摘要
Root distribution plays an important role in both vegetation establishment and restoration of degraded land through in-fluencing soil property and vegetation growth. Root distribution at 0-60 cm depth of A. halodendron was investigated in Horqin Sandy Land. Soil organic carbon (SOC) and nitrogen (SN) concentration as well as carbon and nitrogen in root biomass and necromass were measured. Root length density (RLD) was estimated. Total root biomass, necromass and the RLD at 0-60 cm depth was 172 g/m^2, 245 g/m^2, and 368 m/m^2, respectively. Both biomass and necromass of A. halodendron roots decreased with soil depth, live roots were mainly at 0-20 cm (76% of biomass and 63% of root length), while 73% of the necromass was within 0-30 cm depth. N concentration of roots (biomass and necromass) was about 1.0% and 1.5%, respectively. There were significant differences in SOC concentration between soil layers, but insignificant for SN. Soil C/N ratio decreased with depth (P〈0.05). C and N storage for belowground system at 0-60 cm decreased markedly with depth; 41.4% of C and 31.7% of N were allocated to the 0-10 cm layer. Root bio- and necromass together contained similar amount of C to that of the soil itself in the top layer. N stock was dominated by soil nitrogen at all depths, but more so in deeper layers. It is clear that differentiating between soil layers will aid in interpreting A. halodendron efficiency in soil restoration in sandy land.
Root distribution plays an important role in both vegetation establishment and restoration of degraded land through in-fluencing soil property and vegetation growth. Root distribution at 0-60 cm depth of A. halodendron was investigated in Horqin Sandy Land. Soil organic carbon (SOC) and nitrogen (SN) concentration as well as carbon and nitrogen in root biomass and necromass were measured. Root length density (RLD) was estimated. Total root biomass, necromass and the RLD at 0-60 cm depth was 172 g/m^2, 245 g/m^2, and 368 m/m^2, respectively. Both biomass and necromass of A. halodendron roots decreased with soil depth, live roots were mainly at 0-20 cm (76% of biomass and 63% of root length), while 73% of the necromass was within 0-30 cm depth. N concentration of roots (biomass and necromass) was about 1.0% and 1.5%, respectively. There were significant differences in SOC concentration between soil layers, but insignificant for SN. Soil C/N ratio decreased with depth (P〈0.05). C and N storage for belowground system at 0-60 cm decreased markedly with depth; 41.4% of C and 31.7% of N were allocated to the 0-10 cm layer. Root bio- and necromass together contained similar amount of C to that of the soil itself in the top layer. N stock was dominated by soil nitrogen at all depths, but more so in deeper layers. It is clear that differentiating between soil layers will aid in interpreting A. halodendron efficiency in soil restoration in sandy land.
基金
financially supported by the National Nature Science Foundation of China (No. 31500369)
the "One Hundred Talent" Program (Y551821001 and Y451H31001) of Chinese Academy of Sciences