Importance of climate alongside yield prediction
Added on 05 June 2023
Tomatoes are one of the most widely grown fresh produce crops globally. While outdoor cultivation remains prevalent, many growers have turned to protected environments such as plastic houses, greenhouses, or glasshouses to ensure year-round production and mitigate unfavorable weather conditions, pests, and diseases. The controlled environments provide opportunities for manipulating climate, water, and light, resulting in significantly increased production compared to traditional methods.
Dr. Tharindu Weeraratne, Director of Crop Science & Agronomy, says: “Accurately predicting yield is crucial for growers as it drives short-term response and long-term strategy. It helps steer crops towards desired production outcomes, provides certainty in available produce for sale, and aids in fulfilling supply contracts. However, consistently achieving high accuracy in yield prediction is a challenge due to the occurrence of yield swings, which can significantly impact business operations and forecasting.”
WayBeyond's study challenges the sole pursuit of high accuracy yield prediction and instead focuses on identifying and understanding the biological and environmental events preceding yield swings. By adopting a more holistic approach to interpreting yield prediction, growers can improve their confidence in predicting yields and optimize production.
The study analyzed anonymized data from 20 tomato growing cycles in varied protected growing environments, using WayBeyond's proprietary digital data collection, analysis algorithms, and AI models to study the data encompassing plant genetics, environment, and crop management practices.
Dr. Mpatisi Moyo, Head of Artificial Intelligence, explains: “Our findings highlight the correlation between yield prediction accuracy and the occurrence of yield swings. We identified common patterns associated with low and high yield swings, including environmental factors like temperature and light, as well as biological indicators such as plant growth measurements and plant balance.”
Dr. Tharindu Weeraratne concludes: “This study emphasizes the importance of considering environmental and biological data alongside yield prediction models. By collecting and analyzing data on climate, crop development, and contextual factors, tomato growers can gain a comprehensive understanding of their growing environment and make informed decisions. We believe this approach allows for the anticipation and management of yield swings, leading to more consistent crop management and higher-quality data.”
WayBeyond's study opens the door to improved decision-making capabilities for tomato growers, providing them with the tools to anticipate yield swings, interpret yield predictions with greater accuracy, and mitigate risks to their crops and business. By embracing a more holistic approach to yield prediction, growers can maximize their yield potential and minimize financial and produce losses.
The full study is available for download at https://www.waybeyond.io/beyond-yield-prediction-whitepaper.
About WayBeyond
Founded in 2016 and launched in 2021, WayBeyond creates technology for a better world. Its vision is to transform horticulture, from seed to harvest, to sustainably grow fresh produce for everyone on the planet.
WayBeyond’s integrated digital agronomy solution assists commercial growers and seed producers to increase production yield and quality – by combining data, artificial intelligence, and plant science. With a clearer picture of their growing environment and plant health, they can respond to daily farm challenges with certainty, whilst improving growing practices.
WayBeyond is a B2B business that advocates The United Nations Sustainable Development Goals, while supporting the next generation of growers through community education programs.
Website: www.waybeyond.io
LinkedIn: /waybeyond
About the authors
Mpatisi Moyo, Head of Artificial Intelligence
Dr. Moyo holds a Master’s in Medical Laboratory Sciences from Massey University, a Post-Graduate Diploma in Statistics and a PhD in Health Sciences from the University of Auckland. He is the Data Science and Artificial Intelligence lead at WayBeyond. His team focuses on combining biology, data and AI to build prediction and recommendation tools to help growers improve efficiency in their production.
Tharindu Weeraratne, Director of Crop Science & Agronomy
After obtaining his BSc in Botany in Sri Lanka, Dr. Weeraratne conducted research in postharvest biology and technology of cut flowers and foliage. He did his PhD in Plant Biology at the University of Texas at Austin. He leads the Crop Science, Agronomy Research and Consulting at WayBeyond, and works with AI research and engineering teams to provide cutting-edge solutions to growers.
For further information and media inquiries, please contact:
Christelle Blanchet-Aissaoui, Chief Marketing Officer
christelle.blanchet-aissaoui@waybeyond.io
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