세계 피레드로이드 살충제 시장은 2023년 35억 8,000만 달러로 평가되었고, 2029년까지 연평균 4.92%의 안정적인 성장세를 보일 것으로 예상됩니다.
피레드로이드 살충제는 국화꽃에서 추출한 살충 화합물인 천연 피레트린에서 추출한 합성 화학 살충제의 일종입니다. 피레드로이드는 효과, 낮은 포유류 독성 및 비교적 짧은 환경 잔류성으로 인해 농업, 공중 보건, 수의학 및 주거 환경에서 광범위한 해충 방제에 널리 사용되고 있습니다. 피레스로이드는 모기, 파리, 바퀴벌레, 개미, 딱정벌레, 나방, 진딧물, 애벌레, 장수풍뎅이 등 농업 해충을 포함한 광범위한 해충에 대해 광범위한 살충 활성을 나타냅니다. 피레스로이드는 나트륨 채널을 표적으로 삼아 곤충의 신경계를 파괴하여 마비 및 최종 사망에 이르게 합니다. 접촉, 섭취, 흡입을 통해 작용하기 때문에 지표에 서식하는 곤충과 날아다니는 곤충 모두에 효과적입니다. 피레드로이드 살충제는 표적 해충에 대해 빠른 녹다운 효과를 나타내며, 노출 후 즉시 움직일 수 없게 됩니다. 또한, 잔류 효과도 있어 처리된 표면에 일정 기간 동안 활성도가 남아있어 해충으로부터 장기간 보호할 수 있습니다.
| 시장 개요 | |
|---|---|
| 예측 기간 | 2025-2029년 |
| 시장 규모 : 2023년 | 35억 8,000만 달러 |
| 시장 규모 : 2029년 | 47억 9,000만 달러 |
| CAGR: 2024-2029년 | 4.92% |
| 급성장 부문 | Cyfluthrin |
| 최대 시장 | 북미 |
인구 증가와 식습관 변화에 대응하기 위해 전 세계적으로 농업 활동이 확대되고 있습니다. 피레스로이드 살충제는 곤충, 진드기 및 기타 해충을 포함한 광범위한 해충으로부터 농작물을 보호하여 농업의 생산성과 지속가능성을 유지하는 데 중요한 역할을 하고 있습니다. 제형 개선, 살포 방법, 정밀 농업 기술 등 농업 분야의 기술 발전은 피레드로이드 농약의 효능과 효율을 향상시켰습니다. 방출 제어 제형과 표적 전달 시스템과 같은 기술 혁신은 환경에 미치는 영향을 최소화하면서 농약 사용을 최적화하는 데 도움을 주고 있습니다. 병해충은 농업 생산성과 작물 건강에 심각한 문제를 야기합니다. 피레드로이드 농약은 곤충, 잡초, 병원균을 포함한 광범위한 해충을 방제하는 효과적인 솔루션을 제공하여 수확량 손실을 줄이고 작물의 품질을 유지합니다.
농업 기술의 발전
농업 활동 확대
종합적 유해생물 관리(IPM) 실천 증가
농약 저항성
바이오 대체 농약의 등장
바이오의 친환경 농약으로 전환
Global Pyrethroid Pesticide Market was valued at USD 3.58 billion in 2023 and will see an steady growth in the forecast period at a CAGR of 4.92% through 2029. Pyrethroid pesticides are a class of synthetic chemical insecticides derived from natural pyrethrins, which are insecticidal compounds extracted from chrysanthemum flowers. Pyrethroids are widely used to control a broad spectrum of insect pests in agriculture, public health, veterinary medicine, and residential settings due to their effectiveness, low mammalian toxicity, and relatively short environmental persistence. Pyrethroids exhibit broad-spectrum insecticidal activity against a wide range of insect pests, including mosquitoes, flies, cockroaches, ants, beetles, moths, and agricultural pests like aphids, caterpillars, and leafhoppers. Pyrethroids disrupt the nervous system of insects by targeting sodium channels, leading to paralysis and eventual death. They can act through contact, ingestion, or inhalation, making them effective against both surface-dwelling and flying insects. Pyrethroid pesticides have a rapid knockdown effect on target pests, immobilizing them quickly upon exposure. They also exhibit a residual effect, remaining active on treated surfaces for a certain period, providing extended protection against insect pests.
| Market Overview | |
|---|---|
| Forecast Period | 2025-2029 |
| Market Size 2023 | USD 3.58 Billion |
| Market Size 2029 | USD 4.79 Billion |
| CAGR 2024-2029 | 4.92% |
| Fastest Growing Segment | Cyfluthrin |
| Largest Market | North America |
Agricultural activities are expanding globally to meet the needs of a growing population and changing dietary preferences. Pyrethroid pesticides play a crucial role in protecting crops from a wide range of pests, including insects, mites, and other harmful organisms, thereby supporting agricultural productivity and sustainability. Technological advancements in agriculture, including improved formulations, application methods, and precision farming techniques, have enhanced the efficacy and efficiency of pyrethroid pesticides. Innovations such as controlled-release formulations and targeted delivery systems help optimize pesticide use while minimizing environmental impact. Pests and diseases pose significant challenges to agricultural productivity and crop health. Pyrethroid pesticides offer effective solutions for controlling a broad spectrum of pests, including insects, weeds, and pathogens, thereby mitigating yield losses and preserving crop quality.
Key Market Drivers
Advancements in Agricultural Technology
Precision agriculture utilizes technology such as GPS, sensors, drones, and satellite imagery to optimize field-level management about crop variability, soil characteristics, and environmental conditions. Farmers can precisely apply inputs like water, fertilizers, and pesticides, leading to increased efficiency, reduced costs, and minimized environmental impact. Biotechnology has enabled the development of genetically modified (GM) crops with desirable traits such as resistance to pests, diseases, and herbicides, as well as enhanced nutritional content and tolerance to environmental stresses like drought and salinity. GM crops offer higher yields, reduced pesticide use, and improved crop resilience, contributing to global food security. Mechanization and automation technologies, including tractors, harvesters, planters, and irrigation systems, have mechanized labor-intensive farming tasks, increasing productivity and reducing dependency on manual labor. Automated systems enable precise planting, harvesting, and irrigation, optimizing resource utilization and enhancing farm efficiency.
Data analytics and farm management software platforms collect, analyze, and visualize large volumes of agricultural data, including weather patterns, soil moisture levels, crop yields, and input usage. Farmers can make data-driven decisions to optimize farm operations, monitor crop performance, and mitigate risks, improving overall productivity and profitability. Vertical farming and CEA systems utilize indoor environments, such as greenhouses and hydroponic/aquaponic facilities, to grow crops under controlled conditions. These technologies enable year-round production, efficient resource utilization, and protection against adverse weather conditions and pests, offering opportunities for urban agriculture and localized food production.
Advances in biotechnology have led to the development of biologicals and biopesticides derived from natural sources, including microorganisms, plant extracts, and pheromones. These environmentally friendly alternatives to conventional chemical pesticides offer effective pest and disease control while minimizing risks to human health and the environment. Blockchain technology facilitates transparent and traceable supply chains by recording transactions and data exchanges in a secure, decentralized ledger. In agriculture, blockchain enables end-to-end visibility of food production, processing, and distribution, enhancing food safety, quality assurance, and regulatory compliance. Smart farming integrates IoT devices, sensors, and connectivity solutions to monitor and manage farm operations in real time. IoT-enabled systems enable remote monitoring of crop conditions, irrigation scheduling, equipment performance, and environmental parameters, optimizing resource use and enhancing decision-making capabilities. This factor will help in the development of the Global Pyrethroid Pesticide Market.
Expanding Agricultural Activities
As agricultural activities expand to meet the growing demand for food, feed, fiber, and biofuel crops, more land is brought under cultivation. With larger cultivation areas, there is a greater need for effective pest control measures to protect crops from insect pests, which can cause significant yield losses if left unchecked. Agricultural expansion often involves the cultivation of a wide range of crops, including staple crops like cereals, oilseeds, and pulses, as well as cash crops like fruits, vegetables, and plantation crops. Different crops attract different pests, necessitating the use of pyrethroid pesticides with broad-spectrum activity to control a variety of insect pests across multiple crop types.
With increasing population pressure and changing dietary preferences, there is a trend toward intensifying agricultural production to achieve higher yields per unit area. Intensive farming practices often create favorable conditions for pest infestations, requiring proactive pest management strategies, including the use of pyrethroid pesticides, to maintain crop productivity and profitability. Agricultural expansion may also involve the conversion of marginal lands, such as forests, grasslands, and wetlands, into arable land for crop cultivation. These newly cultivated areas may be more prone to pest outbreaks due to disrupted ecological balances, making pest control measures essential for successful crop production. The globalization of trade and agriculture has facilitated the exchange of agricultural commodities, inputs, and technologies across borders. As agricultural systems become more interconnected, the spread of pests and diseases becomes a greater risk, necessitating the use of pyrethroid pesticides to prevent and manage pest incursions and safeguard crop yields.
Climate change can alter temperature and precipitation patterns, creating new challenges for pest management in agriculture. Changes in climatic conditions may favor the proliferation of certain insect pests while negatively impacting natural enemies and biological control agents. Pyrethroid pesticides provide a flexible and reliable tool for mitigating the impact of climate-induced pest pressures on crop production. The regulatory environment governing pesticide use may also influence the demand for pyrethroid pesticides in expanding agricultural activities. Regulatory agencies establish guidelines and restrictions to ensure the safe and responsible use of pesticides, which can impact the availability, accessibility, and usage patterns of pyrethroid products in different regions and markets. This factor will pace up the demand of the Global Pyrethroid Pesticide Market.
Rising Integrated Pest Management (IPM) Practices
While IPM emphasizes the use of non-chemical control methods whenever possible, chemical pesticides such as pyrethroids are often an integral component of an IPM program. Pyrethroid pesticides provide a valuable tool for controlling insect pests that cannot be effectively managed through other means, particularly in situations where pest populations are high or economic thresholds are exceeded. Pyrethroid pesticides offer selective and targeted control of insect pests, minimizing impacts on beneficial organisms and non-target species. When used judiciously and according to label instructions, pyrethroids can effectively manage specific pests while preserving natural enemies and ecosystem balance within agroecosystems. In IPM systems, pyrethroid pesticides may be used as part of an integrated strategy to suppress pest outbreaks and prevent economic damage to crops. Pyrethroids are known for their rapid knockdown and residual activity against a broad spectrum of insect pests, making them valuable tools for managing pest populations and protecting crop yields during critical growth stages. Pyrethroid resistance is a significant challenge in pest management, but integrated approaches can help delay the development of resistance and prolong the effectiveness of pyrethroid pesticides. By rotating pyrethroids with other chemical classes, alternating modes of action, and incorporating non-chemical control methods, IPM programs can reduce selection pressure on pest populations and mitigate the risk of resistance development.
IPM practices align with regulatory requirements and sustainability goals by promoting the judicious use of pesticides and minimizing environmental impacts. Pyrethroid pesticides are subject to regulatory scrutiny and must meet safety and efficacy standards to ensure their compatibility with IPM principles and environmental stewardship. Integrated pest management aims to reduce pesticide risks to human health and the environment by adopting preventive measures, monitoring pest populations, and employing targeted control strategies. Pyrethroid pesticides, when applied correctly and in accordance with IPM principles, can help mitigate pest-related risks while safeguarding public health and environmental quality. This factor will accelerate the demand of the Global Pyrethroid Pesticide Market.
Key Market Challenges
Pesticide Resistance
Continuous and indiscriminate use of pyrethroid pesticides can exert selective pressure on pest populations, favoring the survival and reproduction of individuals with inherent resistance traits. Misuse, such as applying pesticides at incorrect rates or frequencies, can accelerate the development of resistance and reduce the effectiveness of pest control efforts. Dependence on a single class of pesticides, such as pyrethroids, without rotation or alternation with other chemical classes, increases the risk of resistance development. Pests that survive exposure to pyrethroids may pass on resistance traits to future generations, leading to a gradual decline in pesticide efficacy over time. Some pests may develop cross-resistance to multiple chemical classes of pesticides, including pyrethroids, due to shared mechanisms of resistance or genetic mutations that confer broad-spectrum resistance. Cross-resistance can limit the effectiveness of alternative control options and pose challenges for integrated pest management strategies. Insufficient monitoring and surveillance of pest populations for signs of resistance can delay detection and response to resistance outbreaks. Early detection allows for timely adjustments to pest management practices, including the incorporation of non-chemical control methods and rotation of alternative pesticides to mitigate resistance risks.
Emergence of Bio-based Alternatives
Increasing consumer awareness and concern about the potential health and environmental impacts of chemical pesticides have led to a growing demand for safer and more sustainable pest control solutions. Bio-based alternatives are often marketed as "green" or "eco-friendly" products, appealing to consumers seeking alternatives to traditional chemical pesticides. Regulatory agencies around the world are implementing stricter regulations and safety standards for pesticide registration and use. Bio-based pesticides may be subject to less stringent regulatory requirements compared to synthetic chemical pesticides, making them more attractive options for pesticide manufacturers seeking regulatory compliance and market access. Bio-based pesticides are perceived as having lower environmental impact and reduced risk to non-target organisms compared to synthetic chemical pesticides. They may offer benefits such as biodegradability, minimal residue accumulation in soil and water, and compatibility with integrated pest management (IPM) practices, aligning with sustainable agriculture and biodiversity conservation goals. Advances in biotechnology and formulation technologies have enabled the development of bio-based pesticides with improved efficacy, stability, and shelf life. Biopesticides may be formulated as botanical extracts, microbial inoculants, pheromones, or biochemical compounds, offering diverse modes of action and target-specific pest control options.
Key Market Trends
Shift towards Bio-based and Environmentally Friendly Pesticides
Growing awareness of pesticide residues in food, water, and the environment has led to increased consumer demand for safer and more sustainable pest control solutions. Bio-based pesticides derived from natural sources are often perceived as safer alternatives to synthetic chemical pesticides like pyrethroids, appealing to consumers seeking healthier and environmentally friendly products. Regulatory agencies worldwide are implementing stricter regulations and safety standards for pesticide registration and use to protect human health and the environment. Bio-based pesticides may be subject to less stringent regulatory requirements compared to synthetic chemical pesticides, making them more attractive options for pesticide manufacturers seeking regulatory compliance and market approval. Pesticide resistance, environmental contamination, and adverse effects on non-target organisms are growing concerns associated with the use of synthetic chemical pesticides. Bio-based pesticides offer alternative modes of action and target-specific pest control options, reducing the risk of resistance development and minimizing environmental impact on beneficial insects, pollinators, and ecosystems. Advances in biotechnology, microbial ecology, and formulation technologies have expanded the range of bio-based pesticides available for pest management. Biopesticides may be formulated as botanical extracts, microbial inoculants, pheromones, or biochemical compounds, offering diverse modes of action and sustainable pest control options that integrate seamlessly with integrated pest management (IPM) practices.
Segmental Insights
Type Insights
The Cyfluthrin segment is projected to experience rapid growth in the Global Pyrethroid Pesticide Market during the forecast period. Cyfluthrin is a synthetic pyrethroid insecticide known for its broad spectrum of activity against a wide range of insect pests, including mosquitoes, flies, cockroaches, ants, beetles, and moths. Its effectiveness against diverse pests makes it a versatile tool for pest control in various agricultural, residential, and commercial settings. Cyfluthrin exhibits high efficacy in controlling insect pests at low application rates, making it a cost-effective option for pest management. Its ability to rapidly immobilize and kill target pests contributes to its popularity among farmers, pest control professionals, and homeowners seeking effective insect control solutions. Cyfluthrin has a long-lasting residual activity, meaning it remains active on treated surfaces for an extended period after application. This characteristic is particularly beneficial in outdoor and indoor settings where continuous protection against crawling and flying insects is required. Cyfluthrin is available in various formulations, including emulsifiable concentrates, wettable powders, granules, and aerosols, offering flexibility in application methods and suitability for different pest control scenarios. Its versatility in formulation options enhances its appeal to end-users across diverse industries and applications.
Application Insights
The Plant Protection segment is projected to experience rapid growth in Global Pyrethroid Pesticide Market during the forecast period. With the growing global population and rising food demand, there is an increased need for effective crop protection solutions to safeguard agricultural yields and ensure food security. Pyrethroid pesticides are widely used in plant protection to control a broad spectrum of insect pests that can damage crops and reduce yields. Agricultural activities are expanding globally, driven by factors such as population growth, urbanization, and changing dietary preferences. As agricultural production intensifies to meet rising demand, the prevalence of pests and diseases also increases, necessitating the use of pyrethroid pesticides for effective pest management and plant protection. Pyrethroid pesticides offer a broad spectrum of activity against various insect pests that affect crops, including caterpillars, aphids, beetles, and leafhoppers, among others. Their effectiveness against a wide range of pests makes them valuable tools for plant protection across diverse agricultural systems and crop types.
Regional Insights
North America emerged as the dominant region in the Global Pyrethroid Pesticide Market in 2023. North America, particularly the United States and Canada, boasts a significant agricultural sector with extensive acreage devoted to various crops. The scale of agricultural production creates a substantial demand for effective pest control solutions, including pyrethroid pesticides. The North American agricultural industry has been at the forefront of adopting technological advancements and innovations in crop protection practices. This includes the use of advanced formulations, precision agriculture techniques, and integrated pest management strategies that incorporate pyrethroid pesticides for pest control. Regulatory frameworks governing pesticide use in North America are relatively well-established compared to other regions. While stringent regulations exist to ensure the safety of human health and the environment, they also provide clarity and stability for pesticide manufacturers and users, facilitating the market's growth and stability.
FMC Corp.
Syngenta Crop Protection AG
BASF SE
Bayer AG
The Dow Chemical Company
Gharda Chemicals Ltd.
Meghmani Organics Ltd
Atul Ltd
Tagros Chemicals India Pvt. Ltd.
UPL Limited
In this report, the Global Pyrethroid Pesticide Market has been segmented into the following categories, in addition to the industry trends which have also been detailed below:
United States
Canada
Mexico
Germany
United Kingdom
France
Italy
Spain
China
Japan
India
Australia
South Korea
Brazil
Argentina
Colombia
South Africa
Saudi Arabia
UAE
Company Profiles: Detailed analysis of the major companies present in the Global Pyrethroid Pesticide Market.
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