Scientists have discovered two super-deep diamonds that provide new insights into how phosphorus cycles through the Earth's mantle. These diamonds, formed 700 kilometers beneath the surface, contain rare minerals like tuite, which suggests that phosphorus can reach the lower mantle under specific conditions. Researchers from the University of Alberta and the Carnegie Institution for Science found that phosphorus typically remains near the surface due to the extreme heat of subducting oceanic plates, preventing it from being locked away in the deeper mantle. This finding challenges previous assumptions about the long-term availability of phosphorus, a critical element for life, and highlights the importance of cool subduction zones in facilitating deep mantle cycling.
Lecture du biais (Centre): The article presents scientific findings without overt ideological framing. It focuses on geological processes and does not take a stance on political policies or societal implications related to resource management or environmental issues. The tone remains objective, emphasizing empirical data over
Pourquoi ces scores (Factualité 95 · Objectivité 88): The article accurately describes the scientific findings related to super-deep diamonds and phosphorus cycling. It cites specific researchers and institutions, aligning with the primary source document. However, it uses emotionally charged language like 'life-giving synchronicity' and 'torched back,





