However most popular fungicides lose effectiveness due to pathogen resistance development.
It is likely that leading fungicides to be banned due to their perceived effect on human health.
TRIVAZEN™ as a systemic plant activator enhances the plant immune system response against fungal pathogen (e.g.Fusarium) attacks.
The product interacts with the cell membrane but is not a genetic modification to the plant structures.
In our experiments, we saw an up to 70% drop in the disease level, a 20% yield increase and 100% microorganisms destruction.
TRIVAZEN™ used in extremely low concentrations but has very high efficacy.
TRIVAZEN™ as a systemic plant activator enhances the plant immune system response against fungal pathogen (e.g.Fusarium) attacks.
The product interacts with the cell membrane but is not a genetic modification to the plant structures.
In our experiments, we saw an up to 70% drop in the disease level, a 20% yield increase and 100% microorganisms destruction.
TRIVAZEN™ used in extremely low concentrations but has very high efficacy.
It can be used for seed treatment, foliar applications or as a stand-alone disinfectant of water or planting material. Moreover, pathogens are very unlikely to develop resistance
High-value crops such as onions, tomatoes, peppers, leek, lettuce.
Cereals and other grain crops - wheat, barley, maize, soybeans.
Early-stage root disease in crops in close rotation and susceptible to soil-borne Fusarium attacks.
Several experiments have demonstrated effectiveness against Septoria and Mildew.
It can be used for seed treatment, foliar applications or as a stand-alone disinfectant of water or planting material. Moreover, pathogens are very unlikely to develop resistance
High-value crops such as onions, tomatoes, peppers, leek, lettuce.
Cereals and other grain crops - wheat, barley, maize, soybeans.
Early-stage root disease in crops in close rotation and susceptible to soil-borne Fusarium attacks.
Several experiments have demonstrated effectiveness against Septoria and Mildew.
TRIVAZEN™ destroyed 100% of Fusarium oxysporum f.sp. cubense TR4 chlamydospores.
The industry understands that new approaches or alternative products are needed and innovation should be directed at pesticide alternatives.
Our team has cross-disciplinary expertise in chemistry and biotechnology hence we can offer a nontraditional approach and unconventional solution.
The development of new plant protection products is a long and expensive process. The route to market for agrochemicals is notoriously long and expensive however we made significant progress along this path.
Our lab-scale production, greenhouse tests results and a pending patent allow us to move forward with great confidence.
Our team has cross-disciplinary expertise in chemistry and biotechnology hence we can offer a nontraditional approach and unconventional solution.
The industry understands that new approaches or alternative products are needed. Innovation should be directed at pesticide alternatives.
The development of new plant protection products is a long and expensive process. The route to market for agrochemicals is notoriously long and expensive however we made significant progress along this path.
Our lab-scale production, greenhouse tests results and a pending patent allow us to move forward with great confidence.
Due to an increasing awareness of potential adverse effects of pesticides on the safety of foods and on the environment, a shift from scientific to political influence, and from risk- to hazard-based assessment, regulatory bodies in the EU are now increasingly restricting their use.
Industry experts believe that tighter rules on pesticides could see 35-45% of crop protection products lost in the EU, hitting yields by up to 20%. Without fungicide use, the UK cereal growers would suffer an economic loss of between £380 to £465 million each year.
Banana Fusarium wilt is a deadly plant disease that cannot be controlled with the currently available fungicides or other chemical treatments, leading to widespread loss of banana plants all over the world. Prevention and phytosanitary measures are the only effective ways of controlling the disease.
Due to an increasing awareness of potential adverse effects of pesticides on the safety of foods and on the environment, a shift from scientific to political influence, and from risk- to hazard-based assessment, regulatory bodies in the EU are now increasingly restricting their use.
Industry experts believe that tighter rules on pesticides could see 35-45% of crop protection products lost in the EU, hitting yields by up to 20%. Without fungicide use, the UK cereal growers would suffer an economic loss of between £380 to £465 million each year.
Banana Fusarium wilt is a deadly plant disease that cannot be controlled with the currently available fungicides or other chemical treatments, leading to widespread loss of banana plants all over the world. Prevention and phytosanitary measures are the only effective ways of controlling the disease.
Arlabion will be showcasing at this network meeting, organised by Agri-Tech East and sponsored by Innovate UK, on 9 October 2018.
Arlabion is going to Chem Spec Europe in Cologne as part of the UK Northern Powerhouse trade mission.
Our product TRIVAZENTM has demonstrated efficacy against banana Fusarium wilt pathogen - Fusarium oxysporum f.sp. cubense Tropical Race 4.
Arlabion will be showcasing at this network meeting, organised by Agri-Tech East and sponsored by Innovate UK, on 9 October 2018.
Arlabion is going to Chem Spec Europe in Cologne as part of the UK Northern Powerhouse trade mission.
Our product TRIVAZENTM has demonstrated efficacy against banana Fusarium wilt pathogen - Fusarium oxysporum f.sp. cubense Tropical Race 4.
3M Buckley Innovation Centre
Firth Street, Huddersfield HD1 3BD, UK
+ 44 (0)7597 389349;
+ 371 29586303
3M Buckley Innovation Centre
Firth Street, Huddersfield HD1 3BD, UK
+ 44 (0)7597 389349;
+ 371 29586303