SoilWatch

What makes your solution innovative?

Current methods for carbon credit verification are using expensive and laborious recurring soil sampling or closed systems that lack scientific rigour. Although recurring sampling gives rigorous verification for the soil carbon stock, the method is unsuitable for areas of the Sahel and East Africa and other large scale and difficult to access carbon sequestration project areas. Latest developments in satellite monitoring and machine learning technologies and accumulated knowledge of the ecological carbon circulation model have enabled the development of an inexpensive remote monitoring and verification system. We are combining the most advanced satellite data with process carbon models and machine learning to achieve an improved quality carbon credit verification than the old and expensive method can provide. In addition, we are doing so in an open, transparent, replicable way which will increase confidence. Satellite and machine learning based monitoring and verification systems are scalable, meanwhile the conventional method is hardly scalable for large scale projects. Large-scale carbon sequestration enabling methods, such as ours, will increasingly attract investors to fund African rangelands restorations and build the Great Green Wall. By leading by example with openness, other organisations will adopt our methodology leading to increased confidence in the market overall and thereby increased funding for activities that benefit communities where need is greatest.

What are your impact goals for the next year and the next five years, and how will you achieve them?

We measure impact by the number of people affected, number of hectares being restored and tonnes of CO2 removed. In the first year, these figures will be projections however five years will give figures for CO2 removal that have high confidence.

Our goal for the next year is to expand the pilot agro-forestry project with our partners in Kenya, commence a wetland regeneration project with our partner in Niger, and post-conflict peace-building regenerative pastoralism in Darfur. Conservative estimates for year one will be around 60 000 people impacted if we receive funding to carry out additional baselines and projections beyond what is currently planned in Kenya and Darfur.

By 2027, the goal for SoilWatch's restoration projects is to have directly improved the livelihoods and resilience of over 800 000 pastoralists and farmers living in the areas that are the most impacted by climate change by linking them to carbon market financing for restoration activities that also improve their livelihoods in other ways in addition to the income.

How are you measuring your progress toward your impact goals?

We are monitoring and verifying carbon sequestration, and are constantly tracking multiple natural events on the project areas. These events include for example: erosion, bare soil time, soil organic carbon, carbon sequestration by the vegetation, vegetation type, biodiversity, and more. These methods are based on peer-reviewed studies and our expertise, and are under continuous development. Our team has many years of providing third party MRV on social impacts on UN agency and NGO activities based on SDG indicators which we will use once projects commence.

What is your theory of change?

Soil erosion is primarily caused by unsustainable land use practices

As outlined above, it leads to a variety of negative outcomes and has a feedback mechanism. But it can be reversed.

Nature-based solutions offer a way to improve livelihoods while restoring ecosystems

•The vast majority of the population relies on land for their livelihood: poverty cannot be addressed in conditions of degrading soils – ecosystem restoration is the solution to poverty

•Land-based livelihoods can work with and for the environment for mutual benefit

Revisioning livelihoods and practisng:

•Regenerative farming

•Multi-paddock grazing

•Agro-forestry

•Efficient charcoal and firewood use

Profitable and sustainable livelihoods

•Higher production

•Increased profits

•Better resilience against shocks

•Environmental and financial sustainability

Positive local and global effects

•Reversed desertification

•Alleviated pressure on resources

•Reduced conflict pressure

•Increased development

•CO2 sequestration

•Improved biodiversity

SoilWatch seeks to enable systematic and scalable ecosystem restoration

To mobilise and channel funding for evidenced and measurable activities that work with vulnerable rural communities to restore ecosystems at the local level, alleviating issues with food security and conflict, and combating climate change at the global level

Approach:

Identify and fill key gaps in existing funding and implementation systems to unlock their potential for ecosystem restoration in Sahel and East Africa and other environmentally vulnerable and conflict-affected regions

Voluntary carbon markets (VCMs) are a growing source of funding opportunities

VCMs refer to mechanisms through which emitting entities (countries, companies, individuals) can purchase credits to voluntarily offset their emissions

Restoring soil quality and sequestering carbon go hand in hand

The price of a carbon credit has grown dramatically over the past years from around $5 per tonne to over $30 (anecdotally, in some cases of high quality credits, up to around $100)

Growing momentum with major corporations making monetary pledges and seeking climate equity

Projected to be a $100 billion per year industry by 2030

Complemented by regulatory and mandatory carbon markets

Describe the core technology that powers your solution.

High resolution, high temporal frequency open satellite data, machine learning, process models, distributed ledgers and nature. We use very high tech to reduce the cost of monitoring reporting and verification and to ensure transparency and no double accounting. We then combine it with the very low tech, tried and tested nature-based solutions. Some are new such as Farmer Managed Natural Regeneration, and some are centuries or more old like rotational grazing.

Which of the following categories best describes your solution?

A new application of an existing technology

Please select the technologies currently used in your solution:

• Ancestral Technology & Practices
• Artificial Intelligence / Machine Learning
• Big Data
• Blockchain
• GIS and Geospatial Technology
• Imaging and Sensor Technology

https://soilwatch.users.earthengine.app/view/soilerosionwatch

Which of the UN Sustainable Development Goals does your solution address?

• 1. No Poverty
• 2. Zero Hunger
• 5. Gender Equality
• 8. Decent Work and Economic Growth
• 10. Reduced Inequalities
• 13. Climate Action
• 15. Life on Land

What type of organization is your solution team?

For-profit, including B-Corp or similar models

How many people work on your solution team?

6 Full time currently

How long have you been working on your solution?

1.5

What is your approach to incorporating diversity, equity, and inclusivity into your work?

Our multinational, multicultural team is working remotely, which enables us to hire the best candidates regardless of the location and disabilities. The team has a history of activism in gender diversity, migrant rights, LGBTQI+ activism, and has committed to EU social policies such as increasing representation on boards, which will soon become a legal requirement for receiving certain funding (a founder was active in the campaign for this prior to SoilWatch). We are volunteers with the Brussels Binder (increasing diversity on panels) and RANA (Refugees Are Not Alone) and have a dedicated advisor offering consulting on gender, ethnic and social inclusiveness. We have flexitime and the 4 day week as founding principles and are working to be Certified B (when legislation allows).

What is your business model?

SoilWatch facilitates ecosystem restoration, carbon sequestration, and empowerment of low-income rural communities in countries affected by climate change by connecting local level climate action with carbon markets by providing implementer networks with      state-of-the art and scalable soil carbon flux monitoring, verification, and reporting (MRV) solutions and project design support.

SoilWatch’s business model is designed with the aim of combining quality with scalability. SoilWatch is designed to be lean and to make use of existing project implementation networks, either communities or non-governmental organisations, in our priority countries. We aim to provide only services that are bottlenecks and that prevent tapping into the huge potential capacity of organisations to reorient towards integrating environmental restoration in their activities.

From the perspective of potential carbon offset buyers, one of the main current limiting factor is the lack of supply of large-scale soil carbon-based projects. All buyers that SoilWatch have interviewed such as Numerco, South Pole, Compensate, Native Energy and Climate Care struggle to source the amount of SOC capturing projects that they are looking for.    

The main obstacles that potential project-implementing organisations have in making use of the carbon markets for project implementation are: 1) the lack of a scalable MRV mechanism to reliably measure actual carbon sequestration; 2) the lack of project design capacity due to the relatively new frameworks guiding soil carbon; and 3) the lack of linkages of carbon market buyers and potential implementer networks.    

1. SoilWatch will provide context appropriate and scalable MRV solutions that will be a constant requirement for the carbon market buyers and sellers alike. The MRV system makes maximal use of remote sensing technologies as well as machine learning to reach scalability. Although at the early stages, some in-situ samples are required, the number of samples is greatly reduced compared to traditional methods and the need for this is greatly reduced through iterations, thus making the system not only able to scale but to benefit from it;
2. In the early stages, SoilWatch will also have to provide more involved project development support to potential implementer networks. However, as the organisations develop further capacity, we will move to providing only project optimisation advice based on the information created by the MRV system and modelling. This can be used for more informed decisions on what project activities are likely to work best in different areas as well as for making more accurate estimates of carbon sequestration that determines the project’s budgetary parameters, leading to higher likelihoods of positive impacts and fewer risks of project breakdowns;
3. Through market research and engagement in the carbon markets in many different fora, SoilWatch has created good linkages with potential buyers as well as an understanding regarding their priorities. This puts us in a position to facilitate the necessary linkages between buyers and implementers in the short term. 
4. Through market research and engagement with carbon market actors SoilWatch has identified sources of ex ante financing for projects capable of generating 30 000 tonnes of carbon credits. However, this figure effectively excludes smaller organisations working with at risk communities where the greatest positive impact can occur. For such projects SoilWatch targets specific corporations who have made climate pledges and who wish to be involved with the projects that they fund.

The generation of revenue depends by project and client. MRV and project design support can be sold either as services by set fee or provided as part of a consortium/partnership where SoilWatch receives a share of the generated carbon credits.

Do you primarily provide products or services directly to individuals, to other organizations, or to the government?

What is your plan for becoming financially sustainable?

The primary bottleneck we face is the cost of carrying our baseline creation and then projections of CO2 removal. Once these are complete, we can enable a project to access financing. Initially, we finance this activity through grants. At a later stage, we reinvest SoilWatch shares of profits from projects into carrying out baseline and projection creation for new projects.

In parallel, we offer Monitoring, reporting and verification (MRV) as a service and provide software as a service in the form of graphical ongoing MRV products to carbon market makers. Profits from these activities can also fund future projects.

Share some examples of how your plan to achieve financial sustainability has been successful so far.

We have received a 25 000 euro grant as part of the European Union Climate-KIC ClimAccelertor carbon removal. This allowed us to hire an additional data scientist and increase service provision.

The United Nations International Fund for Agriculture Development is interested in the concept of funding the commencement of projects that can then be funded by the voluntary carbon markets and are partnering with us for a pilot project in Darfur.

The International Organisation for Migration has contracted us to provide remote ecosystem monitoring, reporting and verification (MRV) using the same technology but without sampling as carbon credits are not required as part of the European Union funded project.

We are working with a Scandinavian fashion brand has contracted to enable funding for an agro-forestry project in Kenya based on climate impact.