On September 18, the executive director of InnovPlantProtect (InPP), António Saraiva, the director of the New Biopesticides Department, Cristina Azevedo, and researcher Luís Grilo attended the Open Day “The Cereals of Baixo Mondego”, promoted by the Centro Regional Coordination and Development Commission (CCDR Centro), at the Bico da Barca Experimental Unit in Montemor-o-Velho.
The event highlighted the latest innovations from the Coimbra Innovation Hub, from new technologies applied to maize and rice, to fertilization strategies, protection and the use of biostimulants on these key crops in the Baixo Mondego region.
Our team also monitored trials with biofungicides, including the product I21, developed with our collaborative laboratory to combat pyriculariosis in two rice varieties, which is being patented.
In an interview with Voice of the Countryside, Cristina Azevedo shared the work we have been doing in the area of biosolutions.
Maize continues to be the Portugal's most important arable crop, The sector has a significant impact on food safety and the national agri-food industry. Involving thousands of producers and generating tens of millions of euros a year, the sector is currently facing increasingly complex phytosanitary challenges.
Among already known pests and emerging diseases, there are risks ranging from cartridge caterpillar until Maize Rugose Dwarfism Virus (MRDV), The presence of this virus is increasing in Portugal. This virus, transmitted by the corn leafhopper, can seriously compromise production and is found in the climate change increasingly favorable conditions for its spread.
However, it's not just MRDV that's worrying. There are new threats that require vigilance, such as the coleopter Diabrotica virgifera or the MDMV virus (Maize Dwarf Mosaic Virus), already detected in neighboring countries, and also toxic weeds, such as the winter fig (Datura stramonium), which in addition to impacting productivity pose public health risks.
Faced with this reality, the answer is integrated and sustainable strategies, matching:
crop rotation and good agricultural practices;
careful use of insecticides to avoid resistance and environmental impacts;
resistant or tolerant varieties, where available;
research and technological innovation, including new digital tools for early detection.
As the InnovPlantProtect researcher points out, Nuno Faria, in the article entitled “The main emerging pests and diseases of the maize crop in Portugal”, available in the August edition of Voz do Campo magazine: “The phytosanitary panorama of maize in Portugal requires continuous vigilance, investment in research and the application of integrated and sustainable strategies capable of responding to an increasingly dynamic and unpredictable reality.”
To find out more about the main current risks and mitigation measures, read the full article published in the August issue of Voz do Campo magazine (pages 88-89), available on newsstands and online.
InnovPlantProtect (InPP) is pleased to announce the publication of an international patent application (PCT) for a strain of Bacillus velezensis with application as a plant biostimulant. This innovation represents a significant milestone in our research, with a direct impact on sustainable agriculture and crop resilience in the face of climate and environmental challenges.
A natural and effective solution
The biostimulant developed by our team has been carefully studied and tested on different vegetable crops, such as tomatoes and lettuce, and on cereals, such as rice. The results obtained demonstrate the potential of this technology:
Greater development in the early stages of crops, This promotes more vigorous and healthy starts.
Increased productivity, This is evidenced by greater fresh biomass in lettuce and greater fruit production in tomatoes.
Proven molecular responses, with analyses confirming the activation of genes associated with plant responses to different types of abiotic stress.
These results reinforce the effectiveness of the Bacillus velezensis as a natural biostimulation tool, capable of boosting crop performance and contributing to more sustainable agriculture.
From the lab to the field
This patent is another step in InPP's commitment to developing innovative, sustainable biotechnological solutions with industrial applicability. The aim is clear: to support farmers and companies in the sector in meeting the challenges of crop productivity, quality and resilience, in an era when agriculture needs sustainable, high-impact responses.
We are looking for strategic partnerships
We are currently looking for new partnerships with companies and entities in the agricultural sector to take this technology from the laboratory to the field. We believe that collaboration is the key to turning scientific innovation into practical solutions that benefit the entire agricultural value chain.
If you're interested in learning more about this technology or exploring opportunities for collaboration, talk to us. Together we can drive a more productive, resilient and sustainable agriculture.
Innovate together. Protect better.
Image credits: InnovPlantProtect - Inês Ferreira (Photos from left to right: Sandra Caeiro and Rui Figueiras, researchers from the Specific Crop Protection Department and Inês Mexia, researcher from the Formulations and Process Development Department.
InnovPlantProtect (InPP) already has a camera walk-in with temperature control, humidity and exposure to light with photoperiod, to grow plants as part of their projects.
The Department for the Protection of Specific Crops has been using this new equipment since May 10, namely to grow Persian clover and wheat, for the PitSTOP projects, with Fertiprado, and WhYRust, respectively.
The climate chamber walk-in will allow experiments to be carried out under controlled conditions on different crops throughout the year. “Together with the renovation of the greenhouse, this plant growth environment is very important for expanding our response capacity,” explains Paula Oblessuc, director of that department.
“The climate chamber walk-in allows experiments to be carried out under controlled conditions all year round.“
In other words, InPP researchers will be able to carry out more detailed experiments and work on a greater number of projects simultaneously, with a camera that “is maintaining the established conditions very well”, stresses Paula Oblessuc. The PitSTOP project aims to identify the pathogen(s) that is/are attacking Fertiprado's clover meadows and propose a solution to combat the disease(s).
WhYRust aims to combat wheat yellow rust, in particular by identifying resistance genes in the cereal, validating a warning system and developing genomic prediction models to support precision breeding.
The Rector of NOVA University Lisbon doesn't know if the special affection he feels for farmers comes from his “Alentejo rib” and his childhood connected to the land, but he does know that farmers play a crucial role in building a more sustainable world. So it is with enthusiasm that João Sàágua speaks of InnovPlantProtect, a collaborative laboratory led by NOVA, as an ally of sustainability in agricultural production, created to develop innovative solutions to protect crops from pests and diseases.
Text: Margarida Paredes/ InPP Photos and video: NOVA University Lisbon NOVA University Lisbon (NOVA) is the institution that has put the most effort into creating the InnovPlantProtect (InPP) Collaborative Laboratory (CoLab). Why is this project so important to NOVA? Essentially for two reasons. Despite having excellent teaching and research, NOVA University still has a lot of room for growth in terms of knowledge transfer or, if you like, connection to society. In fact, one of the strong points of my candidacy for Rector of NOVA was the desire to increase the University's connection to society, in a visible and concrete way, and InnovPlantProtect is an example of this.
The other reason has to do with the topic itself: agriculture. The sustainability of agriculture and the guarantee of that sustainability based on knowledge and technology are fundamental to the country's development, in particular, but also to achieving the very important SDGs - Sustainable Development Goals. Let's just say that InPP represents NOVA's commitment to sustainable agriculture. I should also add that the enthusiasm with which the mayor of Elvas, Nuno Mocinha, welcomed us and supported the project from the outset has increased our desire to carry out this project and to do it in Elvas.
Is this CoLab “the apple of your eye”? I ask because NOVA, despite having eleven Collaborative Laboratories, has only led two projects, including this one. It's true, we lead two CoLabs - this one and another in the health area - and we participate in nine others, but InPP really has all the conditions to be the “apple of my eye”. Firstly, because of its area of activity. Contributing to making the Mediterranean diet sustainable is very important to us, because we know that in doing so we are also supporting the country's development. Secondly, as the son of a woman from Alentejo, I consider this project's contribution to territorial cohesion to be crucial.
The InPP was approved by the FCT - Foundation for Science and Technology with the highest grade, after evaluation by an international team, and its work is already underway. What is NOVA's role in this project at the moment? Our presence at InPP is permanent. It's visible in the Board of Directors, chaired by NOVA, and in the Management - the CEO, Professor Pedro Fevereiro, came from ITQB NOVA, a University Institute. In addition, in terms of research, we have joint projects that have already been submitted for funding. Another important aspect is the dual affiliation, which allows researchers from this University to also work at the CoLab for five years.
“I think the most important impact of the InPP will be the creation of economic and social value.”
As an entity that trains researchers, and given that this project was led by the GREEN-IT research unit of NOVA's Institute of Chemical and Biological Technology, in cooperation with other NOVA research units (CTS FCT NOVA, NOVA LINCS, FCT NOVA and MagiC NOVA IMS), is there any link between NOVA and InPP in terms of hiring highly qualified human resources? There is strategic collaboration and exchange between researchers on both sides and also intense collaboration between several NOVA professors, from the various research centers you mentioned, at the InPP. But the InPP is hiring its own body of researchers, solid and with a high international profile, who will certainly also work on projects involving NOVA professors and researchers. I want to emphasize that I consider this aspect: progressively, the Elvas community is growing with people who work at the InPP and who make their living and have their family in Elvas.
“Given the particular nature of this CoLab, our expectation is that funding will come from its ability to innovate and even export innovation.”
What are the challenges facing a CoLab like InPP, the only one in this area in Portugal? I would point to three fundamental challenges, the first of which is financial sustainability. CoLab has significant funding from the FCT - Foundation for Science and Technology, strong support from the Elvas local authority, which was crucial in launching this laboratory, and significant support from its various associates. But it will have to generate enough wealth in five years to guarantee its own financial sustainability.
Given the particular nature of this CoLab, our expectation is that funding will come from its ability to innovate and even export innovation. If InPP manages to develop products (such as biopesticides and plants resistant to pests and diseases) and services (such as forecasting and monitoring pests and diseases, among others) of sufficient quality and importance, it can not only guarantee its sustainability through the sale of these products and services, but also increase Portugal's export capacity in the area of knowledge in sustainable agriculture.
Another challenge, which I think has already been met, is attracting highly qualified human resources. As Elvas is not a major metropolis, it might have been difficult to attract an international scientific community and their families to the city, but it turned out not to be.
“In fact, InPP has all the conditions to be the ‘apple of my eye’.”.
In terms of fundamental knowledge, a lot of science has been funded and a lot of progress has been made in molecular-based technologies and tools, but the application is still residual. Do you believe that the InPP will reduce this gap? I think so. One of the ways of reducing this gap is precisely related to one of the great challenges of Collaborative Laboratories, which is to increase export activity and the sale of products and services. The government has launched this initiative at a good time, and it's only fair to point this out.
I think the InPP has made a good start in this respect, having two multinational companies as founding members - Bayer and Syngenta - for whom this project is not merely commercial, but involves resources and knowledge. For this reason, their integration into this project had to be authorized by their parent companies in Germany, which shows the great commitment of these multinationals to InPP. In addition, we also have an impressive group of farmers from the region, who are the real lifeblood of the area, and who are represented on InPP's Governing Bodies through their associations.
InPP works on the protection of Mediterranean crops, but multinational companies invest more in corn, rapeseed, cotton and soy, because these are the crops that sell the most in the world. Aren't you worried about a lack of investment from companies? Honestly, no. Mediterranean crops are an increasingly valued niche, first and foremost olive oil, for which demand is increasing significantly, but also fruit, vegetables and cereals. The Mediterranean diet has established itself as a healthy diet, and has taken on a leading role thanks to the widespread concern of the population about food, the problems of obesity and malnutrition, which is very much the result of the knowledge of the link between food, health and well-being. I have no doubt that the products of the Mediterranean diet will be booming in Europe, the United States and other territories. Again: a good export opportunity.
“Mediterranean crops are an increasingly valued niche, first and foremost olive oil, for which demand is increasing significantly, but also fruit, vegetables and cereals.”
Current EU legislation does not favor the use of New Genomic Techniques in Mediterranean crops. If the EU is not prepared to accept innovative solutions such as those that InPP is trying to develop, for example plants resistant to pests and diseases, what will be the alternative? This is one of InPP's lines of activity, but not the only one. The European Union has yet to take a definitive stance on the matter, but if the plant breeding part of the project faces the difficulties you mentioned, the alternative is to sell the products in many other possible markets outside the EU. Furthermore, genomic techniques are not all the same, nor do they all respond to the same motivations; in the case of the InPP, sustainability and respect for the environment are also the motto here. In any case, as I said, we have other lines of activity, “all our eggs are not in one basket”.
What do you think will be the most important impact of the InPP? I think it will be the creation of economic and social value. InnovPlantProtect will have a very important impact on Elvas, because by building a new community of national and foreign researchers it will contribute to territorial cohesion and development and to the socio-economic fabric of the city - I've heard that it's already difficult to find vacant housing.
The second impact will be visible in agricultural activity, as the InPP will develop products and services for crop protection, and the third will be on exports, as these products and services will also be made available on foreign markets.
“Given the particular nature of this CoLab, our expectation is that funding will come from its ability to innovate and even export innovation.”
JOÃO SÁGUA
Rector of NOVA University Lisbon (NOVA) since September 2017, he previously held the position of Vice-Rector of NOVA for Academic Affairs and International Relations (between 2014 and 2017). He holds a PhD in Contemporary Philosophy and is a Full Professor at NOVA's Faculty of Social Sciences and Humanities (FCSH/NOVA). He has been teaching at NOVA since 1980, accumulating a long experience as a teacher at all levels of education: bachelor's, master's and doctorate, in Portugal and abroad. In addition to an intensive teaching and research activity, he has held various management positions, namely at FCSH/NOVA, where he was Director (between 2005 and 2013) and Chairman of the Scientific Council (between 2009 and 2013).
Interview published first hand by Rural Life, March 2021 edition.
“I feel much more comfortable discussing these issues today in Portugal than I did ten years ago,” said the executive director of InnovPlantProtect (InPP) today, May 26. The question on the table was: “Are the new genomic techniques (NTG) one of the tools to achieve the goals of the Farm to Fork Strategy?”. For Pedro Fevereiro, who was speaking at one of the “workshop of solutions” entitled “NTG - a sustainable tool for tackling climate change”, organized by the Forum for the Future of Agriculture (FFA), there are three types of public when it comes to perceptions of NTG.
Part of society “associates these technologies with a greater impact on diversity and ecosystems, and reacts almost emotionally to the application of NTGs,” says February. Then, “there is a public that has difficulty understanding them and associates them with the loss of the traditional component of their production.” There is also, in his opinion, another public who, once they have been enlightened about the new plant breeding techniques, “tend to understand that they are nothing more than a natural process in which we are adjusting the crops we eat to the needs we have as a global society”.
The session was moderated by Cristina Nobre Soares and shared with the member of the European Parliament Álvaro Amaro, agronomist Manuel Chaveiro Soares, Rui Barreiras, from Nature Association Portugal/ WWF and keynote speaker Andreas Weber, director of the Plant Biochemistry Institute of[RF1] Heinrich Heine University in Germany.
Pedro Fevereiro was convinced that “we will be able to develop new technologies, based on the knowledge that is being accumulated, which will enable us to respond more efficiently to the challenges that lie ahead” - such as feeding the population and ensuring that production can withstand the climate impacts that are already present in Mediterranean territories.
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