Changes in water and nitrogen (N) availability due to climate change and atmospheric N deposition could have significant effects on soil respiration, a major pathway of carbon (C) loss from terrestrial ecosystems. A manipulative experiment simulating increased precipitation and atmospheric N deposition has been conducted for 9 years (2005–2013) in a semiarid grassland in Mongolian Plateau, China. Increased precipitation and N addition interactively affect soil respiration through the 9 years. The interactions demonstrated that N addition weakened the precipitation-induced stimulation of soil respiration, whereas increased precipitation exacerbated the negative impacts of N addition. The main effects of increased precipitation and N addition...
Given that plant growth is often water-limited in grasslands, it has been proposed that projected in...
Soil respiration (Rs) is the second-largest terrestrial carbon (C) flux. Although Rs has been extens...
Climate warming, altered precipitation and nitrogen deposition may critically affect plant growth an...
Changes in water and nitrogen (N) availability due to climate change and atmospheric N deposition co...
Changes in water and nitrogen (N) availability due to climate change and atmospheric N deposition co...
Soil respiration, R-s, is strongly controlled by water availability in semiarid grasslands. However,...
1. Nitrogen (N) deposition and land-use practice (e.g. mowing) could have profound effects on soil r...
1. Most grasslands in the world, including the semi-arid steppe in China, are threatened by nitrogen...
<div><p>The effect of resource pulses, such as rainfall events, on soil respiration plays an importa...
Soil respiration (Rs) is an important source of atmospheric CO2 flux and is sensitive to changes in ...
The response mechanism of ecosystem respiration (Re) and soil respiration (Rs) to different water co...
Extreme precipitation events are predicted to occur more frequently and will have significant influe...
Soil respiration (R-s) is the second-largest terrestrial carbon (C) flux. Although R-s has been exte...
1. Most grasslands in the world, including the semi-arid steppe in China, are threatened by nitrogen...
The impact of climate change (i.e. warming and changes in precipitation patterns) on carbon (C) sequ...
Given that plant growth is often water-limited in grasslands, it has been proposed that projected in...
Soil respiration (Rs) is the second-largest terrestrial carbon (C) flux. Although Rs has been extens...
Climate warming, altered precipitation and nitrogen deposition may critically affect plant growth an...
Changes in water and nitrogen (N) availability due to climate change and atmospheric N deposition co...
Changes in water and nitrogen (N) availability due to climate change and atmospheric N deposition co...
Soil respiration, R-s, is strongly controlled by water availability in semiarid grasslands. However,...
1. Nitrogen (N) deposition and land-use practice (e.g. mowing) could have profound effects on soil r...
1. Most grasslands in the world, including the semi-arid steppe in China, are threatened by nitrogen...
<div><p>The effect of resource pulses, such as rainfall events, on soil respiration plays an importa...
Soil respiration (Rs) is an important source of atmospheric CO2 flux and is sensitive to changes in ...
The response mechanism of ecosystem respiration (Re) and soil respiration (Rs) to different water co...
Extreme precipitation events are predicted to occur more frequently and will have significant influe...
Soil respiration (R-s) is the second-largest terrestrial carbon (C) flux. Although R-s has been exte...
1. Most grasslands in the world, including the semi-arid steppe in China, are threatened by nitrogen...
The impact of climate change (i.e. warming and changes in precipitation patterns) on carbon (C) sequ...
Given that plant growth is often water-limited in grasslands, it has been proposed that projected in...
Soil respiration (Rs) is the second-largest terrestrial carbon (C) flux. Although Rs has been extens...
Climate warming, altered precipitation and nitrogen deposition may critically affect plant growth an...