Survey of Amide Herbicides in China

  • April 2012
  • -
  • CCM International Limited
  • -
  • 128 pages

With more than 50 years' development, amide herbicides have become the most widely applied herbicide category in the world, playing a more and more important role in weed control thanks to its high popularity and low application cost. In global market, acetochlor, alachlor, metolachlor and butachlor are main amide herbicides in terms of sales volume. China is one of the largest suppliers of amide herbicides in the world.

In China, as of Feb. 2012, more than 55 companies have registered amide herbicide technical in validity period. In domestic market, amide herbicides take up around 15.0%-20.0% of the total herbicides by market value every year. With the development of new post-emergent herbicides in China, together with the existing problems in amide herbicides such as toxicity and environmental pollution, there is a trend of decreasing market share of amide herbicides. Even so, amide herbicides have still maintained its position as one of the most widely used herbicides in China.

In China, low-end amide herbicides still capture a large part of amide herbicides' market at present. However, with stricter policies on environmental protection in China and a high AI content demand increase in oversea market, methylene method for amide herbicide production is adopted by an increasing number of domestic producers.

In China, manual weeding is being replaced by chemical weeding, which requires more herbicides in agricultural production, thus boosting the demand for herbicides in domestic market, including amide herbicides. In addition, there is a trend that mixed formulations between amide herbicides and other herbicides will develop well, which is also the main driver for the development of amide herbicide industry in China.

There is no doubt that the competition within amide herbicide industry has become increasingly intense in recent years with the rapid expansion of amide herbicides in China. Coupled with the release of Industrial Policy for Pesticide Industry, the most important national regulation that guides the development of China's pesticide industry, the production of amide herbicides is expected to become increasingly concentrated in the future years.

Presenting an in-depth analysis of China’s current amide herbicides market and future trends, this report attaches importance to the following parts:

? Supply summary of amide herbicides (capacity, output, key manufacturers) and demand summary by volume & value in China, 2009-2011;
? Detailed study of nine major amide herbicides from supply and demand 2009-2011, technical and formulation prices 2009-Q1 2012, export 2010-2011, and outlook 2012-2016 on output and domestic demand;
? Forecast on Chinese amide herbicides on supply & demand, and identification of key factors influencing the development of this industry;
? Commercial opportunities.

Table Of Contents

Executive Summary 1
Introduction and scope of study 2
Methodology and source 4
1 Overview of amide herbicides in China 6
1.1 Development history of amide herbicides 6
1.2 Position in Chinese herbicide industry 7
1.3 Governmental policies related to amide herbicide industry 9
2 Supply and demand of amide herbicide 12
2.1 Supply and demand summary 12
2.1.1 Supply summary (capacity and output, key producers), 2009-2011 12
2.1.2 Demand summary (volume and value, application areas), 2009-2011 14
2.2 Supply and demand of main products 19
2.2.1 Acetochlor 19
2.2.1.1 Production technology 19
2.2.1.2 Registration 21
2.2.1.3 Production situation, 2009-2011 23
2.2.1.4 Export situation, 2010-2011 24
2.2.1.5 Prices of technical and formulations, 2007-Q1 2012 28
2.2.1.6 Consumption situation, 2009-2011 29
2.2.1.7 Outlook, 2012-2016 31
2.2.2 Butachlor 32
2.2.2.1 Production technology 32
2.2.2.2 Registration 34
2.2.2.3 Production situation, 2009-2011 36
2.2.2.4 Export situation, 2009-2011 37
2.2.2.5 Prices of technical and formulations, 2007-Q1 2012 42
2.2.2.6 Consumption situation, 2009-2011 42
2.2.2.7 Outlook, 2012-2016 44
2.2.3 Alachlor 45
2.2.3.1 Production technology 45
2.2.3.2 Registration 47
2.2.3.3 Production situation, 2009-2011 49
2.2.3.4 Export situation, 2009-2011 50
2.2.3.5 Prices of technical and formulations, 2009-Q1 2012 54
2.2.3.6 Consumption situation, 2009-2011 54
2.2.3.7 Outlook, 2012-2016 56
2.2.4 Metolachlor 57
2.2.4.1 Production technology 57
2.2.4.2 Registration 59
2.2.4.3 Production situation, 2009-2011 60
2.2.4.4 Export situation, 2010-2011 61
2.2.4.5 Prices of technical and formulations, 2007-Q1 2012 65
2.2.4.6 Consumption situation, 2009-2011 66
2.2.4.7 Outlook, 2012-2016 68
2.2.5 Pretilachlor 69
2.2.5.1 Production technology 69
2.2.5.2 Registration 70
2.2.5.3 Production situation, 2009-2011 71
2.2.5.4 Export situation, 2009-2011 72
2.2.5.5 Prices of technical and formulations, 2009-Q1 2012 75
2.2.5.6 Consumption situation, 2009-2011 76
2.2.5.7 Outlook, 2012-2016 78
2.2.6 Propisochlor 79
2.2.6.1 Production technology 79
2.2.6.2 Registration 80
2.2.6.3 Production situation, 2009-2011 82
2.2.6.4 Export situation, 2009-2011 82
2.2.6.5 Prices of technical and formulations, 2009-Q1 2012 86
2.2.6.6 Consumption situation, 2009-2011 87
2.2.6.7 Outlook, 2012-2016 88
2.2.7 Propanil 89
2.2.7.1 Production technology 89
2.2.7.2 Registration 89
2.2.7.3 Production situation, 2009-2011 91
2.2.7.4 Export situation, 2009-2011 91
2.2.7.5 Prices of technical and formulations, 2009-Q1 2012 92
2.2.7.6 Consumption situation, 2009-2011 92
2.2.7.7 Outlook, 2012-2016 93
2.2.8 Mefenacet 94
2.2.8.1 Production technology 94
2.2.8.2 Registration 95
2.2.8.3 Production situation, 2009-2011 97
2.2.8.4 Export situation, 2009-2011 97
2.2.8.5 Prices of technical and formulations, 2009-Q1 2012 98
2.2.8.6 Consumption situation, 2009-2011 98
2.2.8.7 Outlook, 2012-2016 99
2.2.9 Napropamide 100
2.2.9.1 Production technology 100
2.2.9.2 Registration 100
2.2.9.3 Production situation, 2009-2011 101
2.2.9.4 Export situation, 2009-2011 102
2.2.9.5 Prices of technical and formulations, 2009-Q1 2012 102
2.2.9.6 Consumption situation, 2009-2011 103
2.2.9.7 Outlook, 2012-2016 104
2.2.10 Others (S-metolachlor, dimethenamid, pethoxamid, etc.) 105
3 Main raw materials of major amide herbicides 108
3.1 2-Methyl-6-ethylaniline 108
3.2 2,6-Diethylaniline 109
3.3 Chloroacetic chloride 110
4 Forecast 111
4.1 Factors influencing China's amide herbicide industry 111
4.2 Supply and demand forecast, 2012-2016 114
5 Conclusion and commercial opportunity 116
6 Appendix 117
6.1 Profiles of major producers in China 117
6.1.1 Shandong Binnong Technology Co., Ltd. 117
6.1.2 Hangzhou Qingfeng Agro-chemical Co., Ltd. 118
6.1.3 Shandong Qiaochang Chemical Co., Ltd. 119
6.1.4 Shangyu Nutrichem Co., Ltd. 120
6.1.5 Inner Mongolia Hongyu Technology Co., Ltd. 121
6.1.6 Dalian Regar Pesticides Co., Ltd. 122
6.1.7 Jiangsu Changlong Chemicals Co., Ltd. 122
6.1.8 Hangzhou Sinochem Co., Ltd. 123
6.1.9 Anhui Futian Agrochemical Co., Ltd. 124
6.1.10 Nantong Jiangshan Agrochemical and Chemical Co., Ltd. 125
6.2 SWOT analysis of key 5 amide herbicide producers in China 126
6.2.1 Shandong Binnong Technology Co., Ltd. 126
6.2.2 Hangzhou Qingfeng Agro-chemical Co., Ltd. 127
6.2.3 Shandong Qiaochang Chemical Co., Ltd. 127
6.2.4 Shangyu Nutrichem Co., Ltd. 128
6.2.5 Nantong Jiangshan Agrochemical and Chemical Co., Ltd. 128
Disclaimers 129


LIST OF TABLES

Table 1.2-1 Classifications of herbicides
Table 1.2-2 Domestic output and consumption of amide herbicides and related shares in herbicides, 2009-2011
Table 2.1.1-1 Production situation of key amide herbicides technical in China, 2009-Q1 2012
Table 2.1.1-2 Production situation of China’s top 10 amide herbicide technical producers, 2009-Q1 2012
Table 2.2.1.1-1 Comparison on quality and yield coefficient of acetochlor between methylene route and ether route in China, 2012
Table 2.2.1.2-1 Basic information of active acetochlor technical registrations in China, as of Feb. 2012
Table 2.2.1.2-2 Active registrations of acetochlor single formulations in China, as of Feb. 2012
Table 2.2.1.2-3 Active registrations of acetochlor mixed formulations in China, as of Feb. 2012
Table 2.2.1.3-1 Capacity and output of main acetochlor technical producers in China, 2009-Q1 2012
Table 2.2.1.4-1 Monthly export volume and price of acetochlor in China, 2011, volume: kg; price: USD/kg
Table 2.2.1.4-2 Monthly export volume and price of acetochlor in China, 2010, volume: kg; price: USD/kg
Table 2.2.1.4-3 Export destinations of acetochlor in China, 2011, kg
Table 2.2.1.4-4 Export destinations of acetochlor in China, 2010, kg
Table 2.2.1.4-5 Exporters of acetochlor in China, 2011, kg
Table 2.2.1.4-6 Exporters of acetochlor in China, 2010, kg
Table 2.2.1.6-1 Market volume and value of acetochlor by formulation types in China, 2009-2011
Table 2.2.1.7-1 Drivers and barriers for the development of acetochlor industry in China, 2012
Table 2.2.2.1-1 Material consumption quota for phosphorus oxychloride and chloracetyl chloride routes of butachlor technical in China, 2012
Table 2.2.2.2-1 Basic information of active butachlor technical registrations in China, as of Feb. 2012
Table 2.2.2.2-2 Active registrations of butachlor single formulations in China, as of Feb. 2011
Table 2.2.2.2-3 Active registrations of butachlor mixed formulations in China, as of Feb. 2011
Table 2.2.2.3-1 Capacity and output of main butachlor technical producers in China, 2009-Q1 2012
Table 2.2.2.4-1 Monthly export volume and price of butachlor in China, 2011, volume: kg; price: USD/kg
Table 2.2.2.4-2 Monthly export volume and price of butachlor in China, 2010, volume: kg; price: USD/kg
Table 2.2.2.4-3 Export destinations of butachlor in China, 2011, kg
Table 2.2.2.4-4 Export destinations of butachlor in China, 2010, kg
Table 2.2.2.4-5 Exporters of butachlor in China, 2011, kg
Table 2.2.2.4-6 Exporters of butachlor in China, 2010, kg
Table 2.2.2.6-1 Market volume and value of butachlor by formulation types in China, 2009-2011
Table 2.2.2.7-1 Drivers and barriers for the development of butachlor industry in China, 2012
Table 2.2.3.1-1 Material consumption quota for phosphorus oxychloride and chloracetyl chloride routes of alachlor technical in China, 2012
Table 2.2.3.2-1 Basic information of active alachlor technical registrations in China, as of Feb. 2012
Table 2.2.3.2-2 Active registrations of alachlor formulation in China, as of Feb. 2012
Table 2.2.3.3-1 Capacity and output of main alachlor technical producers in China, 2009-Q1 2012
Table 2.2.3.4-1 Monthly export volume and price of alachlor in China, 2011, volume: kg; price: USD/kg
Table 2.2.3.4-2 Monthly export volume and price of alachlor in China, 2010, volume: kg; price: USD/kg
Table 2.2.3.4-3 Export destinations of alachlor in China, 2011, kg
Table 2.2.3.4-4 Export destinations of alachlor in China, 2010, kg
Table 2.2.3.4-5 Exporters of alachlor in China, 2011, kg
Table 2.2.3.4-6 Exporters of alachlor in China, 2010, kg
Table 2.2.3.6-1 Market volume and value of alachlor by formulation types in China, 2009-2011
Table 2.2.3.7-1 Drivers and barriers for the development of alachlor industry in China, 2012
Table 2.2.4.2-1 Basic information of active metolachlor technical registrations in China, as of Feb. 2012
Table 2.2.4.3-1 Capacity and output of main metolachlor technical producers in China, 2009-Q1 2012
Table 2.2.4.4-1 Monthly export volume and price of metolachlor in China, 2011, volume: kg; price: USD/kg
Table 2.2.4.4-2 Monthly export volume and price of metolachlor in China, 2010, volume: kg; price: USD/kg
Table 2.2.4.4-3 Export destinations of metolachlor in China, 2011, kg
Table 2.2.4.4-4 Export destinations of metolachlor in China, 2010, kg
Table 2.2.4.4-5 Exporters of metolachlor in China, 2011, kg
Table 2.2.4.4-6 Exporters of metolachlor in China, 2010, kg
Table 2.2.4.6-1 Market volume and value of metolachlor by formulation types in China, 2009-2011
Table 2.2.4.7-1 Drivers and barriers for the development of metolachlor industry in China, 2012
Table 2.2.5.1-1 Material consumption quota for ether route in China, 2012, kg/t pretilachlor technical
Table 2.2.5.2-1 Basic information of active pretilachlor technical registrations in China, as of Feb. 2012
Table 2.2.5.2-2 Active registrations of pretilachlor formulations in China, as of Feb. 2012
Table 2.2.5.3-1 Capacity and output of main pretilachlor technical producers in China, 2009-Q1 2012
Table 2.2.5.4-1 Monthly export volume and price of pretilachlor in China, 2011, volume: kg; price: USD/kg
Table 2.2.5.4-2 Monthly export volume and price of pretilachlor in China, 2010, volume: kg; price: USD/kg
Table 2.2.5.4-3 Export destinations of pretilachlor in China, 2011, volume: kg
Table 2.2.5.4-4 Export destinations of pretilachlor in China, 2010, volume: kg
Table 2.2.5.4-5 Exporters of pretilachlor in China, 2011, volume: kg
Table 2.2.5.4-6 Exporters of pretilachlor in China, 2010, volume: kg
Table 2.2.5.6-1 Market volume and value of pretilachlor by formulation types in China, 2009-2011
Table 2.2.6.2-1 Basic information of active propisochlor technical registrants in China, as of Feb 2012
Table 2.2.6.2-2 Active registrations of propisochlor single formulations in China, as of Feb. 2011
Table 2.2.6.2-3 Active registrations of propisochlor mixed formulations in China, as of Feb. 2011
Table 2.2.6.3-1 Capacity and output of main propisochlor technical producers in China, 2009-Q1 2012
Table 2.2.6.4-1 Monthly export volume and price of propisochlor in China, 2011, volume: kg; price: USD/kg
Table 2.2.6.4-2 Monthly export volume and price of propisochlor in China, 2010, volume: kg; price: USD/kg
Table 2.2.6.4-3 Export destinations of propisochlor in China, 2011, volume: kg
Table 2.2.6.4-4 Export destinations of propisochlor in China, 2010, volume: kg
Table 2.2.6.4-5 Exporters of propisochlor in China, 2011, volume: kg; price: USD/kg
Table 2.2.6.4-6 Exporters of propisochlor in China, 2010, volume: kg; price: USD/kg
Table 2.2.6.6-1 Market volume and value of propisochlor by formulation types in China, 2009-2011
Table 2.2.6.7-1 Drivers and barriers for the development of propisochlor industry in China, 2012
Table 2.2.7.1-1 Material consumption quota for propanil technical production, t/t propanil 100% AI, 2012
Table 2.2.7.2-1 Basic information of active propanil technical registrations in China, as of Feb. 2012
Table 2.2.7.2-2 Active registrations of propanil formulation in China, as of Feb. 2012
Table 2.2.7.3-1 Capacity and output of propanil technical in China, 2009-2011
Table 2.2.7.3-2 Capacity and output of main propanil technical producers in China, 2009-Q1 2012
Table 2.2.7.6-1 Market volume and value of propanil by formulation types in China, 2009-2011
Table 2.2.8.1-1 Comparison on quality and yield coefficient of mefenacet between new route and old route in China, 2012
Table 2.2.8.2-1 Basic information of active mefenacet technical registrations in China, as of Feb. 2012
Table 2.2.8.2-2 Active registrations of mefenacet formulation in China, as of Feb. 2012
Table 2.2.8.3-1 Capacity and output of main mefenacet technical producers in China, 2009-Q1 2011
Table 2.2.8.6-1 Market volume and value of mefenacet by formulation types in China, 2009-2011
Table 2.2.9.2-1 Basic information of active napropamide technical registrations in China, as of Feb. 2012
Table 2.2.9.3-1 Capacity and output of main napropamide technical producers in China, 2009-Q1 2012
Table 2.2.9.6-1 Market volume and value of napropamide by formulation types in China, 2009-2011
Table 3.1-1 Production situation of 2-methyl-6-ethylaniline producers in China, 2010-2011
Table 3.2-1 Production situation of 2,6-diethylaniline producers in China, 2010-2011
Table 3.3-1 Production situation of chloroacetic chloride producers in China, 2010-2011
Table 6.1.1-1 Production situation of amide herbicides in Shandong Binnong, 2009-Q1 2012
...
Table 6.1.10-1 Production situation of amide herbicides in Nantong Jiangshan in China, 2009-Q1 2012

LIST OF FIGURES
Figure 1.1-1 Technical output and market share of herbicide in pesticide in China, 1994-2011
Figure 2.1.1-1 Production situation of amide herbicides in China, 2009-2011
Figure 2.1.2-1 Consumption situation and market value of amide herbicides in China, 2009-2012
Figure 2.1.2-2 Consumption situation of key amide herbicides in China, 2009-2011
Figure 2.1.2-3 Market value of key amide herbicides in China, 2009-2011
Figure 2.1.2-4 Consumption structure of amide herbicides by crops in China, 2011
Figure 2.1.2-5 Consumption structure of amide herbicides by crops in China, 2010
Figure 2.1.2-6 Consumption structure of amide herbicides by crops in China, 2009
Figure 2.2.1.1-1 Methylene route of acetochlor technical in China, 2012
Figure 2.2.1.1-2 Ether route of acetochlor technical in China, 2012
Figure 2.2.1.2-1 Active registrations of acetochlor formulation by types in China, as of Feb. 2012
Figure 2.2.1.3-1 Capacity and output of acetochlor technical in China, 2009-2011
Figure 2.2.1.4-1 Export situation of acetochlor technical and formulations in China, 2010 and 2011
Figure 2.2.1.5-1 Average ex-work prices of acetochlor technical and formulations in China, 2007-Q1 2012
Figure 2.2.1.6-1 Consumption structure of acetochlor by crops in China, 2011
Figure 2.2.1.6-2 Consumption volume of acetochlor by crops in China (calculated by 100% AI), 2009-2011
Figure 2.2.1.7-1 Output and demand volume forecast of acetochlor technical in China, 2012-2016
Figure 2.2.2.1-1 Methylene route of butachlor technical in China, 2012
Figure 2.2.2.1-2 Chloracetyl chloride route of butachlor technical in China, 2012
Figure 2.2.2.1-3 Phosphorus oxychloride route of butachlor technical in China, 2012
Figure 2.2.2.2-1 Active registrations of butachlor formulations by types in China, as of Feb. 2011
Figure 2.2.2.3-1 Capacity and output of butachlor technical in China, 2009-2011
Figure 2.2.2.4-1 Export situation of butachlor technical and formulations in China, 2010 and 2011
Figure 2.2.2.5-1 Average ex-work prices of butachlor technical and formulations in China, 2007-Q1 2012
Figure 2.2.2.6-1 Consumption structure of butachlor by crops in China, 2011
Figure 2.2.2.6-2 Consumption volume of butachlor by crops in China (calculated by 100% AI), 2009-2011
Figure 2.2.2.7-1 Output and demand volume forecast of butachlor technical in China, 2012-2016
Figure 2.2.3.1-1 Methylene route of alachlor technical in China, 2012
Figure 2.2.3.1-2 Chloracetyl chloride route of alachlor technical in China, 2012
Figure 2.2.3.1-3 Phosphorus oxychloride route of alachlor technical in China, 2012
Figure 2.2.3.2-1 Active registrations of alachlor formulation by types in China, as of Feb. 2011
Figure 2.2.3.3-1 Capacity and output of alachlor technical in China, 2009-2011
Figure 2.2.3.4-1 Export situation of alachlor technical and formulations in China, 2010-2011
Figure 2.2.3.5-1 Average ex-work prices of alachlor technical and formulations in China, 2009-Q1 2012
Figure 2.2.3.6-1 Consumption structure of alachlor by crops in China, 2011
Figure 2.2.3.6-2 Consumption volume of alachlor by crops in China (calculated by 100% AI), 2009-2011
Figure 2.2.3.7-1 Output and demand volume forecast of alachlor technical in China, 2012-2016
Figure 2.2.4.1-1 Methoxyacetone route of metolachlor technical in China, 2012
Figure 2.2.4.1-2 2-Chlorine propanol route of metolachlor technical in China, 2012
Figure 2.2.4.1-3 2-Bromo-1-methoxyl propane route of metolachlor technical in China, 2012
Figure 2.2.4.1-4 Comparison on advantages and disadvantages of metolachlor technical production routes in China, 2012
Figure 2.2.4.2-1 Active registrations of metolachlor formulation by types in China, as of Feb. 2011
Figure 2.2.4.2-2 Active registrations of metolachlor formulation in China, as of Feb. 2012
Figure 2.2.4.3-1 Capacity and output of metolachlor technical in China, 2009-2011
Figure 2.2.4.4-1 Export situation of metolachlor technical and formulations in China, 2010-2011
Figure 2.2.4.5-1 Average ex-work prices of metolachlor technical and formulations in China, 2007-Q1 2012
Figure 2.2.4.6-1 Consumption structure of metolachlor by crops in China, 2011
Figure 2.2.4.6-2 Consumption volume of metolachlor by crops in China (calculated by 100% AI), 2009-2011
Figure 2.2.4.7-1 Output and demand volume forecast of metolachlor technical in China, 2012-2016
Figure 2.2.5.1-1 Ether route of pretilachlor technical in China, 2012
Figure 2.2.5.2-1 Active registrations of pretilachlor formulation by types in China, as of Feb 2011
Figure 2.2.5.3-1 Capacity and output of pretilachlor technical in China, 2009-2011
Figure 2.2.5.4-1 Export volume of pretilachlor technical and formulations in China, 2010-2011
Figure 2.2.5.5-1 Ex-work prices of pretilachlor technical and formulations in China, 2009-Q1 2012
Figure 2.2.5.6-1 Consumption structure of pretilachlor by crops in China, 2011
Figure 2.2.5.6-2 Consumption volume of pretilachlor by crops in China (calculated by 100% AI), 2009-2011
Figure 2.2.5.7-1 Output and demand volume forecast of pretilachlor technical in China, 2012-2016
Figure 2.2.6.1-1 Ether route of propisochlor technical in China, 2012
Figure 2.2.6.2-1 Active registrations of propisochlor formulation by types in China, as of Feb. 2011
Figure 2.2.6.3-1 Capacity and output of propisochlor technical in China, 2009-2011
Figure 2.2.6.4-1 Export situation of propisochlor technical and formulations in China, 2010-2011
Figure 2.2.6.5-1 Average ex-work prices of propisochlor technical and formulations in China, 2009-Q1 2012
Figure 2.2.6.6-1 Consumption structure of propisochlor by crops in China, 2011
Figure 2.2.6.6-2 Consumption volume of propisochlor by crops in China (calculated by 100% AI), 2009-2011
Figure 2.2.6.7-1 Output and demand volume forecast of propisochlor technical in China, 2012-2016
Figure 2.2.7.1-1 Production route of propanil technical in China, 2012
Figure 2.2.7.2-1 Active registrations of propanil formulation by types in China, as of Feb. 2012
Figure 2.2.7.5-1 Ex-work prices of propanil technical and formulations in China, 2009-Q1 2012
Figure 2.2.7.7-1 Output and demand volume forecast of propanil technical in China, 2012-2016
Figure 2.2.8.1-1 New production route of mefenacet in China, 2012
Figure 2.2.8.1-2 Old production route of mefenacet in China, 2012
Figure 2.2.8.2-1 Active registrations of mefenacet formulation by types in China, as of Feb. 2011
Figure 2.2.8.3-1 Capacity and output of mefenacet technical in China, 2009-2011
Figure 2.2.8.5-1 Ex-work prices of mefenacet technical and formulations in China, 2009-Q1 2012
Figure 2.2.8.7-1 Output and demand volume forecast of mefenacet technical in China, 2012-2016
Figure 2.2.9.1-1 Reaction route of napropamide technical in China, 2012
Figure 2.2.9.2-1 Active registrations of napropamide formulation by types in China, as of Feb. 2011
Figure 2.2.9.3-1 Capacity and output of napropami technical in China, 2009-2011
Figure 2.2.9.5-1 Ex-work prices of napropamide technical and formulations in China, 2009-Q1 2012
Figure 2.2.9.6-1 Consumption structure of napropamide by crops in China, 2011
Figure 2.2.9.6-2 Consumption volume of napropamide by crops in China (calculated by 100% AI), 2009-2011
Figure 2.2.9.7-1 Output and demand volume forecast of napropamide technical in China, 2012-2016
Figure 3.1-1 Market price of 2-methyl-6-ethylaniline in China, 2007-2011
Figure 3.2-1 Market price of 2,6-diethylaniline in China, 2007-2011
Figure 3.3-1 Market price of chloroacetic chloride in China, 2007-2011
Figure 4.2-1 Technical output forecast of amide herbicides in China, 2012-2016
Figure 4.2-2 Demand and market value forecast of amide herbicides in China, 2012-2016
Figure 6.2.1-1 SWOT analysis of Shandong Binnong in China, Q1 2012
Figure 6.2.2-1 SWOT analysis of Hangzhou Qingfeng in China, Q1 2012
Figure 6.2.3-1 SWOT analysis of Shandong Qiaochang in China, Q1 2012
Figure 6.2.4-1 SWOT analysis of Shangyu Nutrichem in China, Q1 2012
Figure 6.2.5-1 SWOT analysis of Nantong Jiangshan in China, Q1 2012

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