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市場調查報告書

基因改造農作物 (GMC) 的主要除草劑的全球市場

Global Key Herbicides Applied on Genetically Modified Crop

出版商 CCM 商品編碼 348539
出版日期 內容資訊 英文 52 Pages
商品交期: 最快1-2個工作天內
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基因改造農作物 (GMC) 的主要除草劑的全球市場 Global Key Herbicides Applied on Genetically Modified Crop
出版日期: 2015年12月02日 內容資訊: 英文 52 Pages
簡介

全球各地有嘉磷塞(Glyphosate)抗性的作物開始推銷之後,嘉磷塞成為全球最暢銷的除草劑。但,隨著嘉磷塞的使用量增加,有嘉磷塞抗性的雜草也劇增。因此,也出現轉換開發具其他除草劑 (草銨膦=氨,2,4-D等) 抗性的產品的企業。

本報告提供全球各國的基因改造農作物 (GMC) 栽培用農地所使用的除草劑 (嘉磷塞、草銨膦=氨、2,4-D、Dicamba) 的市場相關分析、GMC的種植情形與趨勢,及各產品的供需趨勢、2家主要企業的詳細資訊、長期市場趨勢預測等相關調查與考察。

摘要整理

第1章 基因改造農作物 (GMC) 產業概要

  • 全球各國的GMC的種植情形
  • 主要的生物科技企業 (Monsanto,Syngenta)
  • GMC栽培農地用所使用的主要農藥的種類

第2章 全球性供需趨勢 (過去2年半):GMC農地用的主要除草劑

  • 供給情形
    • 主要農藥的特性比較
    • 主要農藥的全球生產量
      • 嘉磷塞
      • Dicamba
      • 草銨膦=氨
      • 2,4-D
    • 各農藥市場上的前5名企業公司 (基本資料、主要商品結構、生產技術)
      • 嘉磷塞
      • Dicamba
      • 草銨膦=氨
      • 2,4-D
  • 全球市場的消費情形
    • GMC/傳統作物的市場佔有率
    • 各國分析 (美國、巴西、阿根廷)

第3章 全球的需求的預測 (今後6年份):4種GMC農地用主要除草劑/其他農藥 (含巴拉刈(Paraquat))

  • 基因改造農作物 (GMC)
    • 法規、政策
    • 需求趨勢
  • GMC農地用的主要/其他除草劑 (巴拉刈(Paraquat))
  • 產品替代的可能性 (主要4種產品及其他除草劑 (包含巴拉刈(Paraquat)) 的情況)

圖表一覽

目錄

This report mainly analyses the key herbicides applied on GM crops including glyphosate, glufosinate-ammonium, 2,4-D and dicamba from the aspects of supply and consumption. It also introduces the historical development of GM crops in the world, and figure out the future development trend of GM crops and then the future trends of key herbicides applied on GM crops.

From the report, you can

  • Understand the underlying trends driving change of the global GMC (genetically modified crops);
  • Gain insight into the key herbicides applied on GMC from the aspects of supply and consumption;
  • Get more information of the major biotechnology players including Monsanto and Syngenta;
  • Use our long-term forecasts on GMcs and key herbicides applied to adjust your strategy.

The fast promotion of Roundup Ready (glyphosate tolerance) crops in the world has made glyphosate he world's biggest selling herbicide, in terms of both sales volume and sales value. However, with the rapid adoption of glyphosate tolerance crops and the corresponding increase in glyphosate use, the evoluation of glyphosate-resistant weed population has rapidly escalated. Some biotech companies started to development GMC resistant to other herbicides such as glufosinate-ammonium dicamba and 2,4-D.

Then how the development trend of glyphosate tolerance crops and other herbicides crops will be from 2016-2020? Whether glyphosate tolerance crops will still keep the dominant role or be replaced by other herbicides crops? How will the GMC development influence the key herbicides applied?

To unfold the overall market of the world's key herbicides applied on GMC, CCM has done deep research from the following aspects:

  • Historical development of GMC (by crop, by country, by trait) in the world in 2005-2014;
  • Dynamics of key biotech players including Monsanto and Syngenta;
  • Supply of key herbicides including glyphosate, glufosinate-ammonium, dicamba and 2,4-D (capacity, output and key manufacturers) in the world in 2013-Q1 2015;
  • Consumption of the key herbicides in three countries including the US, Brazil and Argentina;
  • Forecast on GMC and the key herbicides applied till 2020.

Table of Contents

Executive summary

1 Overview of GMC industry

  • 1-1 Global planting of GMC
  • 1-2 Key biotech players (Monsanto, Syngenta)
  • 1-3 Key herbicides types applied on GMC field

2 Global supply & demand of key herbicides (glyphosate, dicamba, glufosinate, 2,4-D) applying on GMC field (2013-H1 2015)

  • 2-1 Supply situation
    • 2-1-1 Characteristics comparison of key herbicides
    • 2-1-2 Key herbicides global production
      • 2-1-2-1 Glyphosate
      • 2-1-2-2 Dicamba
      • 2-1-2-3 Glufosinate-ammonium
      • 2-1-2-4 2,4-D
    • 2-1-3 Top global 5 players of each key herbicide (basic info,main product portfolio, production technology)
      • 2-1-3-1 Glyphosate
      • 2-1-3-2 Dicamba
      • 2-1-3-3 Glufosinate-ammonium
      • 2-1-3-4 2,4-D
  • 2-2 Global consumption situation
    • 2-2-1 Share of GMC and traditional crops
    • 2-2-2 By key countries (the US, Brazil, Argentina)
      • 2-2-2-1 The US
      • 2-2-2-2 Brazil
      • 2-2-2-3 Argentina

3 Global forecast on four key&other herbicides (including paraquat) on GMC field for 2015-2020

  • 3-1 GM crops
    • 3-1-1 Regulations & policies
    • 3-1-2 Development trend
  • 3-2 Key&other herbicides (including paraquat) on GMC field
  • 3-3 Substitutes possibility (substitutes possibility among four key herbicides and with other herbicides including paraquat)

List of tables:

  • Table 1.1-1 GMC in the world by crop, 2005-2014, million hectare
  • Table 1.1-2 GMC in the world by country, 2005-2014, million hectare
  • Table 1.1-3 GMC in the world by trait, 2005-2014, million hectare
  • Table 1.2-1 General corporation information of Monsanto Co. and Syngenta AG
  • Table 1.2-2 Major operation situation of Monsanto Co., 2010-2014, million USD
  • Table 1.2-3 Major operation situation of Syngenta AG, 2010-2014, million USD
  • Table 1.3-1 Brief introduction of key herbicides
  • Table 2.1.1-1 Characteristics comparison of key herbicides
  • Table 2.1.2.1-1 Glyphosate technical producers in the world, 2013-H1 2015
  • Table 2.1.2.1-2 Glyphosate technical producers in China, 2013-H1 2015
  • Table 2.1.2.2-1 Capacity and output of major dicamba producers in the world, as of H1 2015
  • Table 2.1.2.2-2 Major producers and their production of dicamba in China, 2010-H1 2015
  • Table 2.1.2.3-1 Glufosinate-ammonium technical producers in the world, 2013-H1 2015
  • Table 2.1.2.3-2 Glufosinate-ammonium technical producers in China, 2013-H1 2015
  • Table 2.1.2.4-1 2,4-D technical producers in the world, 2013-H1 2015
  • Table 2.1.2.4-2 2,4-D technical producers in China, 2013-H1 2015
  • Table 2.2.2.1-1 Agricultural use of glyphosate (converted to 95% technical) in the US, 2013-H1 2015, tonne
  • Table 2.2.2.1-2 Agricultural use of 2,4-D (converted to 95% technical) in the US, 2013-H1 2015, tonne
  • Table 2.2.2.1-3 Agricultural use of paraquat (converted to 42% TK) in the US, 2013-H1 2015, tonne
  • Table 2.2.2.1-4 Agricultural use of dicamba (converted to 98% technical) in the US, 2012-H1 2015, tonne
  • Table 2.2.2.1-5 Agricultural use of glufosinate-ammonium (converted to 95% technical) in the US, 2013-H1 2015, tonne
  • Table 2.2.2.2-1 Agricultural use of glyphosate (converted to 95% technical) in Brazil, 2013-H1 2015, tonne
  • Table 2.2.2.2-2 Agricultural use of paraquat (converted to 42% TK) in Brazil, 2013-H1 2015, tonne
  • Table 2.2.2.2-3 Agricultural use of 2,4-D (converted to 95% technical) in Brazil, 2013-H1 2015, tonne
  • Table 2.2.2.3-1 Agricultural use of glyphosate (converted to 95% technical) in Argentina, 2013-H1 2015, tonne
  • Table 2.2.2.3-2 Agricultural use of paraquat (converted to 42% TK) in Argentina, 2013-H1 2015, tonne
  • Table 2.2.2.3-3 Agricultural use of 2,4-D (converted to 95% technical) in Argentina, 2013-H1 2015, tonne
  • Table 3.1.1-1 Global genetically modified biology management system and related regulations&policies
  • Table 3.1.1-2 Regulations & policies in North America
  • Table 3.1.1-3 Regulations & policies in Latin America
  • Table 3.1.1-4 Regulations & policies in Asia
  • Table 3.1.1-5 Regulations & policies in Oceania
  • Table 3.1.1-6 Regulations & policies in Europe
  • Table 3.1.1-7 Regulations & policies in Africa
  • Table 3.3-1 Substitutes possibility analysis

List of figures:

  • Figure 1.1-1 Global planting of GMC,2005-2014
  • Figure 2.1.2.1-1 Capacity and output of glyphosate technical (converted to 95%) in the world, 2013-H1 2015
  • Figure 2.1.2.2-1 Global market share of major dicamba producers by output, 2014
  • Figure 2.1.2.2-2 Market share of dicamba technical producers in China by output value, 2014
  • Figure 2.1.2.2-3 Capacity and output of dicamba technical in China, 2008-H1 2015
  • Figure 2.1.2.3-1 Capacity and output of glufosinate-ammonium technical (converted to 95%) in the world, 2013-H1 2015
  • Figure 2.1.2.4-1 Capacity and output of 2,4-D technical (converted to 95%) in the world, 2013-H1 2015
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