Home
Resources
Case Studies
Pléiades Neo
Deep Blue and Polynesian Black...
Deep Blue and Polynesian Black Pearls
Pléiades Neo’s deep blue spectral band improves the performance of water depth estimation, specifically in bathymetry. In the French Polynesian atoll of Arutua, black pearl oyster farming is a significant economic resource. These seafloor maps can provide opportunities for the sustainable management of the Blue economy.
The black-lipped pearl oyster
- Black pearl oyster production is French Polynesia's second most valuable economic resource, accounting for over 90% of world production.
- The Arutua atoll, located 368 km north-east of Tahiti, harvested the most cultured pearls in Tahiti in 2021, with 1.7 million pearls.
- Sustainable management of the Arutua lagoon has been implemented since 2017 to control black pearl oyster farming capacity and the health of the atoll.
- The estimation of water depth is necessary to create a geophysical model of the lagoon's bathymetry
- The bathymetric map will make it possible to monitor, develop and adapt the lagoon to decisions relating to sustainable development.
Arutua Atoll
Airbus has developed an advanced satellite image processing algorithm for creating detailed bathymetry maps of coastal areas and coral reef cartography. In this example, we apply it to a Pléiades Neo image captured on September 6, 2022, over the Arutua atoll.
The resulting map delivers depth readings of up to 25m with a resolution of 1.2m, all achieved without the need for external reference data.
The process begins with atmospheric correction and the creation of a clear, haze-free image. Next, water depth is estimated using sophisticated physical or reflectance modelling techniques.
Bathymetric map
While all six spectral bands of Pléiades Neo contribute to the algorithm, the Deep Blue band plays a pivotal role. This valuable information is visually represented using a colour scale.
The Deep Blue band spans between 400 and 450 nanometers, sitting right on the cusp of the visible light spectrum. With minimal water absorption, it enables us to see further into the depths.
The water around this atoll provides an ideal environment for both oysters and fish to flourish. As a result, it's essential to safeguard the pearl oysters by housing them in wire mesh baskets suspended on lines.
These lines, visible in the blue band, appear as long, parallel streaks near the pearl farms. Comparing them to the bathymetry map, these oyster lines are typically found at depths ranging from 8 to 10 meters.
Geophysical model of the seabed
A bathymetric map obtained without external reference data.
A bathymetric map with a resolution of 1.20m and a model capable of detecting depths of up to 25m.
Rapid bathymetric data that can be repeated to monitor geomorphological changes in the lagoon.
Blue Economy
Bathymetry enhances the underwater observation capabilities on which other Blue Economy space applications are based:
- Coral reef monitoring
- Sediment dynamics
- Geomorphological changes
- Shallow water vegetation cover
- Hydro-climate
- Monitoring renewable resources
- Food sources for the marine wildlife, including oysters
Want to know more?
Our sales team will be happy to provide you more information about this case study and how it can meet your business needs.
See all our case studies
Alianza Team uses Starling to Assess Peatlands and Forests Across their Palm Oil Supply Chain
In line with their goal of achievening a deforestation-free agricultural supply chain by 2025 – and in alignment with their NDPE (No Deforestation, No Peatland Expansion, and No Exploitation of People and Communities) – Alinaza Team partnered up with Starling and Earthworm Foundation to assess the current state and potential risks linked to forest and peatland conservation practices in both their current and future palm oil supply chain.
Stantec Utilizes Airbusʼ Pléiades Neo HD15 Product to Detect Hazardous Pipeline Right-of-Way Encroachments
Stantec needed to enhance their existing pipeline monitoring service, PipeWATCH, to detect physical encroachments by third parties along a high-pressure underground pipeline in a densely populated area of Southern Ontario.
Flood Management in Brazil with WorldDEM™ Neo DTM
The Geological Survey of Brazil (GSB) aims to forecast river levels during floods and droughts.
Thanks to our WorldDEM Neo Digital Terrain Model (DTM), GSB used in conjunction WorldDEM Neo with SAR data to visualize the damages caused by one of the largest floods ever experienced in Brazil.