Few people appreciate that the nearby Olonne marshes form a veritable laboratory for blue carbon. Coastal salt marshes are ...

This mechanism could enable these plants to compensate for the low carbon uptake through photosynthesis in the shaded understory, giving them a growth advantage over other plants. The researchers ...

Blue carbon ecosystems - mangrove forests, seagrass meadows, and salt marshes - are essential for global organic carbon sequestration. These ecosystems serve as significant carbon sinks whilst ...

GlobalData’s Hydrogen report reveals that about 83% of the low-carbon hydrogen capacity by 2030 will be from green hydrogen ...

The hydrogen market is set to occupy a critical role in decarbonisation. Around 83% of the low carbon hydrogen capacity set ...

Kiel. How can seagrass help combat climate change? This question is the focus of the new research project ZOBLUC (“Zostera marina as a Blue Carbon Sink in the Baltic Sea”), which now starts under the ...

The rise in carbon dioxide levels in our atmosphere is also helping to acidify our oceans even further, resulting in more ...

Carbon (C), nitrogen (N), and phosphorus (P) stoichiometry serve as valuable indices for plant nutrient utilization and biogeochemical cycling within ecosystems. However, the allocation of these ...

The ZOBLUC Project explores how Baltic Sea seagrass meadows store CO₂, restore ecosystems, and engage communities in ...