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Japan Vertical Farming Market Overview, 2027

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    Report

  • 58 Pages
  • October 2022
  • Region: Japan
  • Bonafide Research
  • ID: 5671625
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The concept of vertical farming was presented by Professor Dickson Despommier in 1999 to utilise fewer areas of land to produce food in cities. He had a vision to grow fresh foods for urbanites at a faster pace and at comparatively low costs. As a result of this, vertical farming evolved as vertically stacked layers of food were produced. It looks like a tower-like structure, which uses a combination of natural and artificial lights to maintain a perfect environment for the plants. Soil is replaced by aeroponics, hydroponics, or aquaponics as a growing medium. It has become a sustainable way of farming, requiring nearly 90% less water than traditional farming. Vertical farming is a boon to decreasing arable land and rapid urbanisation. With innovation and technology advancements, various new methods are applied in vertical farming to increase quality and produce. Vertical farming does not have to face natural or severe climatic changes or natural disasters as these are done indoors and not in open spaces. Vertical farming has come to the aid of the world's ever-increasing population by alleviating food shortages.

According to this report titled Japan Vertical Farming Market Overview, 2027, the vertical farming market in Japan is expected to grow rapidly over the forecast period. The United States is the leading country in the vertical farming market globally. Hydroponics is the most common growth mechanism adopted as it does not require soil and is secured against pests, insects and other plant diseases. On the other hand, over the future years, the aeroponics growth mechanism is projected to be used more as water is replaced by mist and does not require containers for growing. The plant is tied up to a support and the roots are sprayed with nutrient solutions. Also, aeroponics requires less space, less water, and no soil. It is the most sought-after method that is increasingly being adopted.

Shipping container based vertical farming is projected to be rapidly increasing over the forecast period, especially in contrast to the declining farmlands and the time and cost of transporting the fresh produce to reach the final consumer. Shipping container vertical farming is decentralising the food eco-system. The farming takes place in containers and requires less water, which overcomes the draught prone land areas. Since the size uniformity is maintained in the container, it can be easily transported anywhere in the world. It is a versatile tool that can be placed anywhere; one above the other, rooftop, backyard, parking lot, or alleyway. This way of farming is agnostic to weather, and any crop can be grown at any time of the year and stay protected from the harsh external weather conditions. Additionally, the automation saves manual labour work and controls the plant's nutrition and hydration levels automatically. Container-based vertical farming is the most cost-effective alternative as compared to other indoor farming techniques like greenhouse farming or warehouse farming. It utilises every square inch of the container to produce crops and can host up to 13,000 plants at the same time.

Vertical farming is an advantageous form of farming as it holds a promising future for the growing populace. It requires 80% less water, which is also recycled and reused. It is free from any form of pesticide and has no dependency on the natural environment. Since it is located in urban areas in the interior, the fresh produce reaches the consumer quickly without any hassle. These are a better replacement for cold storage logistics. It saves on transportation fuel costs and reduces spoilage, which affects the final consumer price. Also, the seasonal crops can be grown all year round. However, like any other industry, vertical farming has its own drawbacks, like initial capital requirements being very high and the cost of erecting structures with automation. This again needs to be monitored constantly and demands technical know-how. Additionally, remote control systems, automated racking, programmable LED lighting and climate control systems are required in place to successfully carry out vertical farming. The major restraint is the non-availability of skilled manpower.

Nano-climate control technology is used to monitor the growth of plants as they push the boundaries of the climate. It is used to regulate and monitor the lighting, humidity, temperature, and nutrient levels to enhance the produce and reduce the costs. Almost 25% of energy costs can be controlled with the use of climate control facilities. It helps with targeted cooling for individual rows or plants, creating a nano-climate zone. Nanoclimate control comes to the rescue. It creates slurry piping for optimum growth of the individual plants, thereby decreasing overall costs of operation.

Considered in this report

  • Geography: Japan
  • Historic Year: 2016
  • Base year: 2021
  • Estimated year: 2022
  • Forecast year: 2027

Aspects covered in this report

  • Japan Vertical Farming Market with its value and forecast along with its segments
  • Application wise vertical farming distribution
  • Various drivers and challenges
  • On-going trends and developments
  • Top profiled companies
  • Strategic recommendation

Based on Growth Mechanism:

  • Hydroponics
  • Aeroponics
  • Aquaponics

Based on structure type:

  • Building based-vertical farming
  • Shipping based-vertical farming

Based on hydroponics components:

  • Lighting
  • Climate Control (HVAC)
  • Sensors
  • Other Hydroponic Components

Intended audience

This report can be useful to industry consultants, manufacturers, suppliers, associations & organizations related to agricultural industry, food & beverage industry, government bodies and other stakeholders to align their market-centric strategies. In addition to marketing & presentations, it will also increase competitive knowledge about the industry.

Table of Contents

1. Executive Summary
2. Introduction
2.1. Market Definition
2.2. Market Scope & Segmentation
2.3. Research Methodology
3. Japan Macro Economic Indicators
4. Japan Vertical Farming Market Category Analysis
4.1. Key findings
4.2. Market Drivers
4.3. Market Restraints
4.4. Opportunities
4.5. Policies & Certification
4.6. Value Chain Analysis
4.7. Key Developments - 2021
5. Japan Vertical Farming Market Trends
6. Japan Vertical Farming Market Overview
6.1. Market Size By Value
6.2. Market Share
6.2.1. By Growth Mechanism
6.2.2. By Structure
6.2.3. By Component
7. Japan Vertical Farming Market Segmentations
7.1. Japan Vertical Farming Market, By Growth Mechanism
7.1.1. Japan Vertical Farming Market Size, By Hydroponics, 2016 - 2027F
7.1.2. Japan Vertical Farming Market Size, By Aeroponics, 2016 - 2027F
7.1.3. Japan Vertical Farming Market Size, By Aquaponics, 2016 - 2027F
7.2. Japan Vertical Farming Market, By Structure
7.2.1. Japan Vertical Farming Market Size, By Building-based vertical farms, 2016 - 2027F
7.2.2. Japan Vertical Farming Market Size, By Shipping Container-based vertical farms, 2016 - 2027F
7.3. Japan Vertical Farming Market, By Component
7.3.1. Japan Vertical Farming Market Size, By Lighting, 2016 - 2027F
7.3.2. Japan Vertical Farming Market Size, By Climate Control (HVAC), 2016 - 2027F
7.3.3. Japan Vertical Farming Market Size, By Sensors, 2016 - 2027F
7.3.4. Japan Vertical Farming Market Size, By Other hydroponics components, 2016 - 2027F
8. Japan Vertical Farming Market Opportunity Assessment
8.1. By Growth Mechanism, 2022F to 2027F
8.2. By Structure, 2022F to 2027F
8.3. By Component, 2022F to 2027F
9. Competitive Landscape
9.1. Porter's Five Forces
9.2. Company Profiles
10. Strategic Recommendations11. Disclaimer
List of Figure
Figure 1: Japan Dietary Supplements Market Size By Value 2016 to 2027F (In JapanD million)
Figure 2: Japan Vertical Farming Market Share By Growth Mechanism Type (2016, 2021 & 2027F)
Figure 3: Japan Vertical Farming Market Share By Structure Type (2016, 2021 & 2027F)
Figure 4: Japan Vertical Farming Market Share By Component (2016, 2021 & 2027F)
Figure 5: Market Attractiveness Index, By Growth Mechanism
Figure 6: Market Attractiveness Index, By Structure
Figure 7: Market Attractiveness Index, By Component
Figure-8: Porter's Five Forces Meter of Vertical Farming In Japan
List of Table
Table 1: Japan Vertical Farming Market Size of Hydroponics (2016 to 2027F) (in JapanD Million)
Table 2: Japan Vertical Farming Market Size of Aeroponics (2016 to 2027F) (in JapanD Million)
Table 3: Japan Vertical Farming Market Size of Aquaponics (2016 to 2027F) (in JapanD Million)
Table 4: Japan Vertical Farming Market Size of Building-based vertical farms (2016 to 2027F) (in JapanD Million)
Table 5: Japan Vertical Farming Market Size of Shipping Container-based vertical farms (2016 to 2027F) (in JapanD Million)
Table 6: Japan Vertical Farming Market Size of By Lighting (2016 to 2027F) (in JapanD Million)
Table 7: Japan Vertical Farming Market Size of Climate Control (HVAC) (2016 to 2027F) (in JapanD Million)