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Integrative Investigation associated with Intestine Microbiota as well as Partly digested Metabolites inside Subjects after Canine prednisone Treatment method.
Altitude was significantly negatively correlated with river δD, and the δD and δ18O of groundwater. δD and δ18O of groundwater fluctuated significantly in the area with groundwater depth less than 10 m, but were stable in other areas. There was a positive correlation between precipitation δ18O and air temperature. The d-excess in wet season was higher than that in dry season, with a decreasing distribution characteristic from southern to northern part in the study area. More than 50% river in upper stream came from precipitation, while more than half river water converted to groundwater, with different recharge-drainage relationships existed between surface water and groundwater in different river reaches.Tree regeneration is significantly affected by water deficiency, which could be alleviated by the inoculation of Trichoderma spp. In this study, the effects of rhizosphere inoculation with Trichoderma spp. on the antioxidant system and osmotic substances in the seedlings of Larix principis-rupprechtii was investigated under experimental drought stresses, with the relative water content 50%-60%, 35%-50%, and 20%-35% as the light, moderate and severe drought stress, respectively. The results showed that, with increasing drought stress, the activities of protective enzymes, SOD and POD in the needles of seedlings were significantly promoted, the contents of MDA and proline were remarkably increased, whereas the contents of soluble protein and starch showed a decreasing trend. Inoculation with Trichoderma spp. promoted much stronger increase in the activities of SOD and POD in the needles, yet the MDA content showed a lower level of increase. Under moderate drought, the activity of POD in the seedling inoculated with Trichoderma spp. was 1.8 folds of that in the control, while the content of MDA was 62.9% of the control. The contents of proline, soluble protein, soluble sugar, and starch in the inoculated seedlings were higher than that in the uninoculated seedlings. Drought-resistance of L. principis-rupprechtii seedlings inoculated by Trichoderma spp. was significantly enhanced due to the augmenting regulation of antioxidant system and osmotic adjustment substances. Therefore, under the trend of warming and drying in North China, the technique of rhizosphere inoculation of Trichoderma spp. could be popularized for forest plantation or understory tending.We examined the photosynthetically physiological mechanism of Stipa krylovii response to warming and precipitation changes, based on an experiment with the treatments of warming by infrared radiator and precipitation treatments by irrigation water. Under the warming background, precipi-tation was the main influencing factor of the withered and yellow phenology. Increasing precipitation postponed the occurrence time of both the beginning and the peak of the withered and yellow phenology, and prolonged the duration of the withered and yellow phenology. The effect of decreasing precipitation on prolonging the duration of the withered and yellow phenology was much stronger. Under the background of warming, the changes of precipitation markedly affected the physiological and ecological characteristics of the withered and yellow phenology, with the effect being the most significant at the beginning of the withered and yellow phenology. The net photosynthetic rate (Pn), stomatal conductance (gs), transpiration rate ions.To promote the application of lidar technology in estimating standing stocks of the typical conifer stands in Northeast China, i.e., spruce-fir forest, larch forest, Korean pine forest, Pinus sylvestris var. mongolica forest, we combined the point cloud data obtained by airborne lidar with the data of 800 ground plots and established models of standing stocks for the four conifer stands by stepwise regression and partial least square. Partial least squares method was better than stepwise regression method (R2=0.05-0.15, RRMSE=2.6%-4.2%). Among the three types of feature variables involved in modeling, height variable (selected for 26 times) is more important than others (selected for 12 times and 11 times, respectively). With respect to the accuracy of models established based on the means of the partial least square, they worked best for Korean pine forest (R2=0.79, RMSE=60.92, RRMSE=22.9%) and larch forest (R2=0.76, RMSE=28.39, RRMSE=25.8%), followed by spruce-fir forest (R2=0.81, RMSE=46.96, RRMSE=27.7%) and P. sylvestris var. mongolica forest (R2=0.50, RMSE=55.49, RRMSE=30.4%). This study provi-ded an effective way to estimate standing stocks of four typical conifer stands in Northeast China.Litter is one of the most important factors controlling the accumulation, stabilization, and turnover of soil organic carbon (SOC) in forests. There is a knowledge gap of the impacts of aboveground and belowground litter inputs on the balance of new and old SOC under different forests in subtropical region. We examined the effects of aboveground and belowground litter inputs on SOC turnover using isotopic tracing technique, based on a 3-year C3 plants/C4 soil replacement experiment in natural forest (NF), Masson pine (Pinus massoniana) plantation (PM) and Chinese fir (Cunninghamia lanceolata) plantation (CL). Our results showed that forest types, litter treatments, and sampling time significantly affected SOC contents, δ13C, new and old SOC contents. Moreover, there were significant interactions between forest types and litter treatments. Litter input increased SOC content and net SOC increment, with higher sensitivity of NF than CL. Selleckchem IDN-6556 Litter inputs decreased soil δ13C, with lower values in NF and PM compared to CL. For PM, the new SOC content in belowground litter treatment was significantly higher than that in aboveground litter treatment. The contents of old SOC were lower in belowground litter treatment than aboveground litter treatment in the NF and CL. Above- and below-ground biomass were positively correlated with SOC content and net increment. Belowground litter biomass were positively correlated with soil C/N ratio and new SOC content. Our results implied that belowground litter input had stronger effects on SOC turnover compared to aboveground litter input, with the effects varying among different forests. Our results provided new information on SOC accumulation and on sustainable management of the typical forests in subtropical region.
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