Notes

Health proteins allocation and also consumption from the versatile chemolithoautotroph Cupriavidus necator.
In this study, we investigated whether Zoanthus sp. feed on two common microalgae, Platymonas subcordiformis and Isochrysis galbana, using the methods of carbon clearance rate, DNA marker, and histological analyses. The results showed that carbon clearance rate of I. buy SIS3 galbana by Zoanthus sp. was significantly higher than that of P. subcordiformis, which were 0.44 and 0.11 pg·mL-1·polyp-1·h-1, respectively. 162 bp of 18S rRNA gene from P. subcordiformis and 442 bp of enoyl-ACP reductase gene from I. galbana were used as molecular nutrition markers, both of them were successfully amplified from the Zoanthus sp. fed by both algae species. Results of the histological analyses demonstrated that pholyp from feeding group showed a widen mesentery. Lots of food vacuoles presented in tissues of mesentery and gastrodermis. Undigested cell body of P. subcordiformis and I. galbana could also be found in some food vacuoles around siphonoglyphe as well as the gastrodermis in body wall. Therefore, results from carbon clearance rate, histological and DNA marker results all indicated that Zoanthus sp. could feed on P. subcordiformis and I. galbana.Water quality under tourism disturbance was simulated through controlling the water intake of the ecological breeding ponds of Chinese giant salamander (Andrias davidianus, CGS). Both the reproductive behavior (oviposition and parental care) and capacity (relative egg production, fertilizing rate of eggs, and hatching rate of fertilized eggs) of CGS were examined using a real-time infrared digital monitoring system. The relationships among reproductive behavior, capacity, and the corresponding parameters of water quality were analyzed, to understand how water quality under tourism disturbance would affect the reproductive behavior and capacity of CGS. The examined oviposition behavior and capacity of CGS showed no variation in general, but the parental care behavior such as tail fanning and agitation time of the male CGS were prolonged significantly in the groups under tourism disturbance. Such prolonged behaviors would help increase the content of dissolved oxygen (DO) to meet the high demands of DO during embryonic development of CGS. In addition, the overall hatching time of fertilized eggs was increased significantly under disturbance conditions when it compared with the control, which would ensure the overall hatching rate among these comparative groups unaffected. In summary, the prolongations of some reproductive behavior (tail fanning and agitation of the male CGS and the development time of fertilized egg) would be a kind of positive actions of CGS in response to the changes of water quality resulted from tourism disturbance.To understand the dynamics of spatial pattern of darkling beetle communities at the small scale, we surveyed the darkling beetle community using pitfall in a desert grassland of alluvial fans in Helan Mountain from May to October 2019. Based on the geostatistical analysis, we divided the 200 m×200 m study area equally into 100 grid squares and analyzed the spatial autocorrelation, spatial heterogeneity, spatial distribution pattern, and its relationship with topographic factors of the darkling beetle community. A total of 1086 individuals belonged to 10 species and 7 genera were collected. Community composition of darkling beetle had significant spatial and temporal variation. The diversity index of the community was the highest in May and lowest in July. The spatial autocorrelation of dominant species had obvious seasonal fluctuation, with a significantly spatial positive correlation in May, September, and October. Communities of darkling beetle and the dominant species showed strongly spatial heterogeneous, which were mainly determined by structural factors. The ordinary Kriging interpolation showed that the gradient distribution of beetle communities was obviously different among seasons, being the simplest in summer. The results of the cross variogram showed that the spatial relationships between different dominant species groups were mostly positive, and were mainly regulated by structural factors. Results of the canonical correspondence analysis (CCA) showed that the slope and elevation significantly affected the distribution of darkling beetles. Our results showed that the spatial heterogeneity of the darkling beetle showed significant seasonal variation, and thus provided a basis for understanding the mechanism and biodiversity of ground-dwelling beetle community in a desert grassland of alluvial fans.Soil genesis is important for ecological restoration of red mud disposal area. Soil genesis of red mud and the microbial mechanism were studied by analyzing the change of physicochemical and biochemical characteristics of red mud. We analyzed the microbial community structure in a red mud disposal area without any human-induced restoration through a space for time substitution approach. The results showed that, with the increases of storage time, the physical parameters of porosity, water-stable aggregates content, and mean weight diameter increased, but the bulk density decreased. The chemical parameters, including pH, electrical conductivity, acid neutralizing capacity, and exchangeable sodium percentage, decreased with increasing storage time. The bio-chemical parameters of total organic carbon, total nitrogen, available phosphorus, microbial biomass carbon and basal respiration increased, but the metabolic quotient decreased. The Shannon diversity index increased, and the dominant microflora in red mud changed from the oxygenic photosynthetic bacteria Cyanobacteria and thanaerobic anoxygenic phototrophic bacteria Chlorobi and Chloroflexi to Proteobacteria, Actinobacteria and Firmicutes. The ratio between eutrophic and oligotrophic bacteria substantially increased. The micromorphology results showed that the microorga-nism-red mud aggregates were formed through adsorption, linkage, intertwinement and package between red mud particles, microbial cells and their metabolites. The red mud biotope changed spontaneously from extreme and oligotrophic into soil-like under natural stockpiling. The soil genesis process was mediated by microbes through increasing nutrient level, decreasing alkalinity and sali-nity, and improving soil structure.The diversity and interactions of soil fungal community are the key to maintain the diversity and stability of ecosystem. In this study, we examined the structure, diversity and co-occurrence networks of fungal community in rhizosphere and non-rhizosphere soils of planted and natural Picea asperata forests using high-throughput sequencing technique and bioinformatic methods. The results showed that Inocybaceae and Sebacinaceae were dominant family in soils of planted and natural forests, respectively. At the genus level, Inocybe was dominant one in soils of planted and natural forests. There were significant differences in β-diversity of fungal communities between rhizosphere and non-rhizosphere soils in both planted and natural forests. There were no significant correlations between environmental variables and the relative abundance and α-diversity of fungal communities. Herb layer coverage, soil water content, total organic carbon concentration, and plant species richness played important roles in explaining the variations of β-diversity of fungal communities. Results of the network analysis showed that the negative correlations were dominant among soil fungal communities in natural forest, suggesting that the competition of different groups in natural forest. Moreover, there were more negative correlations in non-rhizosphere soils than in rhizosphere soils, which indicated that fungal communities in non-rhizosphere soils comprised more competitive network structure than in the rhizosphere soils. Biomarker species were identified based on differential abundance analysis. Sebacinaceae was the single shared keystone species in the fungal network which had significant differences among rhizosphere and non-rhizosphere soils of planted and natural forests. Therefore, it is suggested that the variation of differential species in the soil fungal communities between the planted and natural forest might had limited influence on the stability of the community of planted and natural forests.Soil nematodes are one of the typical indicator organisms for soil health. To reveal the effects of reduction in nitrogen fertilizer application on soil health, we examined community structure of soil nematode under reduced nitrogen fertilizer while combined with organic fertilizer at the jointing stage of winter wheat. There were six fertilization treatments, including CF(315 kg N·hm-2, conventional fertilization), N240 (240 kg N·hm-2), N210 (210 kg N·hm-2)、N180 (180 kg N·hm-2), F150 (180 kg N·hm-2+150 kg·hm-2 fulvic acid), and F225(180 kg N·hm-2+225 kg·hm-2 fulvic acid). The results showed that 1) The reduction of nitrogen fertilization decreased nematode number by 15.3%-68.5%. 2) Protorhabditis was the dominant genus (19.6%-50.4%) across all treatments. link2 The reduction of nitrogen fertilizer application increased the abundance of fungivores, herbivores, and predators-omnivores, while that of bacterivores decreased first and then increased. Combined application of organic fertilizer decreased the abundance of bacterivores and fungivores, while increased that of herbivores and predators-omnivores. 3) N240 and F225 increased the Shannon diversity (H) of nematode community by 48.1% and 58.5%, respectively. The maturity index (MI) in N240 was the highest (1.95), while the structural index (SI) was the lowest in N180 (43.33). The structural index (SI) of F225 with combined application of organic fertilizer reached 62.72, but its enrichment index (EI) was lowest (80.82). In conclusion, reduced nitrogen fertilizer application and combined with organic fertilizer could improve soil nematode diversity, increase the complexity of soil food web, which would be conducive to the health and stability of agricultural ecosystem.Given the facts that urban land is extremely limited and ecological environment protection is confronted with severe challenges, it is of great importance to effectively construct green infrastructure (GI) network and identify relatively important landscape ecological components. We identified and prioritized GI network centers in Fuzhou downtown area using the MSPA and the landscape connectivity evaluation. link3 The least cost path method and gravity model were used to construct the potential corridors at multiple levels. The density analysis and blind area analysis were used to extract and prioritize the GI nodes and to obtain the optimized GI network. The results showed that the first-level GI network centers were mainly distributed in the north and south of Fuzhou downtown, while those in the central region were small and scattered. The comprehensive resistance of landscape was low in the periphery but high in the middle, with poor integral connectivity. The GI corridor system with existing corridors and potential corridors was employed to enhance the connectivity among network centers. Furthermore, the GI nodes were extracted to provide a "transfer station" for material circulation and energy flow, which could partly solve the problems including excessive substrate resistance and the long connection corridor in some areas. The spatial prioritization of GI elements could make the construction of GI network more scientific and also provide reference for the future planning period and construction timing of GI network in Fuzhou.
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