Indoor Farming Market Share, Rising Trends, Growth Drivers, Opportunities, Challenges, CAGR Status, Business Analysis and Future Outlook Till 2033: SPER Market Research

The practice of cultivating crops indoors without exposing them to the outside environment is commonly referred to as indoor farming. Vegetables, fruits, and herbs are the most widely cultivated indoor crops. Large-scale operations and compact spaces, such as basements, are both possible with indoor farms. Farming practices typically incorporate methods like hydroponics, where crops are nourished by artificial lighting. The yield from indoor farming technologies surpass traditional farming. A controlled environment inside the indoor farming complex creates an optimum growing conditions for the farmers to grow a crop from the seed till the harvesting stage arrives. In order to produce safer and healthier food, indoor farming technology refrains from employing any fungicides and all pesticides.

According to SPER Market Research, ‘Indoor Farming Technology Market Size- By Growing System, By Facility Type, By Component Type, By Crop Type - Regional Outlook, Competitive Strategies and Segment Forecast to 2033’ state that the Global Indoor Farming Technology Market is estimated to reach USD 48.08 billion by 2033 with a CAGR of 9.66%.

 The growing issue of a shortage of land for farming or food production, as a result of the world's population growing at an accelerated rate, is driving the development of indoor farming. Major advantages of indoor farming include improved crop growth, less water use, less reliance on outdoor temperatures or weather, labour cost savings, and improved energy conservation. These advantages are driving the global adoption of indoor farming practices, which is anticipated to fuel the growth of the indoor farming technology market. Modern agriculture has benefited from indoor vertical farming, which is gaining the interest of younger people. Technology for indoor farming makes it possible to maximize agricultural productivity and ecological sustainability due to shorter harvest times and better yields in less area.

Limited funding for agriculture-related businesses slows down research and development for indoor farming in public or private universities, which restricts the amount of data and information available. High set-up cost could be a restraining factor initially in indoor farming technology market. Since indoor farming equipment uses a lot of energy, farmers may find it difficult to pay for their high electricity bills. Furthermore, there is a need for higher public awareness and comprehension on the advantages of sustainable agriculture technologies and indoor farming. In addition, the sector lacks supervision and standards, which leads to variations in the safety and quality of products.

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The COVID-19 pandemic had a range of effects on the global indoor agricultural technology sector. The pandemic has hindered market expansion by causing labour shortages, supply chain interruptions, and a decline in consumer demand for non-essential commodities. However, the outbreak has highlighted the significance of resilient and sustainable food systems as well as food security, leading to increased investment in indoor farming technology. The epidemic has also prompted the development of automation and remote monitoring tools, which let farmers to oversee and manage their indoor crops from a distance. All things considered, the pandemic has brought opportunities as well as challenges to the worldwide indoor farming technology market.

 Indoor Farming Technology Market Key Players:

North America is the leading holder of share in Indoor Farming Technology Market. The need for indoor farming technology has been rising in this area as a result of the expanding involvement of international business lines in agricultural operations to satisfy crop producers' expectations to attain export-quality crops. Some of the key market players are Lumigrow, Signify Holding, Argus Control System, Everlight Electronics.

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Farming Technologies Market Future Outlook

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Grow Lights Market Will Reach USD 13,183 Million by 2030

As per a report by P&S Intelligence, the grow lights market will advance at 28% CAGR, to generate a value of USD 13,183 million, by 2030.

The growth in the industry is ascribed to the growing requirement for food as a result of the rising disposable income, increasing population, rapid urbanization, advancement of technologies in the agriculture sector, and the increasing preference for enhanced and new practices of farming.

The LED category is expected to dominate the grow lights market in the years to come. This is attributed to the increasing government programs to encourage the adoption of LED lights and drivers and the increasing demand for energy-efficient and affordable grow lights by consumers.

In the past few years, the retrofit category generated a larger revenue share in the industry, and it will remain larger in the years to come. This is because of the rising adoption of such lights in farming facilities due to their decreasing costs and the increasing number of new advanced farming facilities all over the world.

A key factor driving the industry is the necessity of more cost-effective grow light technologies in the cities. The expenditure on food production is high, and as a result, the requirement for economical food production is growing rapidly in urban areas.

Vertical farming is expected to observe the fastest growth in the years to come, growing at a rate of approximately 29.8%. This is attributed to the mounting requirement for herbs & food and the increasing number of such farms, mainly in developed countries, owing to the lack of space required to establish conventional farms.

In 2021, Europe generated the largest revenue share in the grow light industry, at approximately 33%, and it will remain the largest in the years to come. This is ascribed to the large consumer base and the substantial adoption of LED lights to grow plants inside commercial greenhouses in the region.

Developing nations, for example, India, South Korea, and China are the main buyers in the APAC grow light industry. This is credited to the rapid implementation of enhanced agricultural approaches, for instance, indoor horticulture, which resulted in a high horticulture light requirement in emerging nations.

Indoor Farming Technology Market overview by recent opportunities, growth size, regional analysis and forecasts to 2031

New York,Global Indoor Farming Technology Market report from Global Insight Services is the single authoritative source of intelligence on Indoor Farming Technology Market. The report will provide you with analysis of impact of latest market disruptions such as Russia-Ukraine war and Covid-19 on the market. Report provides qualitative analysis of the market using various frameworks such as Porters’ and PESTLE analysis. Report includes in-depth segmentation and market size data by categories, product types, applications, and geographies. Report also includes comprehensive analysis of key issues, trends and drivers, restraints and challenges, competitive landscape, as well as recent events such as M&A activities in the market.

Indoor farming technology is the application of modern agricultural techniques and equipment to grow crops indoors, in a controlled environment. This can be done in a variety of settings, including greenhouses, warehouses, and even shipping containers.Key Trends

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Key Trends

The main trends in indoor farming technology are automation, precision farming, and controlled environment agriculture (CEA).

Automation is being used more and more in indoor farming to help reduce labor costs and increase efficiency. Robotics is one area that is seeing a lot of growth in indoor farming, with many developing robots to help with tasks such as planting, thinning, and harvesting.

Precision farming is another key trend in indoor farming technology. This involves using sensors and other data-driven techniques to manage crops more effectively. For example, by monitoring temperature, humidity, and light levels, farmers can make sure that conditions are optimal for plant growth. This can help to improve yields and reduce wastage.

CEA is another important trend in indoor farming technology. This involves controlling the environment in which plants are grown, in order to optimize conditions for growth. For example, by using LED lighting, farmers can reduce energy costs and create the perfect light spectrum for plant growth.

Key Drivers

The key drivers of indoor farming technology market are the ever-increasing demand for food, the need for higher crop yields, and the dwindling land and water resources. The other drivers include the changing climatic conditions, the increasing population, and the need for better quality food.

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Market Segments

By Growing System

Hydroponics

Aeroponics

Aquaponics

Soil-based

Hybrid

By Facility Type

Glass or Poly Greenhouse

Indoor Vertical Farm

Container Farm

Indoor DWC System

By Component

Hardware

Software & Services

By Crop Type

Fruits & vegetables

Herbs & Microgreens

Flowers & Ornamentals

Others

Key Players

Signify Holding

Everlight Electronics

Argus Control Systems

LumiGrow

Netafim

Logiqs

Richel Group

Vertical Farm Systems

Key Players

Signify Holding

Everlight Electronics

Argus Control Systems

LumiGrow

Netafim

Logiqs

Richel Group

Vertical Farm Systems

General Hydroponics

Heliospectra AB

Philips Lighting

GreenPower Farm Systems

Heliospectra

Valoya

GrowGeneration

Hort Americas

LumiGrow

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The world around us (Draft 1)

Food: With soil degraded and outdoor farming impossible, agriculture has moved indoors. Diets consist mainly of bio-engineered crops, lab-grown proteins, and nutrient bars, with flavorless, pre-portioned meals providing only essential nutrients. Local markets are gone, and food distribution is strictly controlled to prevent shortages, as usable farmland no longer exists.

Water: Clean water is strictly rationed and dispensed from government kiosks via digital credits. Taps are obsolete; instead, homes have automated dispensers that release small, measured amounts based on individual water allowances

Housing: Housing might shift towards "stacked neighborhoods" where entire communities live in interconnected, multi-story pods suspended above the ground.

Education: Most learning takes place through online platforms, with students using personal devices lessons, discussions, and assignments. Physical classrooms still exist but are smaller and less frequent, focusing more on hands-on projects.

Social Equity: Social equity remains a challenge, with severe inequality due to resource distribution. Wealthier groups control access to essentials like clean water, healthcare, and quality housing, while marginalized communities face resource scarcity and greater exposure to environmental hazards.

Gender Equality: Gender equality has made progress in legal frameworks, but economic disparity hinders true equality. Remote work has enabled more flexibility, reducing traditional gender role constraints.

Work & Income: The concept of work from anywhere has transformed, but for the low-income workforce, it has taken a unique turn. While wealthier workers enjoy immersive VR offices and virtual collaborations, low-income workers often find themselves in microtask hubs, local centers where they perform quick, digital tasks for companies worldwide.

Energy / Electricity: Energy relies mostly on solar, wind, and nuclear fusion. Personal energy consumption is rationed, and cities operate on “smart grids” that regulate and allocate electricity. Renewable energy is widely accessible, but the high cost of advanced systems puts poorer areas at risk of frequent blackouts.

⁠Peace & Justice: International conflict has decreased due to mutual climate threats, but social unrest within nations is common, driven by resource scarcity and inequality. Police forces are replaced with AI surveillance in wealthier areas, while under-resourced communities experience higher rates of violence due to desperation and limited law enforcement.

Political Voice: Digital Democracy Pods would be virtual spaces where people engage in debates, voting, and decision-making, using AI to personalize political discussions and simulate outcomes. These pods would allow global participation, but the control of these platforms by tech giants or governments might limit true democratic influence, creating a paradox of more engagement but less real power.

Transportation: Transportation has become super efficient and eco-friendly, with personal cars being rare and mostly owned by wealthy people. Most people rely on public transport like fast underground trains, self-driving buses, and electric cable cars to get around the city. Short trips are handled by small, shared self-driving pods that adjust routes based on where people need to go.

Air Pollution: Air pollution is critical, with most people wearing personal air filters and indoor spaces having filtration systems. Wealthier regions are shielded with clean zones that filter air around residential areas, while low-income communities suffer severe pollution exposure and related health effects.

⁠Noise Pollution: Noise-canceling technology evolved into something truly unique sound manipulation. Instead of just silencing noise, cities use advanced sound waves to reprogram sound itself, turning unwanted noise into a neutral or even soothing sound.

Non-Human life: There will be sustainable, living architecture made from bio-engineered organisms like fungi or algae that grow and adapt to environmental conditions. These "living buildings" could generate their own energy, absorb CO2, and even filter water, providing an organic alternative to traditional construction. The structures might shift shape with weather patterns or grow over time, making cities more interconnected with nature and reducing the ecological footprint of urban development. Chemical pollution: Chemical pollution will likely be a severe global problem, with widespread contamination of air, water, and soil. Many ecosystems will be permanently damaged by toxins like heavy metals, pesticides, and industrial waste. While technologies may exist to monitor and address pollution, large-scale cleanup will be slow and costly. ⁠Water bodies & Supply: Freshwater bodies are contaminated and scarce, with desalination and recycling as primary water sources. Lakes and rivers have become unusable in many areas. Waste management: Waste management relies heavily on recycling with landfill space nearly depleted. Urban places have waste to energy plants that generate electricity, and zero-waste buildings could be the norm, where everything is designed for reuse. Land use & Streets & Public Spaces: Public spaces are limited to indoor environments, where artificial greenery is used to simulate outdoor areas. Parks are replaced with indoor “green bubbles” for filtered air and limited nature exposure. Ocean pollution: Oceans are heavily polluted, and most marine life has declined or vanished. Scientists have discovered a fascinating phenomenon: some species of algae have adapted to thrive in polluted ocean environments, creating glowing "bioluminescent reefs" in areas once devastated by pollution. These glowing algae have become a new form of marine life. Effects of climate change: Climate change has led to extreme weather events, frequent flooding, and coastal erosion. Temperatures have risen significantly, making outdoor activities dangerous in many regions. Wealthy communities have climate-controlled environments, while lower-income groups are vulnerable to extreme conditions Urban Agriculture & Greenification: Urban agriculture and greenification have evolved into a vital part of city life. Cities are filled with vertical farms, rooftop gardens, and hydroponic systems, growing everything from leafy greens to protein-rich algae. Gender & Sexuality, Diversity & Inclusion: People are more open to diverse identities, but personal freedoms are impacted by environmental constraints. While cultural acceptance of gender and sexuality diversity has advanced, social divides between pollution-protected and high-risk zones exacerbate inequality. True inclusivity remains limited to affluent societies, where diversity is welcomed within protective enclaves. Accessibility and Sustainability: Accessibility has improved in technology-rich zones, where sustainability is prioritized to an extreme due to the need to reduce waste. However, access to these advancements is limited to wealthier populations. Sustainable solutions are a costly privilege, with poorer areas bearing the brunt of pollution from outdated infrastructure. Sustainability has become a matter of survival rather than a shared social value.

The global indoor farming market size reached USD 22.3 Billion in 2024. IMARC Group expects the market to reach USD 47.2 Billion by 2033, exhibiting a growth rate (CAGR) of 8.63% during 2025-2033. The market is experiencing steady growth driven by rising preferences for sustainable and locally sourced food options, continuous technological advancements in indoor farming practices, and the widespread adoption of automation systems, including robotic arms and conveyor belts.

Hydroponics Farming in the USA: Revolutionizing Agriculture

In recent years, hydroponics farming has gained significant traction across the USA, offering an innovative solution to traditional agricultural practices. This method of growing plants without soil not only maximizes space but also conserves water and resources, making it a sustainable choice for the future. In this blog post, we will explore the benefits of hydroponics farming, its growth in the USA, various systems, challenges, and the future of this revolutionary agricultural method.

What is Hydroponics Farming?

Hydroponics is a method of growing plants in nutrient-rich water solutions instead of soil. The roots of the plants are suspended in a nutrient solution, allowing them to absorb the essential minerals and nutrients they need for growth. This system can be implemented in various settings, from small indoor gardens to large commercial farms.

Benefits of Hydroponics Farming

1. Water Efficiency

One of the most significant advantages of hydroponics farming in the USA is water conservation. Traditional farming methods can waste a considerable amount of water through evaporation and runoff. In contrast, hydroponic systems use up to 90% less water, as the water is recirculated and reused. This efficiency is particularly crucial in regions facing water scarcity.

2. Space Optimization

Hydroponics allows for vertical farming, where plants are grown in layers, maximizing the use of space. This method is ideal for urban areas where land is limited. By utilizing vertical space, hydroponics can produce significantly higher yields compared to traditional farming on the same footprint.

3. Faster Growth Rates

Plants grown in hydroponic systems typically grow faster than those in soil due to the controlled environment and direct access to nutrients. This accelerated growth can lead to more frequent harvests and increased productivity for farmers.

4. Reduced Pest and Disease Issues

Without soil, many common pests and diseases associated with traditional farming are minimized. This reduction leads to lower pesticide usage, resulting in healthier produce and a more environmentally friendly farming practice.

5. Year-Round Production

Hydroponics enables year-round cultivation, independent of seasonal weather conditions. This capability allows farmers to produce crops consistently and meet market demand throughout the year.

Growth of Hydroponics Farming in the USA

The hydroponics farming industry in the USA has seen significant growth in recent years. According to a report by Grand View Research, the global hydroponics market was valued at $8.1 billion in 2020 and is expected to expand at a compound annual growth rate (CAGR) of 24.7% from 2021 to 2028. This surge is driven by the increasing demand for fresh produce, urbanization, and the need for sustainable agricultural practices.

Several states have emerged as leaders in hydroponics farming:

California

California is at the forefront of hydroponics farming in the USA, with a wide range of commercial hydroponic operations. The state’s favorable climate, combined with innovative technology, has made it an ideal location for hydroponic farming. Farmers in California produce a variety of crops, including lettuce, strawberries, and tomatoes, using hydroponic methods.

Florida

Florida has also embraced hydroponics farming, particularly in the production of vegetables and herbs. The state's warm climate allows for year-round cultivation, making it a prime location for hydroponic greenhouses.

New York

In urban areas like New York City, hydroponics farming has gained popularity as a way to produce fresh food locally. Vertical farms and indoor hydroponic systems are becoming more common, providing city dwellers with access to fresh produce without the need for long transportation routes.

Common Hydroponic Systems

Hydroponics farming can be implemented using various systems, each with its own advantages and suitability for different types of crops. Here are some common hydroponic systems:

1. Nutrient Film Technique (NFT)

In this system, a thin film of nutrient-rich water flows over the roots of the plants, allowing them to absorb the nutrients while ensuring adequate oxygen supply. NFT is commonly used for growing leafy greens and herbs.

2. Deep Water Culture (DWC)

DWC involves suspending the plant roots in a nutrient solution, where they are submerged in water. Air stones provide oxygen to the roots, promoting healthy growth. This system is effective for growing various crops, including tomatoes and peppers.

3. Ebb and Flow (Flood and Drain)

This system periodically floods the plant roots with a nutrient solution and then drains it back into a reservoir. This cycle provides the plants with nutrients and oxygen. Ebb and flow systems are versatile and can be used for a variety of crops.

4. Aeroponics

Aeroponics is a high-tech system where plant roots are suspended in the air and misted with a nutrient solution. This method maximizes oxygen exposure and can result in rapid plant growth. Aeroponics is often used for high-value crops like herbs and strawberries.

Challenges of Hydroponics Farming

While hydroponics offers numerous benefits, it also comes with challenges that farmers must navigate:

1. Initial Setup Costs

The initial investment for hydroponics systems can be high. Equipment, technology, and infrastructure require significant capital. However, many farmers find that the long-term savings and increased productivity justify the initial costs.

2. Technical Knowledge

Successful hydroponics farming requires a solid understanding of plant biology, nutrient management, and system maintenance. Farmers may need to invest time in training and education to ensure their success.

3. Energy Consumption

Many hydroponic systems rely on artificial lighting and climate control, which can lead to increased energy consumption. However, advancements in renewable energy and energy-efficient technologies are helping to mitigate this challenge.

4. Pest Management

While hydroponics reduces certain pest issues, farmers must still be vigilant about pest management. Integrated pest management (IPM) strategies are essential to maintain healthy crops without resorting to harmful chemicals.

The Future of Hydroponics Farming in the USA

The future of hydroponics farming in the USA looks promising as technology continues to advance. Innovations in automation, nutrient delivery systems, and energy efficiency are making hydroponics more accessible and sustainable. Additionally, the growing demand for local produce and sustainable practices is likely to drive further adoption of hydroponics in urban areas and beyond.

Educational Initiatives

As hydroponics gains popularity, educational programs and resources are emerging to help aspiring farmers learn about the system. Universities and agricultural extension programs are offering courses and workshops, providing valuable knowledge to those interested in pursuing hydroponics farming.

Research and Development

Ongoing research into hydroponics systems, crop varieties, and pest management strategies is essential for improving productivity and sustainability. Collaborations between universities, government agencies, and private companies are fostering innovation in the field.

Conclusion

Hydroponics farming in the USA represents a significant shift in agricultural practices, offering a sustainable solution to the challenges of traditional farming. With its numerous benefits, including water efficiency, space optimization, and year-round production, hydroponics is paving the way for a more sustainable food system. As the industry continues to grow, farmers, consumers, and researchers must work together to harness the potential of hydroponics for the future of agriculture.

Aquaponics Market Sees Rising Demand as Sustainable Farming Gains Global Traction

The Aquaponics Market2024 research report gives emerging industry data, global segments and regional outlook. This report covers up all details such as size, share, value, growth, restraints, and opportunities for the year 2024 to 2032. The report generated using various analysis tools like porter’s five forces model, market attractiveness and value chain. The report gives comprehensive review of the global market helping to club revenue generation and profitable business to transform client’s success.

The report also covers detailed competitive landscape including company profiles of key players operating in the global market. The key players in the aquaponics market includes Backyard Aquaponics Pty Ltd., Colorado Aquaponics, ECF Farmsystems GmbH, GreenlifeAquaponics, My Aquaponics, Nelson &Pade Inc. and Urban Farms AG. An in-depth view of the competitive outlook includes future capacities, key mergers & acquisitions, financial overview, partnerships, collaborations, new product launches, new product developments and other developments with information in terms of H.Q.

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Market Dynamics

The market of aquaponics is growing mainly due to technological advancement. The major driver of aquaponics market is that it helps in enhancing the ultimate productivity with minimum inputs than traditional agriculture and aquaculture practices. Aquaponics is an advantageous method as it helps in improving ultimate productivity in a cost-effective manner. Moreover, this system helps in the production of herbs with the high market, vegetables, and leafy greens, as well as fish, crayfish, worms, mushrooms, and many other crops. Furthermore, it allows agriculture to take important innovative steps toward environmental sustainability. On the other hand, expensive initial startup costs compared with soil vegetable production or hydroponics is likely to act as a restraint.

This detailed market study is centered on the data obtained from multiple sources and is analyzed using numerous tools including porter’s five forces analysis, market attractiveness analysis and value chain analysis. These tools are employed to gain insights of the potential value of the market facilitating the business strategists with the latest growth opportunities. Additionally, these tools also provide a detailed analysis of each application/product segment in the global market of aquaponics.

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Market Segmentation

The broad aquaponics market has been sub-grouped into production type, equipment, component, and applications. The report studies these subsets with respect to the geographical segmentation. The strategists can gain a detailed insight and devise appropriate strategies to target specific market. This detail will lead to a focused approach leading to identification of better opportunities.

By Growing System

Media Filled Beds (Constant Flow, Ebb and Flow (Flood and Drain))

Nutrient Film Technique (NFT)

Raft or Deep Water Culture (DWC)

By Facility Type

Poly or Glass Greenhouses

Indoor Vertical Farms

Other Facility Types

By Fish Type

Tilapia

Catfish

Carp

Trout

Ornamental Fish

Other Fish Types

Regional Analysis

Furthermore, the report comprises of the geographical segmentation which mainly focuses on current and forecast demand for aquaponics in North America, Europe, Asia Pacific, Latin America, and Middle East & Africa. The report further focuses on demand for individual application segments in all the regions.

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Crop Development and Farming Market Size, Share, Key Drivers, Trends, Challenges and Competitive Analysis

"Global Crop Development and Farming Market – Industry Trends and Forecast to 2029

Global Crop Development and Farming Market, By Type (Tobacco Farming, Sugar beet Farming, Sugarcane Farming, Cotton Farming, Other Miscellaneous Crop Farming), Application (Food and Beverages, Fodder), Farming Process (Organic Farming, Traditional Farming), – Industry Trends and Forecast to 2029.

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**Segments**

- **Crop Type** - Cereals - Fruits - Vegetables - Oilseeds - Flowers - Others

- **Farming Type** - Conventional Farming - Organic Farming - Precision Farming - Indoor Farming - Vertical Farming - Others

- **Regional Analysis** - North America - Europe - Asia-Pacific - Latin America - Middle East and Africa

Crop development and farming form a crucial part of the global economy, providing essential food and raw materials for various industries worldwide. The segmentation of the market into different categories helps in understanding the dynamics and trends within the industry. Crop type segmentation includes cereals, fruits, vegetables, oilseeds, flowers, and others. Each crop type has its unique cultivation requirements and market demand, making it vital for farmers and businesses to strategize accordingly. Additionally, farming type segmentation encompasses conventional farming, organic farming, precision farming, indoor farming, vertical farming, and others. This segmentation reflects the evolving methods and technologies being adopted in the agricultural sector to enhance productivity and sustainability. Moreover, regional analysis plays a significant role in assessing market trends and opportunities across different geographies, such as North America, Europe, Asia-Pacific, Latin America, and the Middle East and Africa.

**Market Players**

- Monsanto Company - Syngenta - Bayer CropScience - BASF SE - DowDuPont - Archer Daniels Midland Company - Cargill - Yara International - Bunge Limited - Agrium

The crop development and farming market comprise a diverse range of players contributing to the growth and innovation of the industry. Companies like Monsanto Company, Syngenta, Bayer CropScience, BASF SE, and DowDuPont are key players in the market known for their extensive research and development activities in crop protection and biotechnology. Additionally,The crop development and farming market is a dynamic and evolving industry, driven by the constant need to meet the growing demand for food and raw materials globally. The market players play a vital role in shaping the landscape of this industry, with companies like Monsanto Company, Syngenta, Bayer CropScience, BASF SE, and DowDuPont leading the way in innovation and research. These key players have established themselves as industry giants known for their cutting-edge technologies and sustainable agricultural practices. Through investments in research and development, these companies continue to introduce new crop varieties, pest control solutions, and agronomic practices that enhance crop yields and quality.

Monsanto Company, a renowned multinational agricultural company, has built a strong presence in the market with its focus on biotechnology and genetically modified seeds. By developing innovative traits that provide resistance to pests and diseases, Monsanto has revolutionized crop production practices worldwide. Syngenta, another major player in the industry, specializes in crop protection products and seeds. With a diverse range of offerings, Syngenta caters to the needs of farmers across different regions and crop types. Bayer CropScience, a subsidiary of Bayer AG, is known for its comprehensive portfolio of crop protection products, seeds, and traits. The company's commitment to sustainable agriculture and digital farming solutions sets it apart in the market.

BASF SE, a global leader in the chemicals industry, has a significant presence in the agricultural sector through its crop protection solutions and biotechnology research. By focusing on innovation and sustainability, BASF continues to contribute to the development of more efficient and environmentally friendly farming practices. DowDuPont, a merger of two industry giants, has a diverse portfolio spanning crop protection, seeds, and digital agriculture. The company's cutting-edge technologies and commitment to sustainability position it as a key player in the market.

Apart from the major multinational corporations, companies like Archer Daniels Midland Company, Cargill, Yara International, Bunge Limited, and Agrium also play crucial roles in the crop**Segments**

Global Crop Development and Farming Market, by Type: - Tobacco Farming - Sugar beet Farming - Sugarcane Farming - Cotton Farming - Other Miscellaneous Crop Farming

Application: - Food and Beverages - Fodder

Farming Process: - Organic Farming - Traditional Farming

The global crop development and farming market is witnessing significant growth and innovation driven by technological advancements, shifting consumer preferences, and the increasing need for sustainable agricultural practices. The industry is segmented based on crop type, farming type, and regional analysis to provide insights into the diverse dynamics of the market. Crop type segmentation includes cereals, fruits, vegetables, oilseeds, flowers, and others, each with specific cultivation requirements and market demands. The farming type segmentation covers conventional farming, organic farming, precision farming, indoor farming, vertical farming, and others, reflecting the industry's adoption of advanced technologies and practices. Regional analysis further enhances the understanding of market trends and opportunities across key geographies like North America, Europe, Asia-Pacific, Latin America, and the Middle East and Africa.

**Market Players**

The market players in the crop development and farming industry play a critical role in driving innovation, research, and development to meet the increasing global demand for food and raw materials. Key companies such as Monsanto Company, Syngenta, Bayer CropScience, BASF SE, and DowDuPont are at the forefront of the industry, known for their advanced technologies and

Table of Content:

Part 01: Executive Summary

Part 02: Scope of the Report

Part 03: Global Crop Development and Farming Market Landscape

Part 04: Global Crop Development and Farming Market Sizing

Part 05: Global Crop Development and Farming Market Segmentation By Product

Part 06: Five Forces Analysis

Part 07: Customer Landscape

Part 08: Geographic Landscape

Part 09: Decision Framework

Part 10: Drivers and Challenges

Part 11: Market Trends

Part 12: Vendor Landscape

Part 13: Vendor Analysis

Key takeaways from the Crop Development and Farming Market report:

Detailed considerate of Crop Development and Farming Market-particular drivers, Trends, constraints, Restraints, Opportunities and major micro markets.

Comprehensive valuation of all prospects and threat in the

In depth study of industry strategies for growth of the Crop Development and Farming Market-leading players.

Crop Development and Farming Market latest innovations and major procedures.

Favorable dip inside Vigorous high-tech and market latest trends remarkable the Market.

Conclusive study about the growth conspiracy of Crop Development and Farming Market for forthcoming years.

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Offshore Air Handling Units Market Trends and Opportunities: Global Outlook (2023-2032)

The market for Offshore Air Handling Units is projected to grow from US$ 2.28 Bn in 2022 to an estimated US$ 4.8 Bn by 2030, expanding at a Compound Annual Growth Rate (CAGR) of 7.50% over the forecast period.

Offshore Air Handling Units (AHUs) are critical components used in offshore facilities, such as oil rigs, wind farms, and marine platforms, to regulate and maintain indoor air quality and temperature. These units are designed to function in harsh marine environments, where exposure to saltwater, extreme weather, and corrosive conditions is common. Offshore AHUs typically consist of high-performance components like corrosion-resistant materials, robust filtration systems, and energy-efficient fans and coils to ensure reliable performance. They provide ventilation, heating, cooling, and humidity control, which are essential for the comfort and safety of personnel as well as the protection of sensitive equipment. These systems must meet stringent regulatory standards for durability, efficiency, and safety. Additionally, offshore AHUs often incorporate advanced automation and control systems for remote monitoring and maintenance, ensuring optimal operation even in the challenging and remote conditions found offshore.

The market for Offshore Air Handling Units (AHUs) is driven by various regional factors, with demand varying based on the presence of offshore industries, environmental regulations, and investments in energy infrastructure. Key regional insights for the Offshore AHU market include:

1. Europe

Europe is one of the leading markets for offshore AHUs, largely due to the region's significant investments in offshore wind energy and oil and gas exploration in areas such as the North Sea. Countries like the UK, Norway, and Denmark are driving the demand for specialized offshore HVAC solutions to support these growing sectors. Strict environmental regulations and a strong focus on energy efficiency and sustainability also contribute to the adoption of high-performance offshore AHUs. In addition, the European Green Deal and carbon reduction goals are pushing industries toward energy-efficient and environmentally friendly air handling solutions.

2. North America

North America, particularly the United States and Canada, represents a growing market for offshore AHUs, driven by ongoing oil and gas exploration in the Gulf of Mexico and offshore drilling activities off the coast of Canada. Additionally, the U.S. offshore wind sector is expanding rapidly, particularly along the East Coast, creating opportunities for AHU manufacturers to provide systems that meet the demanding environmental conditions of offshore platforms. The region's stringent safety and environmental regulations, particularly those related to emissions and energy consumption, are encouraging the adoption of advanced and energy-efficient offshore AHU technologies.

3. Asia-Pacific

The Asia-Pacific region, particularly countries like China, South Korea, Japan, and India, is experiencing increased demand for offshore AHUs due to the expansion of offshore oil and gas operations and the emerging offshore wind energy market. China is making significant investments in offshore wind farms as part of its clean energy strategy, while the region's growing industrial base also requires robust HVAC systems for offshore facilities. As these countries invest more in renewable energy and offshore projects, there is a rising need for specialized air handling units capable of withstanding the region's humid and often challenging offshore environments.

4. Middle East and Africa

The Middle East and Africa region has a steady demand for offshore AHUs, particularly due to the extensive oil and gas exploration activities in the Persian Gulf and off the coast of Africa. Countries like Saudi Arabia, the UAE, and Nigeria are major contributors to this market. The harsh climatic conditions in the region, with high temperatures and saltwater exposure, require highly durable and corrosion-resistant AHUs. Additionally, there is increasing interest in energy-efficient systems as countries in the Middle East are focusing on reducing the carbon footprint of their energy industries.

5. Latin America

Latin America, particularly Brazil and Mexico, is witnessing moderate demand for offshore AHUs, mainly driven by offshore oil and gas exploration in regions such as the Gulf of Mexico and the Brazilian offshore oil fields. As the region continues to develop its offshore energy resources, there is growing demand for reliable air handling systems to maintain safe working environments for offshore personnel. The market is expected to grow steadily as more investments are made in offshore energy projects, both in traditional fossil fuels and emerging renewable sectors.

6. Russia and CIS

Russia and other countries in the Commonwealth of Independent States (CIS) have significant offshore oil and gas resources, particularly in the Arctic and Caspian Sea regions. The harsh, cold offshore environments in these areas require highly specialized AHUs designed to withstand extreme temperatures and corrosive conditions. The development of these offshore resources, particularly in Russia's Arctic region, is driving demand for robust air handling systems that can ensure reliable performance in challenging climates.

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 Key players

Daikin Industries Ltd.

Carrier Corporation

Johnson Controls

Trane Technologies

Lennox International

FläktGroup

GEA Group

Trox Group

Airedale International Air Conditioning Ltd.

Novenco A.S

The Offshore Air Handling Units (AHUs) market is driven by several key factors that are contributing to its growth and demand across various offshore industries. These drivers include:

1. Growth in Offshore Oil and Gas Exploration

One of the primary drivers of the offshore AHU market is the continued expansion of offshore oil and gas exploration activities. As energy companies seek to exploit deepwater and ultra-deepwater reserves, particularly in regions such as the Gulf of Mexico, North Sea, and West Africa, there is a growing need for reliable and efficient HVAC systems to maintain safe working conditions on offshore platforms. Offshore AHUs help ensure proper ventilation, temperature control, and humidity management, which are essential for both operational efficiency and personnel safety in these harsh environments.

2. Expansion of Offshore Wind Energy Projects

The offshore wind energy sector is experiencing rapid growth, particularly in Europe, Asia, and North America. As countries push for renewable energy solutions to meet their climate goals, offshore wind farms are becoming a significant source of energy. Offshore air handling units are essential for maintaining the optimal operation of equipment and ensuring a safe and comfortable environment for personnel working in offshore wind facilities. The increasing investments in offshore wind energy projects are driving demand for durable and energy-efficient AHUs capable of withstanding marine conditions.

3. Stringent Environmental and Safety Regulations

Stringent environmental and safety regulations in industries such as oil and gas and renewable energy are a major driver of the offshore AHU market. Regulatory bodies across regions, such as the U.S. Environmental Protection Agency (EPA) and the European Union’s environmental standards, impose strict requirements for air quality, emissions control, and energy efficiency. Offshore AHUs must comply with these regulations to ensure minimal environmental impact and meet the high safety standards necessary for offshore facilities. As a result, there is a growing demand for technologically advanced AHUs that can meet these compliance requirements.

4. Technological Advancements in Energy-Efficient Systems

Advances in energy-efficient technologies are a significant driver for the offshore AHU market. Companies are increasingly seeking AHUs that offer high energy efficiency and reduced operating costs, as energy consumption is a major concern in offshore facilities where energy resources can be limited or expensive to generate. The integration of features such as variable speed fans, high-efficiency heat exchangers, and smart control systems enables offshore operators to optimize energy usage and improve sustainability. These technological advancements also help reduce greenhouse gas emissions, aligning with global efforts to reduce carbon footprints.

5. Need for Reliable HVAC Solutions in Harsh Marine Environments

Offshore platforms are exposed to extreme environmental conditions, including high humidity, saltwater, corrosive air, and temperature fluctuations. This creates a strong demand for highly durable and reliable AHUs that can withstand such harsh conditions. Offshore AHUs are specifically designed with corrosion-resistant materials and advanced filtration systems to ensure they function optimally in challenging marine environments. The need for robust systems that can operate reliably with minimal maintenance in remote offshore locations is a significant driver of the market.

6. Increasing Focus on Worker Safety and Comfort

Ensuring the health, safety, and comfort of offshore workers is a critical concern for companies operating in the offshore sector. Proper ventilation, air quality control, and climate regulation are essential for maintaining a safe working environment on offshore platforms. Offshore AHUs play a key role in controlling indoor air quality, regulating temperature, and removing humidity, which are crucial for preventing heat stress, respiratory issues, and other health hazards. As a result, the demand for high-quality HVAC systems, including AHUs, is rising in offshore facilities to prioritize worker safety and comfort.

7. Growing Investments in Offshore Infrastructure

Global investments in offshore infrastructure, particularly in the energy sector, are driving demand for air handling units. As countries and energy companies continue to invest in the development of new offshore platforms for oil, gas, and renewable energy projects, the demand for offshore AHUs is expected to increase. Governments and private companies are investing in both the expansion of existing offshore facilities and the construction of new platforms, fueling the need for efficient HVAC systems that can operate in marine environments.

8. Rising Demand for Modular and Customized AHUs

There is an increasing preference for modular and customized AHUs that can be tailored to the specific needs of offshore applications. Offshore platforms often have unique space constraints and operational requirements, making flexibility in design and installation a priority. Modular AHUs, which can be easily assembled and disassembled, are gaining popularity for their ease of transportation, installation, and maintenance. Customization options allow operators to optimize the performance of AHUs based on the specific environmental conditions and functional needs of their offshore facility.

9. Integration of Automation and Remote Monitoring

The integration of automation and remote monitoring technologies in offshore AHUs is becoming more common, driven by the need to minimize manual intervention and improve operational efficiency in remote offshore environments. Smart control systems and IoT-enabled devices allow for real-time monitoring of air quality, energy consumption, and system performance. This helps offshore operators detect potential issues early, perform preventive maintenance, and reduce downtime, which is critical in environments where access to the platform can be limited.

10. Decommissioning and Upgrading of Aging Offshore Facilities

Many existing offshore platforms, particularly in mature oil and gas regions, are reaching the end of their operational life. As these facilities undergo decommissioning, retrofitting, or upgrading, there is an opportunity for the installation of modern, energy-efficient AHUs. The demand for replacement units or upgraded air handling systems is expected to grow as companies invest in extending the life of their offshore assets through modernization and improved safety and efficiency measures.

Segmentation Analysis 

Oil and Gas Rigs

Cruise Liners and Yachts

Defense

FPSO Vessels

Cargo Ships

Additional sectors, such as semi-submersibles and RO-RO Ferries

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The Impact of IoT in the Digital Agriculture Ecosystem: Connecting Crops to the Cloud

The digital agriculture market is set for substantial growth, fueled by technological innovations and the increasing demand for sustainable and efficient farming practices. With the ongoing evolution of digital tools and platforms, the agricultural sector is poised for a transformation, providing opportunities for greater productivity, enhanced food security, and better livelihoods for farmers.

How Digital Agriculture is Transforming Farming and Forecasting a $39.8 Billion Future

Digital agriculture offers innovative solutions to tackle the growing challenge of food insecurity, which is increasingly intensified by rising population levels. By utilizing technologies such as remote sensing and data analytics, digital agriculture enhances the efficiency and sustainability of food production. These advancements help optimize resource use, improve crop yields, and reduce environmental impacts, boosting food availability and accessibility. The global digital agriculture industry is on a trajectory of significant growth, with an estimated value forecasted to reach USD 39.8 billion by 2029 from the 2024 valuation of USD 24.2 billion, exhibiting an optimistic Compound Annual Growth Rate (CAGR) of 10.4%.

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A notable example is the Indian government’s initiative to lead a technological revolution in agriculture. As of January 1, 2024, India is demonstrating its commitment to modernizing agriculture through strategic initiatives designed to close the technology gap and increase productivity. A key component of this effort is the National e-Governance Plan in Agriculture (NeGPA), which supports states in implementing digital agriculture projects that leverage artificial intelligence (AI), machine learning (ML), Internet of Things (IoT), and blockchain. NeGPA aims to promote data-driven decision-making to optimize agricultural outcomes and drive sectoral advancements. The Surge in Automation Hardware: What the Highest Projected CAGR Means for the Digital Farming Industry

As technology continues to transform agricultural practices, the role of automation and control systems becomes increasingly critical. Modern hardware solutions, from sensor-equipped devices to automated machinery, are revolutionizing farming processes. The focus on precision farming is driving the integration of these advanced hardware solutions to optimize resource use, boost efficiency, and improve overall agricultural productivity. This growing adoption of automation and control systems highlights the significant impact of digital technologies on traditional farming, paving the way for a future of smart, data-driven agriculture that promises sustainability and technological advancement.

To support data-driven farming, Precision Agriculture Connectivity Infrastructure is essential. This infrastructure includes secure hyperscale cloud connectivity, farm-centric computing platforms, private 5G wireless systems, public wireless field coverage, and a range of terrestrial and non-terrestrial networks. It forms the backbone for deploying artificial intelligence, quantum computing, machine vision, and other innovations developed by experts in automation and control systems within digital agriculture.

A March 2023 report from the European Parliament notes a significant rise in interest in agricultural robots over the past decade, though adoption rates vary globally. Robotics applications in agriculture span field farming, dairy management, indoor farming, and horticulture. This surge in technological innovation and autonomous systems underscores the growing importance of automation and control systems in the digital farming market. The integration of intelligent features and robotics not only enhances operational efficiency but also sets the stage for future advancements in smart farming practices.

The Digital Economy’s Role in Driving Agricultural Development

In December 2023, the influence of the digital economy on agriculture in developing countries emerged as a crucial factor in boosting agricultural production and tackling hunger-related issues. Technologies like precision farming, data analytics, and digital monitoring systems are essential for refining farming practices, enhancing yields, and improving resource efficiency. Additionally, digitalization is transforming governance within the agricultural sector by enabling more transparent and efficient management. This results in better policymaking, resource allocation, and monitoring of agricultural programs.

China, India, and Beyond: The Growing Influence of Asia Pacific Digital Agriculture Market

The Asia Pacific digital agriculture market is significantly driven by government incentives, expanding internet access, and growing awareness of technological advancements. These factors, along with the need for higher agricultural yields and more efficient resource use, are fueling the region’s progress in digital agriculture. Government policies and educational programs aimed at farmers have raised awareness and adoption of digital technologies. China plays a major role in the region’s leadership in this sector, with India also emerging as a key player, while Australia, New Zealand, and Japan continue to show steady growth in digital agriculture.

Additionally, increasing support from major industry players is boosting the growth of digital agriculture in the region. For example, in November 2022, Syngenta and Plantix launched a partnership to provide smallholder farmers in Asia Pacific with AI-powered tools through the Cropwise Grower app. This initiative aims to reach 500,000 farmers across five countries, offering them access to a comprehensive database of crops, diseases, and best practices. The app features localized content, offline functionality, and early warnings for pests and diseases. This collaboration seeks to bridge the information gap for rural farmers, enhance decision-making, and improve yields and livelihoods.

The Top Digital Agriculture Companies to Watch: Innovations and Impact on the Industry

IBM’s Role in Agriculture: Leveraging Data and Technology for Smarter Farming

IBM Corporation is a global technology powerhouse headquartered in Armonk, New York, with operations in over 175 countries. With a long and storied history spanning over a century, IBM has been a pioneer in various fields, including hardware, software, and services. It operates through six business segments, namely, Cloud & Cognitive Software, Global Business Services, Global Technology Services, Systems, Global Financing, and Others. The company provides agriculture solutions globally by using its Watson Decision Platform in combination with data acquired from The Weather Company to help farmers with planning, plowing, planting, and harvesting. The company has 12 R&D laboratories across six continents. Apart from the US, IBM has formidable research centers in Japan, China, India, Ireland, and Switzerland.

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Cisco Systems: Leading the Charge in Smart Agriculture with Advanced Networking Solutions

Cisco Systems, Inc., is a global leader in networking technology, playing a crucial role in building the infrastructure that powers the Internet. They offer a wide range of hardware, software, and services that help businesses, governments, and individuals connect securely and efficiently. The company offers smart agriculture solutions aimed at boosting farm efficiency, income, and supply chain connections. Using tools like data analytics, sensors, and satellite imagery, Cisco Systems, Inc., builds a central platform integrating data-driven insights, collaboration tools, secure networks, and web portals. This creates an IoT ecosystem that enhances agricultural yield and profitability.

In December 2022, Cisco Systems, Inc., partnered with SatSure (US), a data analytics startup, to help governments address specific needs in smart agriculture. This collaboration showcases the effectiveness of Cisco LaunchPad, their accelerator program, in fostering innovation and mutual benefit for businesses.

Top Questions Answered by the Digital Agriculture Market Report

How is the digital agriculture market evolving?

What are the key drivers of digital agriculture industry growth?

What benefits does digital agriculture offer to farmers?

Which region expected to hold largest digital agriculture market share

Hydroponics Market Poised for Rapid Growth Revolutionizing Agriculture with Sustainable, Soilless Cultivation

Hydroponics is the process of growing plants in a soilless environment with mineral nutrient solutions instead of soil. Hydroponics offers several advantages over traditional soil-based agriculture such as higher yield per unit area, minimal environmental effect, and independence from weather and pests. Hydroponic systems provide the plants with essential nutrients and water directly to their roots through dissolvable fertilizers. It makes use of less water as there is no run-off and drainage and produces quicker growth of plants.

The Hydroponics Market is estimated to be valued at US$ 10.6 billion in 2028 and is expected to exhibit a CAGR of 12% over the forecast period 2028. Key Takeaways Key players operating in the Hydroponics Market are Argus Control Systems Ltd., BrightFarms Inc., Circle Fresh Farms, Horti Tech, Hydrodynamics International, and Koninklijke Philips NV. Hydroponics facilitates higher yields and more frequent harvests per year compared to traditional farming. It produces yields 4-6 times greater than soil-based agriculture while using 95% less water. Key players are expanding their production facilities globally to meet the growing demand for contamination-free vegetables and fruits. The growing Hydroponics Market Growth for organic foods and rising environmental concerns over conventional farming practices are fueling the adoption of hydroponics worldwide. Furthermore, scarcity of arable land and shortage of freshwater resources are encouraging farmers to opt for sustainable soilless cultivation techniques. Countries in Asia Pacific and Middle East & Africa regions are increasingly implementing hydroponic farming systems to ensure food security. Market Key Trends One of the major trends in the hydroponics market is the increasing investment in indoor vertical farming projects. Indoor vertical farms maximize space utilization and enable year-round production regardless of weather conditions. Led by artificial intelligence (AI) and Internet of Things (IoT), they facilitate real-time monitoring of hydroponic parameters for optimum plant growth. With several notable projects underway, vertical farming is expected to revolutionize urban agriculture.

Porter's Analysis Threat of new entrants: Low startup costs and technical know-how are relatively low barriers for new entrants in hydroponics market. Bargaining power of buyers: Large retail buyers and online platforms have significant bargaining power against hydroponics suppliers. Bargaining power of suppliers: Specialized equipment manufacturers and distributors of hydroponic nutrients have some bargaining power over cultivators. Threat of new substitutes: Technologies like aeroponics and aquaponics pose threat of substitution to hydroponics systems in long run. Competitive rivalry: Many small and medium scale cultivators compete intensely to supply vegetables through grocers as well as online platforms. Geographical Regions North America accounts for the largest share in global hydroponics market, driven by early adoption and higher consumer spend in the US and Canada. Countries like Netherlands, Germany, Spain are the major markets in Europe due to emphasis on sustainable agricultural practices. Major share of hydroponics produce in Asia Pacific is concentrated in China, Japan and Australia owing to land and water constraints in these densely populated nations. The fastest growing regional market for hydroponics is Latin America led by Brazil, Chile and Colombia. This growth can be attributed to rising area under greenhouse cultivation supported by government initiatives and increasing exports of high value crops. Countries like Kenya and Morocco in Africa are also emerging as lucrative markets for hydroponics with growing commercial greenhouse industry.

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Ravina Pandya, Content Writer, has a strong foothold in the market research industry. She specializes in writing well-researched articles from different industries, including food and beverages, information and technology, healthcare, chemical and materials, etc. (https://www.linkedin.com/in/ravina-pandya-1a3984191)

Vertical Farming Market Size, Share, Growth and Industry Trends 2024 - 2030

The global vertical farming market size was valued at USD 6.92 billion in 2023 and is expected to grow at a CAGR of 20.1% from 2023 to 2030. Market growth is attributed to the growing adoption of environment-friendly production of fruits and vegetables. Unprecedented growth of the global population has increased the demand for urban agriculture.

Vertical farming is the practice of producing food in vertically stacked layers, such as in a used warehouse, skyscraper, or shipping container. Organic foods are perceived as healthier, more nutritious, safer, and more environmentally friendly. A critical factor that influences demand for organic food is the food purchasing behavior of consumers, which is essential for producers, policymakers, and suppliers to implement successful marketing strategies.

Obesity and heart diseases are prevalent health-related issues among consumers. Furthermore, growing depletion of groundwater and changing climatic conditions have urged traditional growers to adopt alternate farming methods. Increasing consumer concerns about health and the abovementioned factors are likely to elevate industry demand.

Gather more insights about the market drivers, restrains and growth of the Vertical Farming Market

Vertical Farming Market Report Highlights

• The escalating production of biopharmaceutical products is anticipated to drive the market

• The shipping container segment accounted for the largest market share in 2022. Shipping container-based farming uses less water than traditional farming with drip irrigation. Shipping containers can be easily stacked, modified, recycled, and refurbished at a lower cost. Additionally, the excess availability of unused shipping containers across the region will likely influence segment growth over the forecast period

• The hardware segment accounted the largest market share in 2022. The hardware plays a significant role in maintaining the environment of the indoor farms. The segment is further categorized into climate control systems, lighting systems, sensors, and irrigation systems, which enables the cultivation of indoor-grown crops

• The fruits vegetables, & herbs segment is also expected to have considerable growth over the forecast period. The increasing cultivation of commonly grown fruits and vegetables in greenhouses is driving the segment growth. Crops grown in vertical farming provide maximum profit to companies involved in their cultivation

• Based on offering, the climate control segment is expected to witness high growth over the forecast period as the growth of crops can be controlled by monitoring and adjusting the concentrations of minerals

• By growing mechanism, the aeroponics segment is expected to observe considerable growth over the forecast period as the aeroponics facilitate fast growth in plants (under normal conditions)

• The North American regional market is expected to witness significant growth over the forecast period owing to the expansion of small-scale, commercial vertical farms

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• The global synthetic data generation market size was valued at USD 218.4 million in 2023 and is projected to grow at a CAGR of 35.3% from 2024 to 2030. 

• The global service virtualization market size was valued at USD 786.0 Million in 2023 and is projected to grow at a compound annual growth rate (CAGR) of 17.4% from 2024 to 2030. 

Vertical Farming Market Segmentation

Grand View Research has segmented the global vertical farming market report based on structure, growing mechanism, crop category and region

Vertical Farming Structure Outlook (Revenue, USD Million, 2017 - 2030)

• Shipping Container

• Building-based

Vertical Farming Component Outlook (Revenue, USD Million, 2017 - 2030)

• Hardware

o Lighting

o Hydroponic components

o Climate control

o Sensors

• Software

• Services

o System Integration & Consulting

o Managed Services

o Assisted Professional Services

Vertical Farming Growing Mechanism Outlook (Revenue, USD Million, 2017 - 2030)

• Hydroponics

• Aeroponics

• Aquaponics

Vertical Farming Crop Category Outlook (Revenue, USD Million, 2017- 2030)

• Fruits Vegetables, & Herbs

o Tomato

o Lettuce

o Bell & Chili Peppers

o Strawberry

o Cucumber

o Leafy Greens (excluding lettuce)

o Herbs

o Others

• Flowers & Ornamentals

o Perennials

o Annuals

o Ornamentals

• Others (Cannabis, Microgreens)

Vertical Farming Regional Outlook (Revenue, USD Million, 2017 - 2030)

• North America

o U.S.

o Canada

o Mexico

• Europe

o Germany

o U.K.

o France

o Italy

o Spain

• Asia Pacific

o China

o Japan

o India

o Singapore

o South Korea

• South America

o Brazil

• Middle East and Africa (MEA)

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Vertical Farming Market Growing Stupendously

Vertical Farming Industry Overview

The global vertical farming market size was valued at USD 6.92 billion in 2023 and is expected to grow at a CAGR of 20.1% from 2023 to 2030. Market growth is attributed to the growing adoption of environment-friendly production of fruits and vegetables. Unprecedented growth of the global population has increased the demand for urban agriculture.

Gather more insights about the market drivers, restrains and growth of theVertical Farming Market

Vertical farming is the practice of producing food in vertically stacked layers, such as in a used warehouse, skyscraper, or shipping container. Organic foods are perceived as healthier, more nutritious, safer, and more environmentally friendly. A critical factor that influences demand for organic food is the food purchasing behavior of consumers, which is essential for producers, policymakers, and suppliers to implement successful marketing strategies.

Obesity and heart diseases are prevalent health-related issues among consumers. Furthermore, growing depletion of groundwater and changing climatic conditions have urged traditional growers to adopt alternate farming methods. Increasing consumer concerns about health and the abovementioned factors are likely to elevate industry demand.

Unlike traditional farming, indoor farming can produce crops throughout the year, which results in increased productivity. Furthermore, indoor farming can protect crops from extreme weather conditions through the usage of techniques such as controlled environment agriculture technology, where facilities use artificial environmental control, control of light, and fertigation.

Increasing demand for high-quality food, independent agriculture techniques, and growing urbanization are some of the critical factors responsible for market growth. These factors have increased the requirement for food. Demand for food is expected to witness significant growth with a growing population by 2030. The adoption of vertical cultivation techniques allows consumers to grow crops in a warehouse or a multi-story building.

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The global indoor farming market size was valued at USD 37.9 billion in 2023 and is expected to grow at a compound annual growth rate (CAGR) of 13.2% from 2024 to 2030.

The global shipping container market size was valued at USD 6.41 billion in 2020 and is expected to expand at a compound annual growth rate (CAGR) of 12.0% from 2020 to 2028.

Key Companies profiled:

AeroFarms (U.S.)

Illumitex, Inc. (U.S.)

American Hydroponics (U.S.)

Agrilution GmbH

Brightfarms Inc.

Everlight Electronics Co., Ltd.

Freight Farms

GrowUp Urban Farms Ltd.

Green Sense Farms, LLC

Vertical Farm Systems

Key Vertical Farming Company Insights

Some of the key players operating in the market include Agrilution GmbH; Aerofarm; Brightfarms Inc.; Everlight Electronics Co., Ltd; Freight Farms; GrowUp Urban Farms Ltd.; Green Sense Farms, LLC; Vertical Farm Systems.

Vertical Farm Systems is engaged in the development of fully automated growing systems with reusable medium and energy efficient climate cells. The company utilizes artificial intelligence (AI) and automation for optimized growing conditions.

Brightfarms Inc., is an indoor farming company that provides fresh packaged salad. The company sells their product locally that are grown in controlled environment. The company is inclined towards development of efficient vertical farming system with a focus on resource efficiency and sustainable practices.

Bowery Farming and Aerofarm are some of the emerging market participants in the target market.

Bowery Farming is engaged in providing solutions related to vertical farming and digital agriculture. Bowery Farming is a New York based company having farms in New Jersey, Maryland, and Pennsylvania.

Aerofarm, is a U.S.- based indoor vertical farming solution provider. The company uses artificial intelligence and plant biology to fix broken food system and improve the fresh produce growth

Recent Developments

In March 2023, BrightFarms, a pioneer in the indoor farming industry, is growing by establishing four additional regional greenhouse centers that introduce sustainably farmed leafy greens to a broader audience in the Eastern and Central United States. The newly built greenhouse centers are expected to meet the rising demand for organic food and initiate distribution to retailers by 2024. With this expansion, the company is expecting 10x revenue growth by 2024.

In February 2023, AeroFarms and Public Investment Fund (PIF), a wealth funding body of Saudi Arabia, announced a joint venture to establish indoor vertical farms in the Middle East and Saudi Arabia.

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