市場調査レポート

作物保護における破壊的技術の10ヵ年予測 2025年

Ten-Year Forecast of Disruptive Technologies in Crop Protection to 2025

発行 Smithers Apex 商品コード 348639
出版日 ページ情報 英文 61 Tables, 9 Figures
納期: 即日から翌営業日
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本日の銀行送金レート: 1USD=102.18円で換算しております。
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作物保護における破壊的技術の10ヵ年予測 2025年 Ten-Year Forecast of Disruptive Technologies in Crop Protection to 2025
出版日: 2015年11月30日 ページ情報: 英文 61 Tables, 9 Figures
概要

世界の精密農業市場、農業用ロボットおよびドローン市場は、破壊的技術が稼働し始める結果、現在の45億米ドル規模から2025年には367億米ドルへ拡大すると予測されています

当レポートでは、作物保護に破壊的な変化をもたらすと見込まれる主要25技術について特定し、作物保護産業における主要動向・促進因子の詳細分析、および作物保護市場における技術開発の詳細な10ヵ年予測を提供しています。

第1章 エグゼクティブサマリー

第2章 イントロダクション・調査手法

第3章 作物保護の動向

  • 持続可能性
  • 食品安全性
  • 収穫量の向上
  • 農薬耐性
  • R&Dコスト
  • 代替物への移行

第4章 作物保護における破壊的技術

  • 市場発展予測
  • 産業構造
  • 破壊的技術のトップ25
    • 農業用無人航空機 (UAV)
    • ビッグデータ
    • ワイヤレスセンサーネットワーク
    • M2M通信
    • モノのインターネット (IoT)
    • 自律走行車
    • モバイル技術
    • 農業用ロボット
    • 精密散布
    • 可変装置
    • フラッキング
    • ハイスループット表現型検査
    • RNAi
    • CRISPR-CAS
    • 次世代シーケンシング
    • 土壌微生物技術
    • 地表点滴灌漑
    • 偽造防止技術
    • バーティカルファーミング (垂直農法)
    • エネルギーハーベスティング (環境発電)
    • 次世代バッテリー
    • 揮発性物質
    • 3Dプリント
    • 電熱雑草除去
    • 神経形態学的チップ

第5章 作物保護技術の予測

  • 技術移行予測:農業用無人航空機 (UAV)
  • 技術移行予測:ビッグデータ
  • 技術移行予測:ワイヤレスセンサーネットワーク
  • 技術移行予測:M2M通信
  • 技術移行予測:モノのインターネット (IoT)
  • 技術移行予測:自律走行車
  • 技術移行予測:モバイル技術
  • 技術移行予測:農業用ロボット
  • 技術移行予測:精密散布
  • 技術移行予測:可変装置
  • 技術移行予測:フラッキング
  • 技術移行予測:ハイスループット表現型検査
  • 技術移行予測:RNAi
  • 技術移行予測:CRISPR-CAS
  • 技術移行予測:次世代シーケンシング
  • 技術移行予測:土壌微生物技術
  • 技術移行予測:地表点滴灌漑
  • 技術移行予測:偽造防止技術
  • 技術移行予測:バーティカルファーミング (垂直農法)
  • 技術移行予測:エネルギーハーベスティング (環境発電)
  • 技術移行予測:次世代バッテリー
  • 技術移行予測:揮発性物質
  • 技術移行予測:3Dプリント
  • 技術移行予測:電熱雑草除去
  • 技術移行予測:神経形態学的チップ

第6章 規制・法律の状況

図表

目次

The global market for precision agriculture, agricultural robots and drones is projected to rise from $4.5 billion to $36.7 billion in 2025 as a result of disruptive technologies coming online; and the market for seeds and traits is also due to experience considerable growth, thanks to advances in genetic engineering.

Ten-Year Forecast of Disruptive Technologies in Crop Protection to 2025 identifies the top 25 technologies that will bring about disruptive changes in crop protection. The crop protection market has traditionally been dominated by seed and agrochemical firms - but as disruptive technologies emerge they bring a different configuration of value propositions, to create new business opportunities for both existing and non-traditional market players.

Description

Our exclusive content:

  • In-depth analysis of key trends and driversfor thecrop protection industry
  • Detailed ten-year forecast on technology developments in the crop protection market
  • 70 tables and figures of exclusive data based on primary research

What methodology is used?

Ten-Year Forecast of Disruptive Technologies in Crop Protection to 2025 is the result of an exhaustive primary research programme incorporating interviews with a panel of leading crop protection technology experts. The expert responses were tabulated and ranked to form the overall top 25 disruptive technologies. Secondary research was carried out to be able to provide a more detailed description of each item on the top 25 list. In addition, the most recent available data was consulted for worldwide crop protection markets. The report provides a unique depth of information and analysis.

What will you discover?

  • The top 25 disruptive technologies set to cause changes in the crop protection industry through the displacement of established technologies and practices over the next ten years.
  • New business opportunities for both existing and new, non-traditional market players.
  • Insight into the key players in the disruptive technologies for crop protection market.

Who should buy this report?

  • Raw material suppliers
  • Formulators and manufactures
  • Equipment and technology suppliers
  • Sellers and distributors
  • Agricultural/Horticultural firms
  • Industry consultants and analysts

Table of Contents

1. Executive Summary

2. Introduction and Methodology

  • Report Objective
  • Report Scope
  • Methodology
  • Definitions & Abbreviations

3. Crop Protection Trends

  • Sustainability
  • Food Security
  • Yield Improvement
  • Pesticide Resistance
  • R&D Costs
  • Move to Alternatives

4. Disruptive Technologies in Crop Protection

  • Market Development Forecasts, 2015-2025
    • Pesticides
    • Seeds & Traits
    • Precision Agriculture
    • Machinery
    • Agricultural UAVs
    • Agricultural Robots
  • Industry Structure
    • Crop Protection Value Chain
    • Key Players, 2015-2025
  • Top 25 Disruptive Technologies
    • Disruptive Technology Scorecard: Agricultural UAVS
    • Disruptive Technology Scorecard: Big Data
    • Disruptive Technology Scorecard: Wireless Sensor Networks
    • Disruptive Technology Scorecard: M2M Communication
    • Disruptive Technology Scorecard: Internet-of-Things
    • Disruptive Technology Scorecard: Autonomous Vehicles
    • Disruptive Technology Scorecard: Mobile Technology
    • Disruptive Technology Scorecard: Agricultural Robots
    • Disruptive Technology Scorecard: Precision Spraying
    • Disruptive Technology Scorecard: Variable Rate Equipment
    • Disruptive Technology Scorecard: Fracking
    • Disruptive Technology Scorecard: High Throughput Phenotyping
    • Disruptive Technology Scorecard: RNAi
    • Disruptive Technology Scorecard: CRISPR-CAS
    • Disruptive Technology Scorecard: Next Generation Sequencing
    • Disruptive Technology Scorecard: Soil Microbe Technology
    • Disruptive Technology Scorecard: Surface Drip Irrigation
    • Disruptive Technology Scorecard: Anti-counterfeit Technologies
    • Disruptive Technology Scorecard: Vertical Farming
    • Disruptive Technology Scorecard: Energy Harvesting
    • Disruptive Technology Scorecard: Next Generation Batteries
    • Disruptive Technology Scorecard: Volatiles
    • Disruptive Technology Scorecard: 3D Printing
    • Disruptive Technology Scorecard: Electro-thermal Weed Killing
    • Disruptive Technology Scorecard: Neuromorphic Chips

5. Crop Protection Technology Forecasts

  • Technology Transition 2015-25: Agricultural UAVS
  • Technology Transition 2015-25: Big Data
  • Technology Transition 2015-25: Wireless Sensor Networks
  • Technology Transition 2015-25: M2M Communication
  • Technology Transition 2015-25: Internet-of-Things
  • Technology Transition 2015-25: Autonomous Vehicles
  • Technology Transition 2015-25: Mobile Technology
  • Technology Transition 2015-25: Agricultural Robots
  • Technology Transition 2015-25: Precision Spraying
  • Technology Transition 2015-25: Variable Rate Equipment
  • Technology Transition 2015-25: Fracking
  • Technology Transition 2015-25: High Throughput Phenotyping
  • Technology Transition 2015-25: RNAi
  • Technology Transition 2015-25: CRISPR-CAS
  • Technology Transition 2015-25: Next Generation Sequencing
  • Technology Transition 2015-25: Soil Microbe Technology
  • Technology Transition 2015-25: Surface Drip Irrigation
  • Technology Transition 2015-25: Anti-counterfeit Technologies
  • Technology Transition 2015-25: Vertical Farming
  • Technology Transition 2015-25: Energy Harvesting
  • Technology Transition 2015-25: Next Generation Batteries
  • Technology Transition 2015-25: Volatiles
  • Technology Transition 2015-25: 3D Printing
  • Technology Transition 2015-25: Electro-thermal Weed Killing
  • Technology Transition 2015-25: Neuromorphic Chips

6. Regulation and Legislative Landscape

Figures:

  • Crop losses to pests
  • Middle class moving Eastwards
  • Food consumption per person per day
  • Utilisation of World Crop Calories
  • Utilisation of Earth's Ice-free Land
  • Top 15 Resistant Species to Individual Active Herbicides
  • Market Development Forecasts, 2015-2025
  • Crop Protection Value Chain
  • Key Industry Players, 2015-2025

Tables:

  • Crop Protection Market: Key Trends, 2015-2025
  • Sustainability - drivers and impacts
  • Food security - drivers and impacts
  • Food Production Challenges to 2025
  • Yield improvement - drivers and impacts
  • Pesticide resistance - drivers and impacts
  • Top 10 resistant insect species
  • Cost of R&D - drivers and impacts
  • Move to alternatives - drivers and impacts
  • Biopesticide advantages and limitations
  • Top 25 Disruptive Technologies in Crop Protection 2015-2025
  • Disruptive Technology Scorecard: Agricultural UAVS
  • Disruptive Technology Scorecard: Big Data
  • Disruptive Technology Scorecard: Wireless Sensor Networks
  • Disruptive Technology Scorecard: M2M Communication
  • Disruptive Technology Scorecard: Internet-of-Things
  • Disruptive Technology Scorecard: Autonomous Vehicles
  • Disruptive Technology Scorecard: Mobile Technology
  • Disruptive Technology Scorecard: Agricultural Robots
  • Disruptive Technology Scorecard: Precision Spraying
  • Disruptive Technology Scorecard: Variable Rate Equipment
  • Disruptive Technology Scorecard: Fracking
  • Disruptive Technology Scorecard: High Throughput Phenotyping
  • Disruptive Technology Scorecard: RNAi
  • Disruptive Technology Scorecard: CRISPR-CAS
  • Disruptive Technology Scorecard: Next Generation Sequencing
  • Disruptive Technology Scorecard: Soil Microbe Technology
  • Disruptive Technology Scorecard: Surface Drip Irrigation
  • Disruptive Technology Scorecard: Anti-counterfeit Technologies
  • Disruptive Technology Scorecard: Vertical Farming
  • Disruptive Technology Scorecard: Energy Harvesting
  • Disruptive Technology Scorecard: Next Generation Batteries
  • Disruptive Technology Scorecard: Volatiles
  • Disruptive Technology Scorecard: 3D Printing
  • Disruptive Technology Scorecard: Electro-thermal Weed Killing
  • Disruptive Technology Scorecard: Neuromorphic Chips
  • Technology Transition 2015-25: Agricultural UAVS
  • Technology Transition 2015-25: Big Data
  • Technology Transition 2015-25: Wireless Sensor Networks
  • Technology Transition 2015-25: M2M Communication
  • Technology Transition 2015-25: Internet-of-Things
  • Technology Transition 2015-25: Autonomous Vehicles
  • Technology Transition 2015-25: Mobile Technology
  • Technology Transition 2015-25: Agricultural Robots
  • Technology Transition 2015-25: Precision Spraying
  • Technology Transition 2015-25: Variable Rate Equipment
  • Technology Transition 2015-25: Fracking
  • Technology Transition 2015-25: High Throughput Phenotyping
  • Technology Transition 2015-25: RNAi
  • Technology Transition 2015-25: CRISPR-CAS
  • Technology Transition 2015-25: Next Generation Sequencing
  • Technology Transition 2015-25: Soil Microbe Technology
  • Technology Transition 2015-25: Surface Drip Irrigation
  • Technology Transition 2015-25: Anti-counterfeit Technologies
  • Technology Transition 2015-25: Vertical Farming
  • Technology Transition 2015-25: Energy Harvesting
  • Technology Transition 2015-25: Next Generation Batteries
  • Technology Transition 2015-25: Volatiles
  • Technology Transition 2015-25: 3D Printing
  • Technology Transition 2015-25: Electro-thermal Weed Killing
  • Technology Transition 2015-25: Neuromorphic Chips
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