Agricultural Pheromones Market: Global Industry Analysis and Forecast (2024-2030) by Type, Function, Mode of Application, Crop Type, and Region

Agricultural Pheromones Market Overview:

Many of the complex interactions among social insect colonies, such as bees, wasps, and ants, are mediated by pheromones. These include ant trails and honeybee alarm pheromones, to name a few. Conventional insecticides are declining in use. The European Union's recent prohibition on insecticide groups of neonicotinoids, including as thiamethoxam and fipronil, is also expected to drive the growth of the agricultural pheromones market in Europe. The use of conventional inputs to boost crop output is on the rise, despite government efforts to increase knowledge about IPM.

 

 

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COVID-19 Influences on the Agricultural Pheromones Market:

 

Customer preferences have evolved toward consuming nutritious and organic food products to maintain health and increase immunity since the commencement of the COVID-19 pandemic. Other rising industry trends, such as the demand for safe, natural, clean-label, and pesticide-free products, have altered the global agricultural landscape. COVID-19 is expected to have a significant impact on the agricultural pheromones market's growth. In the best-case scenario, the impact will be beneficial, and crop protection companies will be eager to buy agricultural pheromones as demand for clean organic products and insect- and pest-free settings grows. Furthermore, because trade restrictions will be lowered in order to reconstruct economies, trading will be easier.

 

Agricultural Pheromones Market Dynamics:

Plant pests and diseases have become more common as a result of rapid changes in climatic circumstances. Climate change has a big impact on agricultural output and insect susceptibility. Changes in climatic circumstances make crops more susceptible to various diseases and pests, lowering overall crop production. As a result, changes in the climate cause not just a shift in farming operations, but also a drop in crop output. These reasons have increased farmers' reliance on reputable crop protection solutions for effective pest avoidance, resulting in increased demand in the agricultural pheromones market during the forecast period.

 

Crops become more sensitive to various illnesses and pests as climatic conditions change, affecting overall agricultural production. Farmers' reliance on reputable crop protection products for successful pest avoidance has increased as a result of these issues. During the forecast period, this is expected to result in increased demand for agricultural pheromones. Rapid urbanization, rising awareness of the health benefits associated with these high-yield crops, and the cultivation of high-value crops are some of the primary factors driving agricultural pheromones market revenue growth.

 

Farmers are increasingly receptive of integrated pest management approaches, such as agro pheromones, as a viable alternative to agricultural pest control. Because traditional pesticides are harmful to organisms, human health, and the environment, their use is expected to decrease in the forecast period. During the forecast period, these factors are expected to boost the agricultural pheromones market forward.

 

Biological control, cultural practice change, and the adoption of resistant varieties are all part of an integrated pest management strategy that focuses on the long-term prevention of pests. Pest management with the least amount of risk to animal and human health is achieved by utilizing various pest control strategies and a thorough understanding of the pest life cycle and interactions. As a result, farmers all around the world are focusing on these methods to reduce the environmental risks associated with pest management.

 

Agricultural Pheromones Market Segment Analysis:

The Agricultural Pheromones Market is segmented by Type, Function, Mode of Application, and Crop Type.

 

Based on the Function, the agricultural pheromones market is segmented into Mating disruption, Detection & monitoring, and Mass trapping. Detection & monitoring segment is expected to grow rapidly at a CAGR of xx% during the forecast period 2024-2030. Insect sex pheromones are used to detect and track the population of insects. Male insects are attracted to the sex pheromones released by female insects in the majority of cases. Trap baits are designed to precisely mimic the ratio of chemical components and emission rates found in female insects for this purpose. Adult pest species are detected using pheromone traps when they move from one region to another. These traps are used to monitor insect pest influxes like black cutworm, gypsy moth, and pink bollworm. The traps aid in forecasting the onset of a lifecycle stage in the insect population for monitoring purposes.

 

Growers can use pheromone traps to pinpoint the exact position and spread of infestations, detect the introduction of alien species, and optimise pesticide application timing and rate for optimum efficacy and minimal environmental damage. These are the factors that are expected to drives the growth of the Detection & monitoring segment in the Agricultural Pheromones market during the forecast period 2024-2030.

 

 

Based on the Mode of Application, the market is segmented into Dispensers, Traps, and Sprays. Dispensers segment is expected to hold the largest agricultural pheromones market shares of xx% by 2030. Dispensers are used to apply insect pheromones to various types of crops in predetermined proportions. To be an effective source, the dispensers should be set at a specific height. Insect populations in arable crops, stored goods, and forest ecosystems are regularly monitored using dispensers. A perfect dispenser would be renewable and built of inexpensive organic materials, as well as being economically affordable and toxicologically inert. Pests such as codling moths, tomato pinworm, pink bollworm, and oriental fruit moth can be successfully controlled using pheromone-based devices. Passive pheromone dispensers, retrievable polymeric pheromone dispensers, hollow fibres, and high emission dispensers are all examples of pheromone dispensers.

 

Agricultural Pheromones Market Regional Insights:

North America region is expected to dominate the Agricultural Pheromones market during the forecast period 2024-2030. North America region is expected to hold the largest market shares of xx% by 2030. The market for pheromones is rising in North America, due to an increasing range of uses in agriculture, forestry, and industry, including the food and pharmaceutical industries. The US Forest Service uses an ISCA formulation to suppress noctuid moths on row crops that also functions as a mating-disruption for the gypsy moth. Cotton, tomatoes, grapes, corn, pome fruits, and stone fruits are among the region's most important agricultural crops. These are some of the crops that are vulnerable to insect assaults from the pink bollworm, leaf miner, codling moth, and berry moths, among others. Pheromones are utilised for mating disruption in North America.

 

The objective of the report is to present a comprehensive analysis of the Agricultural Pheromones Market to the stakeholders in the industry. The report provides trends that are most dominant in the Agricultural Pheromones Market and how these trends will influence new business investments and market development throughout the forecast period. The report also aids in the comprehension of the market dynamics and competitive structure of the market by analyzing market leaders, market followers, and regional players.

 

The qualitative and quantitative data provided in the Agricultural Pheromones Market report is to help understand which market segments, regions are expected to grow at higher rates, factors affecting the market, and key opportunity areas, which will drive the industry and market growth through the forecast period. The report also includes the competitive landscape of key players in the industry along with their recent developments in the Agricultural Pheromones Market. The report studies factors such as company size, market share, market growth, revenue, production volume, and profits of the key players in the market.

The report provides Porter's Five Force Model, which helps in designing the business strategies in the market. The report helps in identifying how many rivals are existing, who they are, and how their product quality is in the Market. The report also analyses if the Agricultural Pheromones Market is easy for a new player to gain a foothold in the market, do they enter or exit the market regularly if the market is dominated by a few players, etc.

 

The report also includes a PESTEL Analysis, which aids in the development of company strategies. Political variables help in figuring out how much a government can influence the Market. Economic variables aid in the analysis of economic performance drivers that have an impact on the Market. Understanding the impact of the surrounding environment and the influence of environmental concerns on the Agricultural Pheromones Market is aided by legal factors.

 

Agricultural Pheromones Market Scope:

Agricultural Pheromones Market
Market Size in 2023	USD 4.26 Bn.
Market Size in 2030	USD 11.34 Bn.
CAGR (2024-2030)	15 Percent
Historic Data	2018-2022
Base Year	2023
Forecast Period	2024-2030
Segment Scope	By  Type Sex pheromones Aggregation pheromones Other types
	By Function Mating disruption Detection & monitoring Mass trapping
	By Application Dispensers Traps Sprays
	By Crop Type Fruits & nuts Field crops Vegetable crops Other crop types
Regional Scope	North America- United States, Canada, and Mexico Europe – UK, France, Germany, Italy, Spain, Sweden, Austria, and Rest of Europe Asia Pacific – China, India, Japan, South Korea, Australia, ASEAN, Rest of APAC Middle East and Africa - South Africa, GCC, Egypt, Nigeria, Rest of the Middle East and Africa South America – Brazil, Argentina, Rest of South America

Agricultural Pheromones Market Key Players

• Shin-Etsu Chemical Co., Ltd. (Japan)
• Koppert Biological Systems (Netherlands)
• Isagro Group (Italy)
• Biobest Group NV (Belgium)
• Suterra LLC (US)
• Russell IPM (UK)
• ISCA Technologies (US)
• Trécé Incorporated (US)
• Bedoukian Research, Inc. (US)
• Pherobank B.V. (Netherlands)
• BASF SE (Germany)
• Certis Europe BV (Netherlands)
• Bioline AgroSciences Ltd. (US)
• Bio Controle (Brazil)
• ATGC Biotech Pvt Ltd. (India)