Youpitch Articles

As the global population is projected to reach a staggering 10 billion by 2050, it will be challenging for traditional

How Can Agri-Tech Improve Crop Yields And Sustainability

As the global population is projected to reach a staggering 10 billion by 2050, it will be challenging for traditional Agricultural practices and food production processes to continue feeding this growing number of global citizens. This is where investment in Agri-Tech emerges as a game-changer.

As the amalgamation of Agriculture and technology, Argo-tech has seen significant investments flocking towards startups. As per the World Economic Forum (WEF), over 23,300 startups have received over $49 billion in Agri tech funding, with India receiving the most significant share of VC funding. The private sector is crucial in significantly boosting crop yields while promoting sustainability. 

As a sustainable and innovative venture studio, we at YouPitch Live believe this sector holds immense potential for driving Agricultural productivity to new heights.

Understanding the Role of Agri-Tech in Enhancing Crop Yields

Agri-tech is not just about fancy gadgets; it is a comprehensive approach that utilises data, innovation and automation to optimise every step of the farming process. Here’s how it boosts crop yields:

  • Precision Agriculture- Sensors, drones and satellite imagery help gather real-time data on soil health, moisture levels and crop stress, allowing farmers to pinpoint areas that need more nutrition. It helps monitor water levels, fertiliser usage and pesticide control to reduce waste. Instacrops is a startup that helps farmers maximise crop yield and environmental impact through a virtual advisory model with easy-to-comprehend real-time information.
  • Data-Driven Decisions – Advanced analytics platforms like Indigo Ag analyse datasets to predict weather patterns, soil erosion, optimal planting times and customised crop management strategies to improve crop yields. Their advancement in Agri-tech includes microbial seed treatment, which helps plants access more nutrients from the air and soil while reducing reliance on harmful fertilisers to improve sustainability.
  • Advanced Breeding Techniques – Gene editing tools like CRISPR enable the development of high-yielding, disease-resistant crop varieties. A well-known Agri-tech business pioneering this approach is Pairwise Plants. Their non-GMO approach focuses on removing or tweaking existing genes within the plant’s DNA that help develop fruits and vegetables with improved taste, texture or nutritional value.

Leveraging Agri-Tech for Sustainable Agriculture Practices

Sustainability is at the centre of the Agri-tech revolution. Sustainability is achieved through precision irrigation systems coupled with moisture sensors that ensure water is distributed only where and when crops need it. This significantly reduces water waste, a crucial factor in drought-prone regions such as Sub-Saharan Africa, Australia, South Africa, parts of Asia, South America and Mediterranean countries including Spain and Greece. 

Much advancement in Agri-tech is being made to improve soil fertility by reducing soil contamination and water pollution. Such measures promote biodiversity by encouraging cover crops that improve soil health and attract beneficial insects rather than deter their natural habitat. 

In recent years, venture capital investment has made vertical farming profitable for entrepreneurs. Vertical farming involves cultivating crops indoors within vertically stacked layers under controlled environments. These skyscrapers dedicated to growing lettuce, onions and potatoes instead of housing offices lead to space optimization and significant crop production even in urban cities. The process of hydroponics or aeroponics delivers nutrients directly to the plant roots through water mist, promoting a more sustainable approach to Agriculture. 

Sustainable Last Mile Delivery

Just like last-mile delivery of our parcels, last-mile delivery of farm products focuses on getting fresh produce to consumers in an environmentally friendly and efficient way. This goes beyond the final delivery; it encompasses the entire process from farm to table. 

Last-mile delivery startups connect farmers to consumers by eliminating intermediaries, allowing for a fairer share of the profits. These investments in Agri-tech provide access to broader markets, increasing farmer’s income potential. 

Moreover, using artificial intelligence and machine learning to optimise routes using electric hybrid vehicles and last-mile delivery vehicles reduces carbon footprints and minimises greenhouse gas emissions. Additionally, by reducing food waste, the environmental impact associated with producing uneaten food is lessened. 

Indian last-mile startup Ninjacart connects farmers directly to restaurants and retailers, utilising data analytics for optimised routing and cold chain logistics to minimise spoilage.

Conclusion

With over $49 billion invested in Agri-tech ventures, venture capital investors indicate their willingness to accelerate the development and adoption of Agri-tech. If you have a sustainable idea to increase global food production using Agri-Tech processes, YouPitchLive will provide the platform to develop and market your product to the right investors.