ARTIFICIAL ELECTROACTIVE SOILS FOR OFF-GROUND CULTIVATION (Q4198955): Difference between revisions
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(Changed label, description and/or aliases in en: Setting new description) |
(Changed label, description and/or aliases in en, and other parts: Adding English translations) |
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ARTIFICIAL ELECTROACTIVE SOILS FOR OFF-GROUND CULTIVATION | |||||||||||||||
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OFF-GROUND AGRICULTURE IS ONE OF THE MOST PROMISING SOLUTIONS TO INCREASE FOOD PRODUCTION, WHILE LIMITING ARABLE CROPS AND THE IMPACTS OF AGRICULTURE ON CLIMATE AND BIODIVERSITY. HOWEVER, TODAY’S LANDLESS AGRICULTURAL TECHNOLOGIES (E.G. CULTIVATION OF PHOTOSYNTHETIC MICROORGANISMS OR HYDROPONICS) STILL RELY FULLY ON THE USE OF MINERAL FERTILISERS DERIVED FROM NON-RENEWABLE PRIMARY RESOURCES. NATURAL SOILS, ON THE OTHER HAND, ARE THE MOST EFFICIENT PLAYERS IN THE CIRCULAR ECONOMY: MICROORGANISM COMMUNITIES “REGENERATE” ORGANIC RESIDUES BY OXIDISING ORGANIC COMPOUNDS AND RELEASING MINERAL FORMS OF NUTRIENTS, MAKING THEM AVAILABLE FOR PLANT GROWTH. A BIOMIMETIC APPROACH TO REPRODUCE THIS FUNCTION IN OFF-SOIL AGRICULTURE WOULD LIMIT THEIR DEPENDENCE ON PRIMARY SOURCES OF MINERAL FERTILISERS. WE PROPOSE AN ARTIFICIAL SOIL ENHANCED WITH BIOELETTROCHIMICHE (E-SOIL) TECHNOLOGIES TO PROVIDE NUTRIENTS RECYCLED (English) | |||||||||||||||
| Property / summary: OFF-GROUND AGRICULTURE IS ONE OF THE MOST PROMISING SOLUTIONS TO INCREASE FOOD PRODUCTION, WHILE LIMITING ARABLE CROPS AND THE IMPACTS OF AGRICULTURE ON CLIMATE AND BIODIVERSITY. HOWEVER, TODAY’S LANDLESS AGRICULTURAL TECHNOLOGIES (E.G. CULTIVATION OF PHOTOSYNTHETIC MICROORGANISMS OR HYDROPONICS) STILL RELY FULLY ON THE USE OF MINERAL FERTILISERS DERIVED FROM NON-RENEWABLE PRIMARY RESOURCES. NATURAL SOILS, ON THE OTHER HAND, ARE THE MOST EFFICIENT PLAYERS IN THE CIRCULAR ECONOMY: MICROORGANISM COMMUNITIES “REGENERATE” ORGANIC RESIDUES BY OXIDISING ORGANIC COMPOUNDS AND RELEASING MINERAL FORMS OF NUTRIENTS, MAKING THEM AVAILABLE FOR PLANT GROWTH. A BIOMIMETIC APPROACH TO REPRODUCE THIS FUNCTION IN OFF-SOIL AGRICULTURE WOULD LIMIT THEIR DEPENDENCE ON PRIMARY SOURCES OF MINERAL FERTILISERS. WE PROPOSE AN ARTIFICIAL SOIL ENHANCED WITH BIOELETTROCHIMICHE (E-SOIL) TECHNOLOGIES TO PROVIDE NUTRIENTS RECYCLED (English) / rank | |||||||||||||||
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| Property / summary: OFF-GROUND AGRICULTURE IS ONE OF THE MOST PROMISING SOLUTIONS TO INCREASE FOOD PRODUCTION, WHILE LIMITING ARABLE CROPS AND THE IMPACTS OF AGRICULTURE ON CLIMATE AND BIODIVERSITY. HOWEVER, TODAY’S LANDLESS AGRICULTURAL TECHNOLOGIES (E.G. CULTIVATION OF PHOTOSYNTHETIC MICROORGANISMS OR HYDROPONICS) STILL RELY FULLY ON THE USE OF MINERAL FERTILISERS DERIVED FROM NON-RENEWABLE PRIMARY RESOURCES. NATURAL SOILS, ON THE OTHER HAND, ARE THE MOST EFFICIENT PLAYERS IN THE CIRCULAR ECONOMY: MICROORGANISM COMMUNITIES “REGENERATE” ORGANIC RESIDUES BY OXIDISING ORGANIC COMPOUNDS AND RELEASING MINERAL FORMS OF NUTRIENTS, MAKING THEM AVAILABLE FOR PLANT GROWTH. A BIOMIMETIC APPROACH TO REPRODUCE THIS FUNCTION IN OFF-SOIL AGRICULTURE WOULD LIMIT THEIR DEPENDENCE ON PRIMARY SOURCES OF MINERAL FERTILISERS. WE PROPOSE AN ARTIFICIAL SOIL ENHANCED WITH BIOELETTROCHIMICHE (E-SOIL) TECHNOLOGIES TO PROVIDE NUTRIENTS RECYCLED (English) / qualifier | |||||||||||||||
point in time: 1 February 2022
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Revision as of 06:20, 1 February 2022
Project Q4198955 in Italy
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | ARTIFICIAL ELECTROACTIVE SOILS FOR OFF-GROUND CULTIVATION |
Project Q4198955 in Italy |
Statements
12,500.0 Euro
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25,000.0 Euro
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50.0 percent
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ALGARIA S.R.L.
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L'AGRICOLTURA FUORI-SUOLO Ê UNA DELLE SOLUZIONI PIù PROMETTENTI PER AUMENTARE LA PRODUZIONE ALIMENTARE, LIMITANDO AL CONTEMPO I SEMINATIVI E GLI IMPATTI DELL'AGRICOLTURA SUL CLIMA E SULLA BIODIVERSITà . TUTTAVIA, LE ODIERNE TECNOLOGIE AGRICOLE SENZA SUOLO (AD ES. COLTIVAZIONE DI MICRORGANISMI FOTOSINTETICI O AGRICOLTURA IDROPONICA) FANNO ANCORA PIENAMENTE AFFIDAMENTO SULL'USO DI FERTILIZZANTI MINERALI DERIVATI DA RISORSE PRIMARIE NON RINNOVABILI. I SUOLI NATURALI, INVECE, SONO GLI ATTORI DELL'ECONOMIA CIRCOLARE PIù EFFICIENTI: LE COMUNITà DI MICRORGANISMI "RIGENERANO" I RESIDUI ORGANICI OSSIDANDO I COMPOSTI ORGANICI E RILASCIANDO FORME MINERALI DI NUTRIENTI, RENDENDOLI DISPONIBILI PER LA CRESCITA DELLE PIANTE. UN APPROCCIO BIOMIMETICO PER RIPRODURRE QUESTA FUNZIONE NELL'AGRICOLTURA FUORI-SUOLO LIMITEREBBE LA LORO DIPENDENZA DA FONTI PRIMARIE DI FERTILIZZANTI MINERALI. PROPONIAMO UN SUOLO ARTIFICIALE POTENZIATO CON TECNOLOGIE BIOELETTROCHIMICHE (E-SOIL) PER FORNIRE NUTRIENTI RICICLA (Italian)
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OFF-GROUND AGRICULTURE IS ONE OF THE MOST PROMISING SOLUTIONS TO INCREASE FOOD PRODUCTION, WHILE LIMITING ARABLE CROPS AND THE IMPACTS OF AGRICULTURE ON CLIMATE AND BIODIVERSITY. HOWEVER, TODAY’S LANDLESS AGRICULTURAL TECHNOLOGIES (E.G. CULTIVATION OF PHOTOSYNTHETIC MICROORGANISMS OR HYDROPONICS) STILL RELY FULLY ON THE USE OF MINERAL FERTILISERS DERIVED FROM NON-RENEWABLE PRIMARY RESOURCES. NATURAL SOILS, ON THE OTHER HAND, ARE THE MOST EFFICIENT PLAYERS IN THE CIRCULAR ECONOMY: MICROORGANISM COMMUNITIES “REGENERATE” ORGANIC RESIDUES BY OXIDISING ORGANIC COMPOUNDS AND RELEASING MINERAL FORMS OF NUTRIENTS, MAKING THEM AVAILABLE FOR PLANT GROWTH. A BIOMIMETIC APPROACH TO REPRODUCE THIS FUNCTION IN OFF-SOIL AGRICULTURE WOULD LIMIT THEIR DEPENDENCE ON PRIMARY SOURCES OF MINERAL FERTILISERS. WE PROPOSE AN ARTIFICIAL SOIL ENHANCED WITH BIOELETTROCHIMICHE (E-SOIL) TECHNOLOGIES TO PROVIDE NUTRIENTS RECYCLED (English)
1 February 2022
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CASALBUTTANO ED UNITI
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