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微胶囊农药的全球市场规模、份额、成长分析(按类型、按应用) - 按行业预测 2023-2030 年Global Microencapsulated Pesticide Market Size, Share, Growth Analysis, By Type(Insecticides, Herbicides), By Application(Agricultural, and Non-agricultural) - Industry Forecast 2023-2030 |
2022年全球微囊农药市场规模为6.0323亿美元,从2023年的6.7984亿美元成长,在预测期(2024-2031年)复合年增长率为12.70%,预计到2031年将达到17.6929亿美元。
在农业中越来越多地采用微胶囊农药来控制病媒和害虫是推动市场扩张的关键因素。这些杀虫剂可有效对抗多种害虫,包括昆虫侵扰、入侵植物、蚊子、大鼠和小鼠。微胶囊农药在农业中的广泛应用预计将成为近期市场成长的关键催化剂。微胶囊化农药是指周长为1~1000微米、含有液体、固体或气体成分的微小胶囊。它用于农业和非农业领域,包括林业、观赏和草坪护理以及结构应用。这些农药胶囊散布在水中并喷洒在作物上,随着聚合物外壳的溶解逐渐释放农药。这种控制释放方法有助于将农药有效地引入水中,同时将损失降至最低。微囊胶囊具有多种优点,包括防止昆虫侵袭、隐藏的液体到固体的转化以及反应成分的分离。农药,尤其是微胶囊化农药,因其能够透过杀死昆虫或抑制其破坏行为来减少昆虫的影响而受到青睐。这些杀虫剂旨在针对昆虫并防止作物受损,透过多种机制发挥作用,包括损害神经系统和破坏外骨骼。用于作物保护的农药的使用预计会增加,从而促进整体市场的成长。微囊农药在农业和非农业领域都有广泛的应用。在农业中,这些农药对于保护作物免受昆虫相关威胁至关重要,并被农民广泛采用以确保作物安全。农业活动的快速增加以及食品消费的增加预计将在未来几年增加对微胶囊农药的需求。非农业用途包括牲畜、住宅和商业设施、食品加工和公共卫生设施中农药的使用。对方便、安全的型态的需求不断增长预计将推动市场进一步扩大。世界各国政府正采取各种措施来减少农药对人类和环境的负面影响。认识到潜在的毒性和相关挑战,各国政府对农药的消费、运输和储存制定了法规,以解决环境和健康问题。
自上而下和自下而上的方法已用于估计和检验微胶囊农药的全球市场规模,并估计其他各个相关子市场的规模。用于估计市场规模的调查方法包括以下细节:透过二次研究确定市场的主要企业,并透过初步和二次研究确定每个地区的市场占有率。整个过程包括研究主要企业的年度报告和财务报告,以及广泛的采访,以获取首席执行官、副总裁、董事和营销负责人等行业领导者的关键见解。马苏。所有股份比率和细分均使用二手资讯确定并使用主要资讯检验。本研究涵盖的所有可能影响市场的参数都经过考虑、详细研究、经过初步研究检验和分析,以获得最终的定量和定性资料。
全球微胶囊农药市场区隔分析
全球微囊农药市场根据类型、应用和地区进行细分。按类型划分,市场分为杀虫剂、除草剂、杀鼠剂、杀菌剂等。根据应用,市场分为农业和非农业用途。依地区划分,全球微囊农药市场分为北美、欧洲、亚太地区、南美洲以及中东和非洲。
推动全球微胶囊农药市场的因素
微胶囊技术能够精确释放农药活性成分,进而提高药效。封装充当保护罩,保护农药免受环境劣化,延长残留活性,并确保有针对性地输送到特定害虫或指定地点。
微囊农药的生产需要配方化学的专业知识。封装过程很复杂,可能需要使用多种材料和技术。这种复杂性可能对微胶囊技术的广泛接受构成挑战,特别是在小型农业化学品製造商和技术资源有限的地区。
全球微胶囊农药市场的限制因素
微胶囊化可能不适合所有类型的农药或活性成分。有些农药由于其化学性质或与封装材料的相互作用而不适合封装。这项限制缩小了可有效微胶囊化的农药的范围。
全球微囊农药市场趋势
全球对永续农业实践的关注正在推动尽量减少农药使用对环境的影响。微胶囊农药因其可控制排放、减少浸出和有针对性的管理而对寻求永续害虫防治解决方案的农民越来越有吸引力。
害虫综合管理(IPM)透过整合各种管理技术,采用整体方法来控制害虫。微胶囊化农药与 IPM 策略相容,并且可以有针对性地长期释放。这减少了频繁散布的需要,从而最大限度地减少了农药抗性的发展。
基于 GPS 的监控和可变速率技术等精密农业技术在农业领域越来越受欢迎。微胶囊农药可以少量精确地散布特定地点,符合精密农业的原理,消除浪费。
人们越来越关注工人的安全以及在处理和散布中尽量减少农药接触的需要。微胶囊技术有助于开发更安全的配方,并降低与直接接触、吸入和意外暴露相关的风险。
Global Microencapsulated Pesticide Market size was valued at USD 603.23 million in 2022 and is expected to grow from USD 679.84 million in 2023 to reach USD 1769.29 million by 2031, at a CAGR of 12.70% during the forecast period (2024-2031).
The growing adoption of microencapsulated insecticides in agriculture for the management of disease vectors and pests is a significant factor propelling market expansion. These insecticides demonstrate efficacy against various pests, including bug infestations, invasive plants, mosquitoes, rats, mice, and others. The widespread application of microencapsulated insecticides in agriculture is anticipated to be the primary catalyst for market growth in the foreseeable future. Microencapsulated pesticides are minute capsules ranging from 1-1000 micrometers in circumference, containing liquid, solid, or gas ingredients. They find use in both agricultural and non-agricultural sectors, such as forestry, ornamental and turf maintenance, structural applications, and more. These pesticide capsules are dissolved in water and sprayed on crops, gradually releasing the insecticide as the polymer shell dissolves. This controlled release method helps in efficiently introducing pesticides into water while minimizing loss. Microencapsulated capsules offer several advantages, including protection against insect attacks, covert liquid to solid conversion, separation of reactive components, and more. Insecticides, particularly microencapsulated ones, are favored for their ability to mitigate the impact of insects by either killing them or impeding their destructive behavior. Designed to target insects and prevent crop damage, these insecticides operate through various mechanisms, such as damaging nerve systems or destroying exoskeletons. The expected increase in insecticide use for crop protection is poised to contribute to the overall growth of the market. Microencapsulated insecticides find extensive application in both agricultural and non-agricultural settings. In agriculture, these pesticides are crucial for safeguarding crops against insect-related threats, with farmers widely adopting them to ensure crop safety. The surge in agricultural activities driven by escalating food consumption is anticipated to boost the demand for microencapsulated insecticides in the coming years. Non-agricultural applications encompass the use of pesticides in livestock, residential and commercial properties, food processing, and public health situations. The rising demand for pesticides in a convenient and safe form is expected to drive further expansion of the market. Governments worldwide have implemented various measures to mitigate the adverse effects of pesticides on humans and the environment. Recognizing the potential toxicity and associated challenges, governments have imposed regulations on the consumption, transportation, and storage of pesticides to address environmental and health concerns.
Top-down and bottom-up approaches were used to estimate and validate the size of the Global Microencapsulated Pesticide Market and to estimate the size of various other dependent submarkets. The research methodology used to estimate the market size includes the following details: The key players in the market were identified through secondary research, and their market shares in the respective regions were determined through primary and secondary research. This entire procedure includes the study of the annual and financial reports of the top market players and extensive interviews for key insights from industry leaders such as CEOs, VPs, directors, and marketing executives. All percentage shares split, and breakdowns were determined using secondary sources and verified through Primary sources. All possible parameters that affect the markets covered in this research study have been accounted for, viewed in extensive detail, verified through primary research, and analysed to get the final quantitative and qualitative data.
Global Microencapsulated Pesticide Market Segmental Analysis
The global microencapsulated pesticide market is segmented on the basis of type, application, and region. Based on type, the market is segmented into insecticides, herbicides, rodenticides, fungicides, and others. Based on application, the market is segmented into agricultural, and non-agricultural. Based on region, the global microencapsulated pesticide market is segmented into North America, Europe, Asia-Pacific, South America, and MEA.
Drivers of the Global Microencapsulated Pesticide Market
Microencapsulation technology enables the precise release of active pesticide ingredients, leading to enhanced effectiveness. The encapsulation serves as a protective shield, guarding the pesticide against environmental degradation, prolonging its residual activity, and ensuring targeted delivery to specific pests or designated sites.
The creation of microencapsulated pesticides demands specialized expertise in formulation chemistry. The process of encapsulation is intricate and may require the utilization of diverse materials and techniques. This intricacy might pose challenges for the widespread acceptance of microencapsulation technology, particularly for smaller pesticide manufacturers or in regions with limited technical resources.
Restraints in the Global Microencapsulated Pesticide Market
Microencapsulation may not be suitable for every type of pesticide or active ingredient. Certain pesticides may not be well-suited for encapsulation due to their chemical properties or interactions with the materials used for encapsulation. This constraint narrows down the scope of pesticides that can be efficiently microencapsulated.
Market Trends of the Global Microencapsulated Pesticide Market
A global emphasis on sustainable agriculture practices is driving efforts to minimize the environmental impact of pesticide use. Microencapsulated pesticides, with their controlled release, reduced leaching, and targeted delivery, are increasingly appealing to farmers seeking sustainable pest control solutions.
Integrated Pest Management (IPM) adopts a holistic approach to pest control by integrating various management techniques. Microencapsulated pesticides align well with IPM strategies, providing targeted and prolonged release. This reduces the need for frequent applications, consequently minimizing the development of pesticide resistance.
Precision agriculture techniques, such as GPS-based monitoring and variable rate technology, are gaining popularity in the agricultural industry. Microencapsulated pesticides can be precisely applied in small doses to specific areas, aligning with the principles of precision agriculture and reducing wastage.
Concerns about worker safety and the need to minimize pesticide exposure during handling and application are growing. Microencapsulation technology facilitates the development of safer formulations, decreasing the risks associated with direct contact, inhalation, or accidental exposure.