Climate changes are predicted to increase extreme rainfall events in semiarid and arid region in Northern Hemisphere. Nutrient cycles will be affected by the precipitation changes but so far only very little is known how soil N transformations may respond. Here we investigated gross soil N transformation rates and their response to simulated rainfall events across Northeast China Transect (NECT). The results showed that gross N mineralisation rate, nitrification rate and nitrification to mineralisation ratio significantly increased as the humidity index decreased along NECT, resulting in NO3- as the predominant inorganic N form. These characteristics could increase the risk of NO3- losses but at the same time reduce the risk of N losses via...
Background: Both climate warming and atmospheric nitrogen (N) deposition are predicted to affect soi...
Aims: Soil organic nitrogen (N) turnover is significantly influenced by elevated N deposition, preci...
Belowground microbial nitrogen (N) processes play key roles in regulating terrestrial ecosystem serv...
Climate models predict greater rainfall will occur in the arid and semiarid regions of Northwest Chi...
Temperate grasslands in arid and semiarid regions cover about 40% of the total land area in China. S...
Abstract Global climate change has led to a significant increase in the frequency of extreme rainfal...
Background Many regions in the world are experiencing changes in precipitation pattern, which likel...
Expected changes in precipitation over large regions of the world under global climate change will h...
Nitrogen (N) cycling in drylands under changing climate is not well understood. Our understanding of...
Both climate warming and atmospheric nitrogen (N) deposition are predicted to affect soil N cycling ...
Soil nitrogen (N) transformation, a key microbial process in global N cycling, is thought to alter s...
Both climate warming and atmospheric nitrogen (N) deposition are predicted to affect soil N cycling ...
Background Many regions in the world are experiencing changes in precipitation pattern, which likely...
Nitrogen loss is the main reason for land quality degradation and productivity decline and an import...
Soils in the alpine grassland store a large amount of nitrogen (N) due to slow decomposition. Howeve...
Background: Both climate warming and atmospheric nitrogen (N) deposition are predicted to affect soi...
Aims: Soil organic nitrogen (N) turnover is significantly influenced by elevated N deposition, preci...
Belowground microbial nitrogen (N) processes play key roles in regulating terrestrial ecosystem serv...
Climate models predict greater rainfall will occur in the arid and semiarid regions of Northwest Chi...
Temperate grasslands in arid and semiarid regions cover about 40% of the total land area in China. S...
Abstract Global climate change has led to a significant increase in the frequency of extreme rainfal...
Background Many regions in the world are experiencing changes in precipitation pattern, which likel...
Expected changes in precipitation over large regions of the world under global climate change will h...
Nitrogen (N) cycling in drylands under changing climate is not well understood. Our understanding of...
Both climate warming and atmospheric nitrogen (N) deposition are predicted to affect soil N cycling ...
Soil nitrogen (N) transformation, a key microbial process in global N cycling, is thought to alter s...
Both climate warming and atmospheric nitrogen (N) deposition are predicted to affect soil N cycling ...
Background Many regions in the world are experiencing changes in precipitation pattern, which likely...
Nitrogen loss is the main reason for land quality degradation and productivity decline and an import...
Soils in the alpine grassland store a large amount of nitrogen (N) due to slow decomposition. Howeve...
Background: Both climate warming and atmospheric nitrogen (N) deposition are predicted to affect soi...
Aims: Soil organic nitrogen (N) turnover is significantly influenced by elevated N deposition, preci...
Belowground microbial nitrogen (N) processes play key roles in regulating terrestrial ecosystem serv...