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China Triazole Fungicides Market Report 2016 Edition

  • February 2016
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  • WBISS Consulting
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  • 180 pages

Triazole fungicides are the second largest fungicide category (after strobilurin fungicides) by market value globally, whose market value accounts for about 21% of the global fungicides total. In 2014, the global triazole fungicides’ market value reached USD3.4 billion, up by 9.6% compared with that in 2013.

China, the biggest pesticide supplier globally, has been playing an important role in the global triazole fungicides market. China currently can produce 16 kinds of triazole fungicides, more than 65% of which are exported. Some products’ export volume exceeds over 75% of their total output, including tebuconazole, propiconazole and flutriafol, etc. China has become the biggest triazole fungicides supplier in the world.

Driven by the products’ good control effect, the demand for triazole fungicides in China has been expanding in recent years, with both soaring consumption volume and market value. Ranking by market value, triazole fungicides have become the largest category of fungicides in China. China has become a major triazole fungicides consumer globally, whose market value accounts for about 6%-7% of the global triazole fungicides total.

In Dec. 2011, the Chinese Government issued the Twelfth Five-Year (2011-2015) Development Plan for Pesticide Industry, in which it is pointed out that the number of Chinese pesticide companies shall be cut down by 30% by 2015. 2015 is the last year of the plan, how has it affected China’s triazole fungicides industry? How about the supply situation and producers of these products?

The Chinese Government has been paying more attention on environment protection in recent years, and the supervision of wastewater treatment in the agrochemical industry has become more stringent. Many pesticides producers have increased their investments in wastewater treatment, and some have been shut down or rectified and reformed because of the problem of wastewater treatment. What’s more, the increasing labor cost and raw material price have raised the costs and reduced profits of many pesticides. How does it affect the triazole fungicides industry? How about the supply and sale situation of triazole fungicides?

In Feb. 2015, the Ministry of Agriculture of China issued a document about the action plan of zero growth in pesticide consumption in 2020, in which bio-pesticides are mentioned several times. This will stimulate the promotion and application of bio-pesticides, which may seize the market shares of many chemicals pesticides market. How about the current consumption situation of Chinese triazole fungicides and their future trend?

In order to answer the above questions, WBISS conducted a special market research on China’s triazole fungicides industry and published this report.

China Triazole Fungicides Market Report 2016 Edition is a professional and trusted study on the current state of the Chinese triazole fungicides industry. With 285 tables and figures, the report provides key statistics on the state of the industry and is a valuable source of guidance and direction for companies and individuals who are interested in the market. It helps them fully understand the current Chinese triazole fungicides market and their future trend. The report provides reliable data and analysis in the following aspects:

1. Registration of China triazole fungicides by end of 2015, segment by product, formulation type and registrant.
2. Supply situation of China triazole fungicides in 2008-2015, segment by product, region and producer, including detailed data about capacity and output, major producers and their production information in 2013-2015.
3. Export situation for China triazole fungicides export in 2008-2015, including export specifications, destinations and exporters.
4. Consumption situation of China triazole fungicides, segment by product and crop. The detail data include consumption volume and value.
5. Supply and demand forecast in 2016-2020 and segment by product.
6. Detailed introduction of 12 typical triazole fungicides products. For each triazole fungicide, the information includes:
- Supply situation (total capacity and output), 2008-2015
- Major technical suppliers and their production, 2013-2015
- Potential projects introduction
- Price trends, 2012-2015
- Qualitative analysis for export situation, 2008-2015
- Consumption situation (volume and value), segment by formulation and crop, 2011-2015
- Supply and demand forecast in 2016-2020
7. Profile of 10 key triazole fungicides players, including company introduction, major pesticides products in each company, company financial data, triazole fungicides production, sales data and information.

Table Of Contents

China Triazole Fungicides Market Report 2016 Edition
Main Contents

Executive summary
Research scope and methodology
I Introduction of China fungicides industry
I-1 China fungicides supply situation, 2006-2015
I-2 China fungicides consumption situation, 2006-2015
II Registration situation of triazole fungicides in China
II-1 Registration situation segment by product
II-2 Registration situation segment by formulation type
II-3 Registration situation segment by registrant
III Supply situation of triazole fungicides in China
III-1 Total supply situation, 2008-2015
III-2 Segment by region, 2008-2015
III-3 Segment by product, 2008-2015
III-4 Segment by manufacturer, 2008-2015
IV Export situation of triazole fungicides in China
IV-1 Total export situation, 2008-2015
IV-2 Segment by product, 2008-2015
V Consumption situation of triazole fungicides in China
V-1 Total consumption situation (volume and value), 2010-2015
V-2 Segment by product (volume and value), 2010-2015
V-3 Segment by crop (volume), 2010-2015
VI Introductions of 12 typical triazole fungicides products
VI-1 Tebuconazole
VI-1.1 Supply situation, 2008-2015
VI-1.2 Producer, 2013-2015
VI-1.3 Potential projects introduction
VI-1.4 Price, 2012-2015
VI-1.5 Export situation
VI-1.6 Consumption situation (by formulation and by crop), 2010-2015
VI-1.7 Supply and demand forecast, 2016-2020
VI-2 Propiconazole
VI-3 Difenoconazole
VI-4 Epoxiconazole
VI-5 Tricyclazole
VI-6 Triadimefon
VI-7 Triadimenol
VI-8 Flutriafol
VI-9 Diniconazole
VI-10 Myclobutanil
VI-11 Flusilazole
VI-12 Hexaconazole
VII China triazole fungicides supply and demand forecast, 2016-2020
VII-1 Influencing factors of China's triazole fungicide industry
VII-2 Demand forecast
VII-3 Supply forecast
VIII Profile of 10 key triazole fungicides producers
VIII-1 Jiangsu Sevencontinent Green Chemical Co., Ltd.
VIII-1.1 Basic information
VIII-1.2 Company introduction
VIII-1.3 Shareholder structure
VIII-1.4 Business performance, 2012-2015
VIII-1.5 Triazole fungicides production and sale situation, 2012-2015
VIII-2 Jiangsu Sword Agrochemicals Co., Ltd.
VIII-3 Jiangsu Fengdeng Crop Science Co., Ltd.
VIII-4 Shandong Weifang Shuangxing Pesticide Co., Ltd.
VIII-5 Yancheng Limin Chemical Co., Ltd.
VIII-6 Shanghai Shengnong Pesticide Co., Ltd.
VIII-7 Ningbo Sunjoy Agroscience Co., Ltd.
VIII-8 Jiangsu Sheyang Huanghai Pesticide Chemical Co., Ltd.
VIII-9 Zhejiang Heben Pesticide and Chemicals Co., Ltd.
VIII-10 Jiangsu Jiannong Agrochemical Co., Ltd.

List of Tables

Table I-1-1 Output of fungicides segment by type in China (TC, tonne), 2006-2015
Table I-2-1 Consumption volume of fungicides in China (by technical, tonne), 2006-2015
Table II-1-1 Registration of major triazole fungicides by number of registration in China, 2015
Table II-1-2 Registration of major triazole fungicides by number of registrant in China, 2015
Table II-2-1 Registration of triazole fungicides specification by number of registration in China, 2015
Table II-2-2 Registration of triazole fungicides specification by number of registrant in China, 2015
Table II-3-1 Registration situation of major triazole fungicides technical players in China, 2015
Table II-3-2 Registration situation of major triazole fungicides formulations players in China (by number of registration), 2015
Table III-2-1 Capacity of triazole fungicides in China segment by region (t/a), 2008-2015
Table III-2-2 Output of triazole fungicides in China segment by region (tonne), 2008-2015
Table III-3-1 Capacity of triazole fungicides in China segment by product (t/a), 2008-2015
Table III-3-2 Output of triazole fungicides in China segment by product (tonne), 2008-2015
Table III-4-1 China's tops triazole fungicide producers and main triazole fungicides, 2015
Table III-4-2 Output of the tops triazole fungicide producers and industry concentration ratio in China (tonne), 2008-2015
Table IV-2-1 Triazole fungicides technical export segment by product (tonne), 2008-2015
Table IV-2-2 Triazole fungicides formulation export segment by product (tonne), 2008-2015
Table IV-2-3 Triazole fungicides export volume segment by product (calculated by TC, tonne), 2008-2015
Table VI-1.2-1 Basic information of major tebuconazole technical producers in China, 2015
Table VI-1.2-2 Capacity and output of major tebuconazole technical producers in China, 2013-2015
Table VI-1.3-1 Potential projects of tebuconazole technical in China, by end of 2015
Table VI-1.5-1 Key tebuconazole technical exporters and their oversea markets, 2012-2015
Table VI-1.5-2 Key tebuconazole formulation exporters and their oversea markets, 2012-2015
Table VI-2.2-1 Basic information of major propiconazole technical producers in China, 2015
Table VI-2.2-2 Capacity and output of major propiconazole technical producers in China, 2013-2015
Table VI-2.5-1 Key propiconazole technical exporters and their oversea markets, 2012-2015
Table VI-2.5-2 Key propiconazole formulation exporters and their oversea markets, 2012-2015
Table VI-3.2-1 Basic information of major difenoconazole technical producers in China, 2015
Table VI-3.2-2 Capacity and output of major difenoconazole technical producers in China, 2013-2015
Table VI-3.3-1 Potential projects of difenoconazole technical in China, by end of 2015
Table VI-3.5-1 Key difenoconazole technical exporters and their oversea markets, 2012-2015
Table VI-3.5-2 Key difenoconazole formulations exporters and their oversea markets, 2012-2015
Table VI-4.2-1 Basic information of major epoxiconazole technical producers in China, 2015
Table VI-4.2-2 Capacity and output of major epoxiconazole technical producers in China, 2013-2015
Table VI-4.3-1 Potential projects of epoxiconazole technical in China, by end of 2015
Table VI-4.5-1 Key epoxiconazole technical exporters and their oversea markets, 2012-2015
Table VI-4.5-2 Key epoxiconazole formulations exporters and their oversea markets, 2012-2015
Table VI-5.2-1 Basic information of major tricyclazole technical producers in China, 2015
Table VI-5.2-2 Capacity and output of major tricyclazole technical producers in China, 2013-2015
Table VI-5.3-1 Potential projects of tricyclazole technical in China, by end of 2015
Table VI-5.5-1 Key tricyclazole technical exporters and their oversea markets, 2012-2015
Table VI-5.5-2 Key tricyclazole formulations exporters and their oversea markets, 2012-2015
Table VI-6.2-1 Basic information of major triadimefon technical producers in China, 2015
Table VI-6.2-2 Capacity and output of major triadimefon technical producers in China, 2013-2015
Table VI-6.5-1 Key triadimefon technical exporters and their oversea markets, 2012-2015
Table VI-7.2-1 Basic information of major triadimenol technical producers in China, 2015
Table VI-7.2-2 Capacity and output of major triadimenol technical producers in China, 2013-2015
Table VI-7.5-1 Key triadimenol exporters and their oversea markets, 2012-2015
Table VI-8.2-1 Basic information of major flutriafol technical producers in China, 2015
Table VI-8.2-2 Capacity and output of major flutriafol technical producers in China, 2013-2015
Table VI-8.5-1 Key flutriafol technical exporters and their oversea markets, 2012-2015
Table VI-8.5-2 Key flutriafol formulations exporters and their oversea markets, 2012-2015
Table VI-9.2-1 Basic information of major diniconazole technical producers in China, 2015
Table VI-9.2-2 Capacity and output of major diniconazole technical producers in China, 2013-2015
Table VI-10.2-1 Basic information of major myclobutanil technical producers in China, 2015
Table VI-10.2-2 Capacity and output of major myclobutanil technical producers in China, 2013-2015
Table VI-11.2-1 Basic information of major flusilazole technical producers in China, 2015
Table VI-11.2-2 Capacity and output of major flusilazole technical producers in China, 2013-2015
Table VI-12.2-1 Basic information of major hexaconazole technical producers in China, 2015
Table VI-12.2-2 Capacity and output of major hexaconazole technical producers in China, 2013-2015
Table VII-1-1 Stimulating factors and inhibiting factors for China's triazole fungicide industry
Table VII-1-2 Occurrence area and forecast of the major disease on rice, wheat and corn in China, 2011-2016
Table VIII-1.1-1 Basic information of Sevencontinent Green, 2015
Table VIII-1.2-1 Capacity of major pesticide products in Sevencontinent Green, 2012-2015
Table VIII-1.4-1 Pesticides production and sale in Sevencontinent Green (tonne), 2012-2015
Table VIII-1.4-2 Prime operating revenue in Sevencontinent Green segment by region (million USD), 2011-2014
Table VIII-1.5-1 Capacity and output of triazole fungicides in Sevencontinent Green (segment by product), 2012-2015
Table VIII-1.5-2 Production and sale of triazole fungicides in Sevencontinent Green (segment by product, tonne), 2012-2015
Table VIII-2.1-1 Basic information of Jiangsu Sword, 2015
Table VIII-2.2-1 Capacity of major pesticide products in Jiangsu Sword, 2012-2015
Table VIII-2.4-1 Pesticides production and sale in Jiangsu Sword (tonne), 2012-2015
Table VIII-2.4-2 Prime operating revenue segment by sub-industry in Jiangsu Sword (million USD), 2012-H1 2015
Table VIII-2.5-1 Capacity and output of triazole fungicides in Jiangsu Sword (segment by product), 2012-2015
Table VIII-3.1-1 Basic information of Jiangsu Fengdeng, 2015
Table VIII-3.2-1 Capacity of major pesticide products in Jiangsu Fengdeng, 2012-2015
Table VIII-3.5-1 Capacity and output of triazole fungicides in Jiangsu Fengdeng (segment by product), 2012-2015
Table VIII-4.1-1 Basic information of Weifang Shuangxing, 2015
Table VIII-4.2-1 Capacity of major pesticide products in Weifang Shuangxing, 2012-2015
Table VIII-4.4-1 Prime operating revenue in Weifang Shuangxing (segment by category, million USD), 2011-2014
Table VIII-4.4-2 Gross profit in Weifang Shuangxing (segment by category, million USD), 2011-2014
Table VIII-4.4-3 Gross profit rate in Weifang Shuangxing segment by category, 2011-2014
Table VIII-4.5-1 Capacity and output of triazole fungicides in Weifang Shuangxing (segment by product), 2012-2015
Table VIII-5.1-1 Basic information of Yancheng Limin, 2015
Table VIII-5.2-1 Capacity of major pesticide products in Yancheng Limin, 2012-2015
Table VIII-5.5-1 Capacity and output of triazole fungicides in Yancheng Limin (segment by product), 2012-2015
Table VIII-6.1-1 Basic information of Shanghai Shengnong, 2015
Table VIII-6.5-1 Capacity and output of triazole fungicides in Shanghai Shengnong (segment by product), 2012-2015
Table VIII-7.1-1 Basic information of Ningbo Sunjoy, 2015
Table VIII-7.5-1 Capacity and output of triazole fungicides in Ningbo Sunjoy (segment by product), 2012-2015
Table VIII-8.1-1 Basic information of Sheyang Huanghai, 2015
Table VIII-8.5-1 Capacity and output of triazole fungicides in Sheyang Huanghai (segment by product), 2012-2015
Table VIII-9.1-1 Basic information of Zhejiang Heben, 2015
Table VIII-9.5-1 Capacity and output of triazole fungicides in Zhejiang Heben (segment by product), 2012-2015
Table VIII-10.1-1 Basic information of Jiangsu Jiannong, 2015
Table VIII-10.5-1 Capacity and output of triazole fungicides in Jiangsu Jiannong (segment by product), 2012-2015

List of figures

Figure I-1-1 Output share of fungicides technical in major regions of China, 2015
Figure III-1-1 Total capacity and output of triazole fungicides in China (t/a, tonne), 2008-2015
Figure III-1-2 Operating rate of triazole fungicides production in China, 2008-2015
Figure III-2-1 Geographical distribution of triazole fungicides technical producers in China, 2015
Figure III-3-1 Capacity structure of triazole fungicides by product in China, 2015
Figure III-3-2 Output structure of triazole fungicides by product in China, 2015
Figure IV-1-1 Total export volume of triazole fungicides in China (tonne), 2008-2015
Figure V-1-1 Total consumption volume of triazole fungicides in China (by technical, tonne), 2008-2015
Figure V-1-2 Consumption volume and market value of triazole fungicides in China (by formulation, tonne, million USD), 2008-2015
Figure V-2-1 Consumption situation of key triazole fungicides in China (by technical, tonne), 2011-2015
Figure V-2-2 CAGR of triazole fungicides consumption segment by product in China (calculated by technical), 2011-2015
Figure V-2-3 Consumption structure of triazole fungicides by product in China (by technical), 2015
Figure V-2-4 Consumption situation of key triazole fungicides in China (by formulation, tonne), 2011-2015
Figure V-2-5 Consumption structure of triazole fungicides by product in China (by formulation), 2015
Figure V-2-6 Market value of triazole fungicides segment by product in China (million USD), 2011-2015
Figure V-2-7 Market value of triazole fungicides by product in China, 2015
Figure V-3-1 Consumption situation of triazole fungicides by crop in China (by technical, tonne), 2011-2015
Figure V-3-2 Consumption structure of triazole fungicides by crop in China, 2015
Figure V-3-3 Consumption structure of triazole fungicides by crop in China, 2014
Figure V-3-4 Consumption structure of triazole fungicides by crop in China, 2013
Figure V-3-5 Consumption structure of triazole fungicides by crop in China, 2012
Figure V-3-6 Consumption structure of triazole fungicides by crop in China, 2011
Figure VI-1.1-1 Capacity and output of tebuconazole technical in China, 2008-2015 (t/a, tonne)
Figure VI-1.1-2 Operating rate of tebuconazole technical production in China, 2008-2015
Figure VI-1.2-1 Geographical distribution of tebuconazole technical producers in China, 2015
Figure VI-1.4-1 Ex-works price of 97% tebuconazole technical in China (USD/t), 2012-2015
Figure VI-1.4-2 Ex-works price of tebuconazole formulations in China (USD/t), 2008-2015
Figure VI-1.5-1 Total export volume of tebuconazole in China (tonne), 2008-2015
Figure VI-1.5-2 Tebuconazole formulations export situation by specification in China (tonne), 2008-2015
Figure VI-1.6-1 Consumption volume of tebuconazole in China, 2008-2015 (calculated by 97% TC, tonne)
Figure VI-1.6-2 Consumption volume and market value of tebuconazole in China, 2008-2015 (by formulation, tonne, million USD)
Figure VI-1.6-3 Consumption volume and value of tebuconazole as fungicide in China, 2008-2014 (tonne, million USD)
Figure VI-1.6-4 Consumption volume and value of tebuconazole as seed treatment in China, 2008-2014 (tonne, million USD)
Figure VI-1.6-5 Consumption situation of tebuconazole by crops in China (calculated by 97% TC, tonne), 2011-2015
Figure VI-1.6-6 Consumption structure of tebuconazole by crops in China, 2012
Figure VI-1.7-1 Demand forecast of tebuconazole in China, 2016-2020 (tonne)
Figure VI-1.7-1 Supply forecast of tebuconazole in China, 2016-2020 (tonne)
Figure VI-2.1-1 Capacity and output of propiconazole technical in China, 2008-2015 (t/a, tonne)
Figure VI-2.1-2 Operating rate of propiconazole technical production in China, 2008-2015
Figure V2-1.2-1 Geographical distribution of propiconazole technical producers in China, 2015
Figure VI-2.4-1 Ex-works price of 95% propiconazole technical in China (USD/t), 2012-2015
Figure VI-2.4-2 Ex-works price of propiconazole formulations in China (USD/t), 2008-2015
Figure VI-2.5-1 Total export volume of propiconazole in China (tonne), 2008-2015
Figure VI-2.5-2 Propiconazole formulations export situation by specification in China (tonne), 2008-2015
Figure VI-2.6-1 Consumption volume of propiconazole in China, 2008-2015 (calculated by 95% TC, tonne)
Figure VI-2.6-2 Consumption volume and market value of propiconazole in China, 2008-2015 (by formulation, tonne, million USD)
Figure VI-2.6-3 Consumption situation of propiconazole by crops in China (calculated by 95% TC, tonne), 2011-2015
Figure VI-2.6-4 Consumption structure of propiconazole by crops in China, 2012
Figure VI-2.7-1 Demand forecast of propiconazole in China, 2016-2020 (tonne)
Figure VI-2.7-2 Supply forecast of propiconazole in China, 2016-2020 (tonne)
Figure VI-3.1-1 Capacity and output of difenoconazole technical in China, 2008-2015 (t/a, tonne)
Figure VI-3.1-2 Operating rate of difenoconazole technical production in China, 2008-2015
Figure VI-3.4-1 Ex-works price of 95% difenoconazole technical in China (USD/t), 2012-2015
Figure VI-3.4-2 Ex-works price of difenoconazole formulations in China (USD/t), 2008-2015
Figure VI-3.5-1 Total export volume of difenoconazole in China (tonne), 2008-2015
Figure VI-3.5-2 Difenoconazole formulations export situation by specification in China (tonne), 2008-2015
Figure VI-3.6-1 Consumption volume of difenoconazole in China, 2008-2015 (calculated by 95% TC, tonne)
Figure VI-3.6-2 Consumption volume and market value of difenoconazole in China, 2008-2015 (by formulation, tonne, million USD)
Figure VI-3.6-3 Consumption situation of difenoconazole by crops in China (calculated by 95% TC, tonne), 2011-2015
Figure VI-3.6-4 Consumption structure of difenoconazole by crops in China, 2011-2015
Figure VI-3.7-1 Demand forecast of difenoconazole in China, 2016-2020 (tonne)
Figure VI-3.7-2 Supply forecast of difenoconazole in China, 2016-2020 (tonne)
Figure VI-4.1-1 Capacity and output of epoxiconazole technical in China, 2008-2015 (t/a, tonne)
Figure VI-4.1-2 Operating rate of epoxiconazole technical production in China, 2008-2015
Figure VI-4.4-1 Ex-works price of 97% epoxiconazole technical in China (USD/t), 2012-2015
Figure VI-4.4-2 Ex-works price of epoxiconazole 125g/l SC in China (USD/t), 2008-2015
Figure VI-4.5-1 Total export volume of epoxiconazole in China (tonne), 2008-2015
Figure VI-4.6-1 Consumption volume of epoxiconazole in China, 2008-2015 (calculated by 97% TC, tonne)
Figure VI-4.6-2 Consumption volume and market value of epoxiconazole in China (by formulation, tonne, million USD), 2008-2015
Figure VI-4.6-3 Consumption situation of epoxiconazole by crops in China (calculated by 97% TC, tonne), 2011-2015
Figure VI-4.6-4 Consumption structure of epoxiconazole by crops in China, 2011-2015
Figure VI-4.7-1 Demand forecast of epoxiconazole in China, 2016-2020 (tonne)
Figure VI-4.7-2 Supply forecast of epoxiconazole in China, 2016-2020 (tonne)
Figure VI-5.1-1 Capacity and output of tricyclazole technical in China (t/a, tonne), 2008-2015
Figure VI-5.1-2 Operating rate of tricyclazole technical production in China, 2008-2015
Figure VI-5.4-1 Ex-works price of 95% tricyclazole technical in China (USD/t), 2012-2015
Figure VI-5.4-2 Ex-works price of tricyclazole 20% WP in China (USD/t), 2008-2015
Figure VI-5.5-1 Total export volume of tricyclazole in China (tonne), 2008-2015
Figure VI-5.5-2 Tricyclazole formulations export situation by specification in China (tonne), 2008-2015
Figure VI-5.6-1 Consumption volume of tricyclazole in China, 2008-2015 (calculated by 95% TC, tonne)
Figure VI-5.6-2 Consumption volume and market value of tricyclazole in China (by formulation, tonne, million USD), 2008-2015
Figure VI-5.6-3 Consumption situation of tricyclazole by crops in China (calculated by 95% TC, tonne), 2011-2015
Figure VI-5.6-4 Consumption structure of tricyclazole by crops in China, 2011-2015
Figure VI-5.7-1 Demand forecast of tricyclazole in China (tonne), 2016-2020
Figure VI-5.7-2 Supply forecast of tricyclazole in China (tonne), 2016-2020
Figure VI-6.1-1 Capacity and output of triadimefon technical in China (t/a, tonne), 2008-2015
Figure VI-6.1-2 Operating rate of triadimefon technical production in China, 2008-2015
Figure VI-6.4-1 Ex-works price of 97% triadimefon technical in China (USD/t), 2012-2015
Figure VI-6.4-2 Ex-works prices of triadimefon formulations in China (USD/t), 2008-2015
Figure VI-6.5-1 Total export volume of triadimefon in China (tonne), 2008-2015
Figure VI-6.5-2 Triadimefon formulations export situation by specification in China (tonne), 2008-2015
Figure VI-6.6-1 Consumption volume of triadimefon in China, 2008-2015 (calculated by 97% TC, tonne)
Figure VI-6.6-2 Consumption volume and market value of triadimefon in China (by formulation, tonne, million USD), 2008-2015
Figure VI-6.6-3 Consumption situation of triadimefon by crops in China (calculated by 97% TC, tonne), 2011-2015
Figure VI-6.6-4 Consumption structure of triadimefon by crops in China, 2011-2015
Figure VI-6.7-1 Demand forecast of triadimefon in China (tonne), 2016-2020
Figure VI-6.7-2 Supply forecast of triadimefon in China (tonne), 2016-2020
Figure VI-7.1-1 Capacity and output of triadimenol technical in China (t/a, tonne), 2008-2015
Figure VI-7.1-2 Operating rate of triadimenol technical production in China, 2008-2015
Figure VI-7.4-1 Ex-works price of triadimenol in China (USD/t), 2008-2015
Figure VI-7.5-1 Total export volume of triadimenol in China (tonne), 2008-2015
Figure VI-7.6-1 Consumption volume of triadimenol in China, 2008-2015 (calculated by 97% TC, tonne)
Figure VI-7.6-2 Consumption volume and market value of triadimenol in China (by formulation, tonne, million USD), 2008-2015
Figure VI-7.6-3 Consumption situation of triadimenol by crops in China (calculated by 97% TC, tonne), 2011-2015
Figure VI-7.6-4 Consumption structure of triadimenol by crops in China, 2011-2015
Figure VI-7.7-1 Demand forecast of triadimenol in China (tonne), 2016-2020
Figure VI-7.7-2 Supply forecast of triadimenol in China (tonne), 2016-2020
Figure VI-8.1-1 Capacity and output of flutriafol technical in China (t/a, tonne), 2008-2015
Figure VI-8.1-2 Operating rate of flutriafol technical production in China, 2008-2015
Figure VI-8.4-1 Ex-works price of flutriafol in China (USD/t), 2008-2015
Figure VI-8.5-1 Total export volume of flutriafol in China (tonne), 2008-2015
Figure VI-8.6-1 Consumption volume of flutriafol in China, 2008-2015 (calculated by 95% TC, tonne)
Figure VI-8.6-2 Consumption volume and market value of flutriafol in China (by formulation, tonne, million USD), 2008-2015
Figure VI-8.6-3 Consumption situation of flutriafol by crops in China (calculated by 97% TC, tonne), 2011-2015
Figure VI-8.6-4 Consumption structure of flutriafol by crops in China, 2011-2015
Figure VI-8.7-1 Demand forecast of flutriafol in China (tonne), 2016-2020
Figure VI-8.7-2 Supply forecast of flutriafol in China (tonne), 2016-2020
Figure VI-9.1-1 Capacity and output of diniconazole technical in China (t/a, tonne), 2008-2015
Figure VI-9.1-2 Operating rate of diniconazole technical production in China, 2008-2015
Figure VI-9.4-1 Ex-works price of diniconazole in China (USD/t), 2008-2015
Figure VI-9.5-1 Total export volume of diniconazole in China (tonne), 2008-2015
Figure VI-9.6-1 Consumption volume of diniconazole in China, 2008-2015 (calculated by 95% TC, tonne)
Figure VI-9.6-2 Consumption volume and market value of diniconazole in China (by formulation, tonne, million USD), 2008-2015
Figure VI-9.6-3 Consumption situation of diniconazole by crops in China (calculated by 95% TC, tonne), 2011-2015
Figure VI-9.6-4 Consumption structure of diniconazole by crops in China, 2011-2015
Figure VI-9.7-1 Demand forecast of diniconazole in China (tonne), 2016-2020
Figure VI-9.7-2 Supply forecast of diniconazole in China (tonne), 2016-2020
Figure VI-10.1-1 Capacity and output of myclobutanil technical in China (t/a, tonne), 2008-2015
Figure VI-10.1-2 Operating rate of myclobutanil technical production in China, 2008-2015
Figure VI-10.4-1 Ex-works price of myclobutanil in China (USD/t), 2008-2015
Figure VI-10.5-1 Total export volume of myclobutanil in China (tonne), 2008-2015
Figure VI-10.5-2 Myclobutanil formulations export situation by specification in China (tonne), 2008-2015
Figure VI-10.6-1 Consumption volume of myclobutanil in China, 2008-2015 (calculated by 96% TC, tonne)
Figure VI-10.6-2 Consumption volume and market value of myclobutanil in China (by formulation, tonne, million USD), 2008-2015
Figure VI-10.6-3 Consumption situation of myclobutanil by crops in China (calculated by 96% TC, tonne), 2011-2015
Figure VI-10.6-4 Consumption structure of myclobutanil by crops in China, 2011-2015
Figure VI-10.7-1 Demand forecast of myclobutanil in China (tonne), 2016-2020
Figure VI-10.7-2 Supply forecast of myclobutanil in China (tonne), 2016-2020
Figure VI-11.1-1 Capacity and output of flusilazole technical in China (t/a, tonne), 2008-2015
Figure VI-11.1-2 Operating rate of flusilazole technical production in China, 2008-2015
Figure VI-11.4-1 Ex-works price of flusilazole in China (USD/t), 2008-2015
Figure VI-11.5-1 Total export volume of flusilazole in China (tonne), 2008-2015
Figure VI-11.6-1 Consumption volume of flusilazole in China, 2008-2015 (calculated by 95% TC, tonne)
Figure VI-11.6-2 Consumption volume and market value of flusilazole in China (by formulation, tonne, million USD), 2008-2015
Figure VI-11.6-3 Consumption situation of flusilazole by crops in China (calculated by 95% TC, tonne), 2011-2015
Figure VI-11.6-4 Consumption structure of flusilazole by crops in China, 2011-2015
Figure VI-11.7-1 Demand forecast of flusilazole in China (tonne), 2016-2020
Figure VI-11.7-2 Supply forecast of flusilazole in China (tonne), 2016-2020
Figure VI-12.1-1 Capacity and output of hexaconazole technical in China (t/a, tonne), 2008-2015
Figure VI-12.4-1 Ex-works price of 95% hexaconazole technical in China (USD/t), 2012-2015
Figure VI-12.5-1 Total export volume of hexaconazole in China (tonne), 2008-2015
Figure VI-12.6-1 Consumption volume of hexaconazole in China, 2008-2015 (calculated by 95% TC, tonne)
Figure VI-12.6-2 Consumption volume and market value of hexaconazole in China (by formulation, tonne, million USD), 2008-2015
Figure VI-12.6-3 Consumption situation of hexaconazole by crops in China (calculated by 95% TC, tonne), 2011-2015
Figure VI-12.6-4 Consumption structure of hexaconazole by crops in China, 2011-2015
Figure VI-12.7-1 Demand forecast of hexaconazole in China (tonne), 2016-2020
Figure VI-12.7-2 Supply forecast of hexaconazole in China (tonne), 2016-2020
Figure VII-1-1 Compare of occurrence areas of major diseases on grain crops and consumption growth rate of triazole fungicides in China (million ha), 2011-2016
Figure VII-1-2 Planting areas of rice in China (million ha), 2005-2015
Figure VII-1-3 Planting areas of wheat in China (million ha), 2005-2015
Figure VII-1-4 Planting areas of corn in China (million ha), 2005-2015
Figure VII-1-5 Planting areas of beans in China (million ha), 2005-2015
Figure VII-1-6 Planting areas of peanut in China (million ha), 2005-2015
Figure VII-1-7 Planting areas of cotton in China (million ha), 2005-2015
Figure VII-1-8 Planting areas of vegetables in China (million ha), 2005-2015
Figure VII-1-9 Planting areas of orchard in China (million ha), 2005-2015
Figure VII-1-10 Land transfer areas trend in China (million ha), 2007-2014
Figure VII-1-11 Land transfer modes in China, 2014
Figure VII-1-12 Consumption and forecast of bio-fungicides in China (calculated by TC, tonne), 2009-2020
Figure VII-2-1 Demand forecast of triazole fungicides in China (calculated by TC), 2016-2020
Figure VII-2-2 Demand forecast of triazole fungicides segment by product in China (calculated by TC), 2016-2020
Figure VII-2-3 Demand structure of triazole fungicides by product in China (by technical), 2020
Figure VII-3-1 Supply forecast of triazole fungicides in China (calculated by TC), 2016-2020
Figure VII-3-2 Supply forecast of triazole fungicides segment by product in China (calculated by TC), 2016-2020
Figure VII-3-3 Output structure of triazole fungicides by product in China (by technical), 2020
Figure VIII-1.3-1 Shareholder structure of Sevencontinent Green, 2015
Figure VIII-1.4-1 Prime operating revenue in Sevencontinent Green (million USD), 2011-2014
Figure VIII-2.3-1 Shareholder structure of Jiangsu Sword, 2015
Figure VIII-2.4-1 Prime operating revenue in Jiangsu Sword (million USD), 2012-H1 2015
Figure VIII-3.3-1 Shareholder structure of Jiangsu Fengdeng, 2015
Figure VIII-3.4-1 Prime operating revenue in Jiangsu Fengdeng (million USD), 2009-2014
Figure VIII-4.3-1 Shareholder structure of Weifang Shuangxing, 2015
Figure VIII-5.3-1 Shareholder structure of Yancheng Limin, 2015
Figure VIII-6.3-1 Shareholder structure of Shanghai Shengnong, 2015
Figure VIII-7.3-1 Shareholder structure of Ningbo Sunjoy, 2015
Figure VIII-7.4-1 Prime operating revenue in Ningbo Sunjoy (million USD), 2009-2014
Figure VIII-8.3-1 Shareholder structure of Sheyang Huanghai, 2015
Figure VIII-9.3-1 Shareholder structure of Zhejiang Heben, 2015
Figure VIII-9.4-1 Prime operating revenue in Zhejiang Heben (million USD), 2009-2014
Figure VIII-10.3-1 Shareholder structure of Jiangsu Jiannong, 2015




Companies Mentioned
Jiangsu Sevencontinent Green Chemical Co., Ltd.
Jiangsu Sword Agrochemicals Co., Ltd.
Jiangsu Fengdeng Crop Science Co., Ltd.
Shandong Weifang Shuangxing Pesticide Co., Ltd.
Yancheng Limin Chemical Co., Ltd.
Shanghai Shengnong Pesticide Co., Ltd.
Ningbo Sunjoy Agroscience Co., Ltd.
Jiangsu Sheyang Huanghai Pesticide Chemical Co., Ltd.
Zhejiang Heben Pesticide and Chemicals Co., Ltd.
Jiangsu Jiannong Agrochemical Co., Ltd.
Shangyu Nutrichem Co., Ltd.
Lier Chemical Co., Ltd.

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