With the aim of addressing the challenges of modern sustainable agriculture, FertiGlobal’s innovative biostimulant solutions are designed to improve agricultural yields and quality at the same time.
Designing a sustainable future for our planet requires a long-term agricultural vision embracing the whole life cycle of plants, from seed germination to maturity.
From seed germination to maturity: our special fertilizers support the entire lifespan of plants providing all nutrients they need to grow healthier and stronger.
Efficient crop nutrition combined with advanced technical services ensure reinforced plants and enhanced resilience against all kinds of pathogens and climate change issues.
FertiGlobal’s new crop management approach ensures positive impact on the environment, it aims at creating a sustainable agriculture.
Years of intensive pesticide use in agriculture have caused irreparable damage to our planet and human health, polluting land, water and air. Furthermore, fungicides and bactericides are no longer producing the expected results, even making crops less tolerant to adversities and climate changes.
FertiGlobal’s biostimulant solutions allow farmers all over the world to progressively reduce the use of chemicals embracing a long-term vision for the future of the Earth.
In Larderello (Italy), 200 years of history of our Group live together with leading-edge innovation to build the agriculture of the future!
FertiGlobal’s advanced biostimulant technologies are based on cutting-edge research and development carried out in our new hub, where a multidisciplinary team of scientists and agronomists are committed every day to innovation.
Enhance, Nurture and Vitalize crops to increase yield and ensure healthy plant growth: this is the challenge behind EnNuVi, the breakthrough biostimulant technology developed by FertiGlobal.
EnNuVi is at the same time a natural fertilizer, a biostimulant and a feeding source for the crops.
It is able to enhance plant growth from seed germination to plant maturity, increase its resistance to abiotic stress conditions and enlarge its life cycle.