It's called PROSPER and it's a new European project that aims to transform European agriculture through the valorization of “orphan” legumes - resistant crops, little exploited, but with great potential to face the challenges of climate and food in the future.
The consortium, with total funding of around 5 million euros, brings together 27 partners from 13 European countries and Tunisia, including universities, research centers, companies and non-profit organizations in the agricultural sector. Among them are countries from the Mediterranean (Italy, Spain, Greece, Portugal and France), Central Europe (Germany, Belgium, Poland, Bulgaria and Romania), Northern Europe (Denmark, Sweden and Finland).
The aim of PROSPER is to test and validate new agricultural diversification strategies, adapted to different climates and social and economic contexts, promoting more sustainable, innovative practices that are adjusted to the needs of different agricultural realities.
InPP, PROSPER's partner, will be responsible for analyzing:
Soil health and environmental impact
Energy efficiency and waste management
Nutritional quality of crops
Fair valuation along the production chain
To do this, the InPP team will use advanced technologies, such as real-time sensors and geospatial analysis, which will help study soil health, carbon sequestration captured by crops, water management and biodiversity, among others.
PROSPER is co-created with the main players in the agricultural sector, ensuring that the solutions developed do not remain on paper: they will be practical, useful and transformative.
The project starts in September 2025. We are ready to embark on this journey towards a greener, fairer and more resilient agriculture.
InnovPlantProtect (InPP) was present at the Science 2025 Meeting in Lisbon, at the Nova SBE Campus, to take part in the parallel session “Crop Protection for One Health, and Food and Environmental Sustainability”.
The Encontro Ciência took place from July 9 to 11 at the NOVA SBE Campus in Carcavelos, with the motto “Science, Innovation and Society”. Portugal's largest science and technology meeting was the stage for promoting and discussing the scientific, social, cultural and economic impact of research in Portugal, exploring the intersection between science, innovation and society, to inspire new ideas and foster transformative collaborations.
The director of the Data Management and Risk Analysis Department, Ricardo Ramiro, and the director of the New Biopesticides Department, Cristina Azevedo, presented some of the results of their work in this session co-moderated by the executive director, António Saraiva.
During the session, two important solutions for the agricultural sector, developed by our team, were presented:
iCountPests - an innovative app that uses AI to detect and count pests accurately and quickly in photos of chromotropic traps.
InPP 2 - a broad-spectrum biofungicide capable of fighting Botrytis cinerea, the fungus responsible for gray rot in tomatoes.
CoLAB MORE Colab - Collaborative Mountain Research Laboratory and Sfcolab - Collaborative Laboratory for Digital Innovation in Agriculture, were also present at the parallel session, as well as GREEN-IT, to discuss how science and innovation can tackle the challenges of climate change and promote more sustainable agricultural systems.
On June 30, InnovPlantProtect (InPP) was present at the meeting “7 years of CoLABs: impacts and perspectives”, which brought together political decision-makers, experts from the Portuguese innovation ecosystem, leaders from different sectors, representatives of public and private entities and the representatives of the 41 Collaborative Laboratories (CoLAB), at the Pavilhão do Conhecimento in Lisbon.
The meeting, organized by the Forum of Collaborative Laboratories (FCoLAB), aimed to reflect on the impact of the work carried out by the different CoLABs over the last seven years, as well as to address future prospects and identify strategies to boost the contribution of scientific research and innovation to the economy and society.
This initiative was an opportunity to showcase the products, services and solutions developed by CoLAB over the last seven years, highlighting its contribution to innovation, competitiveness and sustainability in various sectors of the economy. The application recently launched by InPP, iCountPests, which allows pests to be counted automatically using images from traps, reducing the time invested in monitoring and making it possible to create a pest history, was also highlighted.
The event was attended by the Minister of Education, Science and Innovation, Fernando Alexandre, the Secretary of State for the Economy, João Rui Ferreira, Manuel Heitor, from the IN+ Center for Innovation, Technology and Policy Research and former Minister of Science and Innovation, António Grilo, President of ANI, among others.
In his speech, the Minister for Education, Science and Innovation, Fernando Alexandre, highlighted the purpose of science at national level: “We hope that the science created in Portugal will generate innovation. More than technology, innovation is the answer to society's problems. You are the agents of change!”.
During the session, the main activity indicators and proven impact of the first seven years of CoLABs' activity were also presented, and multisectoral perspectives on their role in the national science and innovation ecosystem were debated, focusing on topics such as socio-economic impact, internationalization, business competitiveness, technological innovation and sustainability.
The activity indicators and the impact of the 7 years of activity are as follows:
More than 260 projects approved
More than 1,300 qualified jobs created
19M€ in tax revenue generated
More than 900 interactions with companies
33 patent applications (10 granted)
680 scientific articles published
The two afternoon panels were attended by companies, partners and management entities, who reflected on the impact generated so far and presented proposals for maximizing CoLAB's long-term contribution to both the economy and Portuguese society.
At a time when the basic funding options for CoLABs are being discussed, this event is of the utmost importance. The area of crop protection, in particular, needs more investment in innovation. Holding this event was important for bringing this urgent and strategically important issue to the debate.
The InPP was also present in the exhibition area, receiving important visitors, including the Minister of Education, Science and Innovation, Fernando Alexandre, the Secretary of State for the Economy, João Rui Ferreira, the Secretary of State for Science and Innovation, Helena Canhão, the President of the FCT, Madalena Alves, the President of the National Innovation Agency, António Grilo, the President of the National Monitoring Committee for the RRP, Pedro Dominguinhos and the Executive Director of Ciência Viva, Ana Noronha.
Nature Plants highlights the advantages of new genome editing techniques but warns of three crucial aspects that still need to be addressed.
“The rapid development of plant biotechnologies is profoundly shaping crop improvement and catalyzing the next revolution in agriculture,” writes an editorial recently published by Nature Plants, entitled Next-generation crop engineering (Next-generation crop engineering).
Crop improvement no longer has to depend on naturally occurring mutations and artificially generated variations can be the raw material for further improvement, the text argues. “A much broader spectrum of phenotypic space is ready for exploration, allowing the development of ideal phenotypes adapted to the heterogeneous environments of Earth, or even Space,” argue the authors of the paper. article, He concluded that “a new agricultural revolution driven by biotechnology could be just around the corner”.
Image: Francesco Gallarotti/ Unsplash
The editorial refers to the promise and advantages of the new genome editing techniques, particularly compared to classical breeding, but not only. And it warns of three crucial factors that are still missing in order to achieve high levels of variation through gene editing: 1) a better understanding of the key regulators for genes that are important from an evolutionary or developmental point of view; 2) being able to dissect networks of genes that control phenotypes of interest and regulatory networks in cis that affect gene expression; 3) to establish stable and efficient transformation and regeneration procedures for most species.
Unless genetic editing in planta is developed quickly, breeding based on gene editing will be unable to benefit recalcitrant species. It is also recalled that there are alternative strategies for engineering new generation crops, such as the transfection of viral RNA in sprays, which allows for the temporary adjustment of agronomic characteristics without modifying the genetic material.
The DGAV has announced new requirements for citrus production and marketing, due to the African citrus psyllid plague.
The technical requirements for the production and marketing of citrus fruits and other rutaceous plants in a place free from Trioza erytreae, the insect vector of the disease citrus greening, were recently updated and published by the Directorate-General for Food and Veterinary (DGAV).
The rutaceae are a family of trees in which the genus Citrus is imperative from the point of view of economic value. O citrus greening, greening citrus greening, Huanglongbing disease or citrus greening is caused by the African citrus psyllid (Trioza erytreae), an insect vector that also causes direct damage to citrus fruits.
“In view of the detection of Trioza erytreae in some regions of the country and given the expansion that has already occurred in the area infested by this insect, we have tried to ensure a set of conditions to ensure the continuity of production and marketing of citrus propagating material in regions where the pest is present,” explain the DGAV officials in a press release. document. The update was motivated by “experience gained in the meantime” and by the new legislation in force: Annex VIII of Implementing Regulation (EU) 2019/2072 and Ordinance no. 142/2020.
A Trioza erytreae is a quarantine pest on national territory.
In the T. erytreae, In addition to the obligatory declaration of mother or nursery plants, citrus and other rutaceous plants must be produced “in a place with complete physical protection against this insect” and have been subject to two official inspections in the last growing season without showing any symptoms of the pest.
For marketing, the plants must also be kept in a place with complete physical protection against this insect “and come from exempt areas (outside infested zones and buffer zones) or from nurseries located in demarcated zones”, among other requirements, which aim to guarantee that no infestation occurs.
InPP has a cooperation project with the DGAV to take part in the task force phytosanitary measures and to support the biological control plan with a view to controlling the Trioza erytreae.
Researchers at InPP are developing machine learning methods for predicting phenotypic traits from genetic information of key crops. The project is led by Manisha Sirsat, from the Data Management and Risk Analysis Department, which is headed by Ricardo Ramiro, in collaboration with the Protection of Specific Crops Department, headed by Paula Oblessuc.
Over the last decade, machine learning has become part of our everyday lives, when it suggests the next song you should listen to or the restaurant you should go to. This branch of artificial intelligence is focused on building models and applications that can learn from data, in order to predict a particular outcome. For this to be possible, large amounts of data are necessary which, until recently, would preclude its application in most fields of biology. However, in the last 20 years, biology has become a data-intensive discipline, due to the revolution brought by high-throughput systems for fields as disparate as genomics and microscopy. Thus, machine learning methods are now being applied to a wide range of biological questions.
At InPP, the team is taking advantage of the availability of high-throughput genomic and phenotypic data for key phenotypes of important crops (e.g. wheat genomes and yield) and using this data to develop machine learning models that can predict the phenotype from the genotype. This approach is termed Genomic Prediction. “The aim is to develop an advanced genomic prediction tool which uses genome-wide genetic markers to predict complex traits,” states Manisha Sirsat. “This will allow us to identify genetic markers that can increase agricultural productivity and that can accelerate plant breeding programs,” adds Ricardo Ramiro.
Image by congerdesign/ Pixabay
Image by annawaldl/ Pixabay
An advanced genomic prediction tool can help accelerate plant breeding programs and increase agricultural productivity.
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