Project description:A3_Microorganisms under Elevated CO2 along with elevated temperature (550 ppm along with 2 degree higher temperature compared to control chamber) Metagenome
Project description:To study long-term elevated CO2 and enriched N deposition interactive effects on microbial community and soil ecoprocess, here we investigated soil microbial community in a grassland ecosystem subjected to ambient CO2 (aCO2, 368 ppm), elevated CO2 (eCO2, 560 ppm), ambient nitrogen deposition (aN) or elevated nitrogen deposition (eN) treatments for a decade. There exist antagonistic CO2×N interactions on microbial functional genes associated with C, N, P S cycling processes. More strong antagonistic CO2×N interactions are observed on C degradation genes than other genes. Remarkably antagonistic CO2×N interactions on soil microbial communities could enhance soil C accumulation.
Project description:Six weeks old Arabidopsis plants were transferred to a low CO2 (100 ppm) environment during 24 hours and compared to control plants kept under ambient CO2 conditions. Limited CO2 availability will cause higher rates of photorespiration and affect the plant redox homeostasis. We studied the transcriptomic impact of exposing plants to a lower CO2 environment to further eliculidate the signaling pathways during photorespiratory stress.
Project description:There are seedling samples (high CO2 exposure of 0h, 2h, 6h, 12h, 1d, 3d, 7d, 14d) with duplicates in two chambers. Arabidopsis WT (Col-0) seeds were plated on Murashige and Skoog plates and placed at 4°C in darkness for at least 2 d to synchronize germination. Plants were grown at 22C under long-day conditions (16-h light and 8-h dark) in two atmospheric CO2 environments: ambient (CO2: 390 μmol molâ??1) or elevated (CO2: 780 μmol molâ??1). Plants were grown in ambient atmospheric CO2 concentration and then exposed to elevated CO2 for 0 h, 2 h, 6 h, 12 h, 1 d, 3 d, 7 d and 14 d. 14-d-old seedlings were sampled at the same time. Treatments for elevated CO2 were carried out two times using two different chambers. Duplicate samples were collected from each chamber experiment. Totally, four biologically replicates were prepared in each condition.
Project description:Six weeks old Arabidopsis plants were transferred to a low CO2 (100 ppm) environment during 24 hours and compared to control plants kept under ambient CO2 conditions. Limited CO2 availability will cause higher rates of photorespiration and affect the plant redox homeostasis. We studied the transcriptomic impact of exposing plants to a lower CO2 environment to further eliculidate the signaling pathways during photorespiratory stress. After 6 weeks plants were transferred to low CO2 conditions (100 ppm) during 24 h or kept at 400 ppm CO2 (control condition). Design: 3 replicates x 2 conditions (low CO2 - ambient CO2)
Project description:Identification of microRNA expressed in Arabidopsis plants grown at different ambient CO2 concentrations and different ambient temperatures
