Yunting Fang

TL;DR: In this article, the response of soil respiration to atmospheric nitrogen (N) deposition in tropical forests is a decline, but it may vary depending on the rate of N deposition, which is correlated with a decrease in soil microbial activities and in fine root biomass.

TL;DR: Investigation of soil N isotopic values along a 3,200 km aridity gradient reveals a hump-shaped relationship between soil δ(15)N and aridity index (AI) with a threshold at AI=0.32, and suggests different controlling factors of N-cycling on either side of the threshold.

TL;DR: Based on the chemical and isotopic measurements of size-resolved aerosols in urban Beijing, China, this article found that the natural abundance of NH4+ in fine particles varies with the development of haze episodes, ranging from -37.1

TL;DR: The results suggest that high-N additions can decrease plant diversity in tropical forests, but that this response may vary with rate of N addition.

TL;DR: In this article, the response of litter for the dominant tree species in disturbed (pine), rehabilitated (pine and broadleaf mixed) and mature (monsoon evergreen broadleaf) forests in subtropical China to simulated N deposition was studied to address the following hypothesis: (1) litter decomposition is faster in mature forest (high soil N availability) than in rehabilitated/disturbed forests (low-soil N availability).