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!
InnovPlantProtect (InPP) was present at the project launch meeting BioLivingLABS - Bioeconomia ao Serviço da Sustentabilidade dos Territórios do Interior (Bioeconomy at the Service of the Sustainability of Inland Territories), which took place on October 1st at the School of Agriculture of the Polytechnic Institute of Castelo Branco (IPCB).
Funded by COMPETE 2023, the BioLivingLABS project, led by MORE CoLAB - Laboratório Colaborativo Montanhas de Investigação, in partnership with the InPP, the IPCB, from AQUAVALOR and the Polytechnic Institute of Bragança (IPB).
This project's mission is to add value to the low-density territories in the north, center and south of the country by demonstrating and economically boosting the work carried out by the partners - through the creation, demonstration and application of products, processes and services resulting from joint research.
Four living laboratories will be created (Living Labs) in the innovation hubs of Mirandela, Douro, Covilhã and Elvas, which they intend to promote:
the transfer of knowledge;
technology demonstration;
strategic roadmapping and
the protection of intellectual property.
BioLivingLABS strengthens the link between academia, business and society, driving innovation and sustainability.
Expected impact: Over the course of 24 months, and with Living Labs dedicated to sectors such as olive groves and olive oil, vineyards and wine, fruit and cereals, legumes, among others, the project will contribute to:
increase regional competitiveness;
promote sustainable practices and
responding to the environmental, social and economic challenges facing inland territories.
On September 25, InnovPlantProtect (InPP) was present at the National Exhibition of Blue Bioeconomy Pact Projects, held at the Port of Leixões Cruise Terminal, for the exhibition session of the Algae Vertical project, led by PhytoBloom by Necton.
InPP, leader of sub-project 6 - Agriculture, was represented by department director Cristina Azevedo and executive director António Saraiva, who presented some of the new algae-based biosolutions that our team and partners are developing.
There were more than 300 participants and 80 entities, including companies, research centers and political decision-makers. The Opening Conference was attended by the Chairman of Inovamar's General and Supervisory Board, José Soares dos Santos, and round tables were held on the future of the blue economy in Portugal.
Algae Vertical explores the biotechnological potential of algae in sectors as diverse as food, cosmetics, pharmaceuticals, agriculture and energy.
Find out more about the Algae Vertical Project here.
Elvas collaborative laboratory distinguished by Rural Life as “the most significant investment in the last year in the agricultural and agro-industrial sector”.
“Investment that makes a mark” 2021 is the name of the prize awarded today to InnovPlantProtect by Rural Life. The award, conferred by the editorial board of the professional agribusiness magazine, recognizes the most significant investment in the last year in the agricultural and agro-industrial sector at a national level.
The choice of the collaborative laboratory (CoLab), based in Elvas, “aims to reinforce the importance of investing in research and innovation in a key area for the future of agriculture: the search for biologically-based solutions for crop protection, in a challenging context, in which it is necessary to ensure the production of food in an increasingly sustainable way,” explains Isabel Martins, director of the company. Rural Life and publications coordinator at IFE.
One of the laboratories in the current, temporary premises.
Field work on a property owned by Fertiprado.
This award “honors the initiative of the 12 founding partners to create an innovative institution to develop biological and digital solutions for crop protection,” says Pedro Fevereiro, the CoLab's executive director, adding: “It's an incentive for InnovPlantProtect, which set up in a low-density region and managed to attract 38 highly qualified human resources to set up a modern innovation unit. It also rewards the vision of the municipality of Elvas, which embraced this challenge from the outset.”
The “Investment that Makes a Mark” 2021 award was presented during the 8th edition of the AgroIn - Annual Agribusiness Congress, organized by Rural Life/ IFE, held in the auditorium of the Faculty of Dental Medicine of the University of Lisbon.
Pedro Fevereiro, executive director of InnovPlantProtect
The InPP team, like scientists around the world, concludes that new techniques can mitigate the challenges posed by climate change and the continuing increase in the world's population.
We know that in order to feed the world's population in 2050, we will have to increase food production by 70% [1]. And we also know that agriculture is under intense pressure to meet the sustainability goals of the European Green Deal and Farm to Fork Strategy, This is under pressure from climate change and the increase in pests and diseases attacking crops.
A team from InnovPlantProtect (InPP) reviewed hundreds of scientific articles published in recent years and concluded that “genome editing is an important tool for improving food security in a sustainable way and mitigating the challenges posed by global climate change and the expansion of the world's population”. The review article [2], entitled Genome editing for resistance against plant pests and pathogens, has just been published in Transgenic Research.
“The development of new tools to improve plant protection is critical in the context of current agricultural, environmental and ecological challenges,” say the researchers, adding that “various efforts in the area of genome editing have resulted in plants with potentially beneficial characteristics that can be quickly and easily applied in the field.”.
Crops are invariably exposed to pests and diseases (left). In order to speed up the plant breeding process, genome editing technologies such as CRISPR-Cas make it possible to introduce resistance mechanisms or remove susceptibility quickly and precisely (right).
The team analyzed the latest advances in genome editing with a view to improving plant protection, focusing on editing the genomes of crops, pests and pathogens based on the CRISPR-Cas technique (Nobel Prize in Chemistry in 2020). The researchers did not forget other technologies, such as host-induced gene silencing (HIGS) and the use of biocontrol agents, discussing how CRISPR-Cas can be used to accelerate the development of ecological strategies that promote sustainable agriculture in the future.
[HIGS consists of the plant producing small molecules of RNA (ribonucleic acid), which lead to the silencing of the pathogen's genes; silencing a gene means “canceling” its expression].
As genome editing does not require crossbreeding, the authors of the article point out, it avoids the introduction of unwanted characteristics through genetic linkage (a situation in which a gene with a positive characteristic is physically linked to a gene that confers negative characteristics) in improved varieties, speeding up the entire breeding process.
In addition, genome editing technologies can directly target the susceptibility genes or virulence factors of pests and pathogens, either by directly editing the genome of the pest in question, or by adding genome editing mechanisms to the plant genome, or to microorganisms that act as biocontrol agents.
Several studies have shown that the targeted inactivation of susceptibility genes through genome editing is a solid strategy for crop protection, capable of producing non-transgenic plants. The technique has been shown to be particularly effective in editing susceptibility genes to pathogenic bacteria and fungi.
“The potential impact of genome editing, and CRISPR technology in particular, on plant synthetic biology to improve resistance to pests and diseases is enormous and will have a direct effect on agricultural sustainability on a scale never seen before,” the team concludes.
Original article:
Rato, C., Carvalho, M.F., Azevedo, C. & Oblessuc, Paula. Genome editing for resistance against plant pests and pathogens. Transgenic Research (2021). https://doi.org/10.1007/s11248-021-00262-x
Elvas City Council promotes a visit to the works in progress at InnovPlantProtect and at the Elvense pole of the National Institute for Agrarian and Veterinary Research.
The work in progress at INIAV Elvas, including those that will accommodate the permanent facilities of the InnovPlantProtect (InPP), were visited yesterday, June 16, by a delegation that included the president of the Elvas City Council, Nuno Mocinha, the vice-president of the municipality, Cláudio Carapuça, as well as a number of council technicians, the presidents of parish councils in the municipality and representatives of the media.
InPP is an institution that wants to last for many, many years, not a “one-off project”, said the executive director of the collaborative laboratory (CoLab). Pedro February He also highlighted the fact that the research and innovation carried out here “leaves” the laboratory for the field, in the form of specific, biologically-based products and services supplied to companies, farmers and producers, among others.
Nuno Mocinha stressed the CoLab's great importance for agriculture and the region, particularly thanks to the establishment of highly qualified workers dedicated to science and technology applied in the field.
The visit took place as part of a tour promoted by the CME of some of the works underway in the municipality.
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