Naturally Transforming Methane Into Organic Fertilizer

Agriculture

Drastically reduce the climate footprint of our food system

Waste Management

Transform Methane from “dangerous waste” to valuable resource

Methane Utilization

Cool the planet by utilizing the most urgent greenhouse gas

The Massive Methane Problem

In the past 2 decades, we’ve mobilized around reducing and sequestering CO2, but CH4 remains critically under-addressed.

86x

more potent than co2
(over a 20-year window)

25%

COMES FROM GROWING OUR FOOD

0.5°C

warming created by 2050

The Microscopic Solution

“Methanotrophs” are a family of naturally occurring soil microbes that eat methane, and transform it into bioavailable nutrients for plants. Like tiny trees that eat CH4, instead of CO2. Mimicking nature’s blueprint we’ve found a way to cultivate and scale this solution for the world.

We’re bringing nature’s power of methane transformation to businesses, turning this climate woe into an operational windfall.

Methane
NITROGEN
FIG 01
The Microscopic Solution
with windfall bio

Methane  =  

=

Waste

Waste

Resource

Methane is a dynamic resource, only becoming a greenhouse gas when it’s not harnessed for something useful. Our nature-based technology enables businesses to transform methane from their operations into rich, organic fertilizer right on site.

How It Works

01
Methane Goes In
Methane from any source including manure lagoons, landfills and flare gas
Lines displaying the process of Methane going in
02
Microbes Transform It
Bio fermenters filled with a blend of Methane Eating Microbes transform it
Graphic depicting methane eating microbes
Methane-eating Microbes
03
Nutrients Come Out
Creation of organic enriched compost on site
Graphic showing the Windfall Bio management software on a phone
Management Software
Tools to measure and manage your Methane-to-Soil resource stream.

Management Software

Tools to measure and manage your
Methane-to-Soil resource stream.
Graphic showing the Windfall Bio management software on a phone
Learn more about how Windfall Bio can fit into your operation.
A New Paradigm
A new industry

Methane to Organic Fertilizer

Decreasing reliance on synthetic fertilizers, putting more resilience and profit in the hands of the farmers that feed our communities.
A new standard

Methane Free Food Production

We can reshape industry norms and enable a more equitable food system that allows communities to eat what’s right for them.
A new climate solution

Soil as the Methane Sink

By restoring Methane Eating Microbes to their land, farmers will help re-establish soil's place as earth’s biggest Methane mitigator and prevent 0.5°C of warming by 2050, that’s equivalent to ⅓ of the temperature target set by the Paris Climate Agreement.
A new industry

Methane to Organic Fertilizer

Decreasing reliance on synthetic fertilizers, putting more resilience and profit in the hands of the farmers that feed our communities.
A new standard

Methane Free Food Production

We can reshape industry norms and enable a more equitable food system that allows communities to eat what’s right for them.
a new climate solution

Soil as the Methane Sink

By restoring Methane Eating Microbes to their land, farmers will help re-establish soil's place as earth’s biggest Methane mitigator and prevent 0.5°C of warming by 2050, that’s equivalent to ⅓ of the temperature target set by the Paris Climate Agreement.
A new industry

Methane to Organic Fertilizer

Decreasing reliance on synthetic fertilizers, putting more resilience and profit in the hands of the farmers that feed our communities.
a new standard

Methane Free Food Production

We can reshape industry norms and enable a more equitable food system that allows communities to eat what’s right for them.
a new climate solution

Soil as the Methane Sink

By restoring Methane Eating Microbes to their land, farmers will help re-establish soil's place as earth’s biggest Methane mitigator and prevent 0.5°C of warming by 2050, that’s equivalent to ⅓ of the temperature target set by the Paris Climate Agreement.