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Indonesia Fungicide Market SIZE & SHARE ANALYSIS - GROWTH TRENDS & FORECASTS UP TO 2029

The Indonesia Fungicide Market is segmented by Application Mode (Chemigation, Foliar, Fumigation, Seed Treatment, Soil Treatment) and by Crop Type (Commercial Crops, Fruits & Vegetables, Grains & Cereals, Pulses & Oilseeds, Turf & Ornamental). The report offers market size in both market value in USD and market volume in metric ton. Further, the report includes a market split by application mode and crop types.

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Indonesia Fungicide Market Size

Indonesia Fungicide Market Summary
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Icons Lable Value
svg icon Study Period 2017 - 2029
svg icon Market Size (2024) USD 542.1 Million
svg icon Market Size (2029) USD 647.6 Million
svg icon Largest Share by Application Mode Foliar
svg icon CAGR (2024 - 2029) 3.62 %
svg icon Fastest Growing by Application Mode Foliar
svg icon Market Concentration Low

Major Players

major-player-company-image

*Disclaimer: Major Players sorted in alphabetical order.

Key Players

Compare market size and growth of Indonesia Fungicide Market with other markets in Agriculture Industry

Seeds

Crop Protection

Fertilizers

Agricultural Commodities

Agriculture Services

Agricultural Machinery and Technology

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Indonesia Fungicide Market Analysis

The Indonesia Fungicide Market size is estimated at 542.1 million USD in 2024, and is expected to reach 647.6 million USD by 2029, growing at a CAGR of 3.62% during the forecast period (2024-2029).

542.1 Million

Market Size in 2024 (USD)

647.6 Million

Market Size in 2029 (USD)

1.75 %

CAGR (2017-2023)

3.62 %

CAGR (2024-2029)

Largest Segment by Application Mode

61.24 %

value share, Foliar, 2023

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Farmers can efficiently manage fungal infections, safeguarding crop health and productivity, through foliar application, which shows quick action by targeting the infected area.

Largest Segment by Crop Type

46.49 %

value share, Pulses & Oilseeds, 2023

Icon image

The use of fungicides plays a critical role in mitigating the risks posed by fungal diseases, safeguarding the productivity and quality of pulses and oilseed crops.

Fastest-Growing Segment by Crop Type

3.78 %

Projected CAGR, Pulses & Oilseeds, 2024-2029

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The use of fungicides plays a critical role in mitigating the risks posed by fungal diseases, safeguarding the productivity and quality of pulses and oilseed crops.

Leading Market Player 1

0.61 %

market share, Bayer AG, 2022

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Bayer partnered with Oerth Bio with the aim of developing next-generation crop protection products based on Oerth Bio's innovative protein degradation technology.

Leading Market Player 2

0.44 %

market share, Syngenta Group, 2022

Icon image

Syngenta Group introduced TYMIRIUM technology, an active ingredient for seed treatment, which is designed for both soil and seed-applied applications.

Growing fungal diseases damages major crops, like palm oil, coffee, rice, and maize, increasing the fungicide adoption rate

  • Indonesia's tropical climate provides an ideal environment for crop cultivation and the rapid proliferation of fungal diseases, posing significant challenges to the agricultural sector. In response, farmers in the country are employing various methods to combat these fungal diseases, with fungicides being an effective solution. Depending on the specific disease and crop stage, farmers are implementing different application modes to control and mitigate the impact of these diseases.
  • Farmers predominantly adopted the foliar application method, which represented a significant market share of 61.2% in 2022. This preference can be attributed to effective disease control and additional benefits to plant health, including improved growth efficiency and stress tolerance, resulting in enhanced productivity throughout the growing season.
  • Seed treatment fungicides are suitable to combat soil-borne diseases in crops like palm oil, coffee, rice, and maize. This proactive approach enables growers to effectively control diseases at the early crop stage, mitigating their impact on crop health and yield. In 2022, the consumption of seed treatment fungicides represented a share of 13.7%.
  • The chemigation application mode occupied the market value share of 12.2% in 2022, which is majorly attributed to the country's top priority on modernizing the irrigation systems, and 95% of the country's rice is produced from these irrigation systems. The rising adoption of modern irrigation systems further increases the adoption of chemigation modes for applying fungicides.
  • Farmers utilize other fumigation and soil treatment as alternative modes of applying fungicides to their crops, selecting the appropriate method based on the specific fungal disease and crop type.
Indonesia Fungicide Market

Indonesia Fungicide Market Trends

Growing crop infestations due to fungal diseases in major crops like maize and need for increasing higher productivity may drive the market

  • Indonesia cultivates various high-value crops, such as fruits, vegetables, coffee, tea, and spices. These crops are often susceptible to fungal diseases that can directly impact their quality and marketability. Fungicides help protect these valuable crops and ensure their productivity and economic value.
  • With the aim of increasing productivity, many farmers have adopted intensive agricultural practices, such as high-yield crop varieties and greenhouse cultivation. These practices, while beneficial for increasing yields, can also create favorable conditions for the development and spread of fungal diseases. Fungicides are necessary to control and prevent these diseases in intensive production systems. Fungicide consumption in Indonesia has increased in recent years. Specifically, between 2017 and 2022, there was a significant growth of 28.7% in fungicide usage.
  • Fungi can evolve and develop resistance to pesticides over time. This has necessitated the use of new and more effective fungicides to combat resistant fungal strains and maintain effective disease control. For instance, in Indonesia, the output of maize is severely constrained by downy mildew brought on by Peronosclerospora spp. Susceptible varieties can have yield losses of around 90 to 100%. Downy mildew has developed resistance due to the continual usage of metalaxyl. As a result, it is essential to have other fungicides that may be used in place of metalaxyl.
  • Climate change has led to shifts in weather patterns, including changes in temperature, humidity, and rainfall. These changes can influence the prevalence and severity of fungal diseases. Fungicides are used to manage diseases that thrive under altered climatic conditions, helping farmers protect their crops from disease-related losses.
Indonesia Fungicide Market

Government policies related to trade, agriculture, and chemical imports can impact the import process and may affect the prices of imported fungicides

  • Mancozeb, ziram, and propineb are widely used fungicides in Indonesia. These fungicides belong to the dithiocarbamate group and are known for their broad-spectrum control of fungal diseases in various crops.
  • Mancozeb is a contact fungicide that is used on a variety of crops, including fruits, vegetables, nuts, and field crops, and professional turf management. It is effective against many types of fungal diseases, such as potato blight, leaf spot, scab, and rust. Additionally, it can be used as a seed treatment for potatoes, corn, sorghum, tomatoes, and cereal grains. India is a major supplier of mancozeb to Indonesia. In 2022, the price was valued at USD 7.7 thousand per metric ton and significantly increased by 14.9% from 2019.
  • Propineb is a systemic and contact fungicide used to control fungal diseases in various crops, such as grapes, vegetables, and tree fruits. It is effective against diseases like downy mildew, gray mold, and powdery mildew. The price in 2022 accounted for USD 3.5 thousand per metric ton.
  • Ziram is another dithiocarbamate fungicide that was valued at USD 3.3 thousand per metric ton, and this fungicide is widely used for disease control in various crops, including citrus, apples, and potatoes. It is particularly effective against diseases caused by certain fungi, including early and late blight in potatoes.
  • The country is one of the major importers of fungicides, and most of its fungicides are imported from India, the United States, and China. Government policies related to trade, agriculture, and chemical imports can impact the import process and may affect the prices of imported fungicides.
Indonesia Fungicide Market

Indonesia Fungicide Industry Overview

The Indonesia Fungicide Market is fragmented, with the top five companies occupying 1.76%. The major players in this market are ADAMA Agricultural Solutions Ltd, Bayer AG, FMC Corporation, Syngenta Group and UPL Limited (sorted alphabetically).

Indonesia Fungicide Market Leaders

  1. ADAMA Agricultural Solutions Ltd

  2. Bayer AG

  3. FMC Corporation

  4. Syngenta Group

  5. UPL Limited

Indonesia Fungicide Market Concentration

Other important companies include BASF SE, Corteva Agriscience, Nufarm Ltd, PT Biotis Agrindo, Wynca Group (Wynca Chemicals).

*Disclaimer: Major Players sorted in alphabetical order.

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Indonesia Fungicide Market News

  • January 2023: Bayer formed a new partnership with Oerth Bio to enhance crop protection technology and create more eco-friendly crop protection solutions.
  • January 2023: Quintect 105 SC is a fungicide introduced by FMC for Indonesian farmers to provide protection and secure the quality and quantity of their crops.
  • July 2022: FMC launched the fungicide Flint Pro 64.8 WG, which controls diseases including Alternaria dry spot on potato plants as well as leaf spot disease and stem rot in watermelon plants.

Free with this Report

Along with the report, We also offer a comprehensive and exhaustive data pack with 50+ graphs on insecticide, fungicides, and herbicides consumption per hectare and the average price of active ingredients used in insecticides, fungicides, herbicides, nematicides, and molluscicides. The data pack includes Globe, North America, Europe, Asia-Pacific, South America, and Africa.

Indonesia Fungicide Market
Indonesia Fungicide Market
Indonesia Fungicide Market
Indonesia Fungicide Market

Indonesia Fungicide Market Report - Table of Contents

  1. EXECUTIVE SUMMARY & KEY FINDINGS

  2. REPORT OFFERS

  3. 1. INTRODUCTION

    1. 1.1. Study Assumptions & Market Definition

    2. 1.2. Scope of the Study​

    3. 1.3. Research Methodology

  4. 2. KEY INDUSTRY TRENDS

    1. 2.1. Consumption Of Pesticide Per Hectare

    2. 2.2. Pricing Analysis For Active Ingredients

    3. 2.3. Regulatory Framework

      1. 2.3.1. Indonesia

    4. 2.4. Value Chain & Distribution Channel Analysis

  5. 3. MARKET SEGMENTATION (includes market size in Value in USD and Volume, Forecasts up to 2029 and analysis of growth prospects)

    1. 3.1. Application Mode

      1. 3.1.1. Chemigation

      2. 3.1.2. Foliar

      3. 3.1.3. Fumigation

      4. 3.1.4. Seed Treatment

      5. 3.1.5. Soil Treatment

    2. 3.2. Crop Type

      1. 3.2.1. Commercial Crops

      2. 3.2.2. Fruits & Vegetables

      3. 3.2.3. Grains & Cereals

      4. 3.2.4. Pulses & Oilseeds

      5. 3.2.5. Turf & Ornamental

  6. 4. COMPETITIVE LANDSCAPE

    1. 4.1. Key Strategic Moves

    2. 4.2. Market Share Analysis

    3. 4.3. Company Landscape

    4. 4.4. Company Profiles (includes Global level Overview, Market level overview, Core Business Segments, Financials, Headcount, Key Information, Market Rank, Market Share, Products and Services, and analysis of Recent Developments)

      1. 4.4.1. ADAMA Agricultural Solutions Ltd

      2. 4.4.2. BASF SE

      3. 4.4.3. Bayer AG

      4. 4.4.4. Corteva Agriscience

      5. 4.4.5. FMC Corporation

      6. 4.4.6. Nufarm Ltd

      7. 4.4.7. PT Biotis Agrindo

      8. 4.4.8. Syngenta Group

      9. 4.4.9. UPL Limited

      10. 4.4.10. Wynca Group (Wynca Chemicals)

  7. 5. KEY STRATEGIC QUESTIONS FOR CROP PROTECTION CHEMICALS CEOS

  8. 6. APPENDIX

    1. 6.1. Global Overview

      1. 6.1.1. Overview

      2. 6.1.2. Porter’s Five Forces Framework

      3. 6.1.3. Global Value Chain Analysis

      4. 6.1.4. Market Dynamics (DROs)

    2. 6.2. Sources & References

    3. 6.3. List of Tables & Figures

    4. 6.4. Primary Insights

    5. 6.5. Data Pack

    6. 6.6. Glossary of Terms

List of Tables & Figures

  1. Figure 1:  
  2. FUNGICIDE CONSUMPTION PER HECTARE, GRAMS, INDONESIA, 2017 - 2022
  1. Figure 2:  
  2. ACTIVE INGREDIENT PRICE PER METRIC TON, USD, INDONESIA, 2017 - 2022
  1. Figure 3:  
  2. FUNGICIDE VOLUME METRIC TON, INDONESIA, 2017 - 2029
  1. Figure 4:  
  2. FUNGICIDE VALUE USD, INDONESIA, 2017 - 2029
  1. Figure 5:  
  2. FUNGICIDE MARKET BY APPLICATION MODE, METRIC TON, INDONESIA, 2017 - 2029
  1. Figure 6:  
  2. FUNGICIDE MARKET BY APPLICATION MODE, USD, INDONESIA, 2017 - 2029
  1. Figure 7:  
  2. VALUE SHARE OF FUNGICIDE BY APPLICATION MODE, %, INDONESIA, 2017 VS 2023 VS 2029
  1. Figure 8:  
  2. VOLUME SHARE OF FUNGICIDE BY APPLICATION MODE, %, INDONESIA, 2017 VS 2023 VS 2029
  1. Figure 9:  
  2. CROP PROTECTION CHEMICALS APPLIED THROUGH CHEMIGATION, METRIC TON, INDONESIA, 2017 - 2029
  1. Figure 10:  
  2. CROP PROTECTION CHEMICALS APPLIED THROUGH CHEMIGATION, USD, INDONESIA, 2017 - 2029
  1. Figure 11:  
  2. VALUE SHARE OF CHEMIGATION BY CROP TYPE, %, INDONESIA, 2022 VS 2029
  1. Figure 12:  
  2. CROP PROTECTION CHEMICALS APPLIED THROUGH FOLIAR, METRIC TON, INDONESIA, 2017 - 2029
  1. Figure 13:  
  2. CROP PROTECTION CHEMICALS APPLIED THROUGH FOLIAR, USD, INDONESIA, 2017 - 2029
  1. Figure 14:  
  2. VALUE SHARE OF FOLIAR BY CROP TYPE, %, INDONESIA, 2022 VS 2029
  1. Figure 15:  
  2. CROP PROTECTION CHEMICALS APPLIED THROUGH FUMIGATION, METRIC TON, INDONESIA, 2017 - 2029
  1. Figure 16:  
  2. CROP PROTECTION CHEMICALS APPLIED THROUGH FUMIGATION, USD, INDONESIA, 2017 - 2029
  1. Figure 17:  
  2. VALUE SHARE OF FUMIGATION BY CROP TYPE, %, INDONESIA, 2022 VS 2029
  1. Figure 18:  
  2. CROP PROTECTION CHEMICALS APPLIED THROUGH SEED TREATMENT, METRIC TON, INDONESIA, 2017 - 2029
  1. Figure 19:  
  2. CROP PROTECTION CHEMICALS APPLIED THROUGH SEED TREATMENT, USD, INDONESIA, 2017 - 2029
  1. Figure 20:  
  2. VALUE SHARE OF SEED TREATMENT BY CROP TYPE, %, INDONESIA, 2022 VS 2029
  1. Figure 21:  
  2. CROP PROTECTION CHEMICALS APPLIED THROUGH SOIL TREATMENT, METRIC TON, INDONESIA, 2017 - 2029
  1. Figure 22:  
  2. CROP PROTECTION CHEMICALS APPLIED THROUGH SOIL TREATMENT, USD, INDONESIA, 2017 - 2029
  1. Figure 23:  
  2. VALUE SHARE OF SOIL TREATMENT BY CROP TYPE, %, INDONESIA, 2022 VS 2029
  1. Figure 24:  
  2. FUNGICIDE MARKET BY CROP TYPE, METRIC TON, INDONESIA, 2017 - 2029
  1. Figure 25:  
  2. FUNGICIDE MARKET BY CROP TYPE, USD, INDONESIA, 2017 - 2029
  1. Figure 26:  
  2. VALUE SHARE OF FUNGICIDE BY CROP TYPE, %, INDONESIA, 2017 VS 2023 VS 2029
  1. Figure 27:  
  2. VOLUME SHARE OF FUNGICIDE BY CROP TYPE, %, INDONESIA, 2017 VS 2023 VS 2029
  1. Figure 28:  
  2. FUNGICIDE CONSUMED BY COMMERCIAL CROPS, METRIC TON, INDONESIA, 2017 - 2029
  1. Figure 29:  
  2. FUNGICIDE CONSUMED BY COMMERCIAL CROPS, USD, INDONESIA, 2017 - 2029
  1. Figure 30:  
  2. VALUE SHARE OF COMMERCIAL CROPS BY APPLICATION MODE, %, INDONESIA, 2022 VS 2029
  1. Figure 31:  
  2. FUNGICIDE CONSUMED BY FRUITS & VEGETABLES, METRIC TON, INDONESIA, 2017 - 2029
  1. Figure 32:  
  2. FUNGICIDE CONSUMED BY FRUITS & VEGETABLES, USD, INDONESIA, 2017 - 2029
  1. Figure 33:  
  2. VALUE SHARE OF FRUITS & VEGETABLES BY APPLICATION MODE, %, INDONESIA, 2022 VS 2029
  1. Figure 34:  
  2. FUNGICIDE CONSUMED BY GRAINS & CEREALS, METRIC TON, INDONESIA, 2017 - 2029
  1. Figure 35:  
  2. FUNGICIDE CONSUMED BY GRAINS & CEREALS, USD, INDONESIA, 2017 - 2029
  1. Figure 36:  
  2. VALUE SHARE OF GRAINS & CEREALS BY APPLICATION MODE, %, INDONESIA, 2022 VS 2029
  1. Figure 37:  
  2. FUNGICIDE CONSUMED BY PULSES & OILSEEDS, METRIC TON, INDONESIA, 2017 - 2029
  1. Figure 38:  
  2. FUNGICIDE CONSUMED BY PULSES & OILSEEDS, USD, INDONESIA, 2017 - 2029
  1. Figure 39:  
  2. VALUE SHARE OF PULSES & OILSEEDS BY APPLICATION MODE, %, INDONESIA, 2022 VS 2029
  1. Figure 40:  
  2. FUNGICIDE CONSUMED BY TURF & ORNAMENTAL, METRIC TON, INDONESIA, 2017 - 2029
  1. Figure 41:  
  2. FUNGICIDE CONSUMED BY TURF & ORNAMENTAL, USD, INDONESIA, 2017 - 2029
  1. Figure 42:  
  2. VALUE SHARE OF TURF & ORNAMENTAL BY APPLICATION MODE, %, INDONESIA, 2022 VS 2029
  1. Figure 43:  
  2. MOST ACTIVE COMPANIES BY NUMBER OF STRATEGIC MOVES, INDONESIA, 2017-2022
  1. Figure 44:  
  2. MOST ACTIVE COMPANIES BY NUMBER OF STRATEGIC MOVES, INDONESIA, 2017-2022
  1. Figure 45:  
  2. MARKET SHARE OF MAJOR PLAYERS, %, INDONESIA 2023

Indonesia Fungicide Industry Segmentation

Chemigation, Foliar, Fumigation, Seed Treatment, Soil Treatment are covered as segments by Application Mode. Commercial Crops, Fruits & Vegetables, Grains & Cereals, Pulses & Oilseeds, Turf & Ornamental are covered as segments by Crop Type.

  • Indonesia's tropical climate provides an ideal environment for crop cultivation and the rapid proliferation of fungal diseases, posing significant challenges to the agricultural sector. In response, farmers in the country are employing various methods to combat these fungal diseases, with fungicides being an effective solution. Depending on the specific disease and crop stage, farmers are implementing different application modes to control and mitigate the impact of these diseases.
  • Farmers predominantly adopted the foliar application method, which represented a significant market share of 61.2% in 2022. This preference can be attributed to effective disease control and additional benefits to plant health, including improved growth efficiency and stress tolerance, resulting in enhanced productivity throughout the growing season.
  • Seed treatment fungicides are suitable to combat soil-borne diseases in crops like palm oil, coffee, rice, and maize. This proactive approach enables growers to effectively control diseases at the early crop stage, mitigating their impact on crop health and yield. In 2022, the consumption of seed treatment fungicides represented a share of 13.7%.
  • The chemigation application mode occupied the market value share of 12.2% in 2022, which is majorly attributed to the country's top priority on modernizing the irrigation systems, and 95% of the country's rice is produced from these irrigation systems. The rising adoption of modern irrigation systems further increases the adoption of chemigation modes for applying fungicides.
  • Farmers utilize other fumigation and soil treatment as alternative modes of applying fungicides to their crops, selecting the appropriate method based on the specific fungal disease and crop type.
Application Mode
Chemigation
Foliar
Fumigation
Seed Treatment
Soil Treatment
Crop Type
Commercial Crops
Fruits & Vegetables
Grains & Cereals
Pulses & Oilseeds
Turf & Ornamental
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Market Definition

  • Function - Fungicides are chemicals used to control or prevent fungi from damaging the crop and prevent yield loss.
  • Application Mode - Foliar, Seed Treatment, Soil Treatment, Chemigation, and Fumigation are the different type of application modes through which crop protection chemicals are applied to the crops.
  • Crop Type - This represents the consumption of crop protection chemicals by Cereals, Pulses, Oilseeds, Fruits, Vegetables, Turf, and Ornamental crops.
Keyword Definition
±õ°Â²Ñ​ Integrated weed management (IWM) is an approach to incorporate multiple weed control techniques throughout the growing season to give producers the best opportunity to control problematic weeds.​
±á´Ç²õ³Ù​ Hosts are the plants that form relationships with beneficial microorganisms and help them colonize.​
±Ê²¹³Ù³ó´Ç²µ±ð²Ô​ A disease-causing organism.​
±á±ð°ù²ú¾±²µ²¹³Ù¾±´Ç²Ô​ Herbigation is an effective method of applying herbicides through irrigation systems.​
Maximum residue levels (MRL)​ Maximum Residue Limit (MRL) is the maximum allowed limit of pesticide residue in food or feed obtained from plants and animals.
±õ´Ç°Õ​ The Internet of Things (IoT) is a network of interconnected devices that connect and exchange data with other IoT devices and the cloud.​
Herbicide-tolerant varieties (HTVs)​ Herbicide-tolerant varieties are plant species that have been genetically engineered to be resistant to herbicides used on crops.​
°ä³ó±ð³¾¾±²µ²¹³Ù¾±´Ç²Ô​ Chemigation is a method of applying pesticides to crops through an irrigation system.​
Crop Protection​ Crop protection is a method of protecting crop yields from different pests, including insects, weeds, plant diseases, and others that cause damage to agricultural crops.​
Seed Treatment​ Seed treatment helps to disinfect seeds or seedlings from seed-borne or soil-borne pests. Crop protection chemicals, such as fungicides, insecticides, or nematicides, are commonly used for seed treatment.
¹ó³Ü³¾¾±²µ²¹³Ù¾±´Ç²Ô​ Fumigation is the application of crop protection chemicals in gaseous form to control pests.
Bait ​A bait is a food or other material used to lure a pest and kill it through various methods, including poisoning.
Contact Fungicide​ Contact pesticides prevent crop contamination and combat fungal pathogens.​ They act on pests (fungi) only when they come in contact with the pests.
Systemic Fungicide​ A systemic fungicide is a compound taken up by a plant and then translocated within the plant, thus protecting the plant from attack by pathogens.​
Mass Drug Administration (MDA)​ Mass drug administration is the strategy to control or eliminate many neglected tropical diseases​.
²Ñ´Ç±ô±ô³Ü²õ°ì²õ​ Mollusks are pests that feed on crops, causing crop damage and yield loss. Mollusks include octopi, squid, snails, and slugs.
Pre-emergence Herbicide​ Preemergence herbicides are a form of chemical weed control that prevents germinated weed seedlings from becoming established.​
Post-emergence Herbicide​ Postemergence herbicides are applied to the agricultural field to control weeds after emergence (germination) of seeds or seedlings.​
Active Ingredients​ Active ingredients are the chemicals in pesticide products that kill, control, or repel pests.​
United States Department of Agriculture (USDA)​ The Department of Agriculture provides leadership on food, agriculture, natural resources, and related issues​.
Weed Science Society of America (WSSA) ​ The WSSA, a non-profit professional society, promotes research, education, and extension outreach activities related to weeds​.
Suspension concentrate​ Suspension concentrate (SC) is one of the formulations of crop protection chemicals with solid active ingredients dispersed in water.​
Wettable powder​ A wettable powder (WP) is a powder formulation that forms a suspension when mixed with water prior to spraying. ​
·¡³¾³Ü±ô²õ¾±´Ú¾±²¹²ú±ô±ðÌý³¦´Ç²Ô³¦±ð²Ô³Ù°ù²¹³Ù±ðÌý​ Emulsifiable concentrate (EC) is a concentrated liquid formulation of pesticide that needs to be diluted with water to create a spray solution.​
Plant-parasitic nematodes ​ Parasitic Nematodes feed on the roots of crops, causing damage to the roots. These damages allow for easy plant infestation by soil-borne pathogens, which results in crop or yield loss.
Australian Weeds Strategy (AWS)​ The Australian Weeds Strategy, owned by the Environment and Invasives Committee, provides national guidance on weed management.​
Weed Science Society of Japan (WSSJ) ​ WSSJ aims to contribute to the prevention of weed damage and the utilization of weed value by providing the chance for research presentation and information exchange.​
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Research Methodology

ÌÇÐÄvlog´«Ã½ follows a four-step methodology in all our reports.

  • Step-1: Identify Key Variables: In order to build a robust forecasting methodology, the variables and factors identified in Step-1 are tested against available historical market numbers. Through an iterative process, the variables required for market forecast are set and the model is built on the basis of these variables.
  • Step-2: Build a Market Model: Market-size estimations for the forecast years are in nominal terms. Inflation is not a part of the pricing, and the average selling price (ASP) is kept constant throughout the forecast period.
  • Step-3: Validate and Finalize: In this important step, all market numbers, variables and analyst calls are validated through an extensive network of primary research experts from the market studied. The respondents are selected across levels and functions to generate a holistic picture of the market studied.
  • Step-4: Research Outputs: Syndicated Reports, Custom Consulting Assignments, Databases & Subscription Platforms
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Indonesia Fungicide Market Research FAQs

The Indonesia Fungicide Market size is expected to reach USD 542.06 million in 2024 and grow at a CAGR of 3.62% to reach USD 647.57 million by 2029.

In 2024, the Indonesia Fungicide Market size is expected to reach USD 542.06 million.

ADAMA Agricultural Solutions Ltd, Bayer AG, FMC Corporation, Syngenta Group and UPL Limited are the major companies operating in the Indonesia Fungicide Market.

In the Indonesia Fungicide Market, the Foliar segment accounts for the largest share by application mode.

In 2024, the Foliar segment accounts for the fastest growing by application mode in the Indonesia Fungicide Market.

In 2023, the Indonesia Fungicide Market size was estimated at 542.06 million. The report covers the Indonesia Fungicide Market historical market size for years: 2017, 2018, 2019, 2020, 2021, 2022 and 2023. The report also forecasts the Indonesia Fungicide Market size for years: 2024, 2025, 2026, 2027, 2028 and 2029.

Indonesia Fungicide Industry Report

Statistics for the 2023 Indonesia Fungicide market share, size and revenue growth rate, created by ÌÇÐÄvlog´«Ã½â„¢ Industry Reports. Indonesia Fungicide analysis includes a market forecast outlook to 2029 and historical overview. Get a sample of this industry analysis as a free report PDF download.

Indonesia Fungicide Market SIZE & SHARE ANALYSIS - GROWTH TRENDS & FORECASTS UP TO 2029

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` // Citation Copy const citationText = document.querySelector(".citation-text"); const copyCitation = document.querySelector("#copy-citation"); copyCitation.addEventListener("click", function (event) { event.preventDefault(); handleShare('Citation Copied'); var copyText = citationText.innerText; navigator.clipboard.writeText(copyText); let copiedNotification = document.getElementById("citation-copy-notification"); copiedNotification.classList.remove("invisible"); setTimeout(()=>copiedNotification.classList.add("invisible"), 2000); }); // Link Copy const copyButton = document.querySelector("#copy-link"); copyButton.addEventListener("click", function (event) { event.preventDefault(); handleShare('Link Copied') navigator.clipboard.writeText(`${report_url}`); let copiedNotification = document.getElementById("link-copy-notification"); copiedNotification.classList.remove("invisible"); setTimeout(()=>copiedNotification.classList.add("invisible"), 1500 ); }); // Embed Code Copy const copyEmbedCodeButton = document.getElementById('copy-embed-code-butt'); copyEmbedCodeButton.addEventListener("click", function(event){ event.preventDefault(); handleEmbedSnapshot(); let copyiedCode = document.getElementById('code-to-copy').innerText; navigator.clipboard.writeText(copyiedCode); let codeCopiedNotification = document.getElementById("embed-code-copy-notification"); codeCopiedNotification.classList.remove("invisible"); setTimeout(()=>codeCopiedNotification.classList.add("invisible"), 1500 ); }); // Facebook Share let facebookShare = document.getElementById("facebook-share"); facebookShare.addEventListener('click', function() { handleShare('Facebook'); let url = `https://www.facebook.com/sharer/sharer.php?u=${encodeURI(report_url)}`; window.open(url,'Share on Facebook', `width=${width}, height=${height}, top=${top}, left=${left}`) }); // LinkedIn Share let linkedinShare = document.getElementById("linkedin-share"); linkedinShare.addEventListener('click', function() { handleShare('LinkedIn'); let url = `https://www.linkedin.com/shareArticle?mini=true&url=${encodeURI(report_url)}&source=MordorIntel`; window.open(url, 'Share on Linkedin', `width=${width}, height=${height}, top=${top}, left=${left}`); }); // Twitter Share let twitterShare = document.getElementById("twitter-share"); twitterShare.addEventListener('click', function() { handleShare('Twitter'); let url = `http://twitter.com/intent/tweet?url=${encodeURI(report_url)}&text=${encodeURIComponent(shortTitle.replace(/\s+Market$/, '').replace(/\s+market$/, '').trim() + ' Market Size | ÌÇÐÄvlog´«Ã½')},${encodeURIComponent('@MordorIntel')}&hashtags=mordorintelligence,${slug.replaceAll("-", "")}`; window.open(url, 'Share on Twitter', `width=${width}, height=${height}, top=${top}, left=${left}`); }); // Email Share let emailShare = document.getElementById("email-share"); emailShare.href = `mailto:?subject=${encodeURIComponent("ÌÇÐÄvlog´«Ã½ - " + shortTitle)}&body=${encodeURIComponent('Check out this report from ÌÇÐÄvlog´«Ã½. I believe you will find it interesting.')}%0D%0A%0D%0A${encodeURIComponent(metaDescription)}%0D%0A%0D%0A${encodeURIComponent(marketSnapshotUrl)}%0D%0A%0D%0A${encodeURIComponent(report_url)}`; emailShare.addEventListener('click', function() { handleShare('Email'); }); } // Share Analytics async function handleShare(type=null){ try{ let body ={ reportTitle: `${reportTitle}`, reportSlug: `${slug}`, reportUrl: `${report_url}`, sharingPlatform: type, } fetch(`${backend_url}/api/collect-analytics/share-analytics`, { method: 'post', body: JSON.stringify(body) }).then(res=>{ console.log('Send Successfully'); }) } catch(error){ console.log(`Error at Share Analytics: ${error}`); } } // Embed Analytics async function handleEmbedSnapshot(){ try{ let body ={ image: (imageType === "executive-summary") ? marketSnapshotUrl.split('/')[3]+'-executive-summary-snapshot' : marketSnapshotUrl.split('/')[3]+'-market-snapshot', imageUrl: marketSnapshotUrl, reportTitle: `${reportTitle}`, reportSlug: `${slug}`, reportUrl: `'${report_url}`, isMarketSnapshot: isMarketSnapshot, isExecutiveSummary: isExecutiveSummary, } fetch(`${backend_url}/api/collect-analytics/embed-analytics`, { method: 'post', body: JSON.stringify(body) }).then(res=>{ console.log('Send Successfully'); }) } catch(error){ console.log(`Error at Embed Snapshot Analytics: ${error}`); } } // Alter Image Url function alterImageUrl(imageUrl){ if(window.location.href?.includes('www.mordorintelligence')){ if(imageUrl?.includes('mordorlabs')){ imageUrl = imageUrl.replace('mordorlabs','mordorintelligence'); }else if(imageUrl?.includes('mordor-graph-bucket.s3.us-west-2.amazonaws')){ imageUrl = imageUrl.replace('mordor-graph-bucket.s3.us-west-2.amazonaws','s3.mordorintelligence'); } }else{ if(imageUrl?.includes('mordorintelligence')) { imageUrl = imageUrl.replace('mordorintelligence','mordorlabs'); }else if(imageUrl?.includes('mordor-graph-bucket.s3.us-west-2.amazonaws')){ imageUrl = imageUrl.replace('mordor-graph-bucket.s3.us-west-2.amazonaws','s3.mordorlabs'); } } return imageUrl + "?embed=true"; } }