Accession |
PRJCA001644 |
Title |
Soil warming and Spartina alterniflora invasion |
Relevance |
Environmental |
Data types |
Metagenome
Raw sequence reads
Genome sequencing
|
Organisms |
soil metagenome
|
Description |
Climate warming and plant invasions are among the most serious threads to biodiversity and stability in terrestrial ecosystems. A particular challenge is to predict how soil microbial communities will change under future conditions. Although evidence that soil microbial community structure can be shifted by experimental warming and plant invasion, few studies to quantify the interactive effects of both factors. Here, we designed the experimental inter-species competition scenarios to fall into five different groups and grew them under warming and ambient environment, respectively. For these vegetation communities, the ratio of shoots of S. alterniflora to that of P. australis was 0:4, 1:3, 2:2, 3:1, and 4:0, respectively. After two-year warming, we collected surface soils (0-5 cm) and subsurface soils (5-20 cm) in each plot to explore the influence of warming and S. alterniflora invasion and their interaction on the soil bacterial community. |
Sample scope |
Environment |
Release date |
2019-08-08 |
Publication |
PubMed ID |
Article title |
Journal name |
DOI |
Year |
35149064
|
Climate warming, but not Spartina alterniflora invasion, enhances wetland soil HONO and NOx emissions
|
Science of The Total Environment
|
10.1016/j.scitotenv.2022.153710
|
2022
|
|
Grants |
Agency |
program |
Grant ID |
Grant title |
National Natural Science Foundation of China (NSFC)
|
|
41807449
|
|
National Natural Science Foundation of China (NSFC)
|
|
41761144062
|
|
National Natural Science Foundation of China (NSFC)
|
|
41730646
|
|
Shanghai Pujiang Program
|
|
18PJ1403500
|
|
|
Submitter |
Dianming
Wu (dmwu@geo.ecnu.edu.cn)
|
Organization |
East China Normal University |
Submission date |
2019-08-08 |