Climate Resilience: Blue Carbon AI for Precise Mitigation Efforts

Our Organization

The Nature Conservancy Ecuador

What is the name of your solution?

Climate Resilience: Blue Carbon AI for Precise Mitigation Efforts

Provide a one-line summary of your solution.

AI blue carbon assessment tool to accurately and cost-effectively estimate carbon stored in tree-level biomass in threatened mangroves in Ecuador

In what city, town, or region is your solution team headquartered?

In what country is your solution team headquartered?

• Ecuador

What type of organization is your solution team?

Nonprofit

Film your elevator pitch.

What specific problem are you solving?

The problem is the critical loss of mangroves throughout the world and the lack of incentives for its conservation and restoration. Via carbon credits this situation can turn around but it requires reliable information on carbon stocks and more certainty about location and conditions.

Mangroves are among the most productive ecosystems in the world and have the potential to support the livelihoods of millions of people when maintained responsibly. Additionally, they significantly contribute to climate change mitigation though carbon storage and adaptation by reducing the vulnerability of coastal areas to inclement weather, protecting them from erosion and sea level rise. Also, as documented by various scientific reports, mangrove degradation affects water quality and nutrient cycling.

Many communities along the Ecuadorian coast, a highly vulnerable sector, depend on mangroves. As mangroves harbor a wide variety of plant and animal species adapted to coastal environments, including migratory birds, fish, crustaceans, and marine mammals, threats to these ecosystems are a direct threat to the dietary staple and livelihoods of these communities.

However, in spite representing ecosystems of great environmental, economic, cultural, and natural protection importance, mangroves face a severe crisis. According to the head of UNESCO in 2023, 75% of the world’s mangroves are under threat, and with them all the aquatic and terrestrial organisms that depend on them.

By 2019, over a 40-year span, Ecuador lost 56,396 hectares of mangroves, equivalent to 80,000 soccer fields, affecting not only the ecosystem but also more than 10,000 families that rely on the mangrove for their livelihoods and food security. 

The problem is exacerbated by the lack of economic incentives to protect and maintain the mangroves and the economic vulnerability of the coastal communities that drive them to overexploit the mangrove without the proper practices. 

The carbon stored within mangrove forests (blue carbon) has the potential to be a solution for that financial challenge because mangroves can store 5 times more CO2 than forests and it is a good business opportunity now that carbon markets have grown and prices have been increasing. But to develop blue carbon credits at the speed and quality required by the climate change mitigation urgency, data needs to be more accurate and more accessible. 

Currently carbon data for mangroves is collected either by forest inventories done in the field with a lot of logistic and financial challenges or by satellite information that is also expensive, does not always provide detailed information, nor flexibility regarding the day the image is taken and face challenges when weather conditions aren´t good enough.

Our proposed solution, by integrating scientific research, cutting-edge technology, and community engagement, aims to fill knowledge gaps, improve data accuracy, and promote sustainable management of mangrove ecosystems to ensure their climate change resilience in a cost-effective manner.

What is your solution?

Our solution is an AI tool that accurately measures the above-ground biomass of mangrove trees, providing crucial insights about their carbon storage capacity. By employing a deep learning algorithm trained to analyze drone imagery and elevation models – DTM Digital Terrain Model and DSM  Digital Surface Model -, it offers detailed assessments of the carbon storage of individual trees. This valuable information improves the accuracy of protection and restoration activities and facilitates the development of blue carbon credits, essential for obtaining the financial incentives for sustainable and effective conservation efforts.

Our solution uses an RGB camera, a widely available and easy to use technology, requires no special equipment or costly calibration procedures, and has lower maintenance costs. Additionally, the AI tool is based on easily accessible software packages such as H2O and Deep Forest, both can process diverse types of data and perform complex analyses. We used Jupyter Notebook to run the software packages Our solution is temporarily hosted on an Amazon server, once fully calibrated and evaluated for mangroves, it will be moved to a TNC server so everybody can get free access.

In contrast to conventional methods, our solution, along with its technological components, represents a more cost and time-effective alternative. Traditional approaches are field forest inventory, a time-consuming and complex process that requires to take samples by destroying part of the mangrove and has logistical difficulties due to the nature of the terrain, which can significantly limit the amount of area covered in the analysis. For example, conventional forest inventories can cover two plots of around 40 x 40 meters in a day, while our solution with drones can map a much larger area, up to 120 hectares in just two hours.

While the use of satellite imagery is also an alternative commonly used, its spatial resolution is not detailed enough to provide accurate and complete data and the ones with high resolution are very expensive. Also, getting cloud-free imagery is challenging. In contrast, our AI tool with the use of drones, overcomes the cloud cover barrier, and offers a combination of accuracy and efficiency. By ensuring better resolution and timely delivery of real-time alerts, it allows for a more effective response to threats. In contrast with current systems that provide monthly alerts, often arriving after the issue has passed. It´s an end-to-end solution that is both accurate and cost-effective.

Who does your solution serve, and in what ways will the solution impact their lives?

Our solution is designed to serve a wide range of stakeholders worldwide, including local communities and people with historical and traditional connection to mangrove ecosystem, but also researchers, academics, protected areas, government entities, and carbon market stakeholders. The initiative is poised to create enabling conditions for the initiation of future blue carbon projects in prioritized areas.

The prototype that we are developing for mangroves includes a pilot to be developed in Guayaquil, Ecuador in cooperation with Fisher Associations such as Manglares Porteño Cooperative, Marine Association, Forjadores del Futuro Association in El Morro community, and the Sabana Grande Association in Sabana Grande. These associations help protect mangroves totaling more than 7000 hectares and represent a population of around 6000 people.

The population residing in El Morro and Sabana Grande in Ecuador are mainly coastal communities that rely on natural resources for their livelihoods. These communities use these ecosystems for fishing, shellfish harvesting, and tourism. Some of the socio-economic challenges that inhabitants face include limited access to basic health and education services, as well as employment opportunities outside the fishing and tourism sector. Their lifestyle is closely tied to nature, and they depend on the health of mangroves for their survival and well-being.

The mangroves of El Morro and Sabana Grande are home for a wide range of marine and coastal animals, including fish, crabs, mollusks, and birds like gulls, pink herons, and pelicans. Land populations like coatis and raccoons are also supported by these environments. The interaction between these communities forms complex food webs that contribute to ecosystem stability.

Central to TNC Ecuador marine strategy is the empowerment of key coastal communities and protected areas technical staff, who will undergo trainings to strengthen their skills in maintaining mangroves and measuring and managing blue carbon data in mangroves, thereby enhancing climate resilience and ecosystem conservation in these vital zones. The dissemination of accurate mangrove information to local communities equips them with the insight needed to collaborate with environmental authorities and other relevant stakeholders, thus facilitating informed decision-making for the sustainable management of mangrove ecosystems.

In addition, the data generated by our solution is going to be of immense value to scientific researchers and government worldwide. By leveraging this robust dataset, researchers can gain deeper insights into the critical role of mangroves in climate change mitigation. Consequently, this facilitates the formulation of more effective conservation strategies, and enables the generation of impactful policies.

In parallel, carbon market actors will have access to detailed and reliable information on mangroves health and mangroves carbon storage potential. This will enable them, in an easier way, to develop carbon offset projects and create sustainable economic opportunities, based on the best available scientific evidence. In essence, our solution exerts a positive impact on stakeholders by providing them with the necessary tools and knowledge to promote mangrove conservation and increase climate resilience in coastal communities.

How are you and your team well-positioned to deliver this solution?

The Nature Conservancy´s expertise in the field is exemplified by the development of Blue Carbon Explorer. A Google Earth Engine app developed by our organization and Planets Labs PBC, that leverages field-collected data from drone and satellite imagery, to help identify key areas for restoration and protection. This collaborative work has been implemented into changing coastal habitats throughout the Caribbean, Indonesia, and Papua New Guinea. The team involved, with its capacity and experience, provide technical support and advice to emerging teams in other countries implementing similar initiatives. Additionally, as co-founders of the Global Mangrove Alliance, alongside WWF and CI, we have played a pivotal role to address the urgent challenges facing mangrove ecosystems worldwide. Our track record demonstrates our ability to navigate complex environmental issues and deliver impactful solutions that benefit both local communities and the planet as a whole.

To prove the prototype, the pilot will be implemented in Guayaquil, Ecuador, where our TNC local team has worked tirelessly to stop the destruction of mangrove ecosystems, raise awareness, and implement science-based restoration. We have been able to bring knowledge and a strong sense of commitment to the areas we serve, thanks to a dedicated workforce willing to offer viable and creative solutions. This team is highly qualified and committed to implementing the solution, backed by both global expertise and a solid track record in the country of at least three decades working in regional and local mangrove conservation, establishing strong relationships with coastal communities and mangrove users.

Our work with mangroves has encompassed various aspects including business models, management plans, and effective communication strategies, among others. During 2022 and 2023 we were involved in evaluating and updating  the National Mangrove Plan while monitoring and supporting the conservation of mangrove areas in two zones of the Gulf of Guayaquil under a cooperation agreement between the Water Fund for the Conservation of the Daule River Basin (FONDAGUA) and The Nature Conservancy (TNC). This project was implemented in the 2 communities of the inner estuary of the Gulf of Guayaquil, El Morro and Sabana Grande (the same communities where we plan to implement the mangrove prototype AI tool).

The mentioned project developed a training process for coastal management stakeholders (involving academia, public sector officials, and mangrove custodians) on the use of the Global Mangrove Watch (GMW) tool for mangrove conservation. Additionally, monitoring and surveillance programs in these two Gulf of Guayaquil communities, were strengthened through the updating of management programs, workshops on drone use, and the delivery of equipment. The project also supported community activities such as mangrove planting, gastronomic festivals and meliponiculture training, among others.  The development of this and other projects working with the communities to pilot our solution, allow us to rely on their prior involvement and incorporating their voice.

Which dimension of the Challenge does your solution most closely address?

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

• 1. No Poverty
• 13. Climate Action

What is your solution’s stage of development?

Please share details about why you selected the stage above.

The Nature Conservancy Ecuador built an AI tool that allows us to get detailed information on geographic location, biomass and carbon stock per tree. The tool was created for tropical rainforest and tested in agroforest ecosystems in two provinces of the Amazon forest in Ecuador: Napo and Pastaza with the support of three kichwa communities: Pueblo Kichwa de Rukullacta, San Jacinto, Chontapunta and Chicocopataza that allowed us to overfly with drones their indigenous territories. 

Since then, we have been working to understand the flaws and improve the tool. For example we observed an average error of 4.6% in the estimation of the tree`s height with trees higher than 4 meters.  Also, we`ve adjusted the best time of the day to capture drone images, minimizing tree shadows.

In terms of carbon estimation, our results align closely with field measurements. We have increased the tree samples to have a good statistical estimation of carbon calculations. 

The AI tool requires some adjustments and calibrations to be used for mangroves and it still has to be tested in coastal communities. We have already identified the two pilot communities of El Morro and Sabana Grande due to our previous work and good relations with them. 

There are no beneficiaries so far but the info has been disseminated throughout TNC and there is interest in using it in Guatemala and Brazil and integrate it with the Blue Carbon Explorer created by the global team. 

Why are you applying to Solve?

Mangroves store five times de CO2 than land forest do and play a critical role protecting the communities from natural disasters, so protecting them is an efficient natural solution to mitigate and adapt to climate change and within carbon markets, blue carbon has a lot of potential still to be explored but there are big information gaps regarding ecosystems such as mangroves, saltmarshes and seagrasses. The world needs more accurate data on this type of ecosystems to be able to improve verification and validation of blue bonds and to monitor the fulfillment of conservation compromises.

The Nature Conservancy is aware of that information gap and has been working diligently to address it. However, as of now, the necessary information is not yet available for any country in Latin America. TNC`s initial efforts have focused on the Caribbean, but the rapidly shifting market dynamics and climate change requires a faster pace.

We need Solve because it can help us improve the AI tool and the information we have so far, scale it in Latin America and leverage a network of carbon market stakeholders (including entrepreneurs) that can use it, refine it, and create new green business opportunities focusing on the right ecosystems (regions with high carbon sequestration potential) and avoiding the mistakes done in the past with other carbon solutions.

In which of the following areas do you most need partners or support?

• Business Model (e.g. product-market fit, strategy & development)
• Monitoring & Evaluation (e.g. collecting/using data, measuring impact)
• Technology (e.g. software or hardware, web development/design)

Who is the Team Lead for your solution?

Paulina Álava- Natural Climate Solution Corbon Specialist