# The Science Behind Methylobacterium symbioticum: A Game-Changer in Nitrogen Management  With the competition to construct more resilient food systems and minimize our dependence on synthetic fertilizers at fever pitch, one revolutionary intervention may just be the missing piece of the puzzle for sustainable agriculture: using “**[biological nitrogen fixation](https://www.novobac.com/)**” in the field under the supervision of specific bacteria. Among the most promising of the microbial candidates is the pink-pigmented Methylobacterium Symbioticum whose ability to use the sugar from great numbers of predominantly woody plants could change the way the world’s farmers manage nitrogen, the most limiting nutrient for crop growth. ## Rethinking Nitrogen: The Roots of Yield and Sustainability Nitrogen is also an imperative nutrient for plant life and important for proteins, enzymes and growth. Nevertheless, most crops can’t use its most abundant variety—it’s the gaseous N₂ present in the atmosphere – without some assistance. Conventionally, farmers have just watched as chemical nitrogen fertilizers delivered that kick, but with a cost: Several results include soil degradation, water pollution, and greenhouse gas emissions from over-reliance on synthetic fertilizers even if other techniques are available. Now scientists and agri-innovators are urging a smarter, cleaner way to go: using the processes of nature to supplement or even replace synthetic N sources. Nowadays however, the attention is drawn to “biological nitrogen fixation”, a natural process that could be harnessed to transform the face of fields from maize to wheat and many more. ## Enter Methylobacterium symbioticum: Changing the Nitrogen Equation M. symbioticum, which is an untapped versatility in the soil and improved to be unique in the surfaces of plant leaves, is a new turn in methylobacterium in agriculture. Different from most traditional nitrogen fixers that live in nodules of legume roots, Methylobacterium occupies the phyllosphere, that is, the aboveground parts of plants, specifically, leaves. In such a case it can absorb atmospheric nitrogen and transform it to forms directly accessible to the host plant while living peacefully on the surface of the leaf. Novobac - a newcomer in the biostimulant market - has bottled this potential in its main product, Metilo. Re marketed as a microbial biostimulant for plants, Metilo puts the power of Methylobacterium synd bio at the hand of farmers. But what does science say about these game changer microbes? ## The Mechanism: How Does Methylobacterium symbioticum Fix Nitrogen? It all boils down to enzyme engineering. In Methylobacterium symbioticum are important proteins known as nitrogenases. Used to split atmospheric nitrogen (N₂) and convert it into the form of ammonia (NH₃) within which it becomes easily absorbed by and easy for plants to use, it is powered by the energy that is captured from the plant and the sun. What gives this bacterium an edge is its ability to survive and flourish in waxy surfaces on plant leaves. Here, the bacteria is perfectly placed to supply nitrogen directly into the vascular system of the plant. Research in the early years evidenced that while foliar applications (spraying Metilo on the leaves) realizes high levels of chlorophyll content, better rates of growth and higher yields, more so in leguminosae crops such as maize and sorghum. ## From Lab to Field: Real-World Impact of Metilo Results from field trials in Brazil and Southeast Asia are promising. Maize plants sprayed with Metilo have darker green coloured leaves, an indication of better nitrogen nutrition, and are resilient to the short term drought or soil nutrient deficiency. Farmers have documented yield increases, better uniform ear size and better crop health in the critical pre-flowering and grain fill stages. But it is not only the numbers advantages. By making it within the biological nitrogen fixation process at the foliar level, Metilo assists farmers in decreasing the need for synthetic fertilizers thus reducing input costs to farmers and also minimizes chances of environmental runoff into the water ways. ## [Methylobacterium in Agriculture](https://www.novobac.com/product/metilo-microbial-biostimulants-for-plants/): An Expanding Frontier Researchers think that Metilo’s contribution is more than just adding up nitrogen. There are new findings that suggest Methylobacterium symbioticum can increase plant hormones, provide crops’ resistance to environmental stress and even protect against some foliar pathogens by colonizing leaf surfaces thus taking space away from disease-promoting microorganisms. “We are seeing a paradigm shift with increased adoption of biological approaches for nitrogen management by more farmers,” says Dr. Laura Santos, an Agronomist who specializes in crop systems for sustainability. “Foliar-applied Methylobacterium symbioticum means plants are not just getting smarter—they’re getting more self-reliant. ## Adoption Made Simple For farmers, the operation of using Metilo is uninvolving. Following its dilution in water the solution is sprayed on crops during critical stages of their growth. The microbes go straight to work colonizing the leaves and start the process of capturing and converting nitrogen. Given multiple growing seasons showing positive outcomes and with more early adopters convinced, methylobacterium in agriculture is not going away. ## The New Era of Smart Sustainable Farming As the call increases for the availability of food that is ecologically responsible, innovations like the Metilo, are penning in a new narrative for the world’s farmers. Once the domain of legumes and legend, biological nitrogen fixation now belongs to a world of crops, a shared future of increasing yields, increasing sustainability. Methylobacterium symbioticum—in its revitalization in products, such as Metilo—vows to amount to much more than just a supplement in the area of nitrogen management. It’s a game changer that has its science in nature, but the future of which has everything to do with the new agriculture.