Global Blockchain in Agriculture and Food Market: Focus on Stakeholders, Regulations, Application (Supply Chain Tracking, Finance Management, Data Management, and Land and Property Ownership) and Regional Adoption - Analysis & Forecast 2018-2028

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Since the early 2000s, the global agricultural industry has witnessed a massive transformation owing to the increasing demand for sustainable farming practices. Rising global population and high-income growth in urban population have resulted in growing concerns of food security across the world. Various agricultural start-ups and technology innovators are developing numerous sustainable farming systems. One of the most disruptive technologies in the field of smart agriculture has been the digitization of supply chain. Since 2013, agri-food industry’s interest in blockchain has rapidly evolved with multiplying pilot projects and companies dedicated to the swift development of technology. The advantages of blockchain technology for agriculture widely range from farmers to retailers to traders and to food companies. Eminent technology companies are striking collaborations with global logistics firms, food producers and retailers to develop effective applications of blockchain in agriculture and food sector to ensure improved data management, reduced transaction costs, augmented logistics, and robust food safety and traceability protocols.

The market research study offers a wide perspective of the different types of applications pertaining to blockchain in agriculture and food and analyzes its impact on the farming sector by providing critical insights into the direction of its future expansion. The study provides a detailed analysis of the market ecosystem, supply chain and regional growth for blockchain in agriculture and food technologies. The research is based on extensive primary interviews (in-house experts, industry leaders, and market players) and secondary research (a host of paid and unpaid databases), along with the analytical tools that have been used to build the forecast and the predictive models.

This study was designed to answer some of the most crucial questions about the blockchain in agriculture and food market:

• What is the global blockchain in agriculture & food market size in terms of revenue from 2017-2028 along with the growth rate during the forecast period 2018-2028?
• How will the year-on-year growth differ across different phases of growth during the forecast period 2018-2028?
• What is the revenue generated of blockchain solutions for different applications in agriculture and food industry including supply chain tracking, finance management, data management, land and property ownership, and others from 2017-2028 and growth rate during the forecast period of 2018-2028?
• What is the blockchain in agriculture and food market size for different regions across the world including North America, Europe, Asia-Pacific, and Rest-of-the-World?
• What is the current scenario of the regulatory landscape of global blockchain in agriculture and food market and how will it shape up in the next 10 years?
• What are the key global and regional trends and opportunities in the market pertaining to the blockchain technology?
• What are the different use-cases of blockchain in agriculture and food industry?
• How attractive is the market for different stakeholders present in the industry by analyzing the futuristic scenario of blockchain technology?
• What are the major driving forces that tend to increase the demand for blockchain in global agriculture and food industry during the forecast period?
• What are the major challenges inhibiting the growth of the global blockchain in agriculture & food market?
• How are the consortiums and associations impacting the global blockchain in agriculture and food market?
• What is the competitive strength of the key players in the global blockchain in agriculture & food market by analyzing their recent developments, product offerings, and regional presence?
• How has been the funding landscape in global blockchain in agriculture & food market?

The report is a compilation of various segmentations including market breakdown by application and region. The report highlights the key driving and restraining forces for this market as well as the market opportunities in different application segments such as supply chain tracking, financial management, data management, and land and property ownership, among others. The report also outlines the ecosystem of blockchain in agriculture and food market and provides a robust analysis of the key stakeholders across the supply chain. In the extensive primary research process undertaken for this study, the primary sources further include industry experts and key executives from prominent companies and organizations in the blockchain in agriculture and food industry.

Moreover, the report consists of a comprehensive analysis of blockchain in agriculture and food market for different geographical regions. The blockchain in agriculture and food market holds a prominent share in various countries of North America, Europe, Asia-Pacific (APAC) and Rest-of-the-World (RoW). Each geographical region analysis details individual driving and restraining forces acting in the market in addition to the key players from that particular region.

LIST OF TABLES

Table 1.1 Difference Between Proof of Work and Proof of Stake Validation Techniques
Table 2.1 Food Recall Types
Table 2.2 Key Opportunities for Stakeholders in Blockchain in Agriculture and Food Market
Table 3.1 Key Partnership and Collaboration(Jan 2015–Jun 2018)
Table 3.2 Key Product Launches (Jan 2015-Jun 2018)
Table 3.3 Key Fundings and Contract (Jan 2015-Jun 2018)
Table 3.4 Other Key Strategies and Developments (Jan 2015-Jun 2018)
Table 4.1 Stakeholders Analysis Matrix – Blockchain in Agriculture and Food
Table 6.1 Global Blockchain in Agriculture and Food Market (by Application), $Million ,2017-2028
Table 6.2 Blockchain Products for Payments in Agriculture
Table 6.3 Blockchain Products for Product Provenance Data in Agriculture
Table 7.1 Global Blockchain in Agriculture and Food Market by Region, 2017-2028

LIST OF FIGURES

Figure 1 Concerns in Global Agriculture & Food System
Figure 2 Drivers and Restraints-Global Blockchain in Agriculture and Food Market
Figure 3 Global Blockchain in Agriculture and Food Market Snapshot
Figure 4 Global Blockchain in Agriculture and Food Market (by Application), 2018-2028
Figure 5 Global Blockchain in Agriculture and Food Market (by Region), 2018-2028
Figure 1.1 The Blockchain Structure
Figure 1.2 Public Blockchain
Figure 1.3 Private Blockchain
Figure 1.4 Key Issues in Agriculture and Food Industry to be Solved by Blockchain
Figure 2.1 Market Dynamics
Figure 2.2 Impact Analysis of Drivers
Figure 2.3 Key Factors Addressed by Blockchain Technology for a Reliable Supply Chain
Figure 2.4 Food Industry Losses: Statistics
Figure 2.5 Strategic Control Points for Blockchain Technology in Food Value Chain
Figure 2.6 Blockchain Technology: Improving Financial Aspects of Agri-Food Sector
Figure 2.7 Impact Analysis of Restraints
Figure 3.1 Key Strategies and Developments (Jan 2015-Jun 2018)
Figure 4.1 Some Key Members of Ethereum Enterprise Alliance
Figure 4.2 Some Key Members of Food Safety Alliance for China
Figure 4.3 Some Key Members of Food Trust
Figure 4.4 Some Key Members of Food Trust Framework
Figure 4.5 Some Key Members of Hyperledger Project
Figure 4.6 Some Key Members of Sequencing the Food Supply Chain Consortium
Figure 4.7 Some Key Members of Trusted IoT Alliance
Figure 4.8 Effects of Regulations on the Blockchain Market
Figure 4.9 Regulatory Landscape in North America
Figure 4.10 Regulatory Landscape in South America
Figure 4.11 Regulatory Landscape in Europe
Figure 4.12 Regulatory Landscape in Asia-Pacific
Figure 4.13 Regulatory Landscape in Rest-of-the-World
Figure 4.14 Stakeholders of Blockchain in Agriculture and Food Ecosystem
Figure 4.15 Advantages of Blockchain for Farmers
Figure 4.16 Blockchain for Food Processors
Figure 4.17 Blockchain as a Solution for Distributors
Figure 4.18 Blockchain as a Solution for Distributors
Figure 4.19 Commodity Trading Supply Chain with Blockchain
Figure 4.20 Use Cases of Blockchain in Agriculture and Food
Figure 4.21 Smart Contracts Execution Process
Figure 5.1 Key Historical Developments in Global Blockchain in Agriculture and Food Market
Figure 5.2 Global Blockchain in Agriculture and Food Market, 2017-2028
Figure 5.3 Global Blockchain in Agriculture and Food Market Growth Timeline
Figure 6.1 Blockchain Applications in Agriculture and Food
Figure 6.2 Supply Chain Tracking in Global Blockchain in Agriculture and Food Market, 2017-2028
Figure 6.3 Blockchain-Based Supply Chain Tracking in Agriculture
Figure 6.4 Types of Supply Chain Tracking Applications
Figure 6.5 Advantages of Blockchain in Procurement Traceability and Tracking
Figure 6.6 Features of Blockchain-Powered Supply Chain
Figure 6.7 Finance Management in Global Blockchain in Agriculture and Food Market, 2017-2028
Figure 6.8 Benefits of Blockchain in Agriculture and Food Finance
Figure 6.9 Types of Finance Management Applications
Figure 6.10 Blockchain for Crop Insurance
Figure 6.11 Data Management in Global Blockchain in Agriculture and Food Market, 2017-2028
Figure 6.12 Types of Data Management Applications
Figure 6.13 Importance of Record Keeping
Figure 6.14 Land and Property Ownership in Global Blockchain in Agriculture and Food Market, 2017-2028
Figure 6.15 Other Applications in Global Blockchain in Agriculture and Food Market, 2017-2028
Figure 7.1 Global Blockchain in Agriculture and Food Market Share and CAGR (by Region)
Figure 7.2 North America Blockchain in Agriculture and Food Market, 2017-2028
Figure 7.3 North America Blockchain in Agriculture and Food Adoption Scenario by Country
Figure 7.4 Europe Blockchain in Agriculture and Food Market, 2017-2028
Figure 7.5 Europe Blockchain in Agriculture and Food Adoption Scenario by Country
Figure 7.6 Asia-Pacific Blockchain in Agriculture and Food Market, 2017-2028
Figure 7.7 Asia-Pacific Blockchain in Agriculture and Food Adoption Scenario (by Country)
Figure 7.8 Rest-of-the-World Blockchain in Agriculture and Food Market, 2017-2028
Figure 7.9 RoW Blockchain in Agriculture and Food Adoption Scenario ( by Country)
Figure 9.1 AgriChain Pty Ltd.: SWOT Analysis
Figure 9.2 Ambrosus: SWOT Analysis
Figure 9.3 arc-net: SWOT Analysis
Figure 9.4 Bext360 : SWOT Analysis
Figure 9.5 Coin22 : SWOT Analysis
Figure 9.6 Filament: SWOT Analysis
Figure 9.7 Foodcoin Ecosystem: SWOT Analysis
Figure 9.8 Full Profile Pty. Ltd.: SWOT Analysis
Figure 9.9 IBM Corporation: Overall Financials, 2015-2017
Figure 9.10 IBM Corporation: Net Revenue by Business Segment, 2015-2017
Figure 9.11 IBM Corporation: Net Revenue by Regional Segment, 2015-2017
Figure 9.12 IBM Corporation: SWOT Analysis
Figure 9.13 Obook Holdings Inc.: SWOT Analysis
Figure 9.14 OriginTrail : SWOT Analysis
Figure 9.15 Pavocoin: SWOT Analysis
Figure 9.16 Project Provenance Ltd. : SWOT Analysis
Figure 9.17 Ripe Technology, Inc: SWOT Analysis
Figure 9.18 TE-Food International : SWOT Analysis
Figure 10.1 Global Blockchain in Agriculture and Food Market Scope
Figure 10.2 Report Design
Figure 10.3 Primary Interview Breakdown, by Company, Designation, and Region
Figure 10.4 Sources of Secondary Research
Figure 10.5 Data Triangulation
Figure 10.6 Top Down and Bottom Up Approach