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The Science that Grows from the Vine: How Biosolutions Can Protect the Wine of the Future

November 28, 2025
Blog, Highlight, News, Project, Report
Ines Ferreira

In viticulture, every little decision has an impact: on the soil, on the health of the plants and on the quality of the grapes that form the basis of the wine that reaches our table. The future of viticulture may depend on a single biosolution. Or a hundred. In VINNY, an ambitious European project of which InPP is a part, researchers from ten countries are looking for bioactives capable of curbing vine diseases - and, at the same time, reducing dependence on synthetic agrochemicals. What's at stake is not just science: it's the sustainability of this industry.

The aim of the VINNY project is simple but transformative: develop and implement effective, sustainable solutions and adaptable to the needs of winegrowers in various European countries, creating environmentally friendly biopesticides and biofertilizers, and advanced nano-encapsulation technologies, to reduce dependence on conventional chemicals and promote a healthier ecosystem and a better environment and a circular viticulture.

And at the heart of this mission is an essential cog in the wheel: the daily work of the researchers who search for answers invisible to the human eye - as is the case with Tiago Amaro, a researcher at InPP.

Image credits: VINNY Project

Searching for the Guardians of the Vine

The road to these new biosolutions begins in the field, with the vine. The initial work of Tiago Amaro, started in September 2024 and focuses on identifying and isolating microorganisms naturally present in the vines themselves, in samples received from partners in Portugal, Spain, Austria and Denmark.

From grapes, sticks or woody fragments, small microscopic worlds arrive in the laboratory that may contain the natural weapons needed to fighting three major threats to the vineyard, with a direct impact on farm profitability:
- A gray mold (Botrytis cinerea) and blue mold (Penicillium expansum): Fungi that cause post-harvest diseases, In the case of wine grapes, this affects the quality of the wine and makes it completely impossible to sell table grapes.
- The vine tumors: Caused by bacteria Allorhizobium vitis, This disease affects the plant in the field, causing leaf fall and reduced grape production.

Tiago Amaro, InnovPlantProtect researcher, identifying and isolating bacteria as part of the VINNY project. Image credits: InnovPlantProtect - Inês Ferreira

After isolating the microorganisms, Tiago dedicated himself to creating libraries of bacteria. What is a ‘Bacteria Library’? In the context of the investigation, a bacteria library is an organized and catalogued collection of bacteria isolated from different sources. It allows scientists to test each strain of bacteria against specific pathogens, constituting a vast catalog of potential biological ‘superheroes’ for plant protection.

This rigorous screening, which has already led to the analysis of more than 190 bacteria of this library is the first line of defense. The team selects the best candidates with the potential to be used as biological control agents against the diseases under study.

The Power of European Collaboration

What if the solution to protecting Portuguese vineyards is hidden in a Danish grape? Or in a bacterium isolated in Spain? One of the most exciting aspects of the project is its truly collaborative dimension, where researchers from ten countries are working in parallel, sharing answers, challenges and microorganisms in search of effective biosolutions for the whole of Europe.

“All the solutions found will be shared, all the solutions will be tested by all the partners and it will be possible to build a ‘library of solutions’ against the various vine diseases“ emphasizes researcher Tiago Amaro.

The sharing of bacteria and extracts from different ecosystems (Portugal, Spain, Denmark and Austria) is crucial. An effective bacterium in Denmark could be the key to protecting Portuguese vineyards, and vice versa. This exchange of biological solutions, one of the innovative pillars of the project, makes it possible to exploit the microbial biodiversity beyond national borders. InPP has the fundamental role of testing, in grapes, the solutions discovered by our team as well as by other national and European partners.

This diversity of tests is a bet on the future: microorganisms that don't prove effective against vine diseases could be the solution for pathologies in other crops.

Left photo: Tiago Amaro, InPP researcher, observing a grapevine leaf, the target crop of the VINNY project, Right photo: Potted grapevine plants in the InPP greenhouse, ready to test the solutions found by the various VINNY partners. Image credits: InnovPlantProtect - Inês Ferreira

The Real Test: From the Lab to the Field

After selection in the laboratory, the next step - the formulation of the most promising bacteria - will be carried out in Portugal and Spain, at the University of Minho and the Polytechnic University of Catalonia. But it is in the field-testing phase that the greatest challenge of plant protection science lies, because even brilliant results in the laboratory can fail in the field. Formulation is the process that turns a bacterium into a product - stable, applicable and compatible with the farmer's needs.

Tiago Amaro emphasizes necessary resilience:

Field Uncertainty: Often, promising solutions in the laboratory or greenhouse are not as effective when applied in the field, due to environmental variables (climate, soil, etc.).
The Time Factor: Diseases such as Allorhizobium vitis may take a long time to develop, or the infection may not be relevant in certain years, which makes it difficult to obtain robust conclusions.
The Agricultural Cycle: It is necessary to test the formulation in the field during three to five consecutive years, and recording all the variations observed. With only one harvest a year, this process requires patience and persistence.

In total, from the discovery of a promising bacterium to the creation of a formulated product, proven to be effective and ready for the market, it can take around 10 years - a real test of any scientist's resilience.

Customized solutions: the new requirement of modern agriculture

The final challenge is to ensure that the tests are relevant to the producer's reality. The current trend in the agricultural sector is the search for customized solutions, adapted to the specific conditions of the farms: “There has to be a solution for every field and every farmer”, says the researcher.

This personalized approach requires more science, more rigor and more local knowledge - exactly what VINNY seeks to build.

A Europe united by science and the vine

InPP is part of this consortium, made up of 19 partners from ten countries, The project is led by the University of Minho and funded by the Horizon Europe program.

Together, they seek to answer a question that could shape the future of European viticulture: Will it be possible to find effective biosolutions for all partner countries?

The answer is still being written - in laboratories, in experimental vineyards, in fields in different climates and geographies.
And it's made up of small discoveries, many frustrations and a huge commitment to science.

Because protecting the vineyard of the future is not just a technical ambition.
It is a cultural, economic and environmental commitment.
And VINNY is helping to design that future - one microorganism at a time.

AlViGen project strengthens genomic surveillance of agricultural diseases in Alentejo

October 24, 2025
Blog, Highlight, News, Project
Ines Ferreira

The final workshop highlighted three years of research dedicated to the early detection of pathogens in crops such as wheat and olive groves.

The project AlViGen has reached its final stretch, concluding three years of research focused on the genomic surveillance of agricultural diseases. The results now presented promise to strengthen the Alentejo agricultural sector's ability to respond to emerging phytosanitary threats.

On the day October 23rd, The final project workshop, The event brought together researchers, producers and technicians to share results and reflect on the future of genomic surveillance in Portuguese agriculture.

A pioneering genomic surveillance center

During AlViGen, the Alentejo's first genomic surveillance center, an infrastructure with capacity for early detection of diseases in strategic crops such as wheat and olive grove. This breakthrough marks a decisive step towards a more precise, sustainable and science-based agriculture.

Results and scientific contributions

Using innovative molecular tools, the project team succeeded:

Identify pathogenic fungi before visible symptoms appear on the plants;
Characterizing yellow rust strains, genetically linking them to others known at a global level;
Detecting resistance genes in wheat to the strains currently present in Portugal;
Developing diagnostic methods able to distinguish the different species of the fungus that causes gafa in olive groves.

During the workshop, the potential of the analysis of the airborne fungi community as a tool for early warning for multiple pathogens, allowing for more effective and preventive management of crop diseases.

From research to practical application

The event ended with a debate on how transform AlViGen results in a detection and warning service accessible to the agricultural sector. The initiative reflects the joint commitment between science, innovation and production, with a view to protecting national agriculture from the challenges of the future.

Partnerships and thanks

InnovPlantProtect would like to thank all the partners and funders of the project:
University of Évora, John Innes Centre, INIAV, De Prado, CERSUL, Eugénio de Almeida Foundation, Torre das Figueiras Estate, Almojanda, Malheiro Estate, Directorate-General for Food and Veterinary (DGAV), la Caixa“ Foundation”, BPI Bank e Foundation for Science and Technology (FCT).

Image credits: InnovPlantProtect - Inês Ferreira

InPP was in Italy for the kick-off meeting of the European PROSPER project

October 6, 2025
Blog, Highlight, News, Project
Ines Ferreira

InPP took part in the kick-off meeting for the European PROSPER project, held on October 2 and 3 in Pavia, Italy. In attendance were the director of the Monitoring and Diagnostics Department, Ilaria Marengo, and the project manager, Bruno Orrico.

PROSPER's main objective is to transform European agriculture by valorizing highly resilient “orphan” legumes - forgotten crops, but full of potential to face the climate and food challenges of the future.

The project promotes sustainable, innovative practices adapted to different agricultural realities.

Over the two days, 27 partners from 13 countries met for presentations, in-depth discussions and strategic talks about the project's next steps.

We are excited about what comes next, certain that this journey will be more than a collaboration - it will be a true cooperation within an exceptional team.

Join us and keep up to date with all the news from the PROSPER Project!

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EVENTS

Partnership with CEPAAL to protect olive groves

June 14, 2021
Blog
Ines Ferreira

InPP and CEPAAL formalized a partnership protocol with the aim of supporting the members of the Center for the Study and Promotion of Olive Oil in Alentejo in the protection of their olive groves.

The two entities will collaborate in developing strategies to solve the challenges posed by pests and diseases to the Center's member agricultural companies. The partnership also includes the provision of laboratory and digital services by InPP to CEPAAL producers, under specific contracts.

Feature image: Julie-Kolibrie | Pixabay

InPP accepted as ‘Plants for the Future’ observer’

June 14, 2021
Blog
Ines Ferreira

InnovPlantProtect has been formally accepted as an observer for the European Technology Platform (ETP) ‘Plants for the Future’.

InPP has joined the observer group of the European Technology Platform (ETP) ‘Plants for the Future’, which represents the innovation channel in the area of plant science and agriculture. The Plant ETP aims to stimulate research and innovation by promoting dialogue between industry, academia and the agricultural community, in order to benefit producers and end consumers.

The ETPs are public-private partnerships recognized by the European Commission and are considered instrumental in the transfer of knowledge, driving innovation and promoting competitiveness at European level.

“We are able to make changes in a similar way to what happens in nature”

June 7, 2021
Latest
Ines Ferreira

“All the new technologies applied to [plant] breeding are the result of the development of scientific knowledge and its application to a practice that goes back 10,000 years,” defended InPP's executive director, during the event. webinar “Debates on Biotechnology: from Agriculture to the Bioeconomy”. “The ability we have to improve plants so that they produce what we need is not something that suddenly appears,” recalled Pedro Fevereiro, in the session entitled “Biotechnology in agriculture and agro-industry”.

The event, organized on June 7 by the Portuguese Farmers' Confederation (CAP) and the Portuguese Bioindustry Association (P-BIO), as part of the National Agriculture Fair 2021 and BIOMEET Sessions 2021, “We are now able to intervene at specific points in order to make changes in a similar way to what happens in nature,” explains Pedro Fevereiro. The InPP CEO recalls that these NTGs derive from our current ability to sequence the genomes of all organisms, particularly plants - which allows us to know at what point we need to act in order to alter plant characteristics so that they behave as we want them to, be it with an increase in productivity, an increase in tolerance to environmental factors, etc.

NTG also allows for a much more regional adaptation to the needs of producers and consumers. “One of the big differences is that we don't introduce new DNA sequences into plants, or we introduce very small sequences.” For Pedro Fevereiro, the concern about biodiversity is really a false question, since we've always been looking for more adaptable plants and “what can affect biodiversity are bad agricultural practices”. For a CoLab like InPP, which is dedicated to developing bio-inspired technologies for crop protection, NTG is the most advanced way of managing the genome of plants so that they resist pests and diseases, particularly emerging ones, in the context of reducing the use of traditional phytopharmaceuticals.

One of the aspects enshrined in the GMO directive, which dates back to 2001, is that the legislation should be adjusted in line with the evolution and practice of these techniques, recalls the director of the InPP, concluding that “we should have started ten years ago”. Not least because only NTGs will make it possible to respond to consumer requests in good time.

The three speakers on this panel, moderated by CAP's secretary-general Luís Mira, were unanimous: communication about NTGs needs to be more effective than that regarding genetically modified organisms (GMOs) in the 1990s, and it needs to reach the general population, agreed the deputy director-general of the Directorate-General for Food and Veterinary (DGAV), and Pedro Queiroz, director-general of the Federation of Portuguese Agri-Food Industries (FIPA). Paula Carvalho, who mentioned the case of wheat in Germany and France, which has already reached stagnation in terms of production capacity, even hopes that “European legislative adaptation won't take too long”.