Understanding and predicting ecosystem functioning such as biomass accumulation requires an accurate assessment of large-scale patterns of biomass distribution and partitioning in relation to climatic and soil environments.We sampled above- and belowground biomass from 26 sites spanning 1500 km in Inner Mongolian grasslands, compared the difference in aboveground, belowground biomass and below-aboveground biomass ratio (AGB, BGB, and B/A, respectively) among meadow steppe, typical steppe, and desert steppe types. The relationships between AGB, BGB, B/A and climatic and soil environments were then examined.We found that AGB and BGB differed significantly among three types of grasslands while B/A did not differ. Structural equation model anal...
Grasslands play a significant role in terrestrial ecosystem carbon cycle due to large biomass stored...
Many studies have focused on the relationship between vegetation biomass and environmental factors i...
The dynamics of aboveground biomass (AGB) are driven by both climate variation and anthropogenic mod...
Understanding and predicting ecosystem functioning such as biomass accumulation requires an accurate...
Understanding and predicting ecosystem functioning such as biomass accumulation requires an accurate...
Aim: Understanding and predicting ecosystem functioning such as biomass accumulation requires an acc...
Above- and belowground biomasses of grasslands are important parameters for characterizing regional ...
Biomass was measured at 48 undefoliated grassland sites on a 1900-km transect in Inner Mongolia. Abo...
Above- and belowground biomass allocation not only influences growth of individual plants, but also ...
Alpine steppe is considered to be the largest grassland type on the Tibetan Plateau. This grassland ...
Alpine steppe is considered to be the largest grassland type on the Tibetan Plateau. This grassland ...
Aim To investigate large-scale patterns of above-ground and below-ground biomass partitioning in ...
Optimal partitioning and isometric allocation are two important hypotheses in plant biomass allocati...
Many studies have focused on the relationship between vegetation biomass and environmental factors i...
The authors estimated aboveground biomass in 6 grasslands of Xinjiang according to data composed of ...
Grasslands play a significant role in terrestrial ecosystem carbon cycle due to large biomass stored...
Many studies have focused on the relationship between vegetation biomass and environmental factors i...
The dynamics of aboveground biomass (AGB) are driven by both climate variation and anthropogenic mod...
Understanding and predicting ecosystem functioning such as biomass accumulation requires an accurate...
Understanding and predicting ecosystem functioning such as biomass accumulation requires an accurate...
Aim: Understanding and predicting ecosystem functioning such as biomass accumulation requires an acc...
Above- and belowground biomasses of grasslands are important parameters for characterizing regional ...
Biomass was measured at 48 undefoliated grassland sites on a 1900-km transect in Inner Mongolia. Abo...
Above- and belowground biomass allocation not only influences growth of individual plants, but also ...
Alpine steppe is considered to be the largest grassland type on the Tibetan Plateau. This grassland ...
Alpine steppe is considered to be the largest grassland type on the Tibetan Plateau. This grassland ...
Aim To investigate large-scale patterns of above-ground and below-ground biomass partitioning in ...
Optimal partitioning and isometric allocation are two important hypotheses in plant biomass allocati...
Many studies have focused on the relationship between vegetation biomass and environmental factors i...
The authors estimated aboveground biomass in 6 grasslands of Xinjiang according to data composed of ...
Grasslands play a significant role in terrestrial ecosystem carbon cycle due to large biomass stored...
Many studies have focused on the relationship between vegetation biomass and environmental factors i...
The dynamics of aboveground biomass (AGB) are driven by both climate variation and anthropogenic mod...