Aquatic Herbicides Market is expected to grow at a CAGR of 6.5% during the forecast period and is expected to reach US$ 1.07 Bn by 2029.Aquatic Herbicides Market Overview:
The aquatic herbicide possesses chemical property of clopyralid, picloram, and triclopyr. It is generally used for resolving some problems like restricted recreation, fish kills, odor problem, and drinking water taste problem. Chelated copper compounds, fluridone, glyphosate, diquat, and endothall are used as aquatic herbicides. Aquatic herbicides are used to avoid, control, and eradicate weeds in aquatic conditions. The manmade water reservoir, because of limited water supply from freshwater reservoirs, rising trend of farm ponds to store & supply water, and increasing fishery and other aqua-cultural activities are the key factors driving the growth of the global aquatic herbicide market. Also, aquatic herbicides in dams and waterways for weed management are getting popular these days, which is driving the growth of the global aquatic herbicide market. The US Environmental Protection Agency (USEPA) has recorded 300 herbicides, and only 13 active constituents are approved for use in and near aquatic habitats.To know about the Research Methodology :- Request Free Sample Report On the other hand, taste problems, water use limits, and toxicity are the main factors expected to obstruct the growth of the global aquatic herbicides market in the future. As well, severe government regulation for approval of aquatic herbicides is an additional factor expected to obstruct the growth of the global market during the estimated period. Companies functioning in the global aquatic herbicides market can focus on the improvement of herbicides which are safe to aquatic animals and humans, therefore generating a lucrative opportunity for the present as well as new players operating in the market throughout the forecast period. By mode of application, the foliar segment is expected to hold the largest market share of the global market by 2029, as it ensures better weed cover as associated with the submerged application and further, takes less time. Based on the mode of action, aquatic herbicides can be selective and non-selective. Selective herbicides are not harmful to other living organisms in the same aquatic system and target only definite selective herbicides. Non-selective herbicides attack on every plant which comes in contact with them. Region-wise, the North American market expected to hold the global aquatic herbicides market in terms of revenue related to that of markets in other regions. This is mainly because of the existence of leading producers for aquatic herbicides in the region. Also, awareness about environmental concerns and the wide use of herbicides in agricultural activities to decrease labor costs related to weed management are the factors expected to fuel the growth of the market in the North America region. Asia-Pacific is expected to grow at the highest CAGR of the global market during the forecast period, because of the increasing demand for glyphosate from Australia and New Zealand to control the pre-emergence of weeds. The demand for aquatic herbicides in countries, for example, Australia, India, New Zealand, and China is expected to drive the growth of the market in the region. The objective of the report is to present a comprehensive analysis of the global market including all the stakeholders of the industry. The past and current status of the industry with forecasted market size and trends are presented in the report with the analysis of complicated data in simple language. The report covers all the aspects of the industry with a dedicated study of key players that includes market leaders, followers, and new entrants. PORTER, SVOR, PESTEL analysis with the potential impact of micro-economic factors of the market have been presented in the report. External as well as internal factors that are supposed to affect the business positively or negatively have been analyzed, which will give a clear futuristic view of the industry to the decision-makers. The report also helps in understanding global market dynamics, structure by analyzing the market segments and project the global market size. Clear representation of competitive analysis of key players by type, price, financial position, Product portfolio, growth strategies, and regional presence in the global market make the report investor’s guide.
Aquatic Herbicides Market Scope: Inquire before buying
Aquatic Herbicides Market Report Coverage Details Base Year: 2022 Forecast Period: 2023-2029 Historical Data: 2018 to 2022 Market Size in 2022: US $ 0.68 Bn. Forecast Period 2023 to 2029 CAGR: 6.5% Market Size in 2029: US $ 1.07 Bn. Segments Covered: by Type Glyphosate 2-4-D Imazapyr Diquat Triclopyr Others by Mode of Application Foliar Submerged by Mode of Action Selective Non-Selective by Application Agricultural Waters Fisheries Recreational Waters Others Aquatic Herbicides Market, by Region
North America (United States, Canada and Mexico) Europe (UK, France, Germany, Italy, Spain, Sweden, Austria and Rest of Europe) Asia Pacific (China, South Korea, Japan, India, Australia, Indonesia, Malaysia, Vietnam, Taiwan, Bangladesh, Pakistan and Rest of APAC) Middle East and Africa (South Africa, GCC, Egypt, Nigeria and Rest of ME&A) South America (Brazil, Argentina Rest of South America)Aquatic Herbicides Market Key players:
1. The Dow Chemical Company 2. BASF SE 3. Monsanto Company 4. Syngenta AG 5. Nufarm 6. Lonza Ltd. 7. UPL 8. Sepro Corporation 9. Valent U.S.A. Corp 10. Albaugh LLC. 11. Alligare 12. Aquacide Company 13. SOLitude Lake Management 14. Land O’Lakes Inc 15. Sanco Industries, Inc Frequently Asked Questions: 1. Which region has the largest share in Global Aquatic Herbicides Market? Ans: Asia-Pacific region held the highest share in 2022. 2. What is the growth rate of Global Aquatic Herbicides Market? Ans: The Global Aquatic Herbicides Market is growing at a CAGR of 6.5% during forecasting period 2023-2029. 3. What is scope of the Global Aquatic Herbicides market report? Ans: Global Aquatic Herbicides Market report helps with the PESTEL, PORTER, COVID-19 Impact analysis, Recommendations for Investors & Leaders, and market estimation of the forecast period. 4. Who are the key players in Global Aquatic Herbicides market? Ans: The important key players in the Global Aquatic Herbicides Market are – The Dow Chemical Company, BASF SE, Monsanto Company, Syngenta AG, Nufarm, Lonza Ltd., UPL, Sepro Corporation, Valent U.S.A. Corp, Albaugh LLC., Alligare, Aquacide Company, SOLitude Lake Management, Land O’Lakes Inc, Sanco Industries, and Inc 5. What is the study period of this market? Ans: The Global Aquatic Herbicides Market is studied from 2022 to 2029.
Global Aquatic Herbicides Market 1. Preface 1.1. Report Scope and Market Segmentation 1.2. Research Highlights 1.3. Research Objectives 2. Assumptions and Research Methodology 2.1. Report Assumptions 2.2. Abbreviations 2.3. Research Methodology 2.3.1. Secondary Research 2.3.1.1. Secondary data 2.3.1.2. Secondary Sources 2.3.2. Primary Research 2.3.2.1. Data from Primary Sources 2.3.2.2. Breakdown of Primary Sources 3. Executive Summary: Global Aquatic Herbicides Market Size, by Market Value (US$ Bn) 4. Market Overview 4.1. Introduction 4.2. Market Indicator 4.2.1. Drivers 4.2.2. Restraints 4.2.3. Opportunities 4.2.4. Challenges 4.3. Porter’s Analysis 4.4. Value Chain Analysis 4.5. Market Risk Analysis 4.6. SWOT Analysis 4.7. Industry Trends and Emerging Technologies 5. Supply Side and Demand Side Indicators 6. Global Aquatic Herbicides Market Analysis and Forecast 6.1. Aquatic Herbicides Market Size & Y-o-Y Growth Analysis 6.1.1. North America 6.1.2. Europe 6.1.3. Asia Pacific 6.1.4. Middle East & Africa 6.1.5. South America 7. Global Aquatic Herbicides Market Analysis and Forecast, by Mode of Application 7.1. Introduction and Definition 7.2. Key Findings 7.3. Aquatic Herbicides Market Value Share Analysis, by Mode of Application 7.4. Aquatic Herbicides Market Size (US$ Bn) Forecast, by Mode of Application 7.5. Aquatic Herbicides Market Analysis, by Mode of Application 7.6. Aquatic Herbicides Market Attractiveness Analysis, by Mode of Application 8. Global Aquatic Herbicides Market Analysis and Forecast, by Mode of Action 8.1. Introduction and Definition 8.2. Key Findings 8.3. Aquatic Herbicides Market Value Share Analysis, by Mode of Action 8.4. Aquatic Herbicides Market Size (US$ Bn) Forecast, by Mode of Action 8.5. Aquatic Herbicides Market Analysis, by Mode of Action 8.6. Aquatic Herbicides Market Attractiveness Analysis, by Mode of Action 9. Global Aquatic Herbicides Market Analysis and Forecast, by Type 9.1. Introduction and Definition 9.2. Key Findings 9.3. Aquatic Herbicides Market Value Share Analysis, by Type 9.4. Aquatic Herbicides Market Size (US$ Bn) Forecast, by Type 9.5. Aquatic Herbicides Market Analysis, by Type 9.6. Aquatic Herbicides Market Attractiveness Analysis, by Type 10. Global Aquatic Herbicides Market Analysis and Forecast, by Application 10.1. Introduction and Definition 10.2. Key Findings 10.3. Aquatic Herbicides Market Value Share Analysis, by Application 10.4. Aquatic Herbicides Market Size (US$ Bn) Forecast, by Application 10.5. Aquatic Herbicides Market Analysis, by Application 10.6. Aquatic Herbicides Market Attractiveness Analysis, by Application 11. Global Aquatic Herbicides Market Analysis, by Region 11.1. Aquatic Herbicides Market Value Share Analysis, by Region 11.2. Aquatic Herbicides Market Size (US$ Bn) Forecast, by Region 11.3. Aquatic Herbicides Market Attractiveness Analysis, by Region 12. North America Aquatic Herbicides Market Analysis 12.1. Key Findings 12.2. North America Aquatic Herbicides Market Overview 12.3. North America Aquatic Herbicides Market Value Share Analysis, by Mode of Application 12.4. North America Aquatic Herbicides Market Forecast, by Mode of Application 12.4.1. Foliar 12.4.2. Submerged 12.5. North America Aquatic Herbicides Market Value Share Analysis, by Mode of Action 12.6. North America Aquatic Herbicides Market Forecast, by Mode of Action 12.6.1. Selective 12.6.2. Non-Selective 12.7. North America Aquatic Herbicides Market Value Share Analysis, by Type 12.8. North America Aquatic Herbicides Market Forecast, by Type 12.8.1. Glyphosate 12.8.2. 2-4-D 12.8.3. Imazapyr 12.8.4. Diquat 12.8.5. Triclopyr 12.8.6. Others (fluridone, flumioxazin, and copper & chelated copper) 12.9. North America Aquatic Herbicides Market Value Share Analysis, by Application 12.10. North America Aquatic Herbicides Market Forecast, by Application 12.10.1. Agricultural Waters 12.10.2. Fisheries 12.10.3. Recreational Waters 12.10.4. Others (retention ponds, development waters, and flood control canals) 12.11. North America Aquatic Herbicides Market Value Share Analysis, by Country 12.12. North America Aquatic Herbicides Market Forecast, by Country 12.12.1. U.S. 12.12.2. Canada 12.13. North America Aquatic Herbicides Market Analysis, by Country 12.14. U.S. Aquatic Herbicides Market Forecast, by Mode of Application 12.14.1. Foliar 12.14.2. Submerged 12.15. U.S. Aquatic Herbicides Market Forecast, by Mode of Action 12.15.1. Selective 12.15.2. Non-Selective 12.16. U.S. Aquatic Herbicides Market Forecast, by Type 12.16.1. Glyphosate 12.16.2. 2-4-D 12.16.3. Imazapyr 12.16.4. Diquat 12.16.5. Triclopyr 12.16.6. Others (fluridone, flumioxazin, and copper & chelated copper) 12.17. U.S. Aquatic Herbicides Market Forecast, by Application 12.17.1. Agricultural Waters 12.17.2. Fisheries 12.17.3. Recreational Waters 12.17.4. Others (retention ponds, development waters, and flood control canals) 12.18. Canada Aquatic Herbicides Market Forecast, by Mode of Application 12.18.1. Foliar 12.18.2. Submerged 12.19. Canada Aquatic Herbicides Market Forecast, by Mode of Action 12.19.1. Selective 12.19.2. Non-Selective 12.20. Canada Aquatic Herbicides Market Forecast, by Type 12.20.1. Glyphosate 12.20.2. 2-4-D 12.20.3. Imazapyr 12.20.4. Diquat 12.20.5. Triclopyr 12.20.6. Others (fluridone, flumioxazin, and copper & chelated copper) 12.21. Canada Aquatic Herbicides Market Forecast, by Application 12.21.1. Agricultural Waters 12.21.2. Fisheries 12.21.3. Recreational Waters 12.21.4. Others (retention ponds, development waters, and flood control canals) 12.22. North America Aquatic Herbicides Market Attractiveness Analysis 12.22.1. By Mode of Application 12.22.2. By Mode of Action 12.22.3. By Type 12.22.4. By Application 12.23. PEST Analysis 12.24. Key Trends 12.25. Key Developments 13. Europe Aquatic Herbicides Market Analysis 13.1. Key Findings 13.2. Europe Aquatic Herbicides Market Overview 13.3. Europe Aquatic Herbicides Market Value Share Analysis, by Mode of Application 13.4. Europe Aquatic Herbicides Market Forecast, by Mode of Application 13.4.1. Foliar 13.4.2. Submerged 13.5. Europe Aquatic Herbicides Market Value Share Analysis, by Mode of Action 13.6. Europe Aquatic Herbicides Market Forecast, by Mode of Action 13.6.1. Selective 13.6.2. Non-Selective 13.7. Europe Aquatic Herbicides Market Value Share Analysis, by Type 13.8. Europe Aquatic Herbicides Market Forecast, by Type 13.8.1. Glyphosate 13.8.2. 2-4-D 13.8.3. Imazapyr 13.8.4. Diquat 13.8.5. Triclopyr 13.8.6. Others (fluridone, flumioxazin, and copper & chelated copper) 13.9. Europe Aquatic Herbicides Market Value Share Analysis, by Application 13.10. Europe Aquatic Herbicides Market Forecast, by Application 13.10.1. Agricultural Waters 13.10.2. Fisheries 13.10.3. Recreational Waters 13.10.4. Others (retention ponds, development waters, and flood control canals) 13.11. Europe Aquatic Herbicides Market Value Share Analysis, by Country 13.12. Europe Aquatic Herbicides Market Forecast, by Country 13.12.1. Germany 13.12.2. U.K. 13.12.3. France 13.12.4. Italy 13.12.5. Spain 13.12.6. Norway 13.12.7. Russia 13.13. Europe Aquatic Herbicides Market Analysis, by Country 13.14. Germany Aquatic Herbicides Market Forecast, by Mode of Application 13.14.1. Foliar 13.14.2. Submerged 13.15. Germany Aquatic Herbicides Market Forecast, by Mode of Action 13.15.1. Selective 13.15.2. Non-Selective 13.16. Germany Aquatic Herbicides Market Forecast, by Type 13.16.1. Glyphosate 13.16.2. 2-4-D 13.16.3. Imazapyr 13.16.4. Diquat 13.16.5. Triclopyr 13.16.6. Others (fluridone, flumioxazin, and copper & chelated copper) 13.17. Germany Aquatic Herbicides Market Forecast, by Application 13.17.1. Agricultural Waters 13.17.2. Fisheries 13.17.3. Recreational Waters 13.17.4. Others (retention ponds, development waters, and flood control canals) 13.18. U.K. Aquatic Herbicides Market Forecast, by Mode of Application 13.18.1. Foliar 13.18.2. Submerged 13.19. U.K. Aquatic Herbicides Market Forecast, by Mode of Action 13.19.1. Selective 13.19.2. Non-Selective 13.20. U.K. Aquatic Herbicides Market Forecast, by Type 13.20.1. Glyphosate 13.20.2. 2-4-D 13.20.3. Imazapyr 13.20.4. Diquat 13.20.5. Triclopyr 13.20.6. Others (fluridone, flumioxazin, and copper & chelated copper) 13.21. U.K. Aquatic Herbicides Market Forecast, by Application 13.21.1. Agricultural Waters 13.21.2. Fisheries 13.21.3. Recreational Waters 13.21.4. Others (retention ponds, development waters, and flood control canals) 13.22. France Aquatic Herbicides Market Forecast, by Mode of Application 13.22.1. Foliar 13.22.2. Submerged 13.23. France Aquatic Herbicides Market Forecast, by Mode of Action 13.23.1. Selective 13.23.2. Non-Selective 13.24. France Aquatic Herbicides Market Forecast, by Type 13.24.1. Glyphosate 13.24.2. 2-4-D 13.24.3. Imazapyr 13.24.4. Diquat 13.24.5. Triclopyr 13.24.6. Others (fluridone, flumioxazin, and copper & chelated copper) 13.25. France Aquatic Herbicides Market Forecast, by Application 13.25.1. Agricultural Waters 13.25.2. Fisheries 13.25.3. Recreational Waters 13.25.4. Others (retention ponds, development waters, and flood control canals) 13.26. Italy Aquatic Herbicides Market Forecast, by Mode of Application 13.26.1. Foliar 13.26.2. Submerged 13.27. Italy Aquatic Herbicides Market Forecast, by Mode of Action 13.27.1. Selective 13.27.2. Non-Selective 13.28. Italy Aquatic Herbicides Market Forecast, by Type 13.28.1. Glyphosate 13.28.2. 2-4-D 13.28.3. Imazapyr 13.28.4. Diquat 13.28.5. Triclopyr 13.28.6. Others (fluridone, flumioxazin, and copper & chelated copper) 13.29. Italy Aquatic Herbicides Market Forecast, by Application 13.29.1. Agricultural Waters 13.29.2. Fisheries 13.29.3. Recreational Waters 13.29.4. Others (retention ponds, development waters, and flood control canals) 13.30. Spain Aquatic Herbicides Market Forecast, by Mode of Application 13.30.1. Foliar 13.30.2. Submerged 13.31. Spain Aquatic Herbicides Market Forecast, by Mode of Action 13.31.1. Selective 13.31.2. Non-Selective 13.32. Spain Aquatic Herbicides Market Forecast, by Type 13.32.1. Glyphosate 13.32.2. 2-4-D 13.32.3. Imazapyr 13.32.4. Diquat 13.32.5. Triclopyr 13.32.6. Others (fluridone, flumioxazin, and copper & chelated copper) 13.33. Spain Aquatic Herbicides Market Forecast, by Application 13.33.1. Agricultural Waters 13.33.2. Fisheries 13.33.3. Recreational Waters 13.33.4. Others (retention ponds, development waters, and flood control canals) 13.34. Norway Aquatic Herbicides Market Forecast, by Mode of Application 13.34.1. Foliar 13.34.2. Submerged 13.35. Norway Aquatic Herbicides Market Forecast, by Mode of Action 13.35.1. Selective 13.35.2. Non-Selective 13.36. Norway Aquatic Herbicides Market Forecast, by Type 13.36.1. Glyphosate 13.36.2. 2-4-D 13.36.3. Imazapyr 13.36.4. Diquat 13.36.5. Triclopyr 13.36.6. Others (fluridone, flumioxazin, and copper & chelated copper) 13.37. Norway Aquatic Herbicides Market Forecast, by Application 13.37.1. Agricultural Waters 13.37.2. Fisheries 13.37.3. Recreational Waters 13.37.4. Others (retention ponds, development waters, and flood control canals) 13.38. Russia Aquatic Herbicides Market Forecast, by Mode of Application 13.38.1. Foliar 13.38.2. Submerged 13.39. Russia Aquatic Herbicides Market Forecast, by Mode of Action 13.39.1. Selective 13.39.2. Non-Selective 13.40. Russia Aquatic Herbicides Market Forecast, by Type 13.40.1. Glyphosate 13.40.2. 2-4-D 13.40.3. Imazapyr 13.40.4. Diquat 13.40.5. Triclopyr 13.40.6. Others (fluridone, flumioxazin, and copper & chelated copper) 13.41. Russia Aquatic Herbicides Market Forecast, by Application 13.41.1. Agricultural Waters 13.41.2. Fisheries 13.41.3. Recreational Waters 13.41.4. Others (retention ponds, development waters, and flood control canals) 13.42. Europe Aquatic Herbicides Market Attractiveness Analysis 13.42.1. By Mode of Application 13.42.2. By Mode of Action 13.42.3. By Type 13.42.4. By Application 13.43. PEST Analysis 13.44. Key Trends 13.45. Key Developments 14. Asia Pacific Aquatic Herbicides Market Analysis 14.1. Key Findings 14.2. Asia Pacific Aquatic Herbicides Market Overview 14.3. Asia Pacific Aquatic Herbicides Market Value Share Analysis, by Mode of Application 14.4. Asia Pacific Aquatic Herbicides Market Forecast, by Mode of Application 14.4.1. Foliar 14.4.2. Submerged 14.5. Asia Pacific Aquatic Herbicides Market Value Share Analysis, by Mode of Action 14.6. Asia Pacific Aquatic Herbicides Market Forecast, by Mode of Action 14.6.1. Selective 14.6.2. Non-Selective 14.7. Asia Pacific Aquatic Herbicides Market Value Share Analysis, by Type 14.8. Asia Pacific Aquatic Herbicides Market Forecast, by Type 14.8.1. Glyphosate 14.8.2. 2-4-D 14.8.3. Imazapyr 14.8.4. Diquat 14.8.5. Triclopyr 14.8.6. Others (fluridone, flumioxazin, and copper & chelated copper) 14.9. Asia Pacific Aquatic Herbicides Market Value Share Analysis, by Application 14.10. Asia Pacific Aquatic Herbicides Market Forecast, by Application 14.10.1. Agricultural Waters 14.10.2. Fisheries 14.10.3. Recreational Waters 14.10.4. Others (retention ponds, development waters, and flood control canals) 14.11. Asia Pacific Aquatic Herbicides Market Value Share Analysis, by Country 14.12. Asia Pacific Aquatic Herbicides Market Forecast, by Country 14.12.1. China 14.12.2. India 14.12.3. Japan 14.12.4. South Korea 14.12.5. Australia 14.12.6. Malaysia 14.12.7. Indonesia 14.12.8. Vietnam 14.13. Asia Pacific Aquatic Herbicides Market Analysis, by Country 14.14. China Aquatic Herbicides Market Forecast, by Mode of Application 14.14.1. Foliar 14.14.2. Submerged 14.15. China Aquatic Herbicides Market Forecast, by Mode of Action 14.15.1. Selective 14.15.2. Non-Selective 14.16. China Aquatic Herbicides Market Forecast, by Type 14.16.1. Glyphosate 14.16.2. 2-4-D 14.16.3. Imazapyr 14.16.4. Diquat 14.16.5. Triclopyr 14.16.6. Others (fluridone, flumioxazin, and copper & chelated copper) 14.17. China Aquatic Herbicides Market Forecast, by Application 14.17.1. Agricultural Waters 14.17.2. Fisheries 14.17.3. Recreational Waters 14.17.4. Others (retention ponds, development waters, and flood control canals) 14.18. India Aquatic Herbicides Market Forecast, by Mode of Application 14.18.1. Foliar 14.18.2. Submerged 14.19. India Aquatic Herbicides Market Forecast, by Mode of Action 14.19.1. Selective 14.19.2. Non-Selective 14.20. India Aquatic Herbicides Market Forecast, by Type 14.20.1. Glyphosate 14.20.2. 2-4-D 14.20.3. Imazapyr 14.20.4. Diquat 14.20.5. Triclopyr 14.20.6. Others (fluridone, flumioxazin, and copper & chelated copper) 14.21. India Aquatic Herbicides Market Forecast, by Application 14.21.1. Agricultural Waters 14.21.2. Fisheries 14.21.3. Recreational Waters 14.21.4. Others (retention ponds, development waters, and flood control canals) 14.22. Japan Aquatic Herbicides Market Forecast, by Mode of Application 14.22.1. Foliar 14.22.2. Submerged 14.23. Japan Aquatic Herbicides Market Forecast, by Mode of Action 14.23.1. Selective 14.23.2. Non-Selective 14.24. Japan Aquatic Herbicides Market Forecast, by Type 14.24.1. Glyphosate 14.24.2. 2-4-D 14.24.3. Imazapyr 14.24.4. Diquat 14.24.5. Triclopyr 14.24.6. Others (fluridone, flumioxazin, and copper & chelated copper) 14.25. Japan Aquatic Herbicides Market Forecast, by Application 14.25.1. Agricultural Waters 14.25.2. Fisheries 14.25.3. Recreational Waters 14.25.4. Others (retention ponds, development waters, and flood control canals) 14.26. South Korea Aquatic Herbicides Market Forecast, by Mode of Application 14.26.1. Foliar 14.26.2. Submerged 14.27. South Korea Aquatic Herbicides Market Forecast, by Mode of Action 14.27.1. Selective 14.27.2. Non-Selective 14.28. South Korea Aquatic Herbicides Market Forecast, by Type 14.28.1. Glyphosate 14.28.2. 2-4-D 14.28.3. Imazapyr 14.28.4. Diquat 14.28.5. Triclopyr 14.28.6. Others (fluridone, flumioxazin, and copper & chelated copper) 14.29. South Korea Aquatic Herbicides Market Forecast, by Application 14.29.1. Agricultural Waters 14.29.2. Fisheries 14.29.3. Recreational Waters 14.29.4. Others (retention ponds, development waters, and flood control canals) 14.30. Australia Aquatic Herbicides Market Forecast, by Mode of Application 14.30.1. Foliar 14.30.2. Submerged 14.31. Australia Aquatic Herbicides Market Forecast, by Mode of Action 14.31.1. Selective 14.31.2. Non-Selective 14.32. Australia Aquatic Herbicides Market Forecast, by Type 14.32.1. Glyphosate 14.32.2. 2-4-D 14.32.3. Imazapyr 14.32.4. Diquat 14.32.5. Triclopyr 14.32.6. Others (fluridone, flumioxazin, and copper & chelated copper) 14.33. Australia Aquatic Herbicides Market Forecast, by Application 14.33.1. Agricultural Waters 14.33.2. Fisheries 14.33.3. Recreational Waters 14.33.4. Others (retention ponds, development waters, and flood control canals) 14.34. Malaysia Aquatic Herbicides Market Forecast, by Mode of Application 14.34.1. Foliar 14.34.2. Submerged 14.35. Malaysia Aquatic Herbicides Market Forecast, by Mode of Action 14.35.1. Selective 14.35.2. Non-Selective 14.36. Malaysia Aquatic Herbicides Market Forecast, by Type 14.36.1. Glyphosate 14.36.2. 2-4-D 14.36.3. Imazapyr 14.36.4. Diquat 14.36.5. Triclopyr 14.36.6. Others (fluridone, flumioxazin, and copper & chelated copper) 14.37. Malaysia Aquatic Herbicides Market Forecast, by Application 14.37.1. Agricultural Waters 14.37.2. Fisheries 14.37.3. Recreational Waters 14.37.4. Others (retention ponds, development waters, and flood control canals) 14.38. Indonesia Aquatic Herbicides Market Forecast, by Mode of Application 14.38.1. Foliar 14.38.2. Submerged 14.39. Indonesia Aquatic Herbicides Market Forecast, by Mode of Action 14.39.1. Selective 14.39.2. Non-Selective 14.40. Indonesia Aquatic Herbicides Market Forecast, by Type 14.40.1. Glyphosate 14.40.2. 2-4-D 14.40.3. Imazapyr 14.40.4. Diquat 14.40.5. Triclopyr 14.40.6. Others (fluridone, flumioxazin, and copper & chelated copper) 14.41. Indonesia Aquatic Herbicides Market Forecast, by Application 14.41.1. Agricultural Waters 14.41.2. Fisheries 14.41.3. Recreational Waters 14.41.4. Others (retention ponds, development waters, and flood control canals) 14.42. Vietnam Aquatic Herbicides Market Forecast, by Mode of Application 14.42.1. Foliar 14.42.2. Submerged 14.43. Vietnam Aquatic Herbicides Market Forecast, by Mode of Action 14.43.1. Selective 14.43.2. Non-Selective 14.44. Vietnam Aquatic Herbicides Market Forecast, by Type 14.44.1. Glyphosate 14.44.2. 2-4-D 14.44.3. Imazapyr 14.44.4. Diquat 14.44.5. Triclopyr 14.44.6. Others (fluridone, flumioxazin, and copper & chelated copper) 14.45. Vietnam Aquatic Herbicides Market Forecast, by Application 14.45.1. Agricultural Waters 14.45.2. Fisheries 14.45.3. Recreational Waters 14.45.4. Others (retention ponds, development waters, and flood control canals) 14.46. Asia Pacific Aquatic Herbicides Market Attractiveness Analysis 14.46.1. By Mode of Application 14.46.2. By Mode of Action 14.46.3. By Type 14.46.4. By Application 14.47. PEST Analysis 14.48. Key Trends 14.49. Key Developments 15. Middle East & Africa Aquatic Herbicides Market Analysis 15.1. Key Findings 15.2. Middle East & Africa Aquatic Herbicides Market Overview 15.3. Middle East & Africa Aquatic Herbicides Market Value Share Analysis, by Mode of Application 15.4. Middle East & Africa Aquatic Herbicides Market Forecast, by Mode of Application 15.4.1. Foliar 15.4.2. Submerged 15.5. Middle East & Africa Aquatic Herbicides Market Value Share Analysis, by Mode of Action 15.6. Middle East & Africa Aquatic Herbicides Market Forecast, by Mode of Action 15.6.1. Selective 15.6.2. Non-Selective 15.7. Middle East & Africa Aquatic Herbicides Market Value Share Analysis, by Type 15.8. Middle East & Africa Aquatic Herbicides Market Forecast, by Type 15.8.1. Glyphosate 15.8.2. 2-4-D 15.8.3. Imazapyr 15.8.4. Diquat 15.8.5. Triclopyr 15.8.6. Others (fluridone, flumioxazin, and copper & chelated copper) 15.9. Middle East & Africa Aquatic Herbicides Market Value Share Analysis, by Application 15.10. Middle East & Africa Aquatic Herbicides Market Forecast, by Application 15.10.1. Agricultural Waters 15.10.2. Fisheries 15.10.3. Recreational Waters 15.10.4. Others (retention ponds, development waters, and flood control canals) 15.11. Middle East & Africa Aquatic Herbicides Market Value Share Analysis, by Country 15.12. Middle East & Africa Aquatic Herbicides Market Forecast, by Country 15.12.1. GCC 15.12.2. South Africa 15.12.3. Nigeria 15.12.4. Egypt 15.13. Middle East & Africa Aquatic Herbicides Market Analysis, by Country 15.14. GCC Aquatic Herbicides Market Forecast, by Mode of Application 15.14.1. Foliar 15.14.2. Submerged 15.15. GCC Aquatic Herbicides Market Forecast, by Mode of Action 15.15.1. Selective 15.15.2. Non-Selective 15.16. GCC Aquatic Herbicides Market Forecast, by Type 15.16.1. Glyphosate 15.16.2. 2-4-D 15.16.3. Imazapyr 15.16.4. Diquat 15.16.5. Triclopyr 15.16.6. Others (fluridone, flumioxazin, and copper & chelated copper) 15.17. GCC Aquatic Herbicides Market Forecast, by Application 15.17.1. Agricultural Waters 15.17.2. Fisheries 15.17.3. Recreational Waters 15.17.4. Others (retention ponds, development waters, and flood control canals) 15.18. South Africa Aquatic Herbicides Market Forecast, by Mode of Application 15.18.1. Foliar 15.18.2. Submerged 15.19. South Africa Aquatic Herbicides Market Forecast, by Mode of Action 15.19.1. Selective 15.19.2. Non-Selective 15.20. South Africa Aquatic Herbicides Market Forecast, by Type 15.20.1. Glyphosate 15.20.2. 2-4-D 15.20.3. Imazapyr 15.20.4. Diquat 15.20.5. Triclopyr 15.20.6. Others (fluridone, flumioxazin, and copper & chelated copper) 15.21. South Africa Aquatic Herbicides Market Forecast, by Application 15.21.1. Agricultural Waters 15.21.2. Fisheries 15.21.3. Recreational Waters 15.21.4. Others (retention ponds, development waters, and flood control canals) 15.22. Nigeria Aquatic Herbicides Market Forecast, by Mode of Application 15.22.1. Foliar 15.22.2. Submerged 15.23. Nigeria Aquatic Herbicides Market Forecast, by Mode of Action 15.23.1. Selective 15.23.2. Non-Selective 15.24. Nigeria Aquatic Herbicides Market Forecast, by Type 15.24.1. Glyphosate 15.24.2. 2-4-D 15.24.3. Imazapyr 15.24.4. Diquat 15.24.5. Triclopyr 15.24.6. Others (fluridone, flumioxazin, and copper & chelated copper) 15.25. Nigeria Aquatic Herbicides Market Forecast, by Application 15.25.1. Agricultural Waters 15.25.2. Fisheries 15.25.3. Recreational Waters 15.25.4. Others (retention ponds, development waters, and flood control canals) 15.26. Egypt Aquatic Herbicides Market Forecast, by Mode of Application 15.26.1. Foliar 15.26.2. Submerged 15.27. Egypt Aquatic Herbicides Market Forecast, by Mode of Action 15.27.1. Selective 15.27.2. Non-Selective 15.28. Egypt Aquatic Herbicides Market Forecast, by Type 15.28.1. Glyphosate 15.28.2. 2-4-D 15.28.3. Imazapyr 15.28.4. Diquat 15.28.5. Triclopyr 15.28.6. Others (fluridone, flumioxazin, and copper & chelated copper) 15.29. Egypt Aquatic Herbicides Market Forecast, by Application 15.29.1. Agricultural Waters 15.29.2. Fisheries 15.29.3. Recreational Waters 15.29.4. Others (retention ponds, development waters, and flood control canals) 15.30. Middle East & Africa Aquatic Herbicides Market Attractiveness Analysis 15.30.1. By Mode of Application 15.30.2. By Mode of Action 15.30.3. By Type 15.30.4. By Application 15.31. PEST Analysis 15.32. Key Trends 15.33. Key Developments 16. South America Aquatic Herbicides Market Analysis 16.1. Key Findings 16.2. South America Aquatic Herbicides Market Overview 16.3. South America Aquatic Herbicides Market Value Share Analysis, by Mode of Application 16.4. South America Aquatic Herbicides Market Forecast, by Mode of Application 16.4.1. Foliar 16.4.2. Submerged 16.5. South America Aquatic Herbicides Market Value Share Analysis, by Mode of Action 16.6. South America Aquatic Herbicides Market Forecast, by Mode of Action 16.6.1. Selective 16.6.2. Non-Selective 16.7. South America Aquatic Herbicides Market Value Share Analysis, by Type 16.8. South America Aquatic Herbicides Market Forecast, by Type 16.8.1. Glyphosate 16.8.2. 2-4-D 16.8.3. Imazapyr 16.8.4. Diquat 16.8.5. Triclopyr 16.8.6. Others (fluridone, flumioxazin, and copper & chelated copper) 16.9. South America Aquatic Herbicides Market Value Share Analysis, by Application 16.10. South America Aquatic Herbicides Market Forecast, by Application 16.10.1. Agricultural Waters 16.10.2. Fisheries 16.10.3. Recreational Waters 16.10.4. Others (retention ponds, development waters, and flood control canals) 16.11. South America Aquatic Herbicides Market Value Share Analysis, by Country 16.12. South America Aquatic Herbicides Market Forecast, by Country 16.12.1. Brazil 16.12.2. Mexico 16.12.3. Argentina 16.13. South America Aquatic Herbicides Market Analysis, by Country 16.14. Brazil Aquatic Herbicides Market Forecast, by Mode of Application 16.14.1. Foliar 16.14.2. Submerged 16.15. Brazil Aquatic Herbicides Market Forecast, by Mode of Action 16.15.1. Selective 16.15.2. Non-Selective 16.16. Brazil Aquatic Herbicides Market Forecast, by Type 16.16.1. Glyphosate 16.16.2. 2-4-D 16.16.3. Imazapyr 16.16.4. Diquat 16.16.5. Triclopyr 16.16.6. Others (fluridone, flumioxazin, and copper & chelated copper) 16.17. Brazil Aquatic Herbicides Market Forecast, by Application 16.17.1. Agricultural Waters 16.17.2. Fisheries 16.17.3. Recreational Waters 16.17.4. Others (retention ponds, development waters, and flood control canals) 16.18. Mexico Aquatic Herbicides Market Forecast, by Mode of Application 16.18.1. Foliar 16.18.2. Submerged 16.19. Mexico Aquatic Herbicides Market Forecast, by Mode of Action 16.19.1. Selective 16.19.2. Non-Selective 16.20. Mexico Aquatic Herbicides Market Forecast, by Type 16.20.1. Glyphosate 16.20.2. 2-4-D 16.20.3. Imazapyr 16.20.4. Diquat 16.20.5. Triclopyr 16.20.6. Others (fluridone, flumioxazin, and copper & chelated copper) 16.21. Mexico Aquatic Herbicides Market Forecast, by Application 16.21.1. Agricultural Waters 16.21.2. Fisheries 16.21.3. Recreational Waters 16.21.4. Others (retention ponds, development waters, and flood control canals) 16.22. Argentina Aquatic Herbicides Market Forecast, by Mode of Application 16.22.1. Foliar 16.22.2. Submerged 16.23. Argentina Aquatic Herbicides Market Forecast, by Mode of Action 16.23.1. Selective 16.23.2. Non-Selective 16.24. Argentina Aquatic Herbicides Market Forecast, by Type 16.24.1. Glyphosate 16.24.2. 2-4-D 16.24.3. Imazapyr 16.24.4. Diquat 16.24.5. Triclopyr 16.24.6. Others (fluridone, flumioxazin, and copper & chelated copper) 16.25. Argentina Aquatic Herbicides Market Forecast, by Application 16.25.1. Agricultural Waters 16.25.2. Fisheries 16.25.3. Recreational Waters 16.25.4. Others (retention ponds, development waters, and flood control canals) 16.26. South America Aquatic Herbicides Market Attractiveness Analysis 16.26.1. By Mode of Application 16.26.2. By Mode of Action 16.26.3. By Type 16.26.4. By Application 16.27. PEST Analysis 16.28. Key Trends 16.29. Key Developments 17. Company Profiles 17.1. Market Share Analysis, by Company 17.2. Competition Matrix 17.2.1. Competitive Benchmarking of key players by price, presence, market share, Applications and R&D investment 17.2.2. New Product Launches and Product Enhancements 17.2.3. Market Consolidation 17.2.3.1. M&A by Regions, Investment and Applications 17.2.3.2. M&A Key Players, Forward Integration and Backward Integration 17.3. Company Profiles: Key Players 17.3.1. The Dow Chemical Company 17.3.1.1. Company Overview 17.3.1.2. Financial Overview 17.3.1.3. Product Portfolio 17.3.1.4. Business Strategy 17.3.1.5. Recent Developments 17.3.1.6. Development Footprint 17.3.2. BASF SE 17.3.3. Monsanto Company 17.3.4. Syngenta AG 17.3.5. Nufarm 17.3.6. Lonza Ltd. 17.3.7. UPL 17.3.8. Sepro Corporation 17.3.9. Valent U.S.A. Corp 17.3.10. Albaugh LLC. 17.3.11. Alligare 17.3.12. Aquacide Company 17.3.13. SOLitude Lake Management 17.3.14. Land O’Lakes Inc 17.3.15. Sanco Industries, Inc. 18. Primary Key Insights