China Bio-Pesticides Market Report 2015 Edition
Bio-pesticides are a certain type of pesticides derived from such natural materials as animals, plants, bacteria, and certain minerals. Bio-pesticides are usually inherently less toxic than conventional chemical pesticides, and have the advantages of no pollution, no residue, and high efficiency. With people’s raising awareness of pesticide residues in food, environment protection and sustainable development, the application of bio-pesticides have a great breakthrough in the past years. Bio-pesticides will have a good prospect in the future.
The global consumption of bio-pesticides kept a sharply increase in the past few years, with a CAGR of 18%-20% in 2007-2014. China is one of important bio-pesticides supply and consumption country. There are more than 200 bio-pesticides producers and over 20 kinds of commercialized bio-pesticides in China at present. The market value of bio-pesticides in China accounted for about 10%-15% of the globally.
In order to promote bio-pesticides, China government has done a lot of support works these years, such as provide subsidies to the farmers or planting bases for they using bio-pesticides, government procurement and set up the demonstration sites of bio-pesticides control, etc.
In 28th May, 2015, Sichuan Hebang Corporation Limited announced that it is planning to acquire Stockton (Israel) Ltd.. In oversea market, CBC has acquired Intrachem Bio Italia in 2012, Bayer has acquired AgraQuest and Prophyta in 2012 and 2013 respectively, BASF has acquired Becker Underwood in 2012 and Syngenta has acquired Pasteuria in 2012. In addition, BASF pointed out a combination product of chemical pesticides and bio-pesticides as the most effective solution in crop protection. From all indication, bio-pesticides have been paid more and more attention.
The China Bio-pesticides Market Report 2015 Edition is a professional and trusted study on Chinese bio-pesticides industry. With more than 170 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 full understand the current and future trend of China bio-pesticides market.
In this report, you can get the detailed information and insights as follows:
1. Registration of China bio-pesticides as of May 2015, including registration product, types of formulation, registration situation for key bio-pesticides players.
2. Supply situation of China bio-pesticides in 2010-H1 2015, includeing detailed data about capacity and output.
3. Qualitative analysis for China bio-pesticides export situation in recent years including specifications, destinations/origins.
4. Consumption situation of China bio-pesticides, segment by products and crops. The detailed data includes consumption volume and value, ex-factory price, retail price and unit use-cost for major bio-pesticides products.
5. Supply and demand forecast in 2015-2020 and the key driving factors.
6. Detail introduction of 17 typical bio-pesticide products. For each bio-pesticide, the information includes detailed supply data and development trend analysis in recent 5-6 years, major producers and their production situations, price trend in recent few years and the influence factors, export situation, total consumption volume and value and the detail consumption situation segment by formulation and by crop.
7. Profile of 20 key bio-pesticides players, including contact information, bio-pesticides products and their production.
The global consumption of bio-pesticides kept a sharply increase in the past few years, with a CAGR of 18%-20% in 2007-2014. China is one of important bio-pesticides supply and consumption country. There are more than 200 bio-pesticides producers and over 20 kinds of commercialized bio-pesticides in China at present. The market value of bio-pesticides in China accounted for about 10%-15% of the globally.
In order to promote bio-pesticides, China government has done a lot of support works these years, such as provide subsidies to the farmers or planting bases for they using bio-pesticides, government procurement and set up the demonstration sites of bio-pesticides control, etc.
In 28th May, 2015, Sichuan Hebang Corporation Limited announced that it is planning to acquire Stockton (Israel) Ltd.. In oversea market, CBC has acquired Intrachem Bio Italia in 2012, Bayer has acquired AgraQuest and Prophyta in 2012 and 2013 respectively, BASF has acquired Becker Underwood in 2012 and Syngenta has acquired Pasteuria in 2012. In addition, BASF pointed out a combination product of chemical pesticides and bio-pesticides as the most effective solution in crop protection. From all indication, bio-pesticides have been paid more and more attention.
The China Bio-pesticides Market Report 2015 Edition is a professional and trusted study on Chinese bio-pesticides industry. With more than 170 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 full understand the current and future trend of China bio-pesticides market.
In this report, you can get the detailed information and insights as follows:
1. Registration of China bio-pesticides as of May 2015, including registration product, types of formulation, registration situation for key bio-pesticides players.
2. Supply situation of China bio-pesticides in 2010-H1 2015, includeing detailed data about capacity and output.
3. Qualitative analysis for China bio-pesticides export situation in recent years including specifications, destinations/origins.
4. Consumption situation of China bio-pesticides, segment by products and crops. The detailed data includes consumption volume and value, ex-factory price, retail price and unit use-cost for major bio-pesticides products.
5. Supply and demand forecast in 2015-2020 and the key driving factors.
6. Detail introduction of 17 typical bio-pesticide products. For each bio-pesticide, the information includes detailed supply data and development trend analysis in recent 5-6 years, major producers and their production situations, price trend in recent few years and the influence factors, export situation, total consumption volume and value and the detail consumption situation segment by formulation and by crop.
7. Profile of 20 key bio-pesticides players, including contact information, bio-pesticides products and their production.
EXECUTIVE SUMMARY
RESEARCH SCOPE AND METHODOLOGY
1 CHINA BIO-PESTICIDES REGISTRATION SITUATION
2 SUPPLY SITUATION OF CHINA BIO-PESTICIDES
2.1 Total supply situation, 2009-H1 2015
2.2 Segment by product, 2009-H1 2015
3 CONSUMPTION SITUATION OF CHINA BIO-PESTICIDES
3.1 Total consumption situation (Volume and Value), 2010-2014
3.2 Segment by category and by product (Volume and Value), 2010-2014
3.3 Segment by crop (Volume), 2010-2014
4 INTRODUCTIONS OF 17 TYPICAL BIO-PESTICIDE PRODUCTS
4.1 Microbial pesticides
4.1.1 Abamectin
4.1.1.1 Supply situation, 2009-H1 2015
4.1.1.2 Producer, 2013-H1 2015
4.1.1.3 Price, 2012-May. 2015
4.1.1.4 Export situation
4.1.1.5 Consumption situation (By formulation and By crop), 2010-2014
4.1.1.6 Supply and demand forecast, 2015-2020
4.1.2 Agricultural antibiotic
4.1.3 Bacillus cereus
4.1.4 Bacillus subtilis
4.1.5 Bacillus thuringiensis
4.1.6 Heliothis armigera NPV
4.1.7 Jingangmycin
4.1.8 Kasugamycin
4.1.9 Polyoxin
4.1.10 Spinosad
4.2 Plant-Incorporated-Protectants
4.2.1 Azadirachtin
4.2.2 Brassinolide
4.2.3 Matrine
4.2.4 Pyrethrins
4.2.5 Rotenone
4.3 Biochemical pesticides
4.3.1 Gibberellic acid
4.3.2 Oligosaccharins
5 CHINA BIO-PESTICIDES SUPPLY AND DEMAND FORECAST, 2015-2020
6 PROFILE OF 20 KEY BIO-PESTICIDES PLAYERS
RESEARCH SCOPE AND METHODOLOGY
1 CHINA BIO-PESTICIDES REGISTRATION SITUATION
2 SUPPLY SITUATION OF CHINA BIO-PESTICIDES
2.1 Total supply situation, 2009-H1 2015
2.2 Segment by product, 2009-H1 2015
3 CONSUMPTION SITUATION OF CHINA BIO-PESTICIDES
3.1 Total consumption situation (Volume and Value), 2010-2014
3.2 Segment by category and by product (Volume and Value), 2010-2014
3.3 Segment by crop (Volume), 2010-2014
4 INTRODUCTIONS OF 17 TYPICAL BIO-PESTICIDE PRODUCTS
4.1 Microbial pesticides
4.1.1 Abamectin
4.1.1.1 Supply situation, 2009-H1 2015
4.1.1.2 Producer, 2013-H1 2015
4.1.1.3 Price, 2012-May. 2015
4.1.1.4 Export situation
4.1.1.5 Consumption situation (By formulation and By crop), 2010-2014
4.1.1.6 Supply and demand forecast, 2015-2020
4.1.2 Agricultural antibiotic
4.1.3 Bacillus cereus
4.1.4 Bacillus subtilis
4.1.5 Bacillus thuringiensis
4.1.6 Heliothis armigera NPV
4.1.7 Jingangmycin
4.1.8 Kasugamycin
4.1.9 Polyoxin
4.1.10 Spinosad
4.2 Plant-Incorporated-Protectants
4.2.1 Azadirachtin
4.2.2 Brassinolide
4.2.3 Matrine
4.2.4 Pyrethrins
4.2.5 Rotenone
4.3 Biochemical pesticides
4.3.1 Gibberellic acid
4.3.2 Oligosaccharins
5 CHINA BIO-PESTICIDES SUPPLY AND DEMAND FORECAST, 2015-2020
6 PROFILE OF 20 KEY BIO-PESTICIDES PLAYERS
LIST OF TABLES
Table 1-1 China bio-pesticides registration situation, as of May. 2015
Table 1-2 China bio-pesticides registration situation of key bio-pesticides players, May 2015
Table 4.1.1.2-1 Capacity and output of major abamectin technical producers in China, 2013-H1 2015
Table 4.1.1.4-1 Export situation of abamectin technical producers in China, 2013-H1 2015
Table 4.1.2.2-1 Capacity and output of major agricultural antibiotic 120 formulation producers in China, 2013-H1 2015
Table 4.1.2.2-2 Product specification of major agricultural antibiotic 120 producers in China, 2013-H1 2015
Table 4.1.3.2-1 Capacity and output of major bacillus cereus technical producers in China, 2013-H1 2015 (Calculated by 9 billion cfu/g TK)
Table 4.1.3.2-2 Product specification of major bacillus cereus producers in China, 2013-H1 2015
Table 4.1.4.2-1 Capacity and output of major bacillus subtilis technical producers in China (Calculated by 100 billion cfu/g), 2013-H1 2015
Table 4.1.4.2-2 Product specification of major bacillus subtilis producers in China, 2013-H1 2015
Table 4.1.4.4-1 Some bacillus subtilis export data, 2013~2014
Table 4.1.5.2-1 Capacity and output of major Bacillus thuringiensis producers in China, 2013-H1 2015
Table 4.1.5.2-2 Product specification of major Bacillus thuringiensis producers in China, 2013-H1 2015
Table 4.1.6.2-1 Capacity and output of major HaNPV producers in China (Calculated by 500bPIB/g TK), 2013-H1 2015
Table 4.1.6.2-2 Product specification of major HaNPV producers in China, 2013-H1 2015
Table 4.1.6.4-1 Export situation of Henan Jiyuan Baiyun Industry Co., Ltd., 2011-2014
Table 4.1.7.2-1 Capacity and output of major Jingangmycin producers in China (Calculated by 5%), 2013-H1 2015
Table 4.1.7.2-2 Product specification of major Jingangmycin producers in China, 2013-H1 2015
Table 4.1.7.4-1 Major exporters of Jingangmycin, 2013-2014
Table 4.1.8.2-1 Capacity and output of major kasugamycin producers in China (Calculated by 70% TC), 2013-H1 2015
Table 4.1.8.2-2 Product specification of major kasugamycin producers in China, 2013-H1 2015
Table 4.1.8.4-1 Major exporters of kasugamycin, 2013-2014
Table 4.1.9.2-1 Capacity and output of major polyoxin producers in China (Calculated by 34% TC), 2013-H1 2015
Table 4.1.9.2-2 Product specification of major polyoxin producers in China, 2013-H1 2015
Table 4.1.9.4-1 Major exporters and export destinations of polyoxin in China, 2013- Apr. 2014
Table 4.1.10.2-1 List of potential spinosad producers in China, 2013-H1 2015
Table 4.2.1.2-1 Capacity and output of major azadirachtin technical producers in China, 2013-H1 2015
Table 4.2.1.2-2 Product specification of major azadirachtin technical producers in China, 2013-H1 2015
Table 4.2.1.5-1 List of some government procurement and planting bases procurement of azadirachtin in China, 2013-2015
Table 4.2.2.2-1 Capacity and output of major brassinolide producers in China, 2013-H1 2015
Table 4.2.2.2-2 Product specification of major brassinolide producers in China, 2013-H1 2015
Table 4.2.3.2-1 Capacity and output of major matrine producers in China, 2013-H1 2015
Table 4.2.3.2-2 Product specification of major matrine producers in China, 2013-H1 2015
Table 4.2.3.4-1 Major exporters of matrine in China
Table 4.2.4.2-1 Capacity and output of major pyrethrins producers in China (Calculated by 50% TC), 2013-H1 2015
Table 4.2.4.2-2 Product specification of major pyrethrins producers in China, 2013-H1 2015
Table 4.2.5.2-1 Capacity and output of major rotenone producers in China, 2013-H1 2015
Table 4.2.5.2-2 Product specification of major rotenone producers in China, 2013-H1 2015
Table 4.3.1.2-1 Capacity and output of major gibberellic acid producers in China (Calculated by 90% TC), 2013-H1 2015
Table 4.3.1.2-2 Product specification of major gibberellic acid producers in China, 2013-H1 2015
Table 4.3.1.4-1 Major exporter of gibberellic acid in China, 2012-2014
Table 4.3.2.2-1 Capacity and output of major oligosaccharins producers in China (Calculated by 90% TC), 2013-H1 2015
Table 4.3.2.2-2 Product specification of major oligosaccharins producers in China, 2013-H1 2015
Table 1-1 China bio-pesticides registration situation, as of May. 2015
Table 1-2 China bio-pesticides registration situation of key bio-pesticides players, May 2015
Table 4.1.1.2-1 Capacity and output of major abamectin technical producers in China, 2013-H1 2015
Table 4.1.1.4-1 Export situation of abamectin technical producers in China, 2013-H1 2015
Table 4.1.2.2-1 Capacity and output of major agricultural antibiotic 120 formulation producers in China, 2013-H1 2015
Table 4.1.2.2-2 Product specification of major agricultural antibiotic 120 producers in China, 2013-H1 2015
Table 4.1.3.2-1 Capacity and output of major bacillus cereus technical producers in China, 2013-H1 2015 (Calculated by 9 billion cfu/g TK)
Table 4.1.3.2-2 Product specification of major bacillus cereus producers in China, 2013-H1 2015
Table 4.1.4.2-1 Capacity and output of major bacillus subtilis technical producers in China (Calculated by 100 billion cfu/g), 2013-H1 2015
Table 4.1.4.2-2 Product specification of major bacillus subtilis producers in China, 2013-H1 2015
Table 4.1.4.4-1 Some bacillus subtilis export data, 2013~2014
Table 4.1.5.2-1 Capacity and output of major Bacillus thuringiensis producers in China, 2013-H1 2015
Table 4.1.5.2-2 Product specification of major Bacillus thuringiensis producers in China, 2013-H1 2015
Table 4.1.6.2-1 Capacity and output of major HaNPV producers in China (Calculated by 500bPIB/g TK), 2013-H1 2015
Table 4.1.6.2-2 Product specification of major HaNPV producers in China, 2013-H1 2015
Table 4.1.6.4-1 Export situation of Henan Jiyuan Baiyun Industry Co., Ltd., 2011-2014
Table 4.1.7.2-1 Capacity and output of major Jingangmycin producers in China (Calculated by 5%), 2013-H1 2015
Table 4.1.7.2-2 Product specification of major Jingangmycin producers in China, 2013-H1 2015
Table 4.1.7.4-1 Major exporters of Jingangmycin, 2013-2014
Table 4.1.8.2-1 Capacity and output of major kasugamycin producers in China (Calculated by 70% TC), 2013-H1 2015
Table 4.1.8.2-2 Product specification of major kasugamycin producers in China, 2013-H1 2015
Table 4.1.8.4-1 Major exporters of kasugamycin, 2013-2014
Table 4.1.9.2-1 Capacity and output of major polyoxin producers in China (Calculated by 34% TC), 2013-H1 2015
Table 4.1.9.2-2 Product specification of major polyoxin producers in China, 2013-H1 2015
Table 4.1.9.4-1 Major exporters and export destinations of polyoxin in China, 2013- Apr. 2014
Table 4.1.10.2-1 List of potential spinosad producers in China, 2013-H1 2015
Table 4.2.1.2-1 Capacity and output of major azadirachtin technical producers in China, 2013-H1 2015
Table 4.2.1.2-2 Product specification of major azadirachtin technical producers in China, 2013-H1 2015
Table 4.2.1.5-1 List of some government procurement and planting bases procurement of azadirachtin in China, 2013-2015
Table 4.2.2.2-1 Capacity and output of major brassinolide producers in China, 2013-H1 2015
Table 4.2.2.2-2 Product specification of major brassinolide producers in China, 2013-H1 2015
Table 4.2.3.2-1 Capacity and output of major matrine producers in China, 2013-H1 2015
Table 4.2.3.2-2 Product specification of major matrine producers in China, 2013-H1 2015
Table 4.2.3.4-1 Major exporters of matrine in China
Table 4.2.4.2-1 Capacity and output of major pyrethrins producers in China (Calculated by 50% TC), 2013-H1 2015
Table 4.2.4.2-2 Product specification of major pyrethrins producers in China, 2013-H1 2015
Table 4.2.5.2-1 Capacity and output of major rotenone producers in China, 2013-H1 2015
Table 4.2.5.2-2 Product specification of major rotenone producers in China, 2013-H1 2015
Table 4.3.1.2-1 Capacity and output of major gibberellic acid producers in China (Calculated by 90% TC), 2013-H1 2015
Table 4.3.1.2-2 Product specification of major gibberellic acid producers in China, 2013-H1 2015
Table 4.3.1.4-1 Major exporter of gibberellic acid in China, 2012-2014
Table 4.3.2.2-1 Capacity and output of major oligosaccharins producers in China (Calculated by 90% TC), 2013-H1 2015
Table 4.3.2.2-2 Product specification of major oligosaccharins producers in China, 2013-H1 2015
LIST OF FIGURES
Figure 2.1-1 Total output of Chinese bio-pesticides (tonne), 2009-H1 2015
Figure 2.2-1 Output of Chinese bio-pesticides segment by category (tonne), 2009-H1 2015
Figure 2.2-2 Output of Chinese bio-pesticides segment by product (tonne), 2009-H1 2015
Figure 3.1-1 Consumption volume and value of Chinese bio-pesticides (tonne, Million USD), 2010-2014
Figure 3.2-1 Consumption volume of bio-pesticide segment by category, 2010-2014
Figure 3.2-2 Consumption value of bio-pesticide segment by category, 2010-2014
Figure 3.2-3 Consumption volume of bio-pesticide segment by product, 2010-2014
Figure 3.2-4 Consumption value of bio-pesticide segment by product, 2010-2014
Figure 3.3-1 Consumption volume and share of bio-pesticide in main crops, 2010-2014
Figure 4.1.1.1-1 Capacity and output of abamectin technical in China, 2008-H1 2015 (tonne)
Figure 4.1.1.2-1 Distribution of abamectin technical producers in China, 2014
Figure 4.1.1.3-1 Ex-factory price of abamectin 95% technical in China (USD/t), Jan. 2012–May. 2015
Figure 4.1.1.4-1 Export situation of abamectin in China (tonne), 2012-2014
Figure 4.1.1.4-2 Major export destinations of abamectin technical in China
Figure 4.1.1.4-3 Export destinations of abamectin formulations in China
Figure 4.1.1.5-1 Consumption volume and value of abamectin in China, 2010- 2014 (tonne, million USD)
Figure 4.1.1.5-2 Consumption structure of abamectin by crops in China, 2014
Figure 4.1.1.6-1 Supply and demand forecast of abamectin in China, 2015-2020 (Calculated by 95% TC, tonne)
Figure 4.1.1.6-2 Consumption structure of abamectin by crops in China, 2020
Figure 4.1.2.1-1 Capacity and output of agricultural antibiotic 120 in China, 2008-H1 2015 (tonne, by formulations)
Figure 4.1.2.2-1 Distribution of major agricultural antibiotic 120 producers in China, 2014
Figure 4.1.2.3-1 Ex-factory price of agricultural antibiotic 120 4% SL in China (USD/t), Jan. 2012–May.2015
Figure 4.1.2.5-1 Consumption volume and value of agricultural antibiotic 120 in China, 2010- 2014 (tonne, million USD)
Figure 4.1.2.5-2 Consumption structure of agricultural antibiotic 120 by crops in China, 2014
Figure 4.1.2.6-1 Supply and demand forecast of agricultural antibiotic 120 in China, 2015-2020 (Calculated by 95% TC, tonne)
Figure 4.1.2.6-2 Consumption structure of agricultural antibiotic 120 by crops in China, 2020
Figure 4.1.3.1-1 Capacity and output bacillus cereus in China, 2008-H1 2015 (Calculated by 9 billion cfu/g TK, tonne)
Figure 4.1.3.3-1 Ex-factory price of bacillus cereus jingangmycin 12.5% AS in China, 2012-May. 2015
Figure 4.1.3.5-1 Consumption volume and value of bacillus cereus in China, 2010- 2014 (tonne, million USD)
Figure 4.1.3.5-1 Consumption structure of bacillus cereus by crops in China, 2014
Figure 4.1.3.6-1 Supply and demand forecast of bacillus cereus in China, 2015-2020 (Calculated by 9 billion cfu/g TK, tonne)
Figure 4.1.3.6-1 Consumption structure of bacillus cereus by crops in China, 2020
Figure 4.1.4.1-1 Capacity and output bacillus subtilis in China, 2008-H1 2015 (Calculated by 100 billion cfu/g, tonne)
Figure 4.1.4.2-1 Distribution of major bacillus subtilis producers in China, 2014
Figure 4.1.4.3-1 Ex-factory price of bacillus subtilis 100 billion cfu/g WP in China, 2012-May. 2015
Figure 4.1.4.5-1 Consumption volume and value of bacillus subtilis in China, 2010- 2014 (tonne, million USD)
Figure 4.1.4.5-2 Consumption structure of bacillus subtilis by crops in China, 2014
Figure 4.1.4.6-1 Supply and demand forecast of bacillus subtilis in China, 2015-2020 (Calculated by 100 billion cfu/g WP, tonne)
Figure 4.1.4.6-2 Consumption structure of bacillus subtilis by crops in China, 2020
Figure 4.1.5.1-1 Capacity and output of Bacillus thuringiensis in China, 2008-H1 2015 (tonne)
Figure 4.1.5.2-1 Distribution of the major Bacillus thuringiensis producers in China, 2014
Figure 4.1.5.3-1 Ex-works price of Bacillus thuringiensis 16,000IU/mg WP in China (USD/t), Jan. 2012–May. 2015
Figure 4.1.6.1-1 Capacity and output of HaNPV in China, 2008-H1 2015 (tonne)
Figure 4.1.6.2-1 Distribution of the major HaNPV producers in China, 2014
Figure 4.1.6.3-1 Ex-works price of HaNPV in China (USD/t), Jan. 2012-May. 2015
Figure 4.1.6.5-1 Consumption volume and value of HaNPV in China, 2010-2014 (tonne, million USD)
Figure 4.1.6.5-2 Consumption structure of HaNPV by crops in China, 2014
Figure 4.1.6.6-1 Supply and demand forecast of HaNPV in China, 2015-2020 (Calculated by 500bPIB/g TK, tonne)
Figure 4.1.6.6-2 Consumption structure of HaNPV by crops in China, 2020
Figure 4.1.7.1-1 Capacity and output of jingangmycin in China, 2008-H1 2015 (tonne)
Figure 4.1.7.2-1 Distribution of the major Jingangmycin producers in China, 2014
Figure 4.1.7.3-1 Ex-factory price of the Jingangmycin 60% TC in China, 2012-May. 2015 (USD/t)
Figure 4.1.7.4-1 Export specification of Jingangmycin, 2013-2014
Figure 4.1.7.4-2 Export destinations of Jingangmycin formulations, 2013-2014
Figure 4.1.7.5-1 Consumption volume and value of Jingangmycin in China, 2010- 2014 (tonne, million USD)
Figure 4.1.7.5-2 Consumption structure of jingangmycin by crops in China, 2014
Figure 4.1.7.6-1 Supply and demand forecast of jingangmycin in China, 2015-2020 (Calculated by 5%, tonne)
Figure 4.1.7.6-2 Consumption structure of jingangmycin by crops in China, 2020
Figure 4.1.8.1-1 Capacity and output of kasugamycin in China, 2008-H1 2015 (Calculated by 70% TC, tonne)
Figure 4.1.8.2-1 Distribution of the major kasugamycin producers in China, 2014
Figure 4.1.8.3-1 Ex-factory price of the kasugamycin 70% TC in China, 2012-May. 2015 (USD/t)
Figure 4.1.8.4-1 Export specification of kasugamycin, 2013-2014
Figure 4.1.8.5-1 Consumption volume and value of kasugamycin in China, 2010- 2014 (tonne, million USD)
Figure 4.1.8.5-2 Consumption structure of jingangmycin by crops in China, 2014
Figure 4.1.8.6-1 Supply and demand forecast of kasugamycin in China, 2015-2020 (Calculated by 70% TC, tonne)
Figure 4.1.8.6-2 Consumption structure of kasugamycin by crops in China, 2020
Figure 4.1.9.1-1 Capacity and output of polyoxin in China, 2008-H1 2015 (Calculated by 34% TC, tonne)
Figure 4.1.9.2-1 Distribution of polyoxin technical producers in China, 2014
Figure 4.1.9.3-1 Ex-factory price of the polyoxin formulations in China, 2012-May. 2015 (USD/t)
Figure 4.1.9.5-1 Consumption volume and value of polyoxin in China, 2010-2014 (tonne, million USD)
Figure 4.1.9.5-2 Consumption structure of polyoxin by crops in China, 2014
Figure 4.1.9.6-1 Supply and demand forecast of polyoxin in China, 2015-2020 (Calculated by 34% TC, tonne)
Figure 4.1.9.6-2 Consumption structure of polyoxin by crops in China, 2020
Figure 4.1.10.5-1 Consumption volume and value of spinosad in China, 2010- 2014 (tonne, million USD)
Figure 4.1.10.5-2 Consumption structure of spinosad by crops in China, 2014
Figure 4.1.10.6-1 Supply and demand forecast of spinosad in China, 2015-2020 (tonne)
Figure 4.1.10.6-2 Consumption structure of spinosad by crops in China, 2020
Figure 4.2.1.1-1 Capacity and output of azadirachtin technical in China, 2009-H1 2015 (Calculated by 10% TC, tonne)
Figure 4.2.1.2-1 Distribution of azadirachtin technical producers in China, 2014
Figure 4.2.1.3-1 Ex-works price of azadirachtin 0.3% EC in China (USD/t), Jan. 2012-May. 2015
Figure 4.2.1.5-1 Consumption volume and value of azadirachtin in China, 2010- 2014 (tonne, million USD)
Figure 4.2.1.5-2 Consumption structure of azadirachtin by crops in China, 2014
Figure 4.2.1.6-1 Supply and demand forecast of azadirachtin in China, 2015-2020 (Calculated by 10% TC, tonne)
Figure 4.2.1.6-2 Consumption structure of azadirachtin by crops in China, 2020
Figure 4.2.2.1-1 Capacity and output of brassinolide in China, 2009-H1 2015 (tonne)
Figure 4.2.2.2-1 Distribution of brassinolide producers in China, 2014
Figure 4.2.2.3-1 Ex-works price of brassinolide in China (USD/t), Jan. 2012-May.2015
Figure 4.2.2.5-1 Consumption volume and value of brassinolide in China, 2010- 2014 (tonne, million USD)
Figure 4.2.2.5-2 Consumption structure of brassinolide by crops in China, 2014
Figure 4.2.2.6-1 Supply and demand forecast of brassinolide in China, 2015-2020 (tonne)
Figure 4.2.2.6-2 Consumption structure of brassinolide by crops in China, 2020
Figure 4.2.3.1-1 Capacity and output of matrine in China, 2009-H1 2015 (tonne)
Figure 4.2.3.2-1 Distribution of matrine producers in China, 2014
Figure 4.2.3.3-1 Ex-factory price of matrine in China, 2012-May. 2015
Figure 4.2.3.5-1 Consumption volume and value of matrine in China, 2010- 2014 (tonne, million USD)
Figure 4.2.3.5-2 Consumption structure of matrine by crops in China, 2014
Figure 4.2.3.6-1 Supply and demand forecast of matrine in China, 2015-2020 (tonne)
Figure 4.2.3.6-2 Consumption structure of matrine by crops in China, 2020
Figure 4.2.4.1-1 Capacity and output of pyrethrins in China, 2008- H1 2015, (Calculated by 50% TC, tonne)
Figure 4.2.4.2-1 Distribution of pyrethrins technical producers in China, 2014
Figure 4.2.4.3-1 Ex-factory price of pyrethrins in China, 2012-May.2015 (USD/t)
Figure 4.2.4.4-1 Export destinations of pyrethrins in China, 2011 (kg)
Figure 4.2.4.4-2 Export destinations of pyrethrins in China, 2012 (kg)
Figure 4.2.4.5-1 Consumption volume and value of pyrethrins in China, 2010- 2014 (tonne, million USD)
Figure 4.2.4.5-2 Consumption structure of pyrethrins by crops in China, 2014
Figure 4.2.4.6-1 Supply and demand forecast of pyrethrins in China, 2015-2020 (Calculated by 50% TC, tonne)
Figure 4.2.4.6-2 Consumption structure of pyrethrins by crops in China, 2020
Figure 4.2.5.1-1 Capacity and output of rotenone in China, 2009-H1 2015 (tonne)
Figure 4.2.5.2-1 Distribution of rotenone producers in China, 2014
Figure 4.2.5.3-1 Ex-works price of rotenone in China (USD/t), Jan. 2012-May. 2015
Figure 4.2.5.5-1 Consumption volume and value of rotenone in China, 2010- 2014 (tonne, million USD)
Figure 4.2.5.5-2 Consumption structure of rotenone by crops in China, 2014
Figure 4.2.5.6-1 Supply and demand forecast of rotenone in China, 2015-2020 (tonne)
Figure 4.2.5.6-2 Consumption structure of rotenone by crops in China, 2020
Figure 4.3.1.1-1 Capacity and output of gibberellic acid in China, 2008- H1 2015, (Calculated by 90% TC, tonne)
Figure 4.3.1.2-1 Distribution of the major gibberellic acid producers in China, 2014
Figure 4.3.1.3-1 Ex-factory price of gibberellic acid in China, 2012-May.2015 (USD/t)
Figure 4.3.1.5-1 Consumption volume and value of gibberellic acid in China, 2010- 2014 (tonne, million USD)
Figure 4.3.1.5-2 Consumption structure of gibberellic acid by crops in China, 2014
Figure 4.3.1.6-1 Supply and demand forecast of gibberellic acid in China, 2015-2020 (Calculated by 50% TC, tonne)
Figure 4.3.1.6-2 Consumption structure of gibberellic acid by crops in China, 2020
Figure 4.3.2.1-1 Capacity and output of oligosaccharins in China, 2008- H1 2015, (Calculated by 90% TC, tonne)
Figure 4.3.2.2-1 Distribution of the major oligosaccharins producers in China, 2014
Figure 4.3.2.3-1 Ex-factory price of oligosaccharins in China, 2012-May.2015 (USD/t)
Figure 4.3.2.5-1 Consumption volume and value of oligosaccharins in China, 2010- 2014 (tonne, million USD)
Figure 4.3.2.5-2 Consumption structure of oligosaccharins by crops in China, 2014
Figure 4.3.2.6-1 Supply and demand forecast of oligosaccharins in China, 2015-2020 (Calculated by 50% TC, tonne)
Figure 4.3.2.6-2 Consumption structure of oligosaccharins by crops in China, 2020
Figure 5-1 Supply and demand forecast of bio-pesticides in China, 2015-2020 (tonne)
Figure 2.1-1 Total output of Chinese bio-pesticides (tonne), 2009-H1 2015
Figure 2.2-1 Output of Chinese bio-pesticides segment by category (tonne), 2009-H1 2015
Figure 2.2-2 Output of Chinese bio-pesticides segment by product (tonne), 2009-H1 2015
Figure 3.1-1 Consumption volume and value of Chinese bio-pesticides (tonne, Million USD), 2010-2014
Figure 3.2-1 Consumption volume of bio-pesticide segment by category, 2010-2014
Figure 3.2-2 Consumption value of bio-pesticide segment by category, 2010-2014
Figure 3.2-3 Consumption volume of bio-pesticide segment by product, 2010-2014
Figure 3.2-4 Consumption value of bio-pesticide segment by product, 2010-2014
Figure 3.3-1 Consumption volume and share of bio-pesticide in main crops, 2010-2014
Figure 4.1.1.1-1 Capacity and output of abamectin technical in China, 2008-H1 2015 (tonne)
Figure 4.1.1.2-1 Distribution of abamectin technical producers in China, 2014
Figure 4.1.1.3-1 Ex-factory price of abamectin 95% technical in China (USD/t), Jan. 2012–May. 2015
Figure 4.1.1.4-1 Export situation of abamectin in China (tonne), 2012-2014
Figure 4.1.1.4-2 Major export destinations of abamectin technical in China
Figure 4.1.1.4-3 Export destinations of abamectin formulations in China
Figure 4.1.1.5-1 Consumption volume and value of abamectin in China, 2010- 2014 (tonne, million USD)
Figure 4.1.1.5-2 Consumption structure of abamectin by crops in China, 2014
Figure 4.1.1.6-1 Supply and demand forecast of abamectin in China, 2015-2020 (Calculated by 95% TC, tonne)
Figure 4.1.1.6-2 Consumption structure of abamectin by crops in China, 2020
Figure 4.1.2.1-1 Capacity and output of agricultural antibiotic 120 in China, 2008-H1 2015 (tonne, by formulations)
Figure 4.1.2.2-1 Distribution of major agricultural antibiotic 120 producers in China, 2014
Figure 4.1.2.3-1 Ex-factory price of agricultural antibiotic 120 4% SL in China (USD/t), Jan. 2012–May.2015
Figure 4.1.2.5-1 Consumption volume and value of agricultural antibiotic 120 in China, 2010- 2014 (tonne, million USD)
Figure 4.1.2.5-2 Consumption structure of agricultural antibiotic 120 by crops in China, 2014
Figure 4.1.2.6-1 Supply and demand forecast of agricultural antibiotic 120 in China, 2015-2020 (Calculated by 95% TC, tonne)
Figure 4.1.2.6-2 Consumption structure of agricultural antibiotic 120 by crops in China, 2020
Figure 4.1.3.1-1 Capacity and output bacillus cereus in China, 2008-H1 2015 (Calculated by 9 billion cfu/g TK, tonne)
Figure 4.1.3.3-1 Ex-factory price of bacillus cereus jingangmycin 12.5% AS in China, 2012-May. 2015
Figure 4.1.3.5-1 Consumption volume and value of bacillus cereus in China, 2010- 2014 (tonne, million USD)
Figure 4.1.3.5-1 Consumption structure of bacillus cereus by crops in China, 2014
Figure 4.1.3.6-1 Supply and demand forecast of bacillus cereus in China, 2015-2020 (Calculated by 9 billion cfu/g TK, tonne)
Figure 4.1.3.6-1 Consumption structure of bacillus cereus by crops in China, 2020
Figure 4.1.4.1-1 Capacity and output bacillus subtilis in China, 2008-H1 2015 (Calculated by 100 billion cfu/g, tonne)
Figure 4.1.4.2-1 Distribution of major bacillus subtilis producers in China, 2014
Figure 4.1.4.3-1 Ex-factory price of bacillus subtilis 100 billion cfu/g WP in China, 2012-May. 2015
Figure 4.1.4.5-1 Consumption volume and value of bacillus subtilis in China, 2010- 2014 (tonne, million USD)
Figure 4.1.4.5-2 Consumption structure of bacillus subtilis by crops in China, 2014
Figure 4.1.4.6-1 Supply and demand forecast of bacillus subtilis in China, 2015-2020 (Calculated by 100 billion cfu/g WP, tonne)
Figure 4.1.4.6-2 Consumption structure of bacillus subtilis by crops in China, 2020
Figure 4.1.5.1-1 Capacity and output of Bacillus thuringiensis in China, 2008-H1 2015 (tonne)
Figure 4.1.5.2-1 Distribution of the major Bacillus thuringiensis producers in China, 2014
Figure 4.1.5.3-1 Ex-works price of Bacillus thuringiensis 16,000IU/mg WP in China (USD/t), Jan. 2012–May. 2015
Figure 4.1.6.1-1 Capacity and output of HaNPV in China, 2008-H1 2015 (tonne)
Figure 4.1.6.2-1 Distribution of the major HaNPV producers in China, 2014
Figure 4.1.6.3-1 Ex-works price of HaNPV in China (USD/t), Jan. 2012-May. 2015
Figure 4.1.6.5-1 Consumption volume and value of HaNPV in China, 2010-2014 (tonne, million USD)
Figure 4.1.6.5-2 Consumption structure of HaNPV by crops in China, 2014
Figure 4.1.6.6-1 Supply and demand forecast of HaNPV in China, 2015-2020 (Calculated by 500bPIB/g TK, tonne)
Figure 4.1.6.6-2 Consumption structure of HaNPV by crops in China, 2020
Figure 4.1.7.1-1 Capacity and output of jingangmycin in China, 2008-H1 2015 (tonne)
Figure 4.1.7.2-1 Distribution of the major Jingangmycin producers in China, 2014
Figure 4.1.7.3-1 Ex-factory price of the Jingangmycin 60% TC in China, 2012-May. 2015 (USD/t)
Figure 4.1.7.4-1 Export specification of Jingangmycin, 2013-2014
Figure 4.1.7.4-2 Export destinations of Jingangmycin formulations, 2013-2014
Figure 4.1.7.5-1 Consumption volume and value of Jingangmycin in China, 2010- 2014 (tonne, million USD)
Figure 4.1.7.5-2 Consumption structure of jingangmycin by crops in China, 2014
Figure 4.1.7.6-1 Supply and demand forecast of jingangmycin in China, 2015-2020 (Calculated by 5%, tonne)
Figure 4.1.7.6-2 Consumption structure of jingangmycin by crops in China, 2020
Figure 4.1.8.1-1 Capacity and output of kasugamycin in China, 2008-H1 2015 (Calculated by 70% TC, tonne)
Figure 4.1.8.2-1 Distribution of the major kasugamycin producers in China, 2014
Figure 4.1.8.3-1 Ex-factory price of the kasugamycin 70% TC in China, 2012-May. 2015 (USD/t)
Figure 4.1.8.4-1 Export specification of kasugamycin, 2013-2014
Figure 4.1.8.5-1 Consumption volume and value of kasugamycin in China, 2010- 2014 (tonne, million USD)
Figure 4.1.8.5-2 Consumption structure of jingangmycin by crops in China, 2014
Figure 4.1.8.6-1 Supply and demand forecast of kasugamycin in China, 2015-2020 (Calculated by 70% TC, tonne)
Figure 4.1.8.6-2 Consumption structure of kasugamycin by crops in China, 2020
Figure 4.1.9.1-1 Capacity and output of polyoxin in China, 2008-H1 2015 (Calculated by 34% TC, tonne)
Figure 4.1.9.2-1 Distribution of polyoxin technical producers in China, 2014
Figure 4.1.9.3-1 Ex-factory price of the polyoxin formulations in China, 2012-May. 2015 (USD/t)
Figure 4.1.9.5-1 Consumption volume and value of polyoxin in China, 2010-2014 (tonne, million USD)
Figure 4.1.9.5-2 Consumption structure of polyoxin by crops in China, 2014
Figure 4.1.9.6-1 Supply and demand forecast of polyoxin in China, 2015-2020 (Calculated by 34% TC, tonne)
Figure 4.1.9.6-2 Consumption structure of polyoxin by crops in China, 2020
Figure 4.1.10.5-1 Consumption volume and value of spinosad in China, 2010- 2014 (tonne, million USD)
Figure 4.1.10.5-2 Consumption structure of spinosad by crops in China, 2014
Figure 4.1.10.6-1 Supply and demand forecast of spinosad in China, 2015-2020 (tonne)
Figure 4.1.10.6-2 Consumption structure of spinosad by crops in China, 2020
Figure 4.2.1.1-1 Capacity and output of azadirachtin technical in China, 2009-H1 2015 (Calculated by 10% TC, tonne)
Figure 4.2.1.2-1 Distribution of azadirachtin technical producers in China, 2014
Figure 4.2.1.3-1 Ex-works price of azadirachtin 0.3% EC in China (USD/t), Jan. 2012-May. 2015
Figure 4.2.1.5-1 Consumption volume and value of azadirachtin in China, 2010- 2014 (tonne, million USD)
Figure 4.2.1.5-2 Consumption structure of azadirachtin by crops in China, 2014
Figure 4.2.1.6-1 Supply and demand forecast of azadirachtin in China, 2015-2020 (Calculated by 10% TC, tonne)
Figure 4.2.1.6-2 Consumption structure of azadirachtin by crops in China, 2020
Figure 4.2.2.1-1 Capacity and output of brassinolide in China, 2009-H1 2015 (tonne)
Figure 4.2.2.2-1 Distribution of brassinolide producers in China, 2014
Figure 4.2.2.3-1 Ex-works price of brassinolide in China (USD/t), Jan. 2012-May.2015
Figure 4.2.2.5-1 Consumption volume and value of brassinolide in China, 2010- 2014 (tonne, million USD)
Figure 4.2.2.5-2 Consumption structure of brassinolide by crops in China, 2014
Figure 4.2.2.6-1 Supply and demand forecast of brassinolide in China, 2015-2020 (tonne)
Figure 4.2.2.6-2 Consumption structure of brassinolide by crops in China, 2020
Figure 4.2.3.1-1 Capacity and output of matrine in China, 2009-H1 2015 (tonne)
Figure 4.2.3.2-1 Distribution of matrine producers in China, 2014
Figure 4.2.3.3-1 Ex-factory price of matrine in China, 2012-May. 2015
Figure 4.2.3.5-1 Consumption volume and value of matrine in China, 2010- 2014 (tonne, million USD)
Figure 4.2.3.5-2 Consumption structure of matrine by crops in China, 2014
Figure 4.2.3.6-1 Supply and demand forecast of matrine in China, 2015-2020 (tonne)
Figure 4.2.3.6-2 Consumption structure of matrine by crops in China, 2020
Figure 4.2.4.1-1 Capacity and output of pyrethrins in China, 2008- H1 2015, (Calculated by 50% TC, tonne)
Figure 4.2.4.2-1 Distribution of pyrethrins technical producers in China, 2014
Figure 4.2.4.3-1 Ex-factory price of pyrethrins in China, 2012-May.2015 (USD/t)
Figure 4.2.4.4-1 Export destinations of pyrethrins in China, 2011 (kg)
Figure 4.2.4.4-2 Export destinations of pyrethrins in China, 2012 (kg)
Figure 4.2.4.5-1 Consumption volume and value of pyrethrins in China, 2010- 2014 (tonne, million USD)
Figure 4.2.4.5-2 Consumption structure of pyrethrins by crops in China, 2014
Figure 4.2.4.6-1 Supply and demand forecast of pyrethrins in China, 2015-2020 (Calculated by 50% TC, tonne)
Figure 4.2.4.6-2 Consumption structure of pyrethrins by crops in China, 2020
Figure 4.2.5.1-1 Capacity and output of rotenone in China, 2009-H1 2015 (tonne)
Figure 4.2.5.2-1 Distribution of rotenone producers in China, 2014
Figure 4.2.5.3-1 Ex-works price of rotenone in China (USD/t), Jan. 2012-May. 2015
Figure 4.2.5.5-1 Consumption volume and value of rotenone in China, 2010- 2014 (tonne, million USD)
Figure 4.2.5.5-2 Consumption structure of rotenone by crops in China, 2014
Figure 4.2.5.6-1 Supply and demand forecast of rotenone in China, 2015-2020 (tonne)
Figure 4.2.5.6-2 Consumption structure of rotenone by crops in China, 2020
Figure 4.3.1.1-1 Capacity and output of gibberellic acid in China, 2008- H1 2015, (Calculated by 90% TC, tonne)
Figure 4.3.1.2-1 Distribution of the major gibberellic acid producers in China, 2014
Figure 4.3.1.3-1 Ex-factory price of gibberellic acid in China, 2012-May.2015 (USD/t)
Figure 4.3.1.5-1 Consumption volume and value of gibberellic acid in China, 2010- 2014 (tonne, million USD)
Figure 4.3.1.5-2 Consumption structure of gibberellic acid by crops in China, 2014
Figure 4.3.1.6-1 Supply and demand forecast of gibberellic acid in China, 2015-2020 (Calculated by 50% TC, tonne)
Figure 4.3.1.6-2 Consumption structure of gibberellic acid by crops in China, 2020
Figure 4.3.2.1-1 Capacity and output of oligosaccharins in China, 2008- H1 2015, (Calculated by 90% TC, tonne)
Figure 4.3.2.2-1 Distribution of the major oligosaccharins producers in China, 2014
Figure 4.3.2.3-1 Ex-factory price of oligosaccharins in China, 2012-May.2015 (USD/t)
Figure 4.3.2.5-1 Consumption volume and value of oligosaccharins in China, 2010- 2014 (tonne, million USD)
Figure 4.3.2.5-2 Consumption structure of oligosaccharins by crops in China, 2014
Figure 4.3.2.6-1 Supply and demand forecast of oligosaccharins in China, 2015-2020 (Calculated by 50% TC, tonne)
Figure 4.3.2.6-2 Consumption structure of oligosaccharins by crops in China, 2020
Figure 5-1 Supply and demand forecast of bio-pesticides in China, 2015-2020 (tonne)
