, and mergers and acquisitions to expand their market presence. Leading companies such as BASF SE, Novozymes, and DuPont are leveraging their strong R&D capabilities to develop new and more efficient solutions in bioremediation, biofuels, and wastewater treatment. These companies also focus on expanding their product portfolios through strategic alliances and investments in sustainable technologies.

The market is also characterized by a mix of established corporations and emerging players, each contributing to the rapid growth of the sector. New entrants in microbial technology and bioremediation solutions are leveraging innovations in genetic engineering and microbial systems to offer customized and more efficient solutions. As the demand for environmentally friendly and sustainable technologies continues to rise, competition in the environmental biotechnology market is expected to intensify, with companies focusing on enhancing their product offerings and expanding their global reach.

Recent Developments:

  • BASF SE announced the launch of a new bio-based product line to help industries achieve carbon neutrality, focusing on sustainable solutions in manufacturing.
  • LanzaTech entered a strategic partnership with a leading oil company to scale up its carbon capture and reuse technologies, transforming industrial emissions into valuable products.
  • DuPont expanded its portfolio of biodegradable materials by introducing a new enzyme-based solution that aids in the degradation of plastics in landfills.
  • Novozymes A/S secured a multi-year contract with a global beverage manufacturer to improve water usage and reduce environmental impact using their advanced enzyme technology.
  • Praj Industries unveiled a new biogas production facility that uses microbial technology to convert agricultural waste into renewable energy, reducing waste and carbon emissions

List of Leading Companies:

  • BASF SE
  • Dow Chemical Company
  • DuPont de Nemours, Inc.
  • Evonik Industries AG
  • Green Biologics Ltd.
  • Novozymes A/S
  • BioAmber Inc.
  • Praj Industries
  • Inozyme Bio
  • Biotech Environmental Solutions
  • Genomatica, Inc.
  • Microbial Genetics, Inc.
  • Synbiobeta
  • LanzaTech
  • Metabolix, Inc

Report Scope:

Report Features

Description

Market Size (2024-e)

USD 12.2 Billion

Forecasted Value (2030)

USD 27.0 Billion

CAGR (2025 – 2030)

12.0%

Base Year for Estimation

2024-e

Historic Year

2023

Forecast Period

2025 – 2030

Report Coverage

Market Forecast, Market Dynamics, Competitive Landscape, Recent Developments

Segments Covered

Environmental Biotechnology Market By Product Type (Bioremediation, Biofuels, Waste Treatment, Pollution Control, Biodegradable Materials), By End-User Industry (Agriculture, Water Treatment, Energy, Waste Management, Food & Beverage, Pharmaceuticals), By Application (Air Pollution Control, Water Treatment, Waste Management, Soil Remediation, Biodiversity Preservation), and By Technology (Genetic Engineering, Microbial Technology, Enzyme-based Technology, Phytoremediation, Biodegradation); Global Insights & Forecast (2023 – 2030)

Regional Analysis

North America (US, Canada, Mexico), Europe (Germany, France, UK, Italy, Spain, and Rest of Europe), Asia-Pacific (China, Japan, South Korea, Australia, India, and Rest of Asia-Pacific), Latin America (Brazil, Argentina, and Rest of Latin America), Middle East & Africa (Saudi Arabia, UAE, Rest of Middle East & Africa)

Major Companies

BASF SE, Dow Chemical Company, DuPont de Nemours, Inc., Evonik Industries AG, Green Biologics Ltd., Novozymes A/S, BioAmber Inc., Praj Industries, Inozyme Bio, Biotech Environmental Solutions, Genomatica, Inc., Microbial Genetics, Inc., Synbiobeta, LanzaTech, Metabolix, Inc

Customization Scope

Customization for segments, region/country-level will be provided. Moreover, additional customization can be done based on the requirements

1. Introduction

   1.1. Market Definition

   1.2. Scope of the Study

   1.3. Research Assumptions

   1.4. Study Limitations

2. Research Methodology

   2.1. Research Approach

      2.1.1. Top-Down Method

      2.1.2. Bottom-Up Method

      2.1.3. Factor Impact Analysis

  2.2. Insights & Data Collection Process

      2.2.1. Secondary Research

      2.2.2. Primary Research

   2.3. Data Mining Process

      2.3.1. Data Analysis

      2.3.2. Data Validation and Revalidation

      2.3.3. Data Triangulation

3. Executive Summary

   3.1. Major Markets & Segments

   3.2. Highest Growing Regions and Respective Countries

   3.3. Impact of Growth Drivers & Inhibitors

   3.4. Regulatory Overview by Country

4. Environmental Biotechnology Market, by Product Type (Market Size & Forecast: USD Million, 2023 – 2030)

   4.1. Bioremediation

   4.2. Biofuels

   4.3. Waste Treatment

   4.4. Pollution Control

   4.5. Biodegradable Materials

5. Environmental Biotechnology Market, by End-User Industry (Market Size & Forecast: USD Million, 2023 – 2030)

   5.1. Agriculture

   5.2. Water Treatment

   5.3. Energy

   5.4. Waste Management

   5.5. Food & Beverage

   5.6. Pharmaceuticals

6. Environmental Biotechnology Market, by Application (Market Size & Forecast: USD Million, 2023 – 2030)

   6.1. Air Pollution Control

   6.2. Water Treatment

   6.3. Waste Management

   6.4. Soil Remediation

   6.5. Biodiversity Preservation

7. Environmental Biotechnology Market, by Technology (Market Size & Forecast: USD Million, 2023 – 2030)

   7.1. Genetic Engineering

   7.2. Microbial Technology

   7.3. Enzyme-based Technology

   7.4. Phytoremediation

   7.5. Biodegradation

8. Regional Analysis (Market Size & Forecast: USD Million, 2023 – 2030)

   8.1. Regional Overview

   8.2. North America

      8.2.1. Regional Trends & Growth Drivers

      8.2.2. Barriers & Challenges

      8.2.3. Opportunities

      8.2.4. Factor Impact Analysis

      8.2.5. Technology Trends

      8.2.6. North America Environmental Biotechnology Market, by Product Type

      8.2.7. North America Environmental Biotechnology Market, by End-User Industry

      8.2.8. North America Environmental Biotechnology Market, by Application

      8.2.9. North America Environmental Biotechnology Market, by Technology

      8.2.10. By Country

         8.2.10.1. US

               8.2.10.1.1. US Environmental Biotechnology Market, by Product Type

               8.2.10.1.2. US Environmental Biotechnology Market, by End-User Industry

               8.2.10.1.3. US Environmental Biotechnology Market, by Application

               8.2.10.1.4. US Environmental Biotechnology Market, by Technology

         8.2.10.2. Canada

         8.2.10.3. Mexico

    *Similar segmentation will be provided for each region and country

   8.3. Europe

   8.4. Asia-Pacific

   8.5. Latin America

   8.6. Middle East & Africa

9. Competitive Landscape

   9.1. Overview of the Key Players

   9.2. Competitive Ecosystem

      9.2.1. Level of Fragmentation

      9.2.2. Market Consolidation

      9.2.3. Product Innovation

   9.3. Company Share Analysis

   9.4. Company Benchmarking Matrix

      9.4.1. Strategic Overview

      9.4.2. Product Innovations

   9.5. Start-up Ecosystem

   9.6. Strategic Competitive Insights/ Customer Imperatives

   9.7. ESG Matrix/ Sustainability Matrix

   9.8. Manufacturing Network

      9.8.1. Locations

      9.8.2. Supply Chain and Logistics

      9.8.3. Product Flexibility/Customization

      9.8.4. Digital Transformation and Connectivity

      9.8.5. Environmental and Regulatory Compliance

   9.9. Technology Readiness Level Matrix

   9.10. Technology Maturity Curve

   9.11. Buying Criteria

10. Company Profiles

   10.1. BASF SE

      10.1.1. Company Overview

      10.1.2. Company Financials

      10.1.3. Product/Service Portfolio

      10.1.4. Recent Developments

      10.1.5. IMR Analysis

    *Similar information will be provided for other companies 

   10.2. Dow Chemical Company

   10.3. DuPont de Nemours, Inc.

   10.4. Evonik Industries AG

   10.5. Green Biologics Ltd.

   10.6. Novozymes A/S

   10.7. BioAmber Inc.

   10.8. Praj Industries

   10.9. Inozyme Bio

   10.10. Biotech Environmental Solutions

   10.11. Genomatica, Inc.

   10.12. Microbial Genetics, Inc.

   10.13. Synbiobeta

   10.14. LanzaTech

   10.15. Metabolix, Inc

11. Appendix

A comprehensive market research approach was employed to gather and analyze data on the Environmental Biotechnology Market. In the process, the analysis was also done to analyze the parent market and relevant adjacencies to measure the impact of them on the Environmental Biotechnology Market. The research methodology encompassed both secondary and primary research techniques, ensuring the accuracy and credibility of the findings.

Research Approach -

Secondary Research

Secondary research involved a thorough review of pertinent industry reports, journals, articles, and publications. Additionally, annual reports, press releases, and investor presentations of industry players were scrutinized to gain insights into their market positioning and strategies.

Primary Research

Primary research involved conducting in-depth interviews with industry experts, stakeholders, and market participants across the E-Waste Management ecosystem. The primary research objectives included:

  • Validating findings and assumptions derived from secondary research
  • Gathering qualitative and quantitative data on market trends, drivers, and challenges
  • Understanding the demand-side dynamics, encompassing end-users, component manufacturers, facility providers, and service providers
  • Assessing the supply-side landscape, including technological advancements and recent developments

Market Size Assessment

A combination of top-down and bottom-up approaches was utilized to analyze the overall size of the Environmental Biotechnology Market. These methods were also employed to assess the size of various subsegments within the market. The market size assessment methodology encompassed the following steps:

  1. Identification of key industry players and relevant revenues through extensive secondary research
  2. Determination of the industry's supply chain and market size, in terms of value, through primary and secondary research processes
  3. Calculation of percentage shares, splits, and breakdowns using secondary sources and verification through primary sources

Bottom Up and Top Down -

Data Triangulation

To ensure the accuracy and reliability of the market size, data triangulation was implemented. This involved cross-referencing data from various sources, including demand and supply side factors, market trends, and expert opinions. Additionally, top-down and bottom-up approaches were employed to validate the market size assessment.

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