As of 2022, Saudi Arabia had the largest precision agriculture market in the Middle East and North Africa (MENA) region worth 55.4 million U.S. dollars. It was estimated that it will grow to 141.7 million U.S. dollars by 2028. In 2022, the market size of the precision agriculture sector in the Middle East and North Africa was around 239.6 million U.S. dollars, and it was estimated to reach revenue of 545.7 million U.S. dollars by 2028. .

The Middle East Vertical Farming Market Report is Segmented by Growth Mechanism (Aeroponics, Hydroponics, and Aquaponics), Structure (Building-Based Vertical Farms and Shipping Container Vertical Farms), Crop Type (Fruits and Vegetables, Herbs and Micro-Greens, Flowers and Ornamentals, and Other Crop Types), and Geography (Saudi Arabia, United Arab Emirates, Egypt, and Rest of the Middle East). The Report Offers the Market Size in Value Terms in USD for all the Abovementioned Segments.

The MENA Agriculture Market report segments the industry into Food Crops/Cereals, Fruits, Vegetables, and Oilseeds/Non-Food Crops. The report includes Production Analysis, Consumption Analysis by Value and Volume, Import Analysis by Value and Volume, Export Analysis by Value and Volume, and Price Trend Analysis. Five years of historical data and forecasts are covered.

As of 2020, around 92 percent of the total water withdrawal in Iran was used for agricultural purposes. Yemen followed this at 90.74 percent and Saudi Arabia at 81.56 percent. In comparison, Bahrain used only a third of its total water withdrawal for agriculture.

Water usage for agriculture The agricultural sector depends heavily on the supply of water. Securing a water source is crucial to setting up a farming endeavor. The Middle East and North Africa belong to the world's driest regions. Therefore, the region's agricultural sector can not rely on rainfall alone. Consequently, the irrigated gross value added in agricultural GDP of the Gulf Cooperation Council region and Egypt was 100 percent.

Water resources Renewable water resources in the Middle East and North Africa are important. Lebanon leads the region with access to 670.02 millimeters of renewable water resources. The Americas are the leading region with the largest renewable water resource globally.

Discover the future of Middle East Vertical Farming Market, size at USD 320 million in 2023, showcasing revenue trends and market forecast.

As of 2022, the market size of the precision agriculture sector in the Middle East and North Africa was around 239.6 million U.S. dollars, and it was estimated to grow to a revenue of 545.7 million U.S. dollars by 2028. Between 2022 and 2028, the estimated growth rate of the precision agriculture market in the Middle East and North Africa was 14.7 percent.

Your ultimate guide to the Middle East and Africa (MEA) Precision Farming Market, offering insights, growth trends, and accurate forecasts for 2025

As of 2022, hardware was the leading component in the precision agriculture market in the Middle East and North Africa (MENA) region worth 167.1 million U.S. dollars. It was estimated that it will rise to 356.5 million U.S. dollars by 2028. In 2022, the market size of the precision agriculture sector in MENA was around 239.6 million U.S. dollars, and it was estimated to reach revenues of 545.7 million U.S. dollars by 2028.

Middle East Energy Management for Agriculture Market is expected to grow during 2025-2031

Part of the Integrated Vulnerability Assessment in the Arab Region, this 1km pixel resolution raster dataset provides a representation of Vulnerability for Agriculture sector, in the Middle East and North Africa Region, 1986-2005 reference period. Pixel values were classified according to level of vulnerability, from low 1 to high 10. Vulnerability is a concept used to express the complex interaction of climate change effects and the susceptibility of a system to its impacts. The integrated vulnerability assessment methodology is based on an understanding of vulnerability as a function of a system’s climate change exposure, sensitivity and adaptive capacity to cope with climate change effects, consistent with the approach put forward by the Intergovernmental Panel on Climate Change (IPCC) in its Fourth Assessment Report (AR4). It adopts the time periods generally used by the IPCC and other regional climate modelling experiments, and runs climate simulations based on future time periods that are compared with a historical reference period.

Part of the Integrated Vulnerability Assessment in the Arab Region, this 1km pixel resolution raster dataset provides a representation of future change in vulnerability hotspots for Agriculture sector, in the Middle East and North Africa Region. The Raster grid was generated for moderate representative concentration pathway (RCP4.5) emission scenario developed by the Intergovernmental Panel on Climate Change (IPCC), for End-Century (2081-2100) time period. Pixel values are classified according to vulnerability level: class 10 the top 10%, class 20 top 20% and class 30 top 30%. Vulnerability is a concept used to express the complex interaction of climate change effects and the susceptibility of a system to its impacts. The integrated vulnerability assessment methodology is based on an understanding of vulnerability as a function of a system’s climate change exposure, sensitivity and adaptive capacity to cope with climate change effects, consistent with the approach put forward by the IPCC in its Fourth Assessment Report (AR4). It adopts the time periods generally used by the IPCC and other regional climate modelling experiments and runs climate simulations based on future time periods that are compared with a historical reference period.

Middle East and Africa Biodegradable Mulch Films Market growth is attributed to increasing demand for sustainable agricultural solutions, government incentives, and the rising adoption of biodegradable products in the agriculture sector.

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Agriculture Analytics Market Size 2024-2028

The agriculture analytics market size is forecast to increase by USD 1.23 billion at a CAGR of 12.97% between 2023 and 2028. The market is experiencing significant growth due to the increasing demand for food production to meet the needs of a growing global population. Infrastructure development, including the integration of artificial intelligence (AI) and smart farming technologies, is a key driver in this market. Smart farming practices, such as field planning and irrigation management, are becoming increasingly important for sustainable agricultural production. However, the high cost of implementing analytics in agriculture remains a challenge for many farmers and agribusinesses, particularly in developing countries. Despite this, the long-term benefits of using data analytics insights to optimize farming practices are expected to outweigh the initial investment costs. By utilizing AI and other advanced technologies, farmers can optimize their operations, improve crop yields, and reduce water usage, ultimately leading to more sustainable and profitable farming practices. The market is expected to continue growing as more farmers adopt these technologies to meet the demands of a changing agricultural landscape.

What will be the Size of the Market During the Forecast Period?

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The market is witnessing significant growth as farmers and agricultural businesses seek to enhance their productivity and efficiency. This market is driven by the increasing demand for food production to meet the growing population and the need to address various challenges in the agricultural sector. Cloud computing and internet of things (IoT) technologies are playing a crucial role in the market. Farmers can now collect vast amounts of data from various sources, including weather data analytics, crop growth monitoring, land preparation, and farm operations. This data is then analyzed using predictive models to optimize farm output and improve efficiency.

Moreover, positioning systems and navigation satellite systems, such as those used in drones, are also contributing to the market. These technologies enable farmers to monitor their crops and livestock with precision, ensuring optimal growth conditions and preventing potential losses. Crop management is a significant application area for agriculture analytics. By analyzing data on soil degradation, climatic conditions, and crop growth patterns, farmers can make informed decisions on land preparation, irrigation, and fertilizer application. This results in improved crop yields and reduced waste. Livestock farming is another area where agriculture analytics is making a significant impact. Livestock analytics provides farmers with insights into animal health and productivity, enabling them to optimize feeding and breeding programs.

Also, this leads to increased profitability and improved animal welfare. Aquaculture analytics is another emerging application area in the market. By monitoring water quality, fish behavior, and environmental conditions, farmers can optimize fish farming operations and reduce the risk of disease outbreaks. The market offers both cloud deployment and on-premises deployment options. Cloud deployment provides farmers with the flexibility to access data and insights from anywhere, while on-premises deployment offers greater control over data security. Data Security is a critical concern in the market. Farmers must ensure that their data is protected from unauthorized access and cyber threats.

Additionally, advanced security measures, such as encryption and access controls, are essential to safeguard sensitive agricultural data. In conclusion, the market is transforming the agricultural sector by providing farmers and agricultural businesses with data-driven insights to optimize their operations, increase productivity, and improve efficiency. The market is driven by the growing demand for food production and the need to address various challenges in the agricultural sector, including climatic conditions, soil degradation, and positioning systems. By leveraging cloud computing, IoT, and advanced analytics techniques, farmers can make informed decisions and improve their bottom line.

Market Segmentation

The market research report provides comprehensive data (region-wise segment analysis), with forecasts and estimates in 'USD billion' for the period 2024-2028, as well as historical data from 2018-2022 for the following segments.

Type

  Solutions
  Services


Application

  Precision farming
  Livestock monitoring
  Aquaculture farming
  Vertical farming
  Others


Geography

  North America

    Canada
    US


  Europe

    UK


  APAC

    China
    Japan


  South America



  Middle East and Africa

By Type Insights

The solutions segment is estimated to witness significant growth during the f

Part of the Integrated Vulnerability Assessment in the Arab Region, this 1km pixel resolution raster dataset provides a representation of future change in vulnerability for Agriculture sector, in the Middle East and North Africa Region. The Raster grid was generated for moderate representative concentration pathway (RCP4.5) emission scenario developed by the Intergovernmental Panel on Climate Change (IPCC) for time period End-Century (2081-2100). Pixel values are classified according to level of vulnerability, from low 1 to high 10. Vulnerability is a concept used to express the complex interaction of climate change effects and the susceptibility of a system to its impacts. The integrated vulnerability assessment methodology is based on an understanding of vulnerability as a function of a system’s climate change exposure, sensitivity and adaptive capacity to cope with climate change effects, consistent with the approach put forward by the IPCC in its Fourth Assessment Report (AR4). It adopts the time periods generally used by the IPCC and other regional climate modelling experiments, and runs climate simulations based on future time periods that are compared with a historical reference period.

Part of the Integrated Vulnerability Assessment in the Arab Region, this 1km pixel resolution raster dataset provides a representation of future change in vulnerability hotspots for Agriculture sector, in the Middle East and North Africa Region. The Raster grid was generated for moderate representative concentration pathway (RCP4.5) emission scenario developed by the Intergovernmental Panel on Climate Change (IPCC), for Mid-Century (2046-2065)time period. Pixel values are classified according to vulnerability level: class 10 the top 10%, class 20 top 20% and class 30 top 30%. Vulnerability is a concept used to express the complex interaction of climate change effects and the susceptibility of a system to its impacts. The integrated vulnerability assessment methodology is based on an understanding of vulnerability as a function of a system’s climate change exposure, sensitivity and adaptive capacity to cope with climate change effects, consistent with the approach put forward by the IPCC in its Fourth Assessment Report (AR4). It adopts the time periods generally used by the IPCC and other regional climate modelling experiments and runs climate simulations based on future time periods that are compared with a historical reference period.

The Middle East and Africa tractor market sales are expected to reach 109,974 units in 2028 from 83,146 units in 2022, growing at a CAGR of 4.77%.

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Automated Pest Monitoring System Market for Agriculture Sector 2024-2028

The automated pest monitoring system market for agriculture sector size is estimated to grow at a CAGR of 11.18% between 2024 and 2028. The market size is forecast to increase by USD 166.15 million. The growth of the market depends on several factors such as the growing focus on reducing manual intervention in fields, the increasing focus on reducing pesticide use, and the need for better crop protection.

The report includes a comprehensive outlook on the Automated Pest Monitoring System Market for Agriculture Sector, offering forecasts for the industry segmented by End-user, which comprises arge-scale farms and small-scale farms. Additionally, it categorizes Component into hardware, software, and services, and covers Regions, including APAC, North America, Europe, South America, and Middle East and Africa. The report provides market size, historical data spanning from 2018 to 2022, and future projections, all presented in terms of value in USD million for each of the mentioned segments.

What will be the size of the Automated Pest Monitoring System Market For Agriculture Sector During the Forecast Period?

Automated Pest Monitoring System Market for Agriculture Sector Forecast 2024-2028

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Automated Pest Monitoring System Market for Agriculture Sector Dynamic

Driver- Increasing focus on to reduce the use of the pesticide.

When chemical pesticides are applied repeatedly, pests develop resistance to pesticides via natural selection. This helps pests to survive further pesticide applications. Moreover, automated pest monitoring systems can reduce the risks associated with pest occurrences. These systems help end-users to use pest management inputs timely and efficiently. The early controlling of pests helps resolve the problem before the crop sustains serious damage.

Moreover, the automated pest monitoring systems offer near real-time indications regarding pest occurrences, provide accurate data about the influence of pests on the yield, and help end-users in deciding the required number of pesticides. Farmers can react easily and reduce the use of pesticides owing to the early alerts provided by automated pest monitoring systems. Therefore, such factors will drive the growth of the market during the forecast period.

Trends- Growing end-user inclination toward innovative automated pest monitoring systems in the agriculture sector

Growing concerns about diminishing resources and rising population encourage farmers to use innovative technologies to increase crop yield. Farmers are focusing on higher-level yields and innovative technologies to meet the growing demand for food products. Early detection of pest presence in farms is one such efficient way to increase crop yield. Manufacturers that offer automated pest monitoring systems in the agriculture sector are focusing on developing innovative systems that ensure added benefits for prospective end-users.

For example, PATS Indoor Drone Solutions offers mini drones that identify and kill certain categories of pests, including whiteflies, golden twin-spot moths, and other insects by flying into them. Hence, the growing end-user inclination toward innovative automated pest monitoring systems in the agriculture sector will drive the growth of the market during the forecast period.

Challenge- Seasonality issues affecting market growth of automated pest monitoring systems

Crops in grain fields get mainly attacked during the summer season. Manufacturers of automated pest monitoring systems need to deal with fluctuating cash flows and must have enough resources to cover the expenses during the slow-running periods. Pest attacks in agricultural fields are very common during the winter season. Therefore, the demand for automation is less during off-seasons. Manufacturers have to gain profitability during a short period from the sales of automated pest monitoring systems.

Moreover, the seasonal issue also increases the risk of budgeting the business for the entire financial year. The seasonal demand for automated pest monitoring systems can also increase competition in the market. Most of the vendors in the market try to increase their shares by offering equipment with advanced features. Thus, seasonality issues may impede the potential growth of the market during the forecast period.

Automated Pest Monitoring System Market for Agriculture Sector Segmentation by End-user, Component, and Geography

End-user Segment Analysis:

The large-scale farms segment will account for a major share of the market's growth during the forecast period. In large-scale farms, the land is used to grow a variety of different crops across acres to produce consistent and high yields for maximum profits. Farmers need to carry out strategies to control pest attacks and increase crop yield. Pest a

Technological advancements in the Middle East Vertical Farming industry are shaping the future market landscape. The report evaluates innovation-driven growth and how emerging technologies are transforming industry practices, offering a comprehensive outlook on future opportunities and market potential.

The Middle East Satellite-based Earth Observation market is experiencing robust growth, driven by increasing government investments in infrastructure development, smart city initiatives, and the urgent need for efficient resource management in a region facing water scarcity and climate change challenges. The market, valued at approximately $X million in 2025, is projected to witness a Compound Annual Growth Rate (CAGR) of 8.94% from 2025 to 2033, reaching an estimated value of $Y million by 2033. (Note: Values X and Y are estimations based on the provided 2025 value and CAGR; precise figures would require additional market data.) Key growth drivers include the region's ambitious space programs, expanding digitalization efforts, and a rising demand for precise location data across various sectors such as agriculture (precision farming), urban planning (monitoring urban sprawl and infrastructure development), and environmental monitoring (climate change mitigation and resource management). The adoption of advanced technologies like AI and Machine Learning for data analysis further fuels market expansion. Significant market segmentation exists across data types (Earth Observation Data and Value Added Services), satellite orbits (Low Earth Orbit, Medium Earth Orbit, and Geostationary Orbit), and end-use applications. While Earth Observation Data currently dominates, the Value-Added Services segment, encompassing advanced analytical tools and customized solutions, is projected to witness faster growth due to the rising need for actionable insights. Among end-users, urban development and cultural heritage, agriculture, and climate services are prominent sectors, with considerable potential for future expansion in infrastructure and energy sectors. The competitive landscape is characterized by a mix of international players and regional companies, indicating a healthy level of both technological advancement and localized expertise within the Middle East. Challenges include high initial investment costs for satellite technology and the need for robust data infrastructure for effective data processing and distribution. Recent developments include: August 2024 - Loft Orbital and Marlan Space to create the Middle East’s first private manufacturing space company of commercial satellite constellations for LEO, Orbitworks has secured components for its first 10 satellites, the first of which could be launched as early as the first quarter of 2026. Orbitworks will help Loft Orbital further its vision of flying any payload for any customer in the shortest time to orbit., August 2024 - Bayanat AI PLC has announced the successful launch of their first Low Earth Orbit (LEO) Synthetic Aperture Radar (SAR) satellite into orbit on August 16, 2024, in partnership with ICEYE, a pioneer in SAR satellite operations for earth observation, persistent monitoring, and natural catastrophe solutions. In a landmark achievement, the Bayanat-owned SAR satellite, in collaboration with Yahsat, was launched via integrator Exolaunch and successfully lifted off aboard SpaceX’s Transporter 11 rideshare from Vandenberg Space Force Base in California, USA. The satellite has established communication, and early routine operations are underway.. Key drivers for this market are: Government Initiatives and Investments, Technological Advancements. Potential restraints include: Government Initiatives and Investments, Technological Advancements. Notable trends are: Urban Development and Cultural Heritage is analyzed to hold significant share in the market.

Digital Livestock Farming Market Outlook

The global digital livestock farming market size was estimated at USD 2.5 billion in 2023 and is projected to reach USD 5.8 billion by 2032, growing at a CAGR of 10.2% from 2024 to 2032. This substantial growth is driven by the increasing adoption of advanced technologies in agriculture, aimed at enhancing productivity, efficiency, and sustainability in livestock management. The market's expansion is also fueled by the growing demand for high-quality animal products and the need to meet rising global food requirements.

One of the most significant growth factors in the digital livestock farming market is the rising global population, which intensifies the demand for food, including meat and dairy products. As the population grows, so does the necessity for more efficient and sustainable farming practices. Digital technologies, such as IoT, AI, and data analytics, provide farmers with real-time data and insights to optimize animal health, feeding, and breeding practices, thereby boosting productivity and reducing operational costs. Moreover, the awareness regarding animal welfare and the benefits of precision farming are compelling farmers to adopt these advanced solutions.

Another crucial factor contributing to market growth is the increasing governmental and private sector investments in agricultural technology. Various governments worldwide are implementing policies and providing subsidies to encourage the adoption of digital farming solutions. For instance, several countries in Europe and North America have launched initiatives to promote smart farming practices, which include the use of digital tools for livestock management. These initiatives are designed to enhance farm profitability, ensure food security, and reduce environmental impact, thereby driving the market forward.

The advancements in technology and the integration of innovative solutions in farming practices are also pivotal in propelling market growth. Technologies such as blockchain, AI, machine learning, and IoT are revolutionizing the livestock farming sector. These technologies facilitate better tracking, monitoring, and management of livestock, ensuring higher efficiency and productivity. For example, AI-powered health monitoring systems can detect diseases at an early stage, allowing for timely intervention and reducing mortality rates. Similarly, IoT-enabled devices provide real-time data on livestock conditions, enhancing decision-making processes.

Regionally, North America holds a significant share in the digital livestock farming market, driven by the early adoption of advanced farming technologies and well-established agricultural infrastructure. Europe follows closely, with substantial investments and supportive government policies promoting smart farming practices. Meanwhile, the Asia Pacific region is expected to witness the highest growth rate, attributed to the rapidly increasing population, rising demand for animal products, and ongoing technological advancements in the agriculture sector. Latin America and the Middle East & Africa are also gradually adopting digital livestock farming solutions, driven by the need to improve agricultural productivity and sustainability.

Component Analysis

The digital livestock farming market can be segmented by component into hardware, software, and services. The hardware segment encompasses devices such as sensors, GPS systems, RFID tags, and other monitoring equipment essential for collecting data on livestock. These devices play a crucial role in providing real-time information on various parameters, including animal health, location, and behavior. The increasing demand for precision farming techniques significantly drives the hardware segment, as these devices are pivotal in executing precision farming practices effectively. Furthermore, advancements in sensor technologies and the reduction in costs are contributing to the segment's growth.

The software segment includes data analytics platforms, farm management systems, and livestock monitoring software. These software solutions enable farmers to analyze data collected from various hardware devices, transforming it into actionable insights. The software segment is experiencing substantial growth due to the rising adoption of cloud-based solutions and AI-driven analytics. These tools assist farmers in making informed decisions, enhancing farm productivity, and ensuring better animal health management. The integration of user-friendly interfaces and mobile applications also boosts the adoption rate of these software solutions among farmers of