- Real time insight into plant responses
Understand how crops react to inputs as conditions change - Data-driven confidence
Support farmer and advisor decisions with objective plant data - Smarter product and practice optimisation
Improve formulations, recommendations, and on-farm performance - More resilient crop management
Reduce guesswork and respond earlier to emerging stress
Vivent Biosignals x Morao Arándanos x Green Laniel
30% cost reduction in water and fertiliser use for Morao Arándanos
Morao Arándanos is a Colombian company specializing in the cultivation of high-quality blueberries (arándanos), grown in high-altitude regions using sustainable agricultural practices.
Green Laniel is Vivent Biosignals’ U.S. distributor, providing localized installation, training, and support. It works closely with its sub-distributor, Agroespacios, on this project.
“Water usage has been significantly lower compared to what we normally apply to the rest of the farm. And in terms of nutrition, since fertilisation is applied together with irrigation, costs have been reduced by around 30% in both water consumption and fertilizer usage”
Morao Arándanos
Agronomic challenge
Morao Arándanos grows blueberries in polytunnels in Colombia and wanted to understand how Vivent sensors could be integrated to improve overall crop management and handling practices.
Results and client benefits
Shortly after installation, the team identified an issue with the drippers in one group. This insight allowed them to gradually adjust irrigation in one of the groups using the Vivent Biosignals water model. The results: reduced water usage, improved fruit quality, and better nutrient uptake in the treated plants.
1. Reduced water usage
2. Reduced fertilizer costs
3. Improved fruit quality
From claims to quantified proof
Moving beyond trial-and-error toward evidence-driven agronomy
By integrating Vivent Biosignals’ technology, Morao Arándanos moved from assumptions about crop performance to continuous, data-driven insight into plant behavior. This enabled more precise decision-making in irrigation and crop management, reducing uncertainty in day-to-day operations and improving overall consistency in fruit quality.
Why it matters
Beyond operational improvements, the real value lies in turning plant-level signals into measurable evidence of crop response, allowing Morao to validate management decisions in real time. This shift from intuition to quantification strengthens both agronomic control and long-term productivity in protected blueberry cultivation.
Plants know best — and now they can show it.
“The information is available immediately, allowing you to see exactly what is happening with the plants in real time, process the data, and make the necessary adjustments.”
Marao Arándanos
Vivent plant sensors enable:
See how crops respond, optimise products and practices, and make more confident decisions, based on plant data, not guesswork.
Get in touch with us.
Fill out the form below or book a meeting directly with one of our team members!
Let’s connect to explore the future of agriculture together!
Plants are talking, we let you listen in.
Categories
Featured posts
- Real time insight into plant responses
Understand how crops react to inputs as conditions change - Data-driven confidence
Support farmer and advisor decisions with objective plant data - Smarter product and practice optimisation
Improve formulations, recommendations, and on-farm performance - More resilient crop management
Reduce guesswork and respond earlier to emerging stress 
April 29, 2026
Vivent Biosignals x Morao Arándanos x Green Laniel
30% cost reduction in water and fertiliser use for Morao Arándanos
Morao Arándanos is a Colombian company specializing in the cultivation of high-quality blueberries (arándanos), grown in high-altitude regions using sustainable agricultural practices.
Green Laniel is Vivent Biosignals’ U.S. distributor, providing localized installation, training, and support. It works closely with its sub-distributor, Agroespacios, on this project.
“Water usage has been significantly lower compared to what we normally apply to the rest of the farm. And in terms of nutrition, since fertilisation is applied together with irrigation, costs have been reduced by around 30% in both water consumption and fertilizer usage”
Morao Arándanos
Agronomic challenge
Morao Arándanos grows blueberries in polytunnels in Colombia and wanted to understand how Vivent sensors could be integrated to improve overall crop management and handling practices.
Results and client benefits
Shortly after installation, the team identified an issue with the drippers in one group. This insight allowed them to gradually adjust irrigation in one of the groups using the Vivent Biosignals water model. The results: reduced water usage, improved fruit quality, and better nutrient uptake in the treated plants.
1. Reduced water usage
2. Reduced fertilizer costs
3. Improved fruit quality
From claims to quantified proof
Moving beyond trial-and-error toward evidence-driven agronomy
By integrating Vivent Biosignals’ technology, Morao Arándanos moved from assumptions about crop performance to continuous, data-driven insight into plant behavior. This enabled more precise decision-making in irrigation and crop management, reducing uncertainty in day-to-day operations and improving overall consistency in fruit quality.
Why it matters
Beyond operational improvements, the real value lies in turning plant-level signals into measurable evidence of crop response, allowing Morao to validate management decisions in real time. This shift from intuition to quantification strengthens both agronomic control and long-term productivity in protected blueberry cultivation.
Plants know best — and now they can show it.
“The information is available immediately, allowing you to see exactly what is happening with the plants in real time, process the data, and make the necessary adjustments.”
Marao Arándanos
Vivent plant sensors enable:
See how crops respond, optimise products and practices, and make more confident decisions, based on plant data, not guesswork.
Get in touch with us.
Fill out the form below or book a meeting directly with one of our team members!
Let’s connect to explore the future of agriculture together!
Plants are talking, we let you listen in.
European Innovation Project
Autonomous, AI-driven crop management based on electrophysiological plant signals
Duration
10/2025 – 03/2028
About this project
Autonomous, AI-driven crop management based on electrophysiological plant signals
The project focuses on the practical development and validation of innovative biosensors and AI software that analyze electrophysiological signals from plants for the early detection of stressors. By enabling direct, real-time feedback from the plant, growers can implement more targeted, efficient, and sustainable cultivation interventions. This contributes to higher yields, reduced resource use, and a future-proof, data-driven agriculture and horticulture sector.
Peelkroon
Zachtfruit Schalkwijk
Medegefinancierd door de Europese Unie
See how crops respond, optimise products and practices, and make more confident decisions, based on plant data, not guesswork.
Get in touch with us.
Fill out the form below or book a meeting directly with one of our team members!
Let’s connect to explore the future of agriculture together!
Plants are talking, we let you listen in.
Editor’s pick
- Crops were not growing as strongly or consistently as expected
- Soils showed room for improvement in terms of biological activity and structure
- Yields and plant resilience were not keeping pace with increasing effort and input costs
- More inputs did not reliably translate into better outcomes
- Fields managed under the farmer’s current best practice (control)
- Adjacent fields treated with Symactiv biostimulant
- Plant Balance Index (PBI) – a real-time indicator of plant adaptation and stress
- Water status
- Nutrient uptake dynamics
- Responses to temperature, humidity, and extreme weather
- In both potatoes and tomatoes, Symactiv-treated plants spent ~7% more time in the optimal Plant Balance range
- Treated plants adapted faster and more consistently to cold, wet, hot, and dry periods
- Differences became most pronounced during weather stress and extreme conditions, where resilience matters most. Better water status under stress
- Symactiv-treated crops showed better water status during high temperatures and low humidity
- Improvements were especially visible during prolonged warm and dry periods, when untreated plants became less stable
- In potatoes, treated plants showed higher Calcium and Phosphorus availability, particularly from mid-season onwards
- In tomatoes, Nitrogen, Phosphorus, and Potassium status improved significantly in treated plants from mid-August
- Nutrient uptake was strongest under cooler and wetter conditions, aligning with Symactiv’s soil-biology-driven mode of action
- Prove product performance under real conditions
- Optimize recommendations
- Accelerate adoption with confidence
- Real time insight into plant responses
Understand how crops react to inputs as conditions change - Data-driven confidence
Support farmer and advisor decisions with objective plant data - Smarter product and practice optimisation
Improve formulations, recommendations, and on-farm performance - More resilient crop management
Reduce guesswork and respond earlier to emerging stress
European Innovation Project
Autonomous, AI-driven crop management based on electrophysiological plant signals
Duration
10/2025 – 03/2028
About this project
Autonomous, AI-driven crop management based on electrophysiological plant signals
The project focuses on the practical development and validation of innovative biosensors and AI software that analyze electrophysiological signals from plants for the early detection of stressors. By enabling direct, real-time feedback from the plant, growers can implement more targeted, efficient, and sustainable cultivation interventions. This contributes to higher yields, reduced resource use, and a future-proof, data-driven agriculture and horticulture sector.
Peelkroon
Zachtfruit Schalkwijk
Medegefinancierd door de Europese Unie
See how crops respond, optimise products and practices, and make more confident decisions, based on plant data, not guesswork.
Get in touch with us.
Fill out the form below or book a meeting directly with one of our team members!
Let’s connect to explore the future of agriculture together!
Plants are talking, we let you listen in.
Symactiv x Vivent Biosignals x Jucker Farm AG
Quantifying the Impact of Soil Biology on Crop Performance
Symactiv is a Swiss biostimulant provider focused on restoring soil biology to turn depleted soils into productive, resilient growing systems. By rebuilding biological balance underground, Symactiv helps crops access water and nutrients more efficiently, delivering consistent performance year after year.
Jucker Farm AG, located near Pfäffikersee in Switzerland, is a progressive vegetable producer growing potatoes and tomatoes under demanding climatic conditions. Like many growers, Jucker Farm continuously evaluates new agronomic solutions that can improve crop resilience and input efficiency without adding operational complexity.
“Using Vivent’s solution, we could see when and why our biostimulant makes a difference. We were delighted to get quantified evidence of the benefits in water and nutrient status for crops treated with Symactiv.”
Philippe Schläpfer, Symactiv Co-founder and CTO
Agronomic challenge
Despite implementing regenerative practices and maintaining soils in good apparent condition, the farm faced several persistent challenges according to standard crop analysis:
Our approach
To objectively quantify the impact of Symactiv’s soil enhancer, we deployed Vivent’s plant-based sensing technology directly in the field.
Across potato and tomato trials, Vivent plant sensors were installed in:
Rather than relying solely on yield or visual assessments, Vivent Biosignals continuously monitored:
This approach allowed Symactiv and the farmer to compare treatments under identical environmental conditions, isolating the biological effect of the biostimulant.
Results and client benefits
1. Improved Plant Stability and Resilience
2. Better water status under stress
3. Enhanced nutrient uptake
From claims to quantified proof
Moving beyond trial-and-error toward evidence-driven agronomy
For Symactiv, these trials provided independent, plant-level evidence explaining why and when their biostimulant delivers value — strengthening both product development and customer communication. Treated plants showed substantial yield increases of approximately 15% compared to untreated plants for these specific crop cycles.
For Jucker Farm, the results validated Symactiv as a practical, field-ready solution that integrates seamlessly into existing operations while improving crop resilience.
Why it matters
This collaboration demonstrates how plant-based biosignal monitoring enables biostimulant providers and growers to move beyond trial-and-error toward evidence-driven agronomy.
By letting plants themselves report on stress, water, and nutrient dynamics, Vivent helps partners like Symactiv:
Plants know best — and now they can show it.
“Symactiv turns good ideas into practical, field-ready solutions. It fits seamlessly into our operations and has real potential for broader adoption.”
Martin Jucker, Jucker Farm AG
Vivent plant sensors enable:
When biostimulants work, plants know it. See it in real time.
Our wearable sensors decode plant biosignals to reveal real-time crop responses to biostimulants. Biostimulant companies can demonstrate efficacy and optimise formulations faster, while growers and advisors fine-tune dosages and application schedules for maximum impact. Less trial-and-error. More measurable crop health gains.
Discover the added value of Vivent for biostimulants through field cases and more in our biostimulant brochure.
See how crops respond, optimise products and practices, and make more confident decisions, based on plant data, not guesswork.
Get in touch with us.
Fill out the form below or book a meeting directly with one of our team members!
