Agricultural Waste Water Treatment - WWT Market Report 2025 (Global Edition)

Global Agricultural Waste Water Treatment - WWT Market Report 2025 Market Size Split by Type Outlook: (Suspended Solids Removal, Dissolved Solids Removal, Biological Treatment & Recovery, Disinfection...

Agricultural Waste Water Treatment - WWT Market Report Description

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Impact of Tariff Trumph on Agriculture Industry

In 2025, global agricultural trade is under major strain following President Trump’s Liberation Day Tariffs, which introduced steep duties to correct trade imbalances. Tariffs now range from 10% on imports from allies like Japan to as high as 46% on Vietnamese goods and 34% on Chinese agricultural products, with a blanket 25% on agri-machinery, fertilizers, and processed foods. This has significantly raised input costs for U.S. farmers and triggered retaliatory tariffs from key partners like China, the EU, and Brazil. China’s countermeasures up to 120% on U.S. exports like soybeans, pork, and dairy—have already slashed Q1 soybean exports by 19.7%. Canada and others have also tightened import rules, compounding uncertainty.

Key agriculture sectors are struggling. Row crop farmers face slumping export prices and higher input costs, leading many to explore alternative crops and new markets in South Asia and Africa. Dairy and pork producers are dealing with oversupply and weak demand, especially from China and the EU. Fruit and vegetable growers are hit by increased spoilage and packaging costs, while food processors are seeing a 10–14% rise in unit costs due to equipment and material tariffs. Logistics firms, meanwhile, are grappling with slower exports and rising warehousing needs, pushing them to revamp inland routes and distribution strategies.

China, while not the largest exporter of agricultural goods to the U.S., is a key supplier of specific inputs like agrochemicals, additives, seafood, and processed foods. Many of these goods are also routed through intermediaries in Asia, so tariffs aimed at China disrupt broader global supply chains. U.S. agribusinesses are seeing input costs rise by up to 22%, complicating seasonal planning and tightening margins. While some are turning to alternate sourcing from India, Latin America, or Southeast Asia, challenges like logistics and compliance slow the transition.

To adapt, agribusinesses are increasingly relying on market research. It helps identify lower-risk suppliers, monitor input costs, optimize fragmented supply chains, and understand shifting consumer behaviors. Firms are also tracking regulatory changes and running scenario planning models to anticipate disruptions. Major companies are responding by reshoring supply chains, investing in local operations, and realigning exports toward tariff-exempt markets. The most resilient players are those using real-time data and strategic foresight to reconfigure operations and maintain competitiveness amid ongoing trade volatility.

Agricultural Waste Water Treatment - WWT Market Insights Video

Competitive Landscape of the Agricultural Waste Water Treatment (WWT) Market

The presence of both established and up-and-coming competitors makes the global agricultural waste water treatment (WWT) industry extremely competitive. These big businesses are making significant investments in R&D to obtain a competitive advantage in the marketplace. Important participants in the agricultural waste water treatment (WWT) industry employ tactics meant to obtain a competitive advantage. Among these tactics are design uniqueness, product innovation, and the use of eco-friendly and sustainable materials to adapt to changing consumer tastes. Additionally, these well-known businesses are implementing cutting-edge technologies to create sophisticated and reasonably priced treatment options for business growth.

September 2022: The success of IDE Technologies' demo facility in Texas was announced. The facility tested IDE's unique MAXH2O Pulse Flow Reverse Osmosis technology, which treats concentrated RO brine effluent to maximize the recovery of high-quality water. (Source: https://thewaterdigest.com/ide-technologies-maxh2o-pfro-technology-successfully-demonstrated-in-texas/ ) June 2022: Metro Vancouver chose AECOM to build the North Shore Wastewater Treatment Plant, the company stated. About 250,000 households will be served by this new tertiary treatment facility, which will replace the current wastewater treatment plant. (Source: https://investors.aecom.com/news-releases/news-release-details/aecom-complete-design-new-north-shore-wastewater-treatment-plant ) September 2020: The privately held water service and equipment company Aquapure Technologies of Cincinnati, located in Hamilton, Ohio, was acquired by Evoqua Water Technologies. Agriculture is one of the end-user applications that the company serves. This acquisition is expected to enhance Evoqua's service capabilities in Cincinnati, Ohio, and the surrounding area. (Source: https://aqua.evoqua.com/news-and-events/news/news-details/2020/Evoqua-Acquires-Aquapure-Technologies-Expanding-Its-Presence-in-Ohio/default.aspx )

Top Companies Market Share in Agricultural Waste Water Treatment - WWT Industry: (In no particular order of Rank)

• AECOM
• Aquatech International LLC
• IDE Technologies
• BASF SE
• Evoqua Water Technologies LLC
• DuPont
• Louis Berger
• Nouryon
• Jacobs
• Lindsay Corporation
• Organo Corporation
• Suez SA
• Origin clear Inc
• Veolia Environnement SA
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*List of Second Tier Companies, List of Third Tier/ Start-up Companies (Inquire with sales executive) Request Any Company Profile for Preview Purpose OR Data Validation!

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Regional Analysis of the Agricultural Waste Water Treatment (WWT) Market

Which Region Dominates the Agricultural Waste Water Treatment (WWT) Market in 2024?

According to Cognitive Market Research, North America currently dominates the Agricultural Waste Water Treatment (WWT) market, and the region is expected to have significant growth during the projected period. The region is well-known because of its sophisticated technological infrastructure, strict environmental laws, and rising understanding of the value of sustainable farming methods. Advanced treatment technologies like membrane filtration, biological treatment, and chemical procedures are increasingly being used in North America to solve the problems caused by agricultural runoff.

Which Region is Expanding at the Fastest CAGR?

Asia-Pacific is expected to make significant gains during the projected period, with the greatest compound annual growth rate (CAGR). The region's food, agricultural, and animal husbandry industries produce organic, nutrient-rich effluent that, if improperly handled, could endanger surface and groundwater. Over the course of the forecast period, these factors are anticipated to drive the need for agricultural waste water treatment (WWT) technologies.

The current report Scope analyzes Agricultural Waste Water Treatment - WWT Market on 5 major region Split (In case you wish to acquire a specific region edition (more granular data) or any country Edition data then please write us on info@cognitivemarketresearch.com

• North America (United States, Canada, Mexico)
• Europe (United Kingdom, France, Germany, Italy, Russia, Spain, Sweden, Denmark, Switzerland, Luxembourg, Rest of Europe)
• Asia Pacific (China, Japan, South Korea, India, Australia, Singapore, Taiwan, South East Asia, Rest of APAC)
• Latin America (Brazil, Argentina, Colombia, Peru, Chile, Rest of South America)
• Middle East (Saudi Arabia, Turkey, UAE, Egypt, Qatar, Rest of Middle East)
• Africa (Nigeria, South Africa, Rest of Africa)

The above graph is for illustrative purposes only.

North America Agricultural Waste Water Treatment - WWT Market Analysis

According to Cognitive Market Research, the global Agricultural Waste Water Treatment (WWT) market size was estimated at USD 2614.5 Million, out of which North America held the major market share of more than 40% of the global revenue with a market size of USD 1045.80 million in 2024 and will grow at a compound annual growth rate (CAGR) of 1.7% from 2024 to 2031.

• According to Cognitive Market Research, the US had a major share in the Agricultural Waste Water Treatment (WWT) market with a market size of USD 825.14 million in 2024 and is projected to grow at a CAGR of 1.5% during the forecast period driven by the growing demand for renewable energy sources, the desire to enhance water quality and minimize pollution, and the availability of cutting-edge wastewater treatment technologies.
• The Canada Agricultural Waste Water Treatment (WWT) market had a market share of USD 125.50 million in 2024 and is projected to grow at a CAGR of 2.5% during the forecast period driven by the growing need for renewable energy sources, the necessity of reducing environmental pollution, the growing demand for organic food, and the significance of conserving water.
• The Mexico Agricultural Waste Water Treatment (WWT) market is projected to witness growth at a CAGR of 2.2% during the forecast period, with a market size of USD 95.17 million in 2024.

Europe Agricultural Waste Water Treatment - WWT Market Analysis

According to Cognitive Market Research, the global Agricultural Waste Water Treatment (WWT) market size was estimated at USD 2614.5 Million, out of which Europe held the market share of more than 30% of the global revenue with a market size of USD 784.35 million in 2024 and will grow at a compound annual growth rate (CAGR) of 2.0% from 2024 to 2031.

• The United Kingdom Agricultural Waste Water Treatment (WWT) market had a market share of USD 131.77 million in 2024 and is projected to grow at a CAGR of 2.8% during the forecast period because of the expanding population, the developing agricultural sector, the growing need for clean water, and the growth in water pollution.
• The France Agricultural Waste Water Treatment (WWT) market is projected to witness growth at a CAGR of 1.2% during the forecast period, with a market size of USD 72.16 million in 2024.
• According to Cognitive Market Research, the German Agricultural Waste Water Treatment (WWT) market size was valued at USD 155.30 million in 2024 and is projected to grow at a CAGR of 2.2% during the forecast period driven by the availability of state-of-the-art wastewater treatment technologies, the growing demand for renewable energy sources, and the goal of improving water quality and reducing pollution.
• The Italy Agricultural Waste Water Treatment (WWT) market is projected to witness growth at a CAGR of 1.4% during the forecast period, with a market size of USD 67.45 million in 2024.
• The Russia Agricultural Waste Water Treatment (WWT) market is projected to witness growth at a CAGR of 1.0% during the forecast period, with a market size of USD 121.57 million in 2024.
• The Spain Agricultural Waste Water Treatment (WWT) market is projected to witness growth at a CAGR of 1.1% during the forecast period with a market size of USD 64.32 million in 2024
• The Luxembourg Agricultural Waste Water Treatment (WWT) market is projected to witness growth at a CAGR of 2.1% during the forecast period, with a market size of USD 24.31 million in 2024.
• The Portugal Agricultural Waste Water Treatment (WWT) market is projected to witness growth at a CAGR of 1.8% during the forecast period, with a market size of USD 16.47 million in 2024.
• The Greece Agricultural Waste Water Treatment (WWT) market is projected to witness growth at a CAGR of 2.3% during the forecast period, with a market size of USD 9.41 million in 2024.
• The Rest of Europe's Agricultural Waste Water Treatment (WWT) market is projected to witness growth at a CAGR of 0.7% during the forecast period, with a market size of USD 121.57 million in 2024.

Asia Pacific Agricultural Waste Water Treatment - WWT Market Analysis

According to Cognitive Market Research, the global Agricultural Waste Water Treatment (WWT) market size was estimated at USD 2614.5 Million, out of which Asia Pacific held the market share of around 23% of the global revenue with a market size of USD 601.34 million in 2024 and will grow at a compound annual growth rate (CAGR) of 5.5% from 2024 to 2031.

• According to Cognitive Market Research, the China Agricultural Waste Water Treatment (WWT) market size was valued at USD 270.60 million in 2024 and is projected to grow at a CAGR of 5.0% during the forecast period because of the need to lessen water pollution, the growing population, and the increased need for food.
• The Japan Agricultural Waste Water Treatment (WWT) market is projected to witness growth at a CAGR of 4.0% during the forecast period, with a market size of USD 82.98 million in 2024.
• The India Agricultural Waste Water Treatment (WWT) market had a market share of USD 72.16 million in 2024 and is projected to grow at a CAGR of 7.3% during the forecast period driven by the increasing demand for organic food, the need to reduce environmental pollution, the need for renewable energy sources, and the need of water conservation.
• The South Korean Agricultural Waste Water Treatment (WWT) market is projected to witness growth at a CAGR of 4.6% during the forecast period, with a market size of USD 60.13 million in 2024.
• The Australian Agricultural Waste Water Treatment (WWT) market is projected to witness growth at a CAGR of 5.2% during the forecast period, with a market size of USD 31.27 million in 2024.
• The South East Asia Agricultural Waste Water Treatment (WWT) market is projected to witness growth at a CAGR of 6.5% during the forecast period, with a market size of USD 41.49 million in 2024.
• The Rest of Asia Pacific Agricultural Waste Water Treatment (WWT) market is projected to witness growth at a CAGR of 5.3% during the forecast period, with a market size of USD 42.69 million in 2024.

South America Agricultural Waste Water Treatment - WWT Market Analysis

According to Cognitive Market Research, the global Agricultural Waste Water Treatment (WWT) market size was estimated at USD 2614.5 Million, out of which the Latin America held the market share of around 5% of the global revenue with a market size of USD 130.73 million in 2024 and will grow at a compound annual growth rate (CAGR) of 2.9% from 2024 to 2031.

• According to Cognitive Market Research, the Brazil Agricultural Waste Water Treatment (WWT) market size was valued at USD 55.95 million in 2024 and is projected to grow at a CAGR of 3.5% during the forecast period due to the increased demand for clean water, the growing agricultural sector, the growing population, and the rise in water pollution.
• Argentina's Agricultural Waste Water Treatment (WWT) market had a market share of USD 21.96 million in 2024 and is projected to grow at a CAGR of 3.8% during the forecast period due to the expanding population, the demand for more food, and the need to reduce water pollution.
• Colombia Agricultural Waste Water Treatment (WWT) market is projected to witness growth at a CAGR of 2.7% during the forecast period, with a market size of USD 11.63 million in 2024.
• Peru Agricultural Waste Water Treatment (WWT) market is projected to witness growth at a CAGR of 3.1% during the forecast period, with a market size of USD 10.72 million in 2024.
• Chile Agricultural Waste Water Treatment (WWT) market is projected to witness growth at a CAGR of 3.2% during the forecast period, with a market size of USD 9.41 million in 2024.
• The Rest of Latin America's Agricultural Waste Water Treatment (WWT) market is projected to witness growth at a CAGR of 2.0% during the forecast period, with a market size of USD 21.05 million in 2024.

Middle East Agricultural Waste Water Treatment - WWT Market Analysis

According to Cognitive Market Research, the global Agricultural Waste Water Treatment (WWT) market size was estimated at USD 2614.5 Million, out of which the Middle East and Africa held the major market share of around 2% of the global revenue with a market size of USD 52.29 million in 2024 and will grow at a compound annual growth rate (CAGR) of 3.2% from 2024 to 2031..

• The GCC Countries Agricultural Waste Water Treatment (WWT) market is projected to witness growth at a CAGR of 4.0% during the forecast period, with a market size of USD 22.38 million in 2024 driven by the desire to improve water quality and lower pollution, the availability of cutting-edge wastewater treatment technologies, and the rising need for renewable energy sources.
• The Egypt Agricultural Waste Water Treatment (WWT) market is projected to witness growth at a CAGR of 3.5% during the forecast period, with a market size of USD 5.49 million in 2024.
• The South Africa Agricultural Waste Water Treatment (WWT) market is projected to witness growth at a CAGR of 4.2% during the forecast period, with a market size of USD 8.26 million in 2024 because of the need to decrease water pollution, the growing population, and the need for more food.
• The Turkey Agricultural Waste Water Treatment (WWT) market is projected to witness growth at a CAGR of 2.7% during the forecast period, with a market size of USD 4.50 million in 2024.
• The Nigeria Agricultural Waste Water Treatment (WWT) market is projected to witness growth at a CAGR of 2.3% during the forecast period, with a market size of USD 5.49 million in 2024.
• The Rest of the MEA Agricultural Waste Water Treatment (WWT) market is projected to witness growth at a CAGR of 2.2% during the forecast period, with a market size of USD 6.17 million in 2024.

Agricultural Waste Water Treatment - WWT Market Analysis

How are Segments Performing in the Global Agricultural Waste Water Treatment (WWT) Market?

Agricultural Waste Water Treatment (WWT) Market Type Segment Analysis

According to Cognitive Market Research, Dissolved Solids Removal category is likely to dominate the Agricultural Waste Water Treatment (WWT) Market over the forecast period because worries about water quality and the effects of agricultural runoff on the environment are growing. The goal of this section is to ensure that strict standards are followed and that water can be reused for irrigation or other agricultural uses by removing salts, minerals, and other dissolved solids from wastewater. Adoption in this category is being driven by cutting-edge technologies like electrodialysis, ion exchange, and reverse osmosis, which provide effective and scalable solutions for dealing with salinity problems in agricultural areas.

The Biological Treatment & Recovery is the fastest-growing segment in the Agricultural Waste Water Treatment (WWT) Market. The category of biological treatment and recovery is becoming more and more popular as a sustainable method of controlling organic contaminants in wastewater from agriculture. Anaerobic digestion and aerobic treatment are two biological processes that are used in this section to break down organic matter, extract nutrients like phosphate and nitrogen, and recover useful byproducts like compost or biogas. Since it not only treats wastewater but also improves resource recovery and helps environmentally friendly agricultural operations, the growing emphasis on circular economy techniques and sustainable farming is driving growth in this sector.

The above Chart is for representative purposes and does not depict actual sale statistics. Access/Request the quantitative data to understand the trends and dominating segment of Agricultural Waste Water Treatment - WWT Industry. Request a Free Sample PDF!

Agricultural Waste Water Treatment (WWT) Market Application Segment Analysis

According to Cognitive Market Research, the Crops segment holds the largest share of the market stimulated by the growing use of treated wastewater in agriculture. Farmers are using cutting-edge wastewater treatment technologies to guarantee a sustainable water supply for agricultural operations as the world's water shortage worsens. In addition to delivering a different source of water, treated wastewater also contributes to increased crop yields by providing nutrient-enriched water. The use of agricultural WWT technologies for crop irrigation is being further encouraged by government programs that support water reuse and sustainable farming methods, especially in areas with significant water stress or arid climates.

In the Agricultural Waste Water Treatment (WWT) Market, the Groundwater Resources has been expanding at a rapid pace because it is vital to prevent agricultural runoff from contaminating and replenishing aquifers. The quality of groundwater is seriously threatened by the high concentrations of nitrates, phosphates, and pesticides found in untreated wastewater from farming operations. In order to reduce these contaminants and protect groundwater resources, sophisticated wastewater treatment technologies are being used more and more.

The above Graph is for representation purposes only. This chart does not depict actual Market share.

Agricultural Waste Water Treatment - WWT Source Outlook: Segment Analysis

Agricultural Waste Water Treatment (WWT) Market Source Segment Analysis

According to Cognitive Market Research, the non-point source segment holds the largest market share. Fertilizers, pesticides, herbicides, and animal manure are examples of non-point source pollutants in agriculture that are sprayed to fields and have the potential to leak into adjacent water bodies. It is challenging to identify a single source for this runoff because it spreads over a large area. Rain and melting snow have a significant impact on non-point source pollution. Pollutants from agricultural land can be carried into rivers, lakes, and streams by rainfall. Controlling and addressing this kind of pollution is made more difficult by the irregular and unpredictable character of weather events.

In the Agricultural Waste Water Treatment (WWT) market, the rapidly growing sector is the point source category because of the growing demand for efficient treatment of wastewater that is immediately released from recognizable sources, like irrigation systems, livestock farms, and agricultural processing facilities. Governments and regulatory agencies around the world are enforcing strict limits on point source discharges as a result of increased awareness of water pollution and its detrimental effects on ecosystems. This has prompted the use of cutting-edge wastewater treatment technology designed especially to deal with pollutants like phosphorus, nitrogen, and organic matter that are frequently present in emissions from agricultural point sources.

• Point Source
• Non-Point Source

Agricultural Waste Water Treatment - WWT Technology Outlook: Segment Analysis

Agricultural Waste Water Treatment (WWT) Market Technology Segment Analysis

According to Cognitive Market Research, the chemical solutions segment dominates the market. Chemical solutions, such as disinfectants, flocculants, and coagulants, are very good in eliminating pollutants from wastewater, including suspended particles, pathogens, heavy metals, and nutrients. Pollutants' physical and chemical characteristics are changed during the treatment process to facilitate their separation and removal from the water. Chemical treatment is a common option in agriculture since it can handle a variety of toxins. Furthermore, chemical remedies are frequently more affordable than other sophisticated treatment technologies, particularly when it comes to initial capital expenditure.

Physical solutions is projected to be the fastest-growing segment in the Agricultural Waste Water Treatment (WWT) market. Physical solutions consist of barriers including barracks, deep bed filters, screens, and membranes, as well as sedimentation, adsorption, and flotation. They are mostly employed in the recovery of suspended solids. These techniques use electrical attraction, van der Wall forces, and gravity, among other natural forces, to remove trash. Heavy metals, colloids, sludge, debris, fine particles, and other dissolved particulate matter are among the contaminants that are frequently eliminated from water by physical water treatment procedures.

• Physical Solutions
• Chemical Solutions
• Biological Solutions

Agricultural Waste Water Treatment - WWT Component Outlook: Segment Analysis

Agricultural Waste Water Treatment (WWT) Market Component Segment Analysis

According to Cognitive Market Research, the Farmland Runoff segment holds the largest share of the market because people are becoming more conscious of how nutrient-laden runoff affects the ecosystem. This kind of wastewater has been a significant cause of water pollution since it introduces sediments, fertilizers, and pesticides into adjacent water bodies. Advanced treatment solutions have become more popular as a result of stricter environmental laws and efforts to reduce eutrophication in lakes and rivers. The need for efficient agriculture runoff management is also being fueled by the integration of technology such as biofilters, precision irrigation, and artificial wetlands.

In the Agricultural Waste Water Treatment (WWT) Market, the Farm Wastewater has been expanding at a rapid pace driven by the necessity of treating wastewater produced by aquaculture, dairy farms, and livestock activities. The high concentrations of organic matter, pathogens, and nutrients in this wastewater frequently call for specific treatment methods such nutrient recovery systems, membrane bioreactors, and anaerobic digestion. Growth in this area has been further stimulated by the adoption of sustainable farming methods and government funding for wastewater treatment facilities.

• Farmland Runoff
• Farm Wastewater
• Others

Author's Detail

Pratik Shirsath

Research Associate at Cognitive Market Research

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Profile

Pratik Shirsath is an accomplished Research Analyst with extensive expertise in the agriculture sector, bringing over one years of experience in market research and analysis. Pratik specializes in secondary research, competitive benchmarking, and data-driven insights that empower organizations to make strategic decisions and achieve their goals.

In his current role, Pratik leads research projects focused on the agriculture sector, driving initiatives that identify emerging market trends, assess competitive landscapes, and uncover growth opportunities. His proficiency in designing effective research methodologies and translating complex data into actionable strategies has consistently supported his organization’s objectives.

Pratik's dedication to delivering high-quality research and his in-depth knowledge of the agriculture industry have made him a trusted resource for his team and stakeholders. Passionate about innovation and sustainability in agriculture, he remains committed to advancing his expertise to navigate the evolving challenges and opportunities in the sector.

Author's Conclusion