Humans may be accelerating the rate at which organic matter decomposes in rivers and streams on a global scale, according to a new study from the University of Georgia, Oakland University and Kent ...

Fig. 2: Modeling performance of the Gradient Boosting Machine (GBM), the Random Forest (RF), and the Multiple Linear Regression (MLR) with feature selection. Fig. 3: Relative importance of explanatory ...

In terrestrial ecosystems, leaf litter is the main source of nutrients returning to the soil. Understanding how litter decomposition responds to stand age is critical for improving predictions of the ...

Humans may be accelerating the rate at which organic matter decomposes in rivers and streams on a global scale, according to a new study from the University of Georgia, Oakland University and Kent ...

Organic carbon decomposition in soil varies significantly and in regional patterns, driven in part by factors such as soil minerals and microbial properties that have been underrepresented in carbon ...

Researchers have shown that larger insects such as woodlice and beetles play as much of a crucial role in leaf litter decomposition across different habitats and seasons as microbes and smaller ...