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表紙
市場調査レポート - 239933

中国におけるアミド系除草剤市場調査

Survey of Amide Herbicides in China

発行 Guangzhou CCM Information Science & Technology Co., Ltd.
出版日 ページ情報 英文 123 Pages
価格
中国におけるアミド系除草剤市場調査 Survey of Amide Herbicides in China
出版日: 2013年04月27日 ページ情報: 英文 123 Pages
概要

当レポートでは、中国のアミド系除草剤市場における現況および将来の動向について分析し、生産量・生産額別による需要と供給のサマリー、主要9製品の需要と供給、技術・製剤価格、輸出動向、国内生産・需要の見通しの分析、中国における需給予測、市場影響因子の特定、商業機会などを提供しており、概略以下の構成でお届けします。

エグゼクティブサマリー

イントロダクション・調査範囲

調査手法・ソース

第1章 中国におけるアミド系除草剤の概要

  • 発展の歴史
  • 中国の除草剤産業のポジション
  • アミド系産業関連の政府政策

第2章 アミド系除草剤の需要と供給

  • 需要と供給のサマリー
    • 供給のサマリー(生産能力・生産量、主要生産業者)
    • 需要のサマリー(生産量・生産額、アプリケーション分野)
  • 主要製品の需要と供給
    • アセトクロル
    • ブタクロール
    • アラクロール
    • メトラクロル
    • プレチラクロール
    • プロピソクロール
    • プロパニル
    • メフェナセット
    • ナプロパミド
    • その他

第3章 主要アミド系除草剤の主な原料

  • 2-メチル-6-エチルアニリン
  • 2,6ジエチルアニリン
  • クロロアセチルクロリド

第4章 予測

  • 中国のアミド系除草剤産業の影響因子
  • 需要と供給の予測

第5章 結論・商業的機会

第6章 付録

図表

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目次

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 the global market, acetochlor, alachlor, metolachlor and butachlor are the main amide herbicides in terms of sales volume.

China is one of the largest suppliers of amide herbicides in the world. Currently, more than 55 companies have registered amide herbicide technical in China. In the domestic market, amide herbicides take up around 20%-30% of the total herbicides in terms of consumption every year, with acetochlor being the largest amide herbicide.

As we know, amide herbicides can be widely used in many crops, especially for the pre-emergent control of weeds in broadleaf crop fields. Coupled with the advantages of low cost, long validity and low residue, global demand for amide herbicides is very large.

With the development of new post-emergent herbicides in China, together with the existing problems in amide herbicides such as toxicity and environmental pollution, the market share of amide herbicides is seeing a downtrend. However, amide herbicides still remain one of the most widely used herbicides in China.

CCM has made a systemic research revealing the latest information on amide herbicides from the aspects of production, consumption, trade, etc., and forecast on Chinese amide herbicide industry, which will benefit both existing players and new entrants.

Survey of Amide Herbicides in China is CCM's second edition report on Chinese amide herbicide industry, which was finished in April 2013.

This intelligent report attaches great importance to the following parts:

  • Supply summary of amide herbicides (capacity, output and key producers) and demand summary by volume & value in China, 2009-2012;
  • Detailed study of nine major amide herbicides in supply and demand 2009-2012, technical and formulation prices 2009-2012, export 2010-2012 and outlook 2013-2017 on output and domestic demand;
  • Forecast on Chinese amide herbicides in supply & demand and identification of key influencing factors for the development of this industry;
  • Commercial opportunities.

Executive summary:

As a category of highly selective herbicides, amide herbicides have witnessed fast development in recent years in China, playing an increasingly important role in the weeding of various crops in China, ranking the top 3 both by domestic consumption volume and market value in all categories of herbicides at present.

With capacity expansion and the launch of many new production lines in recent years, China's total capacity of amide herbicide technical has reached XXXt/a as of 2012. The total technical output hit XXX tonnes in 2012, accounting for about XXX% of the total homemade herbicide (XXX tonnes). Acetochlor is the largest amide herbicide by output in China, with XXX tonnes of technical in 2012. Other large amide herbicides with over 10,000 tonnes of technical output of are XXX and XXX.

Moreover, domestic consumption of amide herbicides has grown with a CAGR of XXX% during 2009-2012. The total domestic consumption of amide herbicides (calculated by technical) hit around XXX tonnes in 2012, accounting for around XXX% of the total consumption of herbicides. Acetochlor is the largest amide herbicide by consumption in China, with around XXX tonnes of AI consumed in the domestic market in 2012. Butachlor and pretilachlor are ranked second and third with about XXX tonnes and XXX tonnes of AI consumed in the domestic market in 2012, respectively.

In China, the total market value of amide herbicides has grown to USDXXX million (by ex-factory level) in 2012, with a CAGR of XXX% during 2009-2012. The top three amide herbicides by market value in 2012 are acetochlor (USDXXX million), butachlor (USDXXX million) and pretilachlor (USDXXX million).

Increasing market potential of amide herbicides is mainly driven by two factors. On one hand, the application rate of most amide herbicides on grain crops (corn, rice, etc.) is expected to continue to increase. On the other hand, the application of some new amide herbicides such as S-metolachlor will increase in the future, being extended to more and more economic crops.

Both the output and domestic demand for amide herbicides will continue to grow in the next five years. It is certain that the amide herbicide industry will drive the development of the herbicide industry and promote the upgrading of herbicide products in China.

XXX Commercial in Confidence.

Table of Contents

Executive Summary

Introduction and scope of study

Methodology and source

1. Overview of amide herbicides in China

  • 1-1. Development history of amide herbicides
  • 1-2. Position in Chinese herbicide industry
  • 1-3. Governmental policies related to amide herbicide industry

2. Supply & demand of amide herbicide

  • 2-1. Supply & demand summary
    • 2-1-1. Supply summary (capacity & output, key producers), 2009-2012
    • 2-1-2. Demand summary (volume & value, application areas), 2009-2012
  • 2-2. Supply & demand of main products
    • 2-2-1. Acetochlor
      • 2-2-1-1. Production technology
      • 2-2-1-2. Registration
      • 2-2-1-3. Production situation, 2009-2012
      • 2-2-1-4. Export situation, 2010-2012
      • 2-2-1-5. Prices of technical and formulations, 2007-Mar. 2013
      • 2-2-1-6. Consumption situation, 2009-2012
      • 2-2-1-7. Outlook, 2013-2017
    • 2-2-2. Butachlor
      • 2-2-2-1. Production technology
      • 2-2-2-2. Registration
      • 2-2-2-3. Production situation, 2009-2012
      • 2-2-2-4. Export situation, 2010-2012
      • 2-2-2-5. Prices of technical and formulations, 2007-Mar. 2013
      • 2-2-2-6. Consumption situation, 2009-2012
      • 2-2-2-7. Outlook, 2013-2017
    • 2-2-3. Alachlor
      • 2-2-3-1. Production technology
      • 2-2-3-2. Registration
      • 2-2-3-3. Production situation, 2009-2012
      • 2-2-3-4. Export situation, 2010-2012
      • 2-2-3-5. Prices of technical and formulations, 2007-Mar. 2013
      • 2-2-3-6. Consumption situation, 2009-2012
      • 2-2-3-7. Outlook, 2013-2017
    • 2-2-4. Metolachlor
      • 2-2-4-1. Production technology
      • 2-2-4-2. Registration
      • 2-2-4-3. Production situation, 2009-2012
      • 2-2-4-4. Export situation, 2010-2012
      • 2-2-4-5. Prices of technical and formulations, 2007-Mar. 2013
      • 2-2-4-6. Consumption situation, 2009-2012
      • 2-2-4-7. Outlook, 2013-2017
    • 2-2-5. Pretilachlor
      • 2-2-5-1. Production technology
      • 2-2-5-2. Registration
      • 2-2-5-3. Production situation, 2009-2012
      • 2-2-5-4. Export situation, 2010-2012
      • 2-2-5-5. Prices of technical and formulations, 2007-Mar. 2013
      • 2-2-5-6. Consumption situation, 2009-2012
      • 2-2-5-7. Outlook, 2013-2017
    • 2-2-6. Propisochlor
      • 2-2-6-1. Production technology
      • 2-2-6-2. Registration
      • 2-2-6-3. Production situation, 2009-2012
      • 2-2-6-4. Export situation, 2010-2012
      • 2-2-6-5. Prices of technical and formulations, 2007-Mar. 2013
      • 2-2-6-6. Consumption situation, 2009-2012
      • 2-2-6-7. Outlook, 2013-2017
    • 2-2-7. Propanil
      • 2-2-7-1. Production technology
      • 2-2-7-2. Registration
      • 2-2-7-3. Production situation, 2010-2012
      • 2-2-7-4. Export situation, 2011-2012
      • 2-2-7-5. Prices of technical and formulations, 2007-Mar. 2013
      • 2-2-7-6. Consumption situation, 2010-2012
      • 2-2-7-7. Outlook, 2013-2017
    • 2-2-8. Mefenacet
      • 2-2-8-1. Production technology
      • 2-2-8-2. Registration
      • 2-2-8-3. Production situation, 2009-2012
      • 2-2-8-4. Export situation, 2010-2012
      • 2-2-8-5. Prices of technical and formulations, 2007-Mar. 2013
      • 2-2-8-6. Consumption situation, 2009-2012
      • 2-2-8-7. Outlook, 2013-2017
    • 2-2-9. Napropamide
      • 2-2-9-1. Production technology
      • 2-2-9-2. Registration
      • 2-2-9-3. Production situation, 2009-2012
      • 2-2-9-4. Export situation, 2010-2012
      • 2-2-9-5. Prices of technical and formulations, 2007-2012
      • 2-2-9-6. Consumption situation, 2009-2012
      • 2-2-9-7. Outlook, 2013-2017
    • 2-2-10. Others (S-metolachlor, dimethenamid, pethoxamid, etc.)

3. Main raw materials of major amide herbicides

  • 3-1. 2-Methyl-6-ethylaniline
  • 3-2. 2,6-Diethylaniline
  • 3-3. Chloroacetic chloride

4. Forecast

  • 4-1. Factors influencing China's amide herbicide industry
  • 4-2. Supply & demand forecast, 2013-2017

5. Conclusion and commercial opportunity

6. Appendix

  • 6-1. Profiles of major producers in China
    • 6-1-1. Shandong Binnong Technology Co., Ltd.
    • 6-1-2. Hangzhou Qingfeng Agro-chemical Co., Ltd.
    • 6-1-3. Shandong Qiaochang Chemical Co., Ltd.
    • 6-1-4. Shangyu Nutrichem Co., Ltd.
    • 6-1-5. Inner Mongolia Hongyu Technology Co., Ltd.
    • 6-1-6. Dalian Regar Pesticides Co., Ltd.
    • 6-1-7. Jiangsu Changlong Chemicals Co., Ltd.
    • 6-1-8. Hangzhou Sinochem Co., Ltd.
    • 6-1-9. Anhui Futian Agrochemical Co., Ltd.
    • 6-1-10. Nantong Jiangshan Agrochemical & Chemical Co., Ltd.
  • 6-2. SWOT analysis of key 5 amide herbicide producers in China
    • 6-2-1. Shandong Binnong Technology Co., Ltd.
    • 6-2-2. Hangzhou Qingfeng Agro-chemical Co., Ltd.
    • 6-2-3. Shandong Qiaochang Chemical Co., Ltd.
    • 6-2-4. Shangyu Nutrichem Co., Ltd.
    • 6-2-5. Nantong Jiangshan Agrochemical & Chemical Co., Ltd.

List of Tables:

  • Table 1.2-1: Classifications of herbicides
  • Table 2.1.1-1: Production situation of key amide herbicides technical in China, 2009-2012
  • Table 2.1.1-2: Production situation of China's top 10 amide herbicide technical producers, 2009-2012
  • Table 2.1.2-1: Consumption structure of amide herbicides by crops in China, 2009-2012
  • 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: Valid registrations of acetochlor technical in China, as of 8 April 2013
  • Table 2.2.1.2-2: Valid registrations of acetochlor formulations in China, as of 8 April 2013
  • Table 2.2.1.3-1: Basic information on the main acetochlor technical manufacturers in China
  • Table 2.2.1.3-2: Capacity and output of main acetochlor technical producers in China, 2009-2012
  • Table 2.2.1.4-1: China's export volume and price of acetochlor, 2012 (Quantity: tonne; Price: USD/kg)
  • Table 2.2.1.4-2: China's export volume and price of acetochlor, 2011 (Quantity: tonne; Price: USD/kg)
  • Table 2.2.1.4-3: China's export volume and price of acetochlor, 2010 (Quantity: tonne; Price: USD/kg)
  • Table 2.2.1.4-4: Export destinations of China's acetochlor, 2012 (Unit: tonne)
  • Table 2.2.1.4-5: Export destinations of China's acetochlor, 2011 (Unit: tonne)
  • Table 2.2.1.4-6: Export destinations of China's acetochlor, 2010 (Unit: tonne)
  • Table 2.2.1.4-7: Exporters of China's acetochlor, 2012 (Unit: tonne)
  • Table 2.2.1.4-8: Exporters of China's acetochlor, 2011 (Unit: tonne)
  • Table 2.2.1.4-9: Exporters of China's acetochlor, 2010 (Unit: tonne)
  • Table 2.2.1.6-1: Consumption volume and market value of acetochlor by formulation types in China, 2009-2012
  • Table 2.2.1.7-1: Drivers and barriers for the development of the acetochlor industry in China, 2012
  • Table 2.2.2.1-1: Material consumption quota for phosphorus oxychloride & chloracetyl chloride routes of butachlor technical in China, 2012
  • Table 2.2.2.2-1: Valid registrations of butachlor technical in China, by 8 April 2013
  • Table 2.2.2.2-2: Valid registrations of butachlor formulations in China, as of 8 April 2013
  • Table 2.2.2.3-1: Basic information on the main butachlor technical manufacturers in China
  • Table 2.2.2.3-2: Capacity and output of the main butachlor technical manufacturers in China, 2009-2012
  • Table 2.2.2.6-1: Consumption volume and market value of butachlor by formulation types in China, 2009-2012
  • Table 2.2.2.7-1: Drivers and barriers for the development of the butachlor industry in China, 2012
  • Table 2.2.3.1-1: Material consumption quota for phosphorus oxychloride & chloracetyl chloride routes of alachlor technical in China, 2012
  • Table 2.2.3.2-1: Valid registrations of alachlor technical in China, by 8 April 2013
  • Table 2.2.3.2-2: Valid registrations of alachlor formulations in China, as of 8 April 2013
  • Table 2.2.3.3-1: Basic information on the main alachlor technical manufacturers in China
  • Table 2.2.3.3-2: Capacity and output of the main alachlor technical manufacturers in China, 2009-2012
  • Table 2.2.3.6-1: Consumption volume and market value of alachlor by formulation types in China, 2009-2012
  • Table 2.2.4.2-1: Valid registrations of metolachlor technical in China, by 8 April 2013
  • Table 2.2.4.2-2: Valid registrations of metolachlor formulations in China, as of 8 April 2013
  • Table 2.2.4.3-1: Basic information on the main metolachlor technical manufacturers in China
  • Table 2.2.4.3-2: Capacity and output of the main metolachlor technical manufacturers in China, 2009-2012
  • Table 2.2.4.4-1: China's export volume and price of metolachlor, 2012 (Quantity: tonne; Price: USD/kg)
  • Table 2.2.4.4-2: China's export volume and price of metolachlor, 2011 (Quantity: tonne; Price: USD/kg)
  • Table 2.2.4.4-3: China's export volume and price of metolachlor, 2010 (Quantity: tonne; Price: USD/kg)
  • Table 2.2.4.4-4: Export destinations of China's metolachlor, 2012 (Unit: tonne)
  • Table 2.2.4.4-5: Export destinations of China's metolachlor, 2011 (Unit: tonne)
  • Table 2.2.4.4-6: Export destinations of China's metolachlor, 2010 (Unit: tonne)
  • Table 2.2.4.4-7: Exporters of China's metolachlor, 2012 (Unit: tonne)
  • Table 2.2.4.4-8: Exporters of China's metolachlor, 2011 (Unit: tonne)
  • Table 2.2.4.4-9: Exporters of China's metolachlor, 2010 (Unit: tonne)
  • Table 2.2.4.6-1: Consumption volume and market value of metolachlor by formulation types in China, 2009-2012
  • Table 2.2.4.7-1: Drivers and barriers for the development of metolachlor industry in China, 2012
  • Table 2.2.5.1-1: Main raw material consumption quota for ether route in China, 2012, kg/t pretilachlor technical
  • Table 2.2.5.2-1: Valid registrations of pretilachlor technical in China, by 8 April 2013
  • Table 2.2.5.2-2: Valid registrations of pretilachlor formulations in China, as of 8 April 2013
  • Table 2.2.5.3-1: Basic information on the main pretilachlor technical manufacturers in China
  • Table 2.2.5.3-2: Capacity and output of the main pretilachlor technical manufacturers in China, 2009-2012
  • Table 2.2.5.6-1: Consumption volume and market value of pretilachlor by formulation types in China, 2009-2012
  • Table 2.2.6.2-1: Valid registrations of propisochlor technical in China, by 8 April 2013
  • Table 2.2.6.2-2: Valid registrations of propisochlor formulations in China, as of 8 April 2013
  • Table 2.2.6.3-1: Basic information on the main propisochlor technical manufacturers in China
  • Table 2.2.6.3-2: Capacity and output of the main propisochlor technical manufacturers in China, 2009-2012
  • Table 2.2.6.6-1: Consumption volume and market value of propisochlor by formulation types in China, 2009-2012
  • Table 2.2.6.7-1: Drivers and barriers for the development of the propisochlor industry in China, 2012
  • Table 2.2.7.2-1: Valid registrations of propanil technical in China, by 8 April 2013
  • Table 2.2.7.2-2: Valid registrations of propanil formulations in China, by 8 April 2013
  • Table 2.2.7.3-1: Basic information on the main propanil technical manufacturers in China, 2013
  • Table 2.2.7.3-2: Capacity and output of the main propanil technical manufacturers in China, 2010-2012
  • Table 2.2.7.4-1: China's export volume and price of propanil, 2012
  • Table 2.2.7.4-2: China's export volume and price of propanil, 2011
  • Table 2.2.7.4-3: Export destinations of China's propanil, 2012
  • Table 2.2.7.4-4: Export destinations of China's propanil, 2011
  • Table 2.2.7.6-1: Consumption volume and market value of propanil formulations in China, 2010-2012
  • Table 2.2.8.2-1: Valid registrations of mefenacet technical in China, by 8 April 2013
  • Table 2.2.8.2-2: Valid registrations of mefenacet formulations in China, as of 8 April 2013
  • Table 2.2.8.3-1: Basic information on the main mefenacet technical manufacturers in China
  • Table 2.2.8.3-2: Capacity and output of the main mefenacet technical manufacturers in China, 2009-2012
  • Table 2.2.8.6-1: Consumption volume and market value of mefenacet by formulation types in China, 2009-2012
  • Table 2.2.9.2-1: Valid registrations of napropamide technical in China, by 8 April 2013
  • Table 2.2.9.2-2: Valid registrations of napropamide formulations in China, as of 8 April 2013
  • Table 2.2.9.3-1: Basic information on the main napropamide technical manufacturers in China
  • Table 2.2.9.3-2: Capacity and output of the main napropamide technical manufacturers in China, 2009-2012
  • Table 2.2.9.6-1: Consumption volume and market value of napropamide by formulation types in China, 2009-2012
  • Table 6.1.1-1: Production situation of main amide herbicides in Shandong Binnong, 2009-2012
  • Table 6.1.2-1: Production situation of main amide herbicides in Hangzhou Qingfeng, 2009-2012
  • Table 6.1.3-1: Production situation of main amide herbicides in Shandong Qiaochang, 2009-2012
  • Table 6.1.4-1: Production situation of main amide herbicides in Shangyu Nutrichem, 2009-2012
  • Table 6.1.5-1: Production situation of main amide herbicides in Inner Mongolia Hongyu, 2009-2012
  • Table 6.1.6-1: Production situation of main amide herbicides in Dalian Regar, 2009-2012
  • Table 6.1.7-1: Production situation of main amide herbicides in Jiangsu Changlong, 2009-2012
  • Table 6.1.8-1: Production situation of main amide herbicides in Hangzhou Sinochem, 2009-2012
  • Table 6.1.9-1: Production situation of main amide herbicides in Anhui Futian, 2009-2012
  • Table 6.1.10-1: Production situation of main amide herbicides in Nantong Jiangshan, 2009-2012

List of Figures:

  • Figure 1.1-1: Technical output (Calculated by 100% technical) and market share of herbicide in pesticide in China, 1994-2012
  • Figure 2.1.1-1: Production situation of amide herbicides in China, 2009-2012
  • Figure 2.1.2-1: Consumption volume and market value of amide herbicides in China, 2009-2012
  • Figure 2.1.2-2: Consumption volume of key amide herbicides in China, 2009-2012
  • Figure 2.1.2-3: Market value of key amide herbicides in China, 2009-2012
  • 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 2.2.1.3-1: Capacity and output of acetochlor technical in China, 2009-2012
  • Figure 2.2.1.5-1: Average ex-work price of acetochlor technical in China, 2007-Mar. 2013
  • Figure 2.2.1.5-2: Average ex-work prices of acetochlor formulations in China, 2007-2012
  • Figure 2.2.1.6-1: Consumption volume of acetochlor by crops in China, 2009-2012
  • Figure 2.2.1.7-1: Forecast for the output of acetochlor technical in China, 2013-2017
  • Figure 2.2.1.7-2: Forecast on consumption volume and market value of acetochlor formulations in China, 2013-2017
  • 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 2.2.2.3-1: Capacity and output of butachlor technical in China, 2009-2012
  • Figure 2.2.2.4-1: Export volume of China's butachlor technical and formulations, 2010-2012
  • Figure 2.2.2.5-1: Average ex-work price of butachlor technical in China, 2007-Mar. 2013
  • Figure 2.2.2.5-2: Average ex-work price of butachlor formulations in China, 2007-2012
  • Figure 2.2.2.6-1: Consumption volume of butachlor by crops in China, 2009-2012
  • Figure 2.2.2.7-1: Output forecast of butachlor technical in China, 2013-2017
  • Figure 2.2.2.7-2: Forecast on consumption volume and market value of butachlor formulations in China, 2013-2017
  • 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 2.2.3.3-1: Capacity and output of alachlor technical in China, 2009-2012
  • Figure 2.2.3.4-1: Export volume of China's alachlor technical and formulations, 2010-2012
  • Figure 2.2.3.5-1: Average ex-work price of alachlor technical in China, 2007-Mar. 2013
  • Figure 2.2.3.5-2: Average ex-work price of alachlor formulations in China, 2007-2012
  • Figure 2.2.3.6-1: Consumption volume of alachlor by crops in China, 2009-2012
  • Figure 2.2.3.7-1: Output forecast of alachlor technical in China, 2013-2017
  • Figure 2.2.3.7-2: Forecast on consumption volume and market value of alachlor formulations in China, 2013-2017
  • Figure 2.2.4.1-1: Methoxyacetone route of metolachlor technical, 2012
  • Figure 2.2.4.1-2: 2-Chlorine propanol route of metolachlor technical, 2012
  • Figure 2.2.4.1-3: 2-Bromo-1-methoxyl propane route of metolachlor technical, 2012
  • Figure 2.2.4.1-4: Comparison on advantages and disadvantages of metolachlor technical production routes in China, 2012
  • Figure 2.2.4.3-1: Capacity and output of metolachlor technical in China, 2009-2012
  • Figure 2.2.4.5-1: Average ex-work price of metolachlor technical in China, 2007-Mar. 2013
  • Figure 2.2.4.5-2: Average ex-work price of metolachlor formulations in China, 2007-2012
  • Figure 2.2.4.6-1: Consumption volume of metolachlor by crops in China, 2009-2012
  • Figure 2.2.4.7-1: Output forecast of metolachlor technical in China, 2013-2017
  • Figure 2.2.4.7-2: Forecast on consumption volume and market value of metolachlor formulations in China, 2013-2017
  • Figure 2.2.5.1-1: Production route of pretilachlor technical in China, 2012
  • Figure 2.2.5.3-1: Capacity and output of pretilachlor technical in China, 2009-2012
  • Figure 2.2.5.4-1: Export volume of China's pretilachlor technical and formulations, 2010-2012
  • Figure 2.2.5.5-1: Average ex-work price of pretilachlor technical in China, 2007-Mar. 2013
  • Figure 2.2.5.5-2: Average ex-work price of pretilachlor formulations in China, 2007-2012
  • Figure 2.2.5.6-1: Consumption volume of pretilachlor by crops in China, 2009-2012
  • Figure 2.2.5.7-1: Output forecast of pretilachlor technical in China, 2013-2017
  • Figure 2.2.5.7-2: Forecast on consumption volume and market value of pretilachlor formulations in China, 2013-2017
  • Figure 2.2.6.1-1: Production route of propisochlor technical in China, 2012
  • Figure 2.2.6.3-1: Capacity and output of propisochlor technical in China, 2009-2012
  • Figure 2.2.6.4-1: Export volume of China's propisochlor technical and formulations, 2010-2012
  • Figure 2.2.6.5-1: Average ex-work price of propisochlor technical in China, 2007-Mar. 2013
  • Figure 2.2.6.5-2: Average ex-work price of propisochlor formulations in China, 2007-2012
  • Figure 2.2.6.6-1: Consumption volume of propisochlor by crops in China, 2009-2012
  • Figure 2.2.6.7-1: Output forecast of propisochlor technical in China, 2013-2017
  • Figure 2.2.6.7-2: Forecast on consumption volume and market value of propisochlor formulations in China, 2013-2017
  • Figure 2.2.7.1-1: Flowchart of propanil's synthesis process
  • Figure 2.2.7.3-1: Capacity and output of propanil technical in China, 2010-2012
  • Figure 2.2.7.5-1: Ex-works prices of propanil in China, 2007-2012
  • Figure 2.2.7.7-1: Technical output forecast of propanil technical in China, 2013-2017
  • Figure 2.2.7.7-2: Forecast on consumption volume and market value of propanil formulations in China, 2013-2017
  • Figure 2.2.8.1-1: Production route of mefenacet in China, 2012
  • Figure 2.2.8.3-1: Capacity and output of mefenacet technical in China, 2009-2012
  • Figure 2.2.8.5-1: Average ex-works price of mefenacet technical in China, 2007-Mar. 2013
  • Figure 2.2.8.5-2: Average ex-works price of mefenacet formulations in China, 2007-2012
  • Figure 2.2.8.6-1: Consumption volume of mefenacet on rice in China, 2009-2012
  • Figure 2.2.8.7-1: Output forecast of mefenacet technical in China, 2013-2017
  • Figure 2.2.8.7-2: Forecast on consumption volume and market value of mefenacet formulations in China, 2013-2017
  • Figure 2.2.9.1-1: Reaction route of napropamide technical in China, 2012
  • Figure 2.2.9.3-1: Capacity and output of napropamide technical in China, 2009-2012
  • Figure 2.2.9.5-1: Average ex-work prices of napropamide technical and formulations in China, 2007-2012
  • Figure 2.2.9.6-1: Consumption volume of napropamide by crops in China, 2009-2012
  • Figure 2.2.9.7-1: Output forecast of napropamide technical in China, 2013-2017
  • Figure 2.2.9.7-2: Forecast on consumption volume and market value of napropamide formulations in China, 2013-2017
  • Figure 3.1-1: Average ex-work price of 2-methyl-6-ethylaniline in China, 2007-2012
  • Figure 3.2-1: Average ex-work price of 2,6-diethylaniline in China, 2007-2012
  • Figure 3.3-1: Average ex-work price of chloroacetic chloride in China, 2007-2012
  • Figure 4.2-1: Technical output forecast of amide herbicides in China, 2013-2017
  • Figure 4.2-2: Forecast on consumption volume and market value of amide herbicides in China, 2013-2017
  • Figure 6.2.1-1: SWOT analysis of Shandong Binnong in China, 2012
  • Figure 6.2.2-1: SWOT analysis of Hangzhou Qingfeng in China, 2012
  • Figure 6.2.3-1: SWOT analysis of Shandong Qiaochang in China, 2012
  • Figure 6.2.4-1: SWOT analysis of Shangyu Nutrichem in China, 2012
  • Figure 6.2.5-1: SWOT analysis of Nantong Jiangshan in China, 2012
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