Agriculture technology

Extracted Attributes

• Purpose

  To enhance yield, efficiency, and profitability in agricultural processes.

• Benefits

  Increased efficiency, productivity, sustainability, reduced labor costs, maximized crop yield, improved resource management, safer operations, targeted resource application.

• Synonyms

  Agtech, agritech, AgriTech, agrotech

• Definition

  The use of technology in agriculture, horticulture, and aquaculture with the aim of improving yield, efficiency, and profitability.

• Driving Fields

  Agricultural science, agronomy, agricultural engineering.

• Key Technologies

  Precision agriculture, smart irrigation, biotechnology, automation, indoor vertical farming, livestock technology, modern greenhouse practices, artificial intelligence, blockchain, sensors, devices, machines, information technology, robots, aerial images, GPS technology, gene editing.

Timeline

• Profluent Bio, a Berkeley-based startup, developed and open-sourced OpenCrisper-1, a novel AI-powered gene-editing tool that is more effective than existing CRISPR technology. This innovation aims to accelerate progress in agricultural technology and other life sciences by enabling researchers to bypass restrictive patent landscapes. (Source: User Summary, Related Document)

  Recent Development

Agricultural technology

Agricultural technology or agrotechnology (abbreviated agtech, agritech, AgriTech, or agrotech) is the use of technology in agriculture, horticulture, and aquaculture with the aim of improving yield, efficiency, and profitability. Agricultural technology can be products, services or applications derived from agriculture that improve various input and output processes. Advances in agricultural science, agronomy, and agricultural engineering have led to applied developments in agricultural technology.

Web Search Results

• New Agriculture Technology in Modern Farming | Plug and Play

  This new agriculture technology concept, also known as agtech, refers to the use of technology in farming and agricultural practices to increase efficiency, productivity, and sustainability in food production. It includes several different types of technologies, such as precision agriculture, smart irrigation, biotechnology, and automation. Additionally, there are significant technological advancements in areas like indoor vertical farming, livestock technology, modern greenhouse practices, [...] This new concept refers to the use of technology in farming and agricultural practices to increase efficiency, productivity, and sustainability in food production. It includes several different types of technologies, such as precision agriculture, smart irrigation, biotechnology, and automation. Additionally, there are significant technological advancements in areas like indoor vertical farming, livestock technology, modern greenhouse practices, artificial intelligence, and blockchain, which we [...] From sustainable urban growth to maximizing crop yield with reduced labor costs, the advantages of indoor vertical farming are apparent. This new agriculture technology can control variables such as light, humidity, and water to precisely measure year-round, increasing food production with reliable harvests. Labor is also greatly reduced by using robots to handle harvesting, planting, and logistics, solving the challenge farms face from the current labor shortage in the agriculture industry.

• Agriculture Technology - USDA NIFA

  Modern farms and agricultural operations work far differently than those a few decades ago, primarily because of advancements in technology, including sensors, devices, machines, and information technology. Today’s agriculture routinely uses sophisticated technologies such as robots, temperature and moisture sensors, aerial images, and GPS technology. These advanced devices and precision agriculture and robotic systems allow businesses to be more profitable, efficient, safer, and more [...] NIFA advances agricultural technology and ensures that the nation’s agricultural industries are able to utilize it by supporting: Basic research and development in physical sciences, engineering, and computer sciences Development of agricultural devices, sensors, and systems Applied research that assesses how to employ technologies economically and with minimal disruption to existing practices Assistance and instruction to farmers on how to use new technologies [...] ## Importance of Agricultural Technology Farmers no longer have to apply water, fertilizers, and pesticides uniformly across entire fields. Instead, they can use the minimum quantities required and target very specific areas, or even treat individual plants differently. Benefits include:

• 2025 Farming Advancements: Top Innovations in Agriculture

  Agriculture is transforming rapidly as new technology reshapes how farmers work. Innovations like AI-powered tools and advanced equipment boost efficiency, increase yields, reduce environmental impact, and improve worker safety. Staying competitive in today’s evolving industry means adopting these game-changing advancements. In this blog, we’ll explore the most impactful farming technologies and why upgrading your operation with these tools can unlock new opportunities and drive success. [...] From autonomous tractors to smart irrigation systems and drones, modern technology is revolutionizing agriculture at a rapid pace. Successful farmers are expanding their horizons by embracing innovation, unlocking greater efficiency, higher yields, and improved resource management in the process. Staying ahead in this evolving industry means having access to the tools that can make a difference—and we’re here to help make that possible. [...] Although farming is traditionally a land-based endeavor, advancements in technology are elevating agricultural practices—quite literally—into the skies. Drones, as key precision agriculture tools, are playing an increasingly pivotal role in providing real-time field analysis, offering insights into pest control and crop health with unprecedented efficiency.

• 4 Key Agriculture Trends To Watch Closely In 2025 - ICL Group

  Researchers and AgroTech pioneers are developing next-generation technologies to enhance crop resilience, restore soil health, and optimize carbon utilization in farming. AI-powered precision agriculture, regenerative practices, and microbial solutions are paving the way for a more productive and climate-smart agricultural system. To understand where AgroTech is headed, we’ll explore four emerging agriculture trends that are shaping the future of sustainable farming. [...] AgroTech stands at a historic turning point, shaping the future of global food security, climate resilience, and sustainable farming. For the first time, advanced technologies—AI, synthetic biology, and regenerative practices—are converging to create a scalable, climate-smart agricultural system. [...] 1. The Rise of AI in Agriculture 2. Carbon Utilization and Remote Sensing 3. The Shift to Regenerative Agriculture 4. Breakthroughs in Ag Biotechnology AgroTech is at the cutting edge of agricultural innovation, integrating advanced technologies to address some of the most pressing challenges in food production. From climate resilience to soil restoration, the industry is undergoing a transformation driven by scientific breakthroughs and sustainable solutions.

• Driving innovation in agriculture: 3 key agri tech trends for 2025

  Technological Advancements: The precision agriculture segment, encompassing smart farming technologies, robotics, and AI-driven solutions, will continue to evolve, transforming traditional farming practices. [...] Synopsis: As we head into 2025, global challenges like climate change, resource scarcity, and rising consumer expectations are pushing the boundaries of innovation in agriculture. This year will see a strong focus on leveraging Gen AI, scaling precision agriculture, adopting regenerative agriculture, and driving sustainable cultivation. Each of these trends presents unique opportunities to redefine production, sustainability, and efficiency. [...] The future of agriculture hinges on our ability to produce enough food sustainably to feed a growing global population. Precision agriculture, powered by digital technologies, offers a pathway towards this goal. In the coming years, we can expect to see a surge in the adoption of precision agriculture technologies. In 2025, as companies increasingly embrace “nature-positive” targets, real-world pilots and trials will demonstrate the tangible benefits of precision agriculture.