China SDHI Fungicides Market Report 2017 Edition
In the past few years, SDHI fungicides have been developing fast. Eerily in 1969, the fist SDHI fungicide named carboxin has entered the market, earlier than triazole fungicides and strobilurin fungicides. In 2003, boscalid has entered the market, which was the significant milestone of SDHI fungicides development. In 2005, its global market value was up to USD100 million, and in 2012 it reached USD300 million, this has attracted many pesticide manufacturers to pay attention on the research of SDHI fungicides.
In recent years, many MNCs have involved into the research and develop of SDHI fungicides. In 2010-2012, Bayer has launched three SDHI fungicides: bixafen, fluopyram and penflufen;
Syngenta has launched two SDHI fungicides: isopyrazam and sedaxane; BASF has launched its third SDHI fungicide fluxapyroxad; Mitsui Chemicals has launched its first SDHI fungicide penthiopyrad. By the end of 2016, there are about 23 SDHI fungicides have entered the market or under develop.
In 2014, its global market value of SDHI fungicides has reached USD1.37 billion, with a CAGR of 27.2% during 2009-2014, accounting for 8.4% of global fungicides total. The top five SDHI fungicides by market value were boscalid, fluxapyroxad, bixafen, penflufen and sedaxane, with total market value of USD1.09 million, accounting for 79.4% of SDHI fungicides total.
As the biggest pesticide supplier globally, China has been playing an important role in the global SDHI fungicides market. China is the largest generic pesticides producer in the world, and it can produce 4 kinds of SDHI fungicides at present, named boscalid, thifluzamide, carboxin and flutolanil. In addition, some SDHI fungicides will be off patent in the next decade, such as fluxapyroxad, bixafen, penflufen, sedaxane, benzovindiflupyr, etc. China’s SDHI fungicides industry will have fast development in the next decade. Though triazole fungicides and strobilurin fungicides are the mainstream ones in China fungicide market, SDHI fungicides will lead the new trend in fungicide market. Compared with other fungicides, SDHI fungicides cost more, but they are more effective and have no resistance problem. More and more famers begin to recognize and accept this new kind of fungicides.
In order to fully understand the current industry market aspects of China’s SDHI fungicides industry and their future trend, WBISS carried out a special market research for China’s SDHI fungicides industry and published this report.
China SDHI fungicide Market Report 2017 Edition is a professional and trusted study on the current state of the Chinese SDHI fungicides industry. With more than 135 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 SDHI fungicides market and their future trend. The report provides reliable data and analysis in the following aspects:
1. Registration of China SDHI fungicides by Feb. 2017, segment by product, formulation type and registrant.
2. Supply situation of China SDHI fungicides in 2012-2016, segment by product, region and producer, including detailed data about capacity and output, major producers and their production information in 2014-2016.
3. Qualitative analysis for China SDHI fungicides export in the recent three years, including export specifications, destinations and exporters.
4. Consumption situation of China SDHI fungicides in 2012-2016, segment by product and crop. The detail data include consumption volume and value.
5. Supply and demand forecast in 2017-2021, segment by product.
6. Detailed introduction of 3 typical SDHI fungicides products. For each SDHI fungicide, the information includes:
In recent years, many MNCs have involved into the research and develop of SDHI fungicides. In 2010-2012, Bayer has launched three SDHI fungicides: bixafen, fluopyram and penflufen;
Syngenta has launched two SDHI fungicides: isopyrazam and sedaxane; BASF has launched its third SDHI fungicide fluxapyroxad; Mitsui Chemicals has launched its first SDHI fungicide penthiopyrad. By the end of 2016, there are about 23 SDHI fungicides have entered the market or under develop.
In 2014, its global market value of SDHI fungicides has reached USD1.37 billion, with a CAGR of 27.2% during 2009-2014, accounting for 8.4% of global fungicides total. The top five SDHI fungicides by market value were boscalid, fluxapyroxad, bixafen, penflufen and sedaxane, with total market value of USD1.09 million, accounting for 79.4% of SDHI fungicides total.
As the biggest pesticide supplier globally, China has been playing an important role in the global SDHI fungicides market. China is the largest generic pesticides producer in the world, and it can produce 4 kinds of SDHI fungicides at present, named boscalid, thifluzamide, carboxin and flutolanil. In addition, some SDHI fungicides will be off patent in the next decade, such as fluxapyroxad, bixafen, penflufen, sedaxane, benzovindiflupyr, etc. China’s SDHI fungicides industry will have fast development in the next decade. Though triazole fungicides and strobilurin fungicides are the mainstream ones in China fungicide market, SDHI fungicides will lead the new trend in fungicide market. Compared with other fungicides, SDHI fungicides cost more, but they are more effective and have no resistance problem. More and more famers begin to recognize and accept this new kind of fungicides.
In order to fully understand the current industry market aspects of China’s SDHI fungicides industry and their future trend, WBISS carried out a special market research for China’s SDHI fungicides industry and published this report.
China SDHI fungicide Market Report 2017 Edition is a professional and trusted study on the current state of the Chinese SDHI fungicides industry. With more than 135 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 SDHI fungicides market and their future trend. The report provides reliable data and analysis in the following aspects:
1. Registration of China SDHI fungicides by Feb. 2017, segment by product, formulation type and registrant.
2. Supply situation of China SDHI fungicides in 2012-2016, segment by product, region and producer, including detailed data about capacity and output, major producers and their production information in 2014-2016.
3. Qualitative analysis for China SDHI fungicides export in the recent three years, including export specifications, destinations and exporters.
4. Consumption situation of China SDHI fungicides in 2012-2016, segment by product and crop. The detail data include consumption volume and value.
5. Supply and demand forecast in 2017-2021, segment by product.
6. Detailed introduction of 3 typical SDHI fungicides products. For each SDHI fungicide, the information includes:
- Supply situation (total capacity and output), 2012-2016
- Major technical suppliers and their production, 2014-2016
- Potential projects introduction
- Price trends, 2016-Feb. 2017
- Qualitative analysis for export situation
- Consumption situation (volume and value), segment by formulation and crop, 2012-2016
- Supply and demand forecast in 2017-2021
1 INTRODUCTION OF CHINA FUNGICIDES INDUSTRY
1.1 China fungicides supply situation, 2006-2016
1.2 China fungicides consumption situation, 2006-2016
2 REGISTRATION SITUATION OF SDHI FUNGICIDES IN CHINA
2.1 Registration situation segment by product
2.2 Registration situation segment by formulation type
2.3 Registration situation segment by registrant
3 SUPPLY SITUATION OF SDHI FUNGICIDES IN CHINA
3.1 Total supply situation, 2012-2016
3.2 Segment by region, 2012-2016
3.3 Segment by product, 2012-2016
3.4 Segment by manufacturer, 2012-2016
4 EXPORT SITUATION OF SDHI FUNGICIDES IN CHINA
4.1 Total export situation, 2012-2016
4.2 Segment by product, 2012-2016
5 CONSUMPTION SITUATION OF SDHI FUNGICIDES IN CHINA
5.1 Total consumption situation, 2012-2016
5.2 Segment by product, 2012-2016
5.3 Segment by crop, 2011-2015
6 INTRODUCTIONS OF 3 TYPICAL SDHI FUNGICIDE PRODUCTS
6.1 Carboxin
6.1.1 Supply situation, 2012-2016
6.1.2 Producer, 2014-2016
6.1.3 Potential projects
6.1.4 Price, 2016-Feb. 2017
6.1.5 Export situation
6.1.6 Consumption situation (by formulation and by crop), 2012-2016
6.1.7 Supply and demand forecast, 2017-2021
6.2 Thifluzamide
6.2.1 Supply situation, 2012-2016
6.2.2 Producer, 2014-2016
6.2.3 Potential projects
6.2.4 Price, 2012-Feb. 2017
6.2.5 Export situation
6.2.6 Consumption situation (by formulation and by crop), 2012-2016
6.2.7 Supply and demand forecast, 2017-2021
6.3 Boscalid
6.3.1 Supply situation, 2012-2016
6.3.2 Producer, 2014-2016
6.3.3 Potential projects
6.3.4 Price, 2012-2016
6.3.5 Export situation
6.3.6 Consumption situation (by formulation and by crop), 2012-2016
6.3.7 Supply and demand forecast, 2017-2021
6.4 Other SDHI fungicides
6.4.1 Flutolanil
6.4.2 Isopyrazam
6.4.3 Fluxapyroxad
7 CHINA SDHI FUNGICIDES SUPPLY AND DEMAND FORECAST, 2017-2021
7.1 Influencing factors of China's SDHI fungicides industry
7.2 Demand forecast to 2021
7.3 Supply forecast to 2021
8 PROFILE OF KEY SDHI FUNGICIDES PRODUCERS
8.1 Jingbo Agrochemicals Technology Co., Ltd.
8.1.1 Basic information
8.1.2 Company introduction
8.1.3 Shareholder structure
8.1.4 Business performance, 2012-2015
8.1.5 SDHI fungicides production and sale situation, 2012-2016
8.2 Hangzhou Udragon Chemical Co., Ltd.
8.3 Yancheng Limin Chemical Co., Ltd.
8.4 Taizhou Bailly Chemical Co., Ltd.
8.5 Xinyi Yongcheng Chemical Industrial Co., Ltd.
8.6 Anhui Fengle Agrochemical Co., Ltd.
8.7 Xi'an Wenyuan Chemical Industry Co., Ltd.
8.8 Xi'an Hentian Che-Tech Co., Ltd.
1.1 China fungicides supply situation, 2006-2016
1.2 China fungicides consumption situation, 2006-2016
2 REGISTRATION SITUATION OF SDHI FUNGICIDES IN CHINA
2.1 Registration situation segment by product
2.2 Registration situation segment by formulation type
2.3 Registration situation segment by registrant
3 SUPPLY SITUATION OF SDHI FUNGICIDES IN CHINA
3.1 Total supply situation, 2012-2016
3.2 Segment by region, 2012-2016
3.3 Segment by product, 2012-2016
3.4 Segment by manufacturer, 2012-2016
4 EXPORT SITUATION OF SDHI FUNGICIDES IN CHINA
4.1 Total export situation, 2012-2016
4.2 Segment by product, 2012-2016
5 CONSUMPTION SITUATION OF SDHI FUNGICIDES IN CHINA
5.1 Total consumption situation, 2012-2016
5.2 Segment by product, 2012-2016
5.3 Segment by crop, 2011-2015
6 INTRODUCTIONS OF 3 TYPICAL SDHI FUNGICIDE PRODUCTS
6.1 Carboxin
6.1.1 Supply situation, 2012-2016
6.1.2 Producer, 2014-2016
6.1.3 Potential projects
6.1.4 Price, 2016-Feb. 2017
6.1.5 Export situation
6.1.6 Consumption situation (by formulation and by crop), 2012-2016
6.1.7 Supply and demand forecast, 2017-2021
6.2 Thifluzamide
6.2.1 Supply situation, 2012-2016
6.2.2 Producer, 2014-2016
6.2.3 Potential projects
6.2.4 Price, 2012-Feb. 2017
6.2.5 Export situation
6.2.6 Consumption situation (by formulation and by crop), 2012-2016
6.2.7 Supply and demand forecast, 2017-2021
6.3 Boscalid
6.3.1 Supply situation, 2012-2016
6.3.2 Producer, 2014-2016
6.3.3 Potential projects
6.3.4 Price, 2012-2016
6.3.5 Export situation
6.3.6 Consumption situation (by formulation and by crop), 2012-2016
6.3.7 Supply and demand forecast, 2017-2021
6.4 Other SDHI fungicides
6.4.1 Flutolanil
6.4.2 Isopyrazam
6.4.3 Fluxapyroxad
7 CHINA SDHI FUNGICIDES SUPPLY AND DEMAND FORECAST, 2017-2021
7.1 Influencing factors of China's SDHI fungicides industry
7.2 Demand forecast to 2021
7.3 Supply forecast to 2021
8 PROFILE OF KEY SDHI FUNGICIDES PRODUCERS
8.1 Jingbo Agrochemicals Technology Co., Ltd.
8.1.1 Basic information
8.1.2 Company introduction
8.1.3 Shareholder structure
8.1.4 Business performance, 2012-2015
8.1.5 SDHI fungicides production and sale situation, 2012-2016
8.2 Hangzhou Udragon Chemical Co., Ltd.
8.3 Yancheng Limin Chemical Co., Ltd.
8.4 Taizhou Bailly Chemical Co., Ltd.
8.5 Xinyi Yongcheng Chemical Industrial Co., Ltd.
8.6 Anhui Fengle Agrochemical Co., Ltd.
8.7 Xi'an Wenyuan Chemical Industry Co., Ltd.
8.8 Xi'an Hentian Che-Tech Co., Ltd.
LIST OF TABLES
Table 1.1-1 Output of fungicides segment by type in China (technical, tonne), 2006-2016
Table 1.2-1 Consumption volume of fungicides in China (by technical, tonne), 2006-2016
Table 2.1-1 Registration of major SDHI fungicides by number of registrations in China, by Feb. 2017
Table 2.1-2 Registration of major SDHI fungicides by number of registrants in China, by Feb. 2017
Table 2.2-1 Registration of SDHI fungicides by number of registrations in China, Feb. 2017
Table 2.2-2 Registration of SDHI fungicides by number of registrants in China, Feb. 2017
Table 2.3-1 Registration situation of major SDHI fungicides technical players in China, by Feb. 2017
Table 2.3-2 Registration situation of major SDHI fungicides formulations players in China (by number of registrations), by Feb. 2017
Table 3.2-1 Capacity of SDHI fungicides in China segment by region (t/a), 2012-2016
Table 3.2-2 Output of SDHI fungicides in China segment by region (tonne), 2012-2016
Table 3.3-1 Capacity of SDHI fungicides in China segment by product (t/a), 2012-2016
Table 3.3-2 Output of SDHI fungicides in China segment by product (tonne), 2012-2016
Table 3.4-1 China's SDHI fungicides producers and main SDHI fungicides, Feb. 2017
Table 3.4-2 Output of SDHI fungicides producers and industry concentration ratio in China (tonne), 2014-2016
Table 4.2-1 SDHI fungicides technical export segment by product (tonne), 2012-2016
Table 4.2-1 SDHI fungicides formulations export segment by product (tonne), 2012-2016
Table 4.2-3 SDHI fungicides export segment by product (calculated by technical, tonne), 2012-2016
Table 5.1-1 Market value of SDHI fungicides segment by producer in China (calculated by distributor level, million USD), 2012-2016
Table 6.1.2-1 Basic information of carboxin technical producers in China, Feb. 2017
Table 6.1.2-2 Capacity and output of carboxin technical producers in China, 2014-2016
Table 6.1.5-1 Key carboxin technical exporters in China and their oversea markets, 2012-2016
Table 6.1.5-2 Key carboxin formulations exporters in China and their oversea markets, 2012-2016
Table 6.2.2-1 Basic information of thifluzamide technical producers in China, Feb. 2017
Table 6.2.2-2 Capacity and output of thifluzamide technical producers in China, 2014-2016
Table 6.2.3-1 Potential projects of thifluzamide technical in China (t/a), by Feb. 2017
Table 6.2.5-1 Key thifluzamide exporters in China and their oversea markets, 2016-2017 Feb.
Table 6.3.2-1 Basic information of boscalid technical producers in China, Feb. 2017
Table 6.3.2-2 Capacity and output of boscalid technical producers in China, 2014-2016
Table 6.3.3-1 Potential projects of boscalid technical in China (t/a), by Feb. 2017
Table 6.3.5-2 Key boscalid technical exporters in China and their oversea markets, 2016
Table 6.3.5-3 Key boscalid formulations exporters in China and their oversea markets, 2016
Table 6.4.2-1 Consumption volume and market value of isopyrazam (11.2% isopyrazam +17.8% azoxystrobin SC) by distributor level in China, 2015-2016
Table 8.1.1-1 Basic information of Jingbo Agrochemicals, Feb. 2017
Table 8.1.2-1 Capacity of major pesticide products in Jingbo Agrochemicals, 2012-2016, t/a
Table 8.1.4-1 Financial data of Jingbo Agrochemicals (million USD), 2012-2016 H1
Table 8.1.4-2 Prime operating revenue in Jingbo Agrochemicals by industry (million USD), 2013-2016 H1
Table 8.5.5-1 Capacity and output of boscalid in Jingbo Agrochemicals, 2014-2016
Table 8.2.1-1 Basic information of Hangzhou Udragon, Feb. 2016
Table 8.2.2-1 Capacity of major pesticide products in Hangzhou Udragon, 2013-2016, t/a
Table 8.2.5-1 Capacity and output of SDHI fungicides in Hangzhou Udragon, 2014-2016
Table 8.3.1-1 Basic information of Yancheng Limin, Feb. 2017
Table 8.3.2-1 Capacity of major pesticide products in Yancheng Limin, 2012-2015
Table 8.3.5-1 Capacity and output of thifluzamide in Yancheng Limin (by product), 2012-2016
Table 8.4.1-1 Basic information of Taizhou Bailly, Feb. 2017
Table 8.4.4-1 Financial data of Taizhou Bailly (million USD), 2015-2016 Q3
Table 8.4.5-1 Production and sale situation of flutolanil in Taizhou Bailly (t/a, tonne), 2012-2016
Table 8.5.1-1 Basic information of Xinyi Yongcheng, Feb. 2017
Table 8.5.4-1 Production and sale situation of carboxin in Xinyi Yongcheng (t/a, tonne), 2012-2016
Table 8.6.1-1 Basic information of Anhui Fengle, Feb. 2017
Table 8.6.4-1 Financial data of Anhui Fengle (million USD), 2015-2016 H1
Table 8.6.5-1 Production and sale situation of carboxin in Anhui Fengle (t/a, tonne), 2012-2016
Table 8.7.1-1 Basic information of Xi’an Wenyuan, Feb. 2017
Table 8.7.5-1 Production and sale situation of carboxin in Xi’an Wenyuan (t/a, tonne), 2012-2016
Table 8.8.1-1 Basic information of Xi’an Hentin, Feb. 2017
Table 8.8.5-1 Production and sale situation of carboxin in Xi’an Hentin (t/a, tonne), 2012-2016
Table 1.1-1 Output of fungicides segment by type in China (technical, tonne), 2006-2016
Table 1.2-1 Consumption volume of fungicides in China (by technical, tonne), 2006-2016
Table 2.1-1 Registration of major SDHI fungicides by number of registrations in China, by Feb. 2017
Table 2.1-2 Registration of major SDHI fungicides by number of registrants in China, by Feb. 2017
Table 2.2-1 Registration of SDHI fungicides by number of registrations in China, Feb. 2017
Table 2.2-2 Registration of SDHI fungicides by number of registrants in China, Feb. 2017
Table 2.3-1 Registration situation of major SDHI fungicides technical players in China, by Feb. 2017
Table 2.3-2 Registration situation of major SDHI fungicides formulations players in China (by number of registrations), by Feb. 2017
Table 3.2-1 Capacity of SDHI fungicides in China segment by region (t/a), 2012-2016
Table 3.2-2 Output of SDHI fungicides in China segment by region (tonne), 2012-2016
Table 3.3-1 Capacity of SDHI fungicides in China segment by product (t/a), 2012-2016
Table 3.3-2 Output of SDHI fungicides in China segment by product (tonne), 2012-2016
Table 3.4-1 China's SDHI fungicides producers and main SDHI fungicides, Feb. 2017
Table 3.4-2 Output of SDHI fungicides producers and industry concentration ratio in China (tonne), 2014-2016
Table 4.2-1 SDHI fungicides technical export segment by product (tonne), 2012-2016
Table 4.2-1 SDHI fungicides formulations export segment by product (tonne), 2012-2016
Table 4.2-3 SDHI fungicides export segment by product (calculated by technical, tonne), 2012-2016
Table 5.1-1 Market value of SDHI fungicides segment by producer in China (calculated by distributor level, million USD), 2012-2016
Table 6.1.2-1 Basic information of carboxin technical producers in China, Feb. 2017
Table 6.1.2-2 Capacity and output of carboxin technical producers in China, 2014-2016
Table 6.1.5-1 Key carboxin technical exporters in China and their oversea markets, 2012-2016
Table 6.1.5-2 Key carboxin formulations exporters in China and their oversea markets, 2012-2016
Table 6.2.2-1 Basic information of thifluzamide technical producers in China, Feb. 2017
Table 6.2.2-2 Capacity and output of thifluzamide technical producers in China, 2014-2016
Table 6.2.3-1 Potential projects of thifluzamide technical in China (t/a), by Feb. 2017
Table 6.2.5-1 Key thifluzamide exporters in China and their oversea markets, 2016-2017 Feb.
Table 6.3.2-1 Basic information of boscalid technical producers in China, Feb. 2017
Table 6.3.2-2 Capacity and output of boscalid technical producers in China, 2014-2016
Table 6.3.3-1 Potential projects of boscalid technical in China (t/a), by Feb. 2017
Table 6.3.5-2 Key boscalid technical exporters in China and their oversea markets, 2016
Table 6.3.5-3 Key boscalid formulations exporters in China and their oversea markets, 2016
Table 6.4.2-1 Consumption volume and market value of isopyrazam (11.2% isopyrazam +17.8% azoxystrobin SC) by distributor level in China, 2015-2016
Table 8.1.1-1 Basic information of Jingbo Agrochemicals, Feb. 2017
Table 8.1.2-1 Capacity of major pesticide products in Jingbo Agrochemicals, 2012-2016, t/a
Table 8.1.4-1 Financial data of Jingbo Agrochemicals (million USD), 2012-2016 H1
Table 8.1.4-2 Prime operating revenue in Jingbo Agrochemicals by industry (million USD), 2013-2016 H1
Table 8.5.5-1 Capacity and output of boscalid in Jingbo Agrochemicals, 2014-2016
Table 8.2.1-1 Basic information of Hangzhou Udragon, Feb. 2016
Table 8.2.2-1 Capacity of major pesticide products in Hangzhou Udragon, 2013-2016, t/a
Table 8.2.5-1 Capacity and output of SDHI fungicides in Hangzhou Udragon, 2014-2016
Table 8.3.1-1 Basic information of Yancheng Limin, Feb. 2017
Table 8.3.2-1 Capacity of major pesticide products in Yancheng Limin, 2012-2015
Table 8.3.5-1 Capacity and output of thifluzamide in Yancheng Limin (by product), 2012-2016
Table 8.4.1-1 Basic information of Taizhou Bailly, Feb. 2017
Table 8.4.4-1 Financial data of Taizhou Bailly (million USD), 2015-2016 Q3
Table 8.4.5-1 Production and sale situation of flutolanil in Taizhou Bailly (t/a, tonne), 2012-2016
Table 8.5.1-1 Basic information of Xinyi Yongcheng, Feb. 2017
Table 8.5.4-1 Production and sale situation of carboxin in Xinyi Yongcheng (t/a, tonne), 2012-2016
Table 8.6.1-1 Basic information of Anhui Fengle, Feb. 2017
Table 8.6.4-1 Financial data of Anhui Fengle (million USD), 2015-2016 H1
Table 8.6.5-1 Production and sale situation of carboxin in Anhui Fengle (t/a, tonne), 2012-2016
Table 8.7.1-1 Basic information of Xi’an Wenyuan, Feb. 2017
Table 8.7.5-1 Production and sale situation of carboxin in Xi’an Wenyuan (t/a, tonne), 2012-2016
Table 8.8.1-1 Basic information of Xi’an Hentin, Feb. 2017
Table 8.8.5-1 Production and sale situation of carboxin in Xi’an Hentin (t/a, tonne), 2012-2016
LIST OF FIGURES
Figure1.1-1 Output share of fungicides technical in major regions of China, 2016
Figure 3.1-1 Total capacity and output of SDHI fungicides in China (calculated by technical, t/a, tonne), 2012-2017
Figure 3.1-2 Operating rate of SDHI fungicides production in China, 2012-2016
Figure 3.2-1 Geographical distribution of SDHI fungicides technical producers in China, 2016
Figure 3.3-1 Capacity structure of SDHI fungicides by product in China, 2016
Figure 3.3-2 Output structure of SDHI fungicides by product in China, 2016
Figure 4.1-1 Total export volume of SDHI fungicides in China (tonne), 2012-2016
Figure 5.1-1 Total consumption volume of SDHI fungicides (calculated by technical) in China, 2012-2016
Figure 5.1-2 Total consumption volume of SDHI fungicides in China (calculated by formulations, tonne, million USD), 2012-2016
Figure 5.1-3 Market value structure of SDHI fungicides segment by producer in China, 2012-2016
Figure 5.2-1 Consumption situation of SDHI fungicides in China (by technical, tonne), 2012-2016
Figure 5.2-2 Consumption structure of SDHI fungicides by product in China (by technical), 2016
Figure 5.2-3 Consumption situation of SDHI fungicides in China (by formulation, tonne), 2012-2016
Figure 5.2-4 Consumption volume structure of SDHI fungicides by product in China (by formulation), 2016
Figure 5.2-5 Market value of SDHI fungicides segment by product in China (calculated by distributor level, million USD), 2012-2016
Figure 5.2-6 Market value structure of SDHI fungicides by product in China, 2016
Figure 5.3-1 Consumption situation of SDHI fungicides by crop in China (calculated by technical, tonne), 2012-2016
Figure 5.3-2 Consumption structure of SDHI fungicides by crop in China, 2012-2016
Figure 6.1.1-1 Capacity and output of carboxin technical in China (t/a, tonne), 2012-2016
Figure 6.1.1-2 Operating rate of carboxin technical production in China, 2012-2016
Figure 6.1.4-1 Monthly ex-works price of 98% carboxin technical in China, Jan. 2016-Feb. 2017
Figure 6.1.6-1 Consumption volume of carboxin in China, 2012-2016 (by 98% TC, tonne)
Figure 6.1.6-2 Consumption volume and market value of carboxin in China (calculated by formulations and distributor level, tonne, million USD), 2012-2016
Figure 6.1.6-3 Consumption volume of carboxin formulations segment by supplier in China (tonne), 2012-2016
Figure 6.1.6-4 Market value of carboxin formulations segment by supplier in China (calculated by distributor level, million USD), 2012-2016
Figure 6.1.6-5 Consumption situation of carboxin by crop in China (calculated by 98% technical, tonne), 2012-2016
Figure 6.1.6-6 Consumption structure of carboxin by crop in China, 2012-2016
Figure 6.1.7-1 Forecast on demand for carboxin in China, 2017-2021 (tonne)
Figure 6.1.7-2 Forecast on output of carboxin in China, 2017-2021 (tonne)
Figure 6.2.1-1 Capacity and output of thifluzamide technical in China (t/a, tonne), 2012-2016
Figure 6.2.1-2 Operating rate of thifluzamide technical production in China, 2013-2016
Figure 6.2.4-1 Annual ex-works price of 96% thifluzamide technical in China, 2013-Feb. 2017
Figure 6.2.4-2 Monthly ex-works price of 96% thifluzamide technical in China, 2016-Feb. 2017
Figure 6.2.6-1 Consumption volume of thifluzamide in China, 2012-2016 (by 96% TC, tonne)
Figure 6.2.6-2 Consumption volume and market value of thifluzamide in China (calculated by formulations and distributor level, tonne, million USD), 2012-2016
Figure 6.2.6-3 Consumption volume of thifluzamide formulations segment by supplier in China (tonne), 2012-2016
Figure 6.2.6-4 Market value of thifluzamide formulations segment by supplier in China (calculated by distributor level, million USD), 2012-2016
Figure 6.2.6-5 Consumption situation of thifluzamide by crop in China (calculated by 96% technical, tonne), 2012-2016
Figure 6.2.6-6 Consumption structure of thifluzamide by crop in China, 2012-2016
Figure 6.2.7-1 Forecast on demand for thifluzamide in China, 2017-2021 (tonne)
Figure 6.2.7-2 Forecast on output of thifluzamide in China, 2017-2021 (tonne)
Figure 6.3.1-1 Capacity and output of boscalid technical in China (t/a, tonne), 2012-2016
Figure 6.3.1-2 Operating rate of boscalid technical production in China, 2013-2016
Figure 6.3.4-1 Annual ex-works price of 98% boscalid technical in China, 2013-Feb. 2017
Figure 6.3.6-1 Consumption volume of boscalid in China, 2012-2016 (by 98% TC, tonne)
Figure 6.3.6-2 Consumption volume and market value of boscalid in China (calculated by formulations and distributor level, tonne, million USD), 2012-2016
Figure 6.3.6-3 Consumption volume of boscalid formulations segment by supplier in China (tonne), 2012-2016
Figure 6.3.6-4 Market value of boscalid formulations segment by supplier in China (calculated by distributor level, million USD), 2012-2016
Figure 6.3.6-5 Consumption situation of boscalid by crop in China (calculated by 98% technical, tonne), 2012-2016
Figure 6.3.6-6 Consumption structure of boscalid by crop in China, 2012-2016
Figure 6.3.7-1 Forecast on demand of boscalid in China, 2017-2021 (tonne)
Figure 6.3.7-2 Forecast on output for boscalid in China, 2017-2021 (tonne)
Figure 6.4.1-1 Capacity and output of flutolanil technical in China (t/a, tonne), 2012-2016
Figure 6.4.1-2 Consumption volume and market value of flutolanil in China (calculated by formulations and distributor level, tonne, million USD), 2012-2016
Figure 6.4.1-3 Consumption situation of flutolanil by crop in China (calculated by 98% technical, tonne), 2012-2016
Figure 6.4.1-4 Consumption structure of flutolanil by crop in China, 2012-2016
Figure 6.4.3-1 Consumption volume and market value of fluxapyroxad formulations (calculated by formulations, tonne, million USD) by distributor level in China, 2014-2016
Figure 7.1-1 Planting area of orchards in China (million ha), 2005-2015
Figure 7.1-2 Planting area of vegetables in China (million ha), 2005-2015
Figure 7.1-3 Planting area of melons in China (million ha), 2005-2015
Figure 7.1-4 Consumption situation of triazole fungicides by crop in China (by technical, tonne), 2011-2015
Figure 7.1-5 Consumption structure of triazole fungicides by crop in China, 2015
Figure 5.3-1 Consumption situation of strobilurin fungicides by crop in China (calculated by technical, tonne), 2011-2015
Figure 7.1-5 Consumption structure of strobilurin fungicides by crop in China, 2015
Figure 7.2-1 Demand forecast of SDHI fungicides in China (calculated by technical), 2017-2021
Figure 7.2-2 Demand forecast of SDHI fungicides segment by product in China (calculated by technical), 2017-2021
Figure 7.2-3 Demand structure of SDHI fungicides by product in China (by technical), 2021
Figure 7.3-1 Output forecast of SDHI fungicides technical in China, 2017-2021
Figure 7.3-2 Output forecast of SDHI fungicides segment by product in China (tonne), 2017-2021
Figure 7.3-3 Output structure of SDHI fungicides by product in China (by technical), 2021
Figure 8.1.3-1 Shareholder structure of Jingbo Agrochemicals, Feb. 2017
Figure 8.2.3-1 Shareholder structure of Zhejiang Udragon, Feb. 2017
Figure 8.2.4-1 Prime operating revenue in Hangzhou Udragon (million USD), 2011-2015
Figure 8.3.3-1 Shareholder structure of Yancheng Limin, 2015
Figure 8.4.3-1 Shareholder structure of Taizhou Bailly, Feb. 2017
Figure 8.5.3-1 Shareholder structure of Xinyi Yongcheng, Feb. 2017
Figure 8.6.3-1 Shareholder structure of Anhui Fengle, Feb. 2017
Figure 8.7.3-1 Shareholder structure of Xi’an Wenyuan, Feb. 2017
Figure 8.8.3-1 Shareholder structure of Xi’an Hentin, Feb. 2017
Figure 8.8.4-1 Prime operating revenue in Xi’an Hentin (million USD), 2011-2015
Figure1.1-1 Output share of fungicides technical in major regions of China, 2016
Figure 3.1-1 Total capacity and output of SDHI fungicides in China (calculated by technical, t/a, tonne), 2012-2017
Figure 3.1-2 Operating rate of SDHI fungicides production in China, 2012-2016
Figure 3.2-1 Geographical distribution of SDHI fungicides technical producers in China, 2016
Figure 3.3-1 Capacity structure of SDHI fungicides by product in China, 2016
Figure 3.3-2 Output structure of SDHI fungicides by product in China, 2016
Figure 4.1-1 Total export volume of SDHI fungicides in China (tonne), 2012-2016
Figure 5.1-1 Total consumption volume of SDHI fungicides (calculated by technical) in China, 2012-2016
Figure 5.1-2 Total consumption volume of SDHI fungicides in China (calculated by formulations, tonne, million USD), 2012-2016
Figure 5.1-3 Market value structure of SDHI fungicides segment by producer in China, 2012-2016
Figure 5.2-1 Consumption situation of SDHI fungicides in China (by technical, tonne), 2012-2016
Figure 5.2-2 Consumption structure of SDHI fungicides by product in China (by technical), 2016
Figure 5.2-3 Consumption situation of SDHI fungicides in China (by formulation, tonne), 2012-2016
Figure 5.2-4 Consumption volume structure of SDHI fungicides by product in China (by formulation), 2016
Figure 5.2-5 Market value of SDHI fungicides segment by product in China (calculated by distributor level, million USD), 2012-2016
Figure 5.2-6 Market value structure of SDHI fungicides by product in China, 2016
Figure 5.3-1 Consumption situation of SDHI fungicides by crop in China (calculated by technical, tonne), 2012-2016
Figure 5.3-2 Consumption structure of SDHI fungicides by crop in China, 2012-2016
Figure 6.1.1-1 Capacity and output of carboxin technical in China (t/a, tonne), 2012-2016
Figure 6.1.1-2 Operating rate of carboxin technical production in China, 2012-2016
Figure 6.1.4-1 Monthly ex-works price of 98% carboxin technical in China, Jan. 2016-Feb. 2017
Figure 6.1.6-1 Consumption volume of carboxin in China, 2012-2016 (by 98% TC, tonne)
Figure 6.1.6-2 Consumption volume and market value of carboxin in China (calculated by formulations and distributor level, tonne, million USD), 2012-2016
Figure 6.1.6-3 Consumption volume of carboxin formulations segment by supplier in China (tonne), 2012-2016
Figure 6.1.6-4 Market value of carboxin formulations segment by supplier in China (calculated by distributor level, million USD), 2012-2016
Figure 6.1.6-5 Consumption situation of carboxin by crop in China (calculated by 98% technical, tonne), 2012-2016
Figure 6.1.6-6 Consumption structure of carboxin by crop in China, 2012-2016
Figure 6.1.7-1 Forecast on demand for carboxin in China, 2017-2021 (tonne)
Figure 6.1.7-2 Forecast on output of carboxin in China, 2017-2021 (tonne)
Figure 6.2.1-1 Capacity and output of thifluzamide technical in China (t/a, tonne), 2012-2016
Figure 6.2.1-2 Operating rate of thifluzamide technical production in China, 2013-2016
Figure 6.2.4-1 Annual ex-works price of 96% thifluzamide technical in China, 2013-Feb. 2017
Figure 6.2.4-2 Monthly ex-works price of 96% thifluzamide technical in China, 2016-Feb. 2017
Figure 6.2.6-1 Consumption volume of thifluzamide in China, 2012-2016 (by 96% TC, tonne)
Figure 6.2.6-2 Consumption volume and market value of thifluzamide in China (calculated by formulations and distributor level, tonne, million USD), 2012-2016
Figure 6.2.6-3 Consumption volume of thifluzamide formulations segment by supplier in China (tonne), 2012-2016
Figure 6.2.6-4 Market value of thifluzamide formulations segment by supplier in China (calculated by distributor level, million USD), 2012-2016
Figure 6.2.6-5 Consumption situation of thifluzamide by crop in China (calculated by 96% technical, tonne), 2012-2016
Figure 6.2.6-6 Consumption structure of thifluzamide by crop in China, 2012-2016
Figure 6.2.7-1 Forecast on demand for thifluzamide in China, 2017-2021 (tonne)
Figure 6.2.7-2 Forecast on output of thifluzamide in China, 2017-2021 (tonne)
Figure 6.3.1-1 Capacity and output of boscalid technical in China (t/a, tonne), 2012-2016
Figure 6.3.1-2 Operating rate of boscalid technical production in China, 2013-2016
Figure 6.3.4-1 Annual ex-works price of 98% boscalid technical in China, 2013-Feb. 2017
Figure 6.3.6-1 Consumption volume of boscalid in China, 2012-2016 (by 98% TC, tonne)
Figure 6.3.6-2 Consumption volume and market value of boscalid in China (calculated by formulations and distributor level, tonne, million USD), 2012-2016
Figure 6.3.6-3 Consumption volume of boscalid formulations segment by supplier in China (tonne), 2012-2016
Figure 6.3.6-4 Market value of boscalid formulations segment by supplier in China (calculated by distributor level, million USD), 2012-2016
Figure 6.3.6-5 Consumption situation of boscalid by crop in China (calculated by 98% technical, tonne), 2012-2016
Figure 6.3.6-6 Consumption structure of boscalid by crop in China, 2012-2016
Figure 6.3.7-1 Forecast on demand of boscalid in China, 2017-2021 (tonne)
Figure 6.3.7-2 Forecast on output for boscalid in China, 2017-2021 (tonne)
Figure 6.4.1-1 Capacity and output of flutolanil technical in China (t/a, tonne), 2012-2016
Figure 6.4.1-2 Consumption volume and market value of flutolanil in China (calculated by formulations and distributor level, tonne, million USD), 2012-2016
Figure 6.4.1-3 Consumption situation of flutolanil by crop in China (calculated by 98% technical, tonne), 2012-2016
Figure 6.4.1-4 Consumption structure of flutolanil by crop in China, 2012-2016
Figure 6.4.3-1 Consumption volume and market value of fluxapyroxad formulations (calculated by formulations, tonne, million USD) by distributor level in China, 2014-2016
Figure 7.1-1 Planting area of orchards in China (million ha), 2005-2015
Figure 7.1-2 Planting area of vegetables in China (million ha), 2005-2015
Figure 7.1-3 Planting area of melons in China (million ha), 2005-2015
Figure 7.1-4 Consumption situation of triazole fungicides by crop in China (by technical, tonne), 2011-2015
Figure 7.1-5 Consumption structure of triazole fungicides by crop in China, 2015
Figure 5.3-1 Consumption situation of strobilurin fungicides by crop in China (calculated by technical, tonne), 2011-2015
Figure 7.1-5 Consumption structure of strobilurin fungicides by crop in China, 2015
Figure 7.2-1 Demand forecast of SDHI fungicides in China (calculated by technical), 2017-2021
Figure 7.2-2 Demand forecast of SDHI fungicides segment by product in China (calculated by technical), 2017-2021
Figure 7.2-3 Demand structure of SDHI fungicides by product in China (by technical), 2021
Figure 7.3-1 Output forecast of SDHI fungicides technical in China, 2017-2021
Figure 7.3-2 Output forecast of SDHI fungicides segment by product in China (tonne), 2017-2021
Figure 7.3-3 Output structure of SDHI fungicides by product in China (by technical), 2021
Figure 8.1.3-1 Shareholder structure of Jingbo Agrochemicals, Feb. 2017
Figure 8.2.3-1 Shareholder structure of Zhejiang Udragon, Feb. 2017
Figure 8.2.4-1 Prime operating revenue in Hangzhou Udragon (million USD), 2011-2015
Figure 8.3.3-1 Shareholder structure of Yancheng Limin, 2015
Figure 8.4.3-1 Shareholder structure of Taizhou Bailly, Feb. 2017
Figure 8.5.3-1 Shareholder structure of Xinyi Yongcheng, Feb. 2017
Figure 8.6.3-1 Shareholder structure of Anhui Fengle, Feb. 2017
Figure 8.7.3-1 Shareholder structure of Xi’an Wenyuan, Feb. 2017
Figure 8.8.3-1 Shareholder structure of Xi’an Hentin, Feb. 2017
Figure 8.8.4-1 Prime operating revenue in Xi’an Hentin (million USD), 2011-2015
