How hi tech vertical farming uses no soil and 95% less water

How hi tech vertical farming uses no soil and 95% less water

Vertical Farming: A New Approach to Agriculture

Introduction to Vertical Farming

  • The video introduces vertical farming as a unique and relatively new technique for growing crops, distinct from traditional farming methods.
  • It highlights the urgency of addressing food production challenges due to an expected population increase of 2 billion by 2050, exacerbated by urbanization and loss of arable land.

Current State of Arable Land

  • Over the past 40 years, scientists report that one-third of Earth's arable land has been lost, emphasizing the need for innovative agricultural solutions.
  • The market for vertical farms, referred to as "plant factories" in Asia, was valued at $403 million in 2013 with projections reaching $1.97 billion by 2020.

How Vertical Farming Works

  • Vertical farming involves growing produce in vertically stacked layers, utilizing skyscraper-like designs and precision agriculture methods to maximize space.
  • Three primary soil-free systems are used: hydroponics (nutrient solutions), aeroponics (air or mist environment), and aquaponics (integrating fish and plants).

Soil-Free Systems Explained

  1. Hydroponics:
  • Predominantly used system where plants grow in nutrient-rich solutions without soil.
  1. Aeroponics:
  • Developed by NASA; it uses air or mist environments with minimal water usage—up to 95% less than hydroponics.
  1. Aquaponics:
  • Combines fish cultivation with plant growth; fish waste provides nutrients while plants filter water for fish.

Key Components of Vertical Farming

  • Four critical areas define how vertical farming operates: physical layout, lighting, growing medium, and sustainability features.
  • Physical layouts aim for maximum yield per square meter through stacked layers; optimal lighting is achieved using both natural and artificial sources.

Sustainability Features

  • Vertical farms utilize non-soil mediums like peat moss or coconut husks while employing various sustainability practices that significantly reduce water usage—by up to 95%.

Advantages of Vertical Farming

  • Preparation for Future Needs:
  • With urban populations projected to rise significantly by 2050, vertical farming could play a crucial role in meeting future food demands.
  • Increased Crop Production:
  • One acre indoors can yield equivalent production to 4–6 acres outdoors; a multi-story building can potentially produce outputs comparable to thousands of acres of traditional farmland.
  • Water Efficiency:
  • Uses significantly less water compared to conventional methods—70–95% reduction possible.
  • Weather Resilience:
  • Indoor farms are insulated from adverse weather conditions such as floods or droughts that affect outdoor crops.
  • Organic Crop Production:
  • Controlled environments allow for pesticide-free organic crop growth due to the absence of chemical pesticides.

Human and Environmentally Friendly Aspects of Vertical Farming

Benefits of Indoor Vertical Farming

  • Indoor vertical farming reduces occupational hazards for farmers by eliminating exposure to heavy machinery, diseases like malaria, and harmful chemicals.
  • This method is beneficial for biodiversity as it does not disturb wildlife or natural habitats in inland areas.

Challenges Facing Vertical Farming

Economic Viability Concerns

  • The financial feasibility of vertical farming remains uncertain due to high initial costs associated with building infrastructure and operational expenses.
  • For instance, constructing a 60-hectare vertical farm can exceed $100 million, making urban locations financially challenging due to expensive real estate.

Labor and Pollination Issues

  • Vertical farms require manual pollination since they operate in controlled environments without insects, leading to increased labor intensity and costs.
  • Labor costs are elevated in urban centers where wages are higher; however, automation may reduce the need for workers over time.

Technological Dependencies in Vertical Farming

Risks Associated with Technology Reliance

  • Vertical farming heavily relies on technology for essential functions such as lighting, temperature control, and humidity management.
  • A power outage lasting just one day can result in significant financial losses for a vertical farm.

Crop Selection Strategies for Success

Key Crop Choices

  • Selecting the right crops is crucial for the success of vertical farms; profitable options include lettuce, kale, chard, basil, chives, and mint.
  • Some farmers have also successfully grown tomatoes and strawberries. The industry is still evolving as entrepreneurs seek effective business models.
Video description

Vertical farming can be done more efficiently with no soil and about 95% less water. Sustainability engaged organic farming can be done more efficiently in this technique. Farmers can use this technique of sustainable agriculture only after gathering sufficient information regarding this topic. This video is dealing with the main basic questions on this topic. How vertical farming works? The advantages and disadvantages of this technique? What kind of crops can be grown on vertical farms? What is Hydroponic farming? What is Aquaponic farming? What is Aeroponic farming? Urban vertical farming is one of the fastest growing trends in food production. One study found that the market for "plant factories," what vertical farms are known as in Asia, was about $403 million in 2013 and had the potential to reach $1.97 billion by 2020. Though this includes sales of materials like LED lights and hydroponic pieces, it still speaks to the insatiable growth of the industry. Vertical farming is the practice of growing produce in vertically stacked layers. Vertical farms attempt to produce food in challenging environments, like where arable land is rare or unavailable. The method helps mountainside towns, deserts and cities grow different types of fruits and vegetables by using skyscraper-like designs and precision agriculture methods. Vertical farms come in different shapes and sizes, from simple two-level or wall-mounted systems to large warehouses several stories tall. But all vertical farms use one of three soil-free systems for providing nutrients to plants. which are hydroponic, aeroponic, or aquaponic. 1. Hydroponics: The predominant growing system used in vertical farms, hydroponics involves growing plants in nutrient solutions that are free of soil. The plant roots are submerged in the nutrient solution, which is frequently monitored and circulated to ensure that the correct chemical composition is maintained. 2. Aeroponics: NASA is responsible for developing this innovative indoor growing technique. In the 1990s, NASA was interested in finding efficient ways to grow plants in space and coined the term aeroponics, defined as “growing plants in an air or mist environment with no soil and very little water.”Aeroponics systems are still an anomaly in the vertical farming world, but they are attracting significant interest. An aeroponic system is by far the most efficient plant-growing system for vertical farms, using up to 95% less water than even the most efficient hydroponic systems. Plants grown in these aeroponic systems have also been shown to uptake more minerals and vitamins, making the plants healthier and potentially more nutritious. 3. Aquaponics: An aquaponic system takes the hydroponic system one step further, combining plants and fish in the same ecosystem. Fish are grown in indoor ponds, producing nutrient-rich waste that is used as a feed source for the plants in the vertical farm. The plants, in turn, filter and purify the wastewater, which is recycled to the fish ponds. There are four critical areas in understanding how vertical farming works: 1. Physical layout, 2. Lighting, 3. Growing medium, and 4. Sustainability features.