Description du projet
Augmenter l’efficacité des biostimulants pour améliorer la performance des cultures
Les biostimulants sont connus pour être une alternative écologique aux engrais et aux produits phytosanitaires actuellement disponibles sur le marché. Ils sont susceptibles de stimuler la croissance des plantes en favorisant l’absorption des nutriments, et de protéger la santé des cultures en améliorant leur tolérance au stress. Le projet NANOSTIMULANTS, financé par l’UE, vise à accroître l’efficacité de ces substances en mettant au point un nanostimulant, c’est-à-dire une nanoparticule qui renferme un biostimulant. Le recours à des techniques avancées de nanoencapsulation sera essentiel à son succès.
Objectif
A biostimulant (BS) is understood as any compound, microorganism or mixture of them, with the exception of fertilizers and pesticides1. BSs are commonly ecofriendly substances and inert for the ecosystems, their utilization is widely reported in the literature as enhancing tolerance against stress or increasing yield in the field2. Regarding plant health, BSs are presented as a good alternative to achieve the yearly EU goals announced in the communication: “A Farm to Fork Strategy for a fair, healthy and environmentally-friendly food system” 3. A good example of this way of thinking is the research conducted by the experienced researcher (ER) of this proposal, through utilizing L-pyroglutamic acid 4 (Pyr), which is able to save 30% of water requirements, reaching higher yields. However, to be effective, weekly treatments of 500 g per hectare are required. These involve an extra cost per hectare of 20€ each week to reduce watering by 30% with some losses in yield. One of the main reasons is probably the easy degradability of BSs. Indeed, application of pure bioactive compounds is also very limited due to their fast release, low solubility, and poor bioavailability5. An alternative to counteract these disadvantages is nanoencapsulation6. The present proposal is a novel interdisciplinary approach to this, which aims to multiply BS effectiveness by constructing a Nanostimulant (nanoparticle that encloses a BS). It updates traditional BS applications in the field by using the most advanced nanoencapsulation (NE) techniques.
Champ scientifique
Programme(s)
Régime de financement
MSCA-IF - Marie Skłodowska-Curie Individual Fellowships (IF)Coordinateur
9000-081 Funchal
Portugal