The progressive restoration of degraded vegetation in semiarid and arid desertified areas undoubtedly formed different habitat types. The most plants regulate their growth by fixing carbon with their energy deriving from photosynthesis, carbon (C) and nitrogen (N) play the crucial role in regulating plant growth, community structure and function in the vegetation restoration progress. However, it is still unclear how habitat types affect the dynamic changes of allocation in C and N storage of vegetation-soil system in sandy grasslands. Here, we investigated plant community characteristics and soil properties across three successional stages of habitat types: semi-fixed dunes (SFD), fixed dunes (FD) and grasslands (G) in 2011, 2013 and 2015. We also examined the C and N concentrations of vegetation-soil system, and estimated their C and N storage. The C and N storage of vegetation system, soil and vegetation-soil system remarkably increased from SFD to G. The litter C and N storage in SFD, N storage of vegetation system in SFD and N storage of soil and vegetation-soil system in FD increased from 2011 to 2015, while aboveground plant C and N storage of FD were higher in 2011 than in 2013 and 2015. Most of C and N were sequestered in soil in the vegetation restoration progress. These results suggest that the dynamic changes of allocation in C and N storage in vegetation-soil systems varied with habitat types. Our study highlights that SFD has higher N sequestration rate in vegetation, while FD has the considerably N sequestration rate in the soil.
| collect time | 2011/01/01 - 2015/12/31 |
|---|---|
| collect place | Horqin Sandy Land |
| data size | 987.3 KiB |
| data format | .xlsx |
| Coordinate system |
We selected 18 sampling sites corresponding to the SFD, FD, and G habitat types under the condition of long-term enclosure, within 6 replication sites in each habitat, and the distance among all sites was about 0.5–8 km,Perform sampling.
The two-way analysis of variance (ANOVA) was used to examine the effects of habitat types, sampling years, and their interaction on aboveground biomass, litter mass, root biomass, soil bulk density, C and N concentrations, and storage in aboveground plant, litter, root, and soil at each depth, vegetation system, and vegetation–soil system. Least significant differences (LSD) test was used to compare the different habitat types or sampling years if the ANOVA was significant (p < .05). All statistical analyses were performed by SPSS (version 19.0).
The data quality is good.
| # | number | name | type |
| 1 | 41571106 | National Natural Science Foundation of China |
This work is licensed under a
Creative
Commons Attribution 4.0 International License.
| # | title | file size |
|---|---|---|
| 1 | DATA.xlsx | 35.6 KiB |
| 2 | Readme.xlsx | 11.5 KiB |
| 3 | _ncdc_meta_.json | 6.3 KiB |
| 4 | ece3.7751.pdf | 940.1 KiB |
| # | category | title | author | year |
|---|---|---|---|---|
| 1 | paper | Effects of habitat types on the dynamic changes in allocation in carbon and nitrogen storage of vegetation–soil system in sandy grasslands: How habitat types affect C and N allocation? | Peng,Lv,Shanshan,Sun,Eduardo,Medina-Roldánd,Shenglong,Zhao,Ya,Hu,Aixia,Guo,Xiaoan,Zuo | 2021 |
Habitat types dynamic changes in carbon and nitrogen storage allocation semi fixed dunes (SFD) fixed dunes (FD) grasslands (G)
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