PUBLISHER: Stratistics Market Research Consulting | PRODUCT CODE: 1558299
PUBLISHER: Stratistics Market Research Consulting | PRODUCT CODE: 1558299
According to Stratistics MRC, the Global Precision Livestock Farming Market is accounted for $7.74 billion in 2024 and is expected to reach $15.45 billion by 2030 growing at a CAGR of 12.2% during the forecast period. Precision Livestock Farming (PLF) is a cutting-edge method of animal husbandry that improves the productivity, welfare, and efficiency of livestock by utilizing data-driven techniques and cutting-edge technologies. Real-time monitoring of multiple parameters, including animal health, behavior, nutrition, and environmental conditions, is achieved by PLF through the use of tools like sensors, automated systems, and artificial intelligence. Moreover, by managing environmental factors, optimizing feeding schedules, and detecting diseases early, this real-time monitoring helps to improve farm management as a whole.
According to the Food and Agriculture Organization (FAO), precision livestock farming (PLF) technologies have the potential to significantly improve the efficiency and sustainability of livestock production systems by enabling more precise and timely management of animals, optimizing resource use, and reducing the environmental footprint.
Growing interest in animal protein
The global population is expected to reach nearly 10 billion by 2050, significantly increasing the demand for food, particularly animal protein such as meat, dairy, and eggs. Effective and sustainable systems for producing livestock are required in light of this increase in demand. Conventional techniques for raising livestock frequently result in inefficiencies, increased rates of mortality, and uneven product quality. Additionally, farmers can increase animal productivity by optimizing feed conversion rates, improving growth performance, and utilizing PLF technologies like data analytics, automated feeding systems, and health monitoring sensors.
Exorbitant up-front and ongoing expenses
The high initial cost of setting up sophisticated systems, such as sensors, automated feeders, milking robots, and data analytics platforms, is one of the main barriers to the adoption of PLF technologies. A large share of the world's farms is small and medium-sized farms, which frequently lack the funding to invest in these pricey technologies. Apart from the initial expenses, continuous upkeep and running costs may be high. Furthermore, regular calibration, software updates, and repairs are necessary for equipment like sensors and automated devices, which can raise the overall cost of ownership.
Growing interest in eco-friendly farming methods
Demand for sustainable agricultural methods is rising as people become more conscious of climate change and the negative effects that livestock farming has on the environment. By maximizing the use of resources like feed, water, and energy and reducing waste and greenhouse gas emissions, Precision Livestock Farming (PLF) technologies present substantial opportunities to improve sustainability. Additionally, automated systems for managing manure assist in converting waste into bioenergy, thereby supporting circular agriculture.
High technology dependency and failure risk
Precision Livestock Farming relies heavily on sophisticated technologies like sensors, automated systems, and data analytics platforms. This high level of reliance makes technology failure or malfunction a serious threat. For example, a malfunctioning automated feeding system may cause livestock to be overfed or underfed, which could result in health problems or even death. Moreover, similar to this, malfunctioning sensors may result in inaccurate data gathering, which could jeopardize decision-making procedures. Due to the intricacy of these technologies, troubleshooting and repairs frequently require specific knowledge and experience, which can result in downtime and financial losses.
The Precision Livestock Farming (PLF) industry was affected by the COVID-19 pandemic in a variety of ways. On the one hand, farmers prioritized critical operations and cost-cutting measures, which caused supply chain disruptions, mobility restrictions, and economic uncertainties to slow down the deployment of new PLF technologies. However, the pandemic brought attention to the necessity of resilient and effective farming methods that reduce human interaction and maximize resource utilization. Additionally, this increased interest in automation, remote monitoring, and data-driven decision-making, encouraging more farmers to investigate PLF solutions as a means of sustaining productivity in the face of operational difficulties and labor shortages.
The Sensors and Monitoring Devices segment is expected to be the largest during the forecast period
The Precision Livestock Farming (PLF) market is dominated by the Sensors and Monitoring Devices segment. The real-time monitoring of livestock health, behavior, and environmental conditions made possible by these devices is essential for the early detection of diseases, stress, and other anomalies. Farmers increasingly depend on sensors to collect data so they can make informed decisions, as concerns about resource efficiency, productivity optimization, and animal welfare become more and more important. Furthermore, the market is growing as a result of the broad use of sensors in many livestock applications, including motion, temperature, humidity, and milk quality monitoring, as well as their integration with IoT and data analytics platforms.
The Poultry Farms segment is expected to have the highest CAGR during the forecast period
In the Precision Livestock Farming (PLF) market, the Poultry Farms segment is anticipated to grow at the highest CAGR. In order to maximize feed conversion rates, improve disease management, and boost overall productivity, poultry farms are adopting more and more cutting-edge technologies, such as robotic feeders, automated monitoring systems, and environmental control systems. This is the reason for the rapid growth. Moreover, the need to integrate precision tools such as sensors, smart cameras, and data analytics platforms to monitor flock behavior, health, and environmental conditions in real time is becoming more important due to the growing global demand for poultry products and growing concerns about bio security.
The market for precision livestock farming is dominated by North America. The region's high adoption rates of cutting-edge farming technologies, significant investments in agricultural research and development, and sophisticated technological infrastructure are all credited for this dominance. Because of its extensive livestock operations and the existence of significant technology providers that promote the adoption of precision farming solutions, the United States is particularly significant in this regard. Additionally, North America's dominant position in the market is further supported by its strong focus on improving productivity and efficiency in livestock management.
The precision livestock farming market is anticipated to grow at the highest CAGR in the Asia-Pacific region. The demand for efficient farming methods in nations like China and India, as well as growing investments in livestock industries and agricultural technology, are the main causes of this rapid growth. Furthermore, the region has significant growth potential in the precision livestock farming sector due to its increasing focus on improving food security and livestock productivity, as well as the support of government policies and technological advancements.
Key players in the market
Some of the key players in Precision Livestock Farming market include Bosch, Dairymaster, Allflex Livestock Intelligence, Livestock Improvement Corporation, Cargill, DeLaval Holding AB, Afimilk Agricultural Cooperative Ltd., GEA Farm Technology, BouMatic, LLC, Fullwood Paco Ltd., Lely International NV, Trioliet B.V, Fancom B.V. and Zoetis.
In July 2024, Bosch Global Software Technologies (BGSW) and GMR Group have entered a Special Purpose Vehicles (SPVs) arrangement to implement the smart metering program for the cities of Agra, Varanasi, and Prayagraj in India. GMR Group combines its expertise in infrastructure management with BGSW's value in designing and building state-of-the-art smart metering system architecture.
In April 2024, Zoetis Inc. and Phibro Animal Health Corporation announced that they have entered into a definitive agreement where Phibro Animal Health will acquire Zoetis' medicated feed additive (MFA) product portfolio, certain water soluble products and related assets for $350 million, subject to customary closing adjustments.
In March 2024, Cargill has signed five deals that expand the global agriculture firm's contracted renewable energy capacity by 42% as part of its overall goal of reducing its greenhouse gas emissions (GHG). The new deals will bring an additional 300 megawatts of wind and solar capacity online, expanding Cargill's total offsite renewable energy portfolio to 716 megawatts.
Note: Tables for North America, Europe, APAC, South America, and Middle East & Africa Regions are also represented in the same manner as above.