Terrestrial ecosystems absorb ~3.5 PgC yr –1 from the atmosphere 1, offsetting around 30% of annual anthropogenic carbon dioxide (CO 2) emissions 2. However, coupled carbon–climate model projections ...

China faces challenges in reaching its carbon neutrality goal by the year 2060 to meet the Paris Agreement and improving air quality simultaneously. Dramatic nitrogen emission reductions will be ...

With CMCC’s contribution a new study and database provides scientists with an unprecedented resource for understanding how Earth's land systems store carbon and produce biomass, establishing a ...

This Research Topic addresses critical limitations in conventional remote sensing for monitoring terrestrial ecosystems ...

a, Isotope-based BNF estimate; b–i, BNFs simulated by ESMs in CMIP6. The areas of managed croplands and pastures were excluded in their analysis and are represented by grey regions. The research team, ...

The terrestrial water cycle is a fundamental component of Earth's climate system, governing the exchange of water between land surfaces and the atmosphere.

Micro/nanoplastics (MNPs), plastic particles and fibers with sizes ranging from nanometers (≥ 1 nm) to micrometers (≤ 5 mm) have become emerging environmental pollutants and are widely distributed ...

Pt. 1: Context. The ecosystem concept. Earth's climate system -- Pt. 2: Mechanisms. Terrestrial water and energy balance. Carbon input to terrestrial ecosystems. Terrestrial production processes.