The executive director of InnovPlantProtect (InPP), António Saraiva, took part in the conference “What are the challenges facing the national agroforestry sector over the next decade?”, which took place at the Escola Superior Agrária de Coimbra (ESAC) of the Polytechnic Institute of Coimbra last Tuesday, April 22.
The event, which brought together more than 150 participants and was organized by 17 national Competence Centres, discussed topics such as innovation, sustainability, soil conservation, monitoring cork oak forests and efficient agricultural management.
António Saraiva was part of the panel of commentators, whose speaker was Pedro Santos, Director General of CONSULAI, and moderated by Maria Custódia Correia, Coordinator of the AKIS Portugal Network. The opening session was attended by the Minister for Agriculture and Fisheries, José Manuel Fernandes, who announced the publication of the Ordinance of April 21 to open the Grant for Initiatives for the creation of Operational Groups (OG).
This initiative provides a total of 11 million euros for new GOs, with a maximum of 350,000 euros per project and eligible funding of 100%.
The GOs are considered crucial structures for transferring knowledge and strengthening the AKIS (Agricultural Knowledge and Innovation System).
Special thanks to the 17 Competence Centers for the opportunity to participate in this productive meeting!
Beyond strategy: The secret ingredient of innovation
On the path to success, organizations define strategies, plan each step, and invest in crucial resources such as the sale of services and products, project applications, the development of solid business plans, and the protection of intellectual property. However, there is an often-neglected element that is fundamental to the flourishing of innovation: serendipity. But what exactly is this mysterious force, and why is it so vital to advancing agriculture and so many other areas?
When chance opens doors: The power of unplanned discovery
Serendipity lies in the art of finding something valuable when looking for something else. It's the unintentional discoveries that arise from unexpected situations. Throughout history, some of the most transformative innovations have not been the result of a rigorous plan, but rather of a fortuitous encounter with the unknown. Although deliberate research and methodical experimentation are pillars of scientific and technological progress, openness to the unexpected proves to be a powerful catalyst. When researchers cultivate this openness, they often come across revelations that have the potential to revolutionize entire industries, transform technologies, and expand our understanding of the world around us.
A close look at the “error”: The genesis of an innovative biofungicide
Today, we unveil the surprising and inspiring story of Maria Miguel, a talented researcher from the InPP's New Biopesticides Department, whose insight transformed a fortuitous event into a discovery of inestimable value: a broad-spectrum biofungicide capable of combating Botrytis cinerea, the relentless fungus responsible for the devastating gray mold disease in tomato plants. This pathology represents one of the greatest phytosanitary challenges in tomato cultivation, especially when grown in greenhouses, causing significant losses to producers if not controlled in a timely manner.
From discard to discovery: An investigator's insight
The journey of this discovery began in a scenario familiar to any researcher: the observation of Petri dishes, used to grow cell or microorganism cultures. In Maria Miguel's Petri dishes, colonies of the fungus Botrytis cinerea were growing, intentionally introduced there for study. However, something else caught her attention: one of the plates was contaminated by mold, and curiously, a clear zone surrounded this intruder. Instead of discarding the plate and ignoring it as mere contamination, Maria Miguel decided to investigate the reason behind that clear area. Her curiosity revealed that the mold had a surprising ability to inhibit the growth of Botrytis cinerea in its vicinity.
“Sometimes we look at something and think it's a mistake. The truth is that within a failure, there can be something good,” shares the researcher. The emotion and enthusiasm of a researcher when realizing that what at first seemed like an obstacle, a negative result, can actually be an opportunity, is contagious. For Maria Miguel, this “error” transformed into a serendipitous discovery with enormous potential.
Maria Miguel, a researcher at the InPP's Department of New Biopesticides, transformed an unexpected event into a groundbreaking discovery: a broad-spectrum biofungicide to combat gray mold in tomato plants.
Beyond chance: The active ingredients of scientific discovery
As the story of this biofungicide demonstrates, the world of science is full of examples of discoveries that arose from the unexpected. One of the most famous cases is the discovery of penicillin by Alexander Fleming in 1928. While observing Petri dishes, Fleming noticed that a mold was producing a substance that eliminated Staphylococcus aureus bacteria around it. He identified the mold as Penicillium notatum and named his revolutionary antibiotic penicillin. Penicillin ended up becoming an extremely important drug for fighting infections.
However, chance is not the only protagonist of these important revelations. “Sometimes we have to follow our intuition and be able to prove that we are right or wrong,” explains Maria Miguel. In addition to intuition, a generous dose of curiosity, an open mind to accept unexpected results, a solid scientific knowledge, and the ability to see and advance to further investigations on surprising results play a crucial role in the alchemy of discovery.
The ecosystem of discovery: Fostering an environment conducive to innovation
There are other ingredients that contribute to the recipe for scientific success:
Creativity: The ability to generate new perspectives, concepts, questions, or solutions, and the willingness to explore existing ideas under a new light.
Flexibility: The courage to venture into unknown territories without fear of failure, thus increasing the odds of serendipitous encounters.
But no discovery flourishes in isolation. At InPP, the strong team spirit and culture of collaboration transcend departmental boundaries. Maria Miguel's discovery is a testament to this synergy, as she herself acknowledges: “My colleagues opened doors so that I could do my research.”
To foster innovation, organizations need to cultivate an environment that stimulates open discussions and connects people from diverse areas of knowledge and life experiences, without judgment; that encourages curiosity and receptiveness to new experiences; and that promotes a relentless pursuit of improving scientific knowledge, the fertile ground where serendipity can germinate.
Sowing the future: The impact of a discovery and the path of research
Although Maria Miguel is about to embark on a new journey, driven by a prestigious Marie Skłodowska-Curie doctoral fellowship - a program that supports the career of researchers and promotes excellence and innovation in research - her legacy at InPP is already flourishing. Her innovative discovery is opening new and promising doors for future research in the area of crop protection, demonstrating how, at times, it is in the unexpected that the potential to transform our world lies.
Beyond strategy: The secret ingredient of innovation
On the road to success, organizations define strategies, plan every step and invest in crucial resources such as selling services and products, applying for projects, drawing up solid business plans and protecting intellectual property. However, there is an element that is often overlooked, but which is fundamental to the flourishing of innovation: serendipity. But what exactly is this mysterious force and why is it so vital to the advancement of agriculture and so many other areas?
When chance opens doors: The power of unplanned discovery
Serendipity is the art of finding something valuable when you're looking for something else. It's the unintentional discoveries that arise from unexpected situations. Throughout history, some of the most transformative innovations have not been the result of a rigorous plan, but rather a chance encounter with the unknown. While deliberate research and methodical experimentation are pillars of scientific and technological progress, openness to the unexpected proves to be a powerful catalyst. When researchers cultivate this openness, they often stumble upon revelations that have the potential to revolutionize entire industries, transform technologies and expand our understanding of the world around us.
A close look at “error”: The genesis of an innovative biofungicide
Today, we unveil the surprising and inspiring story of Maria Miguel, a talented researcher from InPP's New Biopesticides Department, whose acumen turned a chance event into a priceless discovery: a broad-spectrum biofungicide capable of combating the Botrytis cinerea, the relentless fungus responsible for the devastating gray rot disease in tomato plants. This pathology represents one of the biggest phytosanitary challenges in tomato cultivation, especially when grown in greenhouses, causing significant losses to producers if it is not controlled in good time.
From discard to discovery: The insight of a researcher
The journey of this discovery began in a setting familiar to any researcher: the observation of Petri dishes, used to grow cultures of cells or microorganisms. On Maria Miguel's plates, colonies of the fungus Botrytis cinerea were growing, intentionally introduced there for study. However, something else caught her eye: one of the plates was contaminated by mold, and curiously, a clear area surrounded this intruder. Instead of discarding the plate and dismissing it as mere contamination, Maria Miguel decided to investigate the reason behind the clear area. Her curiosity revealed that the mold had a surprising ability to prevent the growth of Botrytis cinerea in its vicinity.
“Sometimes we look at something and think it's a mistake. The truth is that in a failure there can be something good,” the researcher shares. The excitement and enthusiasm of a researcher realizing that what at first glance seemed like an obstacle, a negative result, could actually be an opportunity, is contagious. For Maria Miguel, this “mistake” turned into a serendipitous discovery with enormous potential.
Maria Miguel, a researcher at InPP's New Biopesticides Department, who turned an unexpected event into a discovery that changed the course of her work: a broad-spectrum biofungicide to combat gray rot in tomato plants.
Beyond chance: The active ingredients of scientific discovery
As the history of this biofungicide shows, the world of science is full of examples of discoveries that came out of the blue. One of the most famous cases is Alexander Fleming's discovery of penicillin in 1928. While observing Petri dishes, Fleming noticed that a mold was producing a substance that eliminated bacteria Staphylococcus aureus around him. He identified the mold as Penicillium notatum and named his revolutionary antibiotic penicillin. Penicillin ended up becoming an extremely important medicine for fighting infections.
However, chance is not the only protagonist of these important revelations. “Sometimes we have to follow our intuition and be able to prove ourselves right or wrong,” explains Maria Miguel. In addition to intuition, a generous dose of curiosity, an open mind to accept unexpected results, solid scientific knowledge and the ability to see and move on to further research into surprising results play a crucial role in the alchemy of discovery.
The discovery ecosystem: Fostering an environment conducive to innovation
There are other ingredients that contribute to the recipe for scientific success:
Creativity: The ability to generate new perspectives, concepts, questions or solutions, and the willingness to explore existing ideas in a new light.
Flexibility: The courage to venture into unknown territory without the fear of failure, thus increasing the chances of serendipitous encounters.
But no discovery flourishes in isolation. At InPP, the strong team spirit and culture of collaboration transcend departmental boundaries. The case of Maria Miguel's discovery is testimony to this synergy, as she herself acknowledges: “My colleagues opened doors so that I could do my research”.
To foster innovation, organizations need to cultivate an environment that encourages open discussions and connects people from different areas of knowledge and life experiences, without judgment; that encourages curiosity and receptiveness to new experiences; and that promotes an incessant quest to improve scientific knowledge, the fertile ground where serendipity can germinate.
Sowing the future: The impact of a discovery and the path of research
Although Maria Miguel is about to embark on a new journey, boosted by a prestigious Marie Skłodowska-Curie PhD scholarship - a program that supports the careers of researchers and promotes excellence and innovation in research - her legacy at InPP is already flourishing. Her groundbreaking discovery is opening promising new doors for future research in the field of crop protection, demonstrating how sometimes it is in the unexpected that the potential to transform our world lies.
InnovPlantProtect (InPP) took part in the debate session on breeding and genomic techniques, the subject of the most recent edition of the CULTIVAR publication by the Planning, Policies and General Administration Office (GPP), which took place on June 27 at the Marquês Hall of the Ministry of Agriculture and Fisheries in Lisbon.
The opening session was led by the GPP's director-general, Eduardo Diniz, and also included the participation of Pedro Fevereiro, executive director of the InPP, Benvindo Maçãs, director of INIAV, IP, Catarina Ginja, professor at the Center for Interdisciplinary Research in Animal Health (CIISA), Irina Castro, from the Transgenics Out Platform. The panel was moderated by Pedro Castro Rego, from the GPP.
As can be read in the news published on the GPP website: “During the debate, although there was no consensus on the subject, it was clear that the improvement essentially seeks to respond to the challenges of food supply and climate change.
As European regulations have not yet been stabilized, the scientific complexity and the effects associated with technological application on nature were highlighted. The speakers stressed the importance of approaching breeding as a process that interconnects various domains within genetic diversity, highlighting the multidisciplinary nature of this activity. Breeding and genomic techniques could develop solutions for more sustainable agricultural production, not only in environmental terms, but also in economic and social terms. However, the time and conditions in which these solutions are made available were questioned, particularly with regard to biodiversity and consumer concerns.
Public policies were mentioned as the privileged instrument for delimiting the impact of breeding and genomic techniques on agriculture and food in the near future. In this context, political commitments will have to act in conjunction with socially responsible technological innovation in favor of greater agricultural productivity and income in the long term.”
On June 27 at 10:30 a.m., InnovPlantProtect (InPP) will take part in a debate session promoted by the Planning, Policies and General Administration Office (GPP) on Improvement and genomic techniques, the subject of the most recent edition of the publication CULTIVAR - Cadernos de Análise e Prospetiva.
The initiative aims to contribute to reflection on the definition of appropriate policies for the use and development of the best practices available in this area, which will generate benefits for agents in the agri-food sector and the population in general.
The session includes a brief presentation on the topic and a round table with a panel of experts, including InPP's executive director, Pedro Fevereiro, followed by a debate with the participants.
Pedro Fevereiro will be one of the speakers at the round table, who will talk about the article entitled “Plant breeding and molecular-based technologies, in particular genomic editing”, which he wrote for the magazine CULTIVAR.
Participation in the session is free, but to attend in person at the GPP's premises at the Ministry of Agriculture and Fisheries in Lisbon, prior registration is required, available until June 26, here.
The session will be broadcast live on the GPP's YouTube channel.
“(...) Faced with the most recent challenges, the combination of the development of scientific knowledge about the value of algae as a source of nutrients and bioactive compounds and the enormous pressure in the agricultural production sector to replace these same chemically synthesized fertilizers, biostimulants and pesticides with more sustainable and environmentally friendly alternatives has led to the expansion of the algae sector in agriculture,” reads an article produced by the InnovPlantProtect (InPP) team, published in the June edition of Voz do Campo magazine.
In the article, produced by the InPP team involved in the Vertical Algae Agriculture sub-project, together with several partners, our researchers are tracking the activity of a set of more than 30 macro and microalgae and some of their by-products, made available by Portuguese companies as biostimulants and biopesticides.
Researchers Miguel Claro and Rui Figueiras and department heads Cristina Azevedo and Sandra Correia were involved in the production of this non-scientific article.
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