甘肃南部典型城镇PM2.5浓度及水溶性离子特征分析

为研究甘肃南部城镇PM_2.5及水溶性离子（WSIIs）浓度水平,于2019年4月—2020年2月在甘肃成县按季度进行PM_2.5样品采集,分析了其变化特征,并运用相关和主成分分析法进行来源解析.结果表明：采样期间甘肃成县PM_2.5年平均质量浓度为（57.2±26.9） μg·m^-3,表现为冬季>春季>秋季>夏季的季节变化特征,冬季质量浓度约为夏季的1.9倍,全年空气质量优良率为81%,其中夏季达100%.WSIIs质量浓度呈现SO₄^2->NO₃^->Na⁺>NH₄⁺>Ca²⁺> K⁺>Cl^->Mg²⁺的特征.SNA是浓度水平最高的3种水溶性离子,占8种主要水溶性离子浓度的70.1%.ρ（NO₃^-）/ρ（SO₄^2-）平均值为0.6,表明工农业生产及化石燃料燃烧排放等固定源是颗粒物污染的主要来源.新型冠状病毒疫情期间人员管控对PM_2.5和水溶性离子中SNA质量浓度影响显著,PM_2.5平均质量浓度降幅达44.2%.源解析表明,PM_2.5中WSIIs主要来自化石燃料燃烧、生物质燃烧及二次源和道路建筑扬尘等.     

裂片石莼和土霉素复合压力下弧菌群落及耐药基因变化特性研究

近年来,水产养殖病源弧菌污染及其耐药性问题备受关注,本研究首次采用宏基因组测序技术分析了海水养殖沉积物在大型海藻裂片石莼（12 g·L^-1）与不同浓度（0、10、100、500 μg·L^-1）土霉素作用3个月后,弧菌群落结构及其耐药基因变化特性.结果表明,经裂片石莼诱导培养后,沉积物中弧菌属相对丰度降低了0.22%,但对弧菌多样性和弧菌耐药基因含量提升明显.裂片石莼和土霉素复合压力下,100 μg·L^-1土霉素对弧菌群落多样性及弧菌耐药基因影响最大,而500 μg·L^-1对其影响最小.沉积物弧菌属共检测出21种耐药基因,多为BL1_fox、BL2be_per、BL2_veb等β-内酰胺类耐药基因.裂片石莼能减少耐药基因tetPB富集,而进一步添加土霉素能诱导产生VatB、BcrA耐药基因.此外,弧菌耐药基因迁移与转化还受弧菌群落结构变化影响.     

不同磁黄铁矿自养反硝化脱氮除磷作用

氮磷排放标准日趋严格,开发高效廉价脱氮除磷材料已成为研究热点.采用黄铁矿与赤铁矿在管式炉中氮气气氛下600 ℃煅烧,得到硫化赤铁矿形成的磁黄铁矿、黄铁矿热分解形成的磁黄铁矿,构建磁黄铁矿-方解石体系处理含氮磷模拟废水,对比不同方式制备的磁黄铁矿、天然磁黄铁矿、黄铁矿、硫磺脱氮除磷性能,考察不同磁黄铁矿晶体结构和结晶度差异及其对脱氮除磷影响,探究不同体系中矿物结构和微生物群落变化.结果表明：黄铁矿热分解产物以六方磁黄铁矿为主;硫化赤铁矿产物以低结晶度的单斜磁黄铁矿为主,因而表现出优异的脱氮除磷活性,氮磷去除率分别为99.8%和96.8%.铁硫化物与微生物反应产物的XRD、SEM和FE-TEM分析结果表明,微生物能有效利用磁黄铁矿进行脱氮,磷酸盐主要以FePO₄形式被去除.群落分析结果表明铁硫化物脱氮除磷体系中的主要功能菌属为Thiobacillus和 Sulfurimonas,结晶度低的单斜磁黄铁矿更有利于Thiobacillus定向富集.     

不同施肥方式对东北旱田黑土nirK和nirS型反硝化细菌群落结构的影响及黑土保护建议

反硝化过程是土壤氮素循环的重要过程之一,与土壤氮肥损失和温室气体排放紧密相关。通过分析不同施肥方式对东北旱田黑土nirK型和nirS型反硝化细菌群落结构的影响及其与N₂O排放的关系,证实黑土中nirK型比nirS型反硝化细菌多样性丰富,且更易受土壤理化性质的影响。施入化肥会降低东北旱田黑土反硝化细菌多样性、N₂O释放量和土壤养分含量,而有机肥的施入虽然可提高土壤养分含量,但是也会显著增加土壤反硝化作用,存在潜在的负面环境效应。因此对黑土地的保护要积极推行种养结合,建立可循环农业体系;适当配施有机肥料,调节黑土微生物活力;大力完善相关制度,营造科学管理新规范,从而构建我国黑土保护的立体格局。     

深圳市不同区域大气CO2变化特征与来源分析

于2020年12月1日~2021年12月1日分别在深圳市大学城和路边站两点位对大气CO₂和CO浓度进行了为期1a的观测.本次观测期间内两点位大气CO₂平均浓度分别为432×10^-6和439×10^-6,均呈现了“秋冬季高、春夏季低”的季节变化特征与“昼低夜高”日变化特征,且日变化特征在早晚高峰期受到交通源排放的显著影响.此外,通过引入CO₂和CO的净变化值得到大学城和路边站两点位的ΔCO₂/ΔCO值分别为136.8~184.8、59.0~119.3,结果表明机动车排放对深圳市大气CO₂贡献突出.     

Cultivar-dependent rhizobacteria community and cadmium accumulation in rice: Effects on cadmium availability in soils and iron-plaque formation

The association between the rhizospheric microbial community and Cd accumulation in rice is poorly understood. A field trial was conducted to investigate the different rhizobacterial communities of two rice cultivars with high Cd accumulation (HA) and low Cd accumulation (LA) at four growth stages. Results showed that the Cd content in the roots of the HA cultivar was 1.23 - 27.53 higher than that of the LA cultivar (0.08 - 10.5 µg/plant) at four stages. The LA cultivar had a significantly lower Cd availability in rhizosphere and a higher quantity of iron plaque (IP) on the root surface than the HA cultivar at four stages. This resulted in the reduction of Cd concentration in IPs and Cd translocation from IP-to-root. Microbial analysis indicated that the LA cultivar formed a distinct rhizobacterial community from the HA cultivar and had less α-diversity. The rhizosphere of the LA cultivar was enriched in specific bacterial taxa (e.g., Massilia and Bacillus) involved in Cd immobilization by phosphate precipitation and IP formation by iron oxidization. However, the rhizosphere in the HA cultivar assembled abundant sulfur-oxidizing bacteria (e.g., Sulfuricurvum) and iron reduction bacteria (Geobacter). They promoted Cd mobilization and reduced IP formation via the metal redox process. This study reveals a potential approach in which specific rhizobacteria decrease or increase Cd accumulation in rice on contaminated soil and provides a new perspective for secure rice production.     

Grazing greatly reduces the temporal stability of soil cellulolytic fungal community in a steppe on the Tibetan Plateau

Excessive livestock grazing degrades grasslands ecosystem stability and sustainability by reducing soil organic matter and plant productivity. However, the effects of grazing on soil cellulolytic fungi, an important indicator of the degradation process for soil organic matter, remain less well understood. Using T-RFLP and sequencing methods, we investigated the effects of grazing on the temporal changes of cellulolytic fungal abundance and community structure in dry steppe soils during the growing months from May to September, on the Tibetan Plateau using T-RFLP and sequencing methods. The results demonstrated that the abundance of soil cellulolytic fungi under grazing treatment changed significantly from month to month, and was positively correlated with dissolved organic carbon (DOC) and soil temperature, but negatively correlated with soil pH. Contrastingly, cellulolytic fungal abundance did not change within the fencing treatment (ungrazed conditions). Cellulolytic fungal community structure changed significantly in the growing months in grazed soils, but did not change in fenced soils. Grazing played a key role in determining the community structure of soil cellulolytic fungi by explaining 8.1% of the variation, while pH and DOC explained 4.1% and 4.0%, respectively. Phylogenetically, the cellulolytic fungi were primarily affiliated with Ascomycota (69.65% in relative abundance) and Basidiomycota (30.35%). Therefore, grazing substantially reduced the stability of soil cellulolytic fungal abundance and community structure, as compared with the fencing treatment. Our finding provides a new insight into the responses of organic matter-decomposing microbes for grassland managements.     

Alterations in microbial community during the remediation of a black-odorous stream by acclimated composite microorganisms

Microbial application is an efficient, economical, and ecofriendly method for remediating black-odorous rivers. In this study, the field treatment effect and microbial community changes were monitored during remediation by the acclimated complex microorganisms of a typical black-odorous stream. After the treatment, the total phosphorus and ammonia contents decreased by 74.0% and 76.3% and the concentrations of dissolved oxygen increased from 1.65 to 4.90 mg/L, indicating the effectiveness of the acclimated composite microorganisms. The proportion of Bacteroidetes decreased significantly by 48.1% and that of Firmicutes increased by 2.23% on average, and the microbial diversity index first increased and then tended to be uniform. Redundancy analysis demonstrated that the pH, dissolved oxygen, and oxidation-reduction potential together determined the composition of the microbial communities (p < 0.05). These findings showed that the acclimated composite microorganisms can effectively remediate the black odor.     

Microbial characteristics in anaerobic membrane bioreactor treating domestic sewage: Effects of HRT and process performance

Two anaerobic membrane bioreactors (AnMBRs) equipped with different membrane pore size (0.4 or 0.05μm) were operated at 25℃ and fed with domestic wastewater.The hydraulic retention time (HRT) of the reactors was shortened.The microbial communities of the two AnMBRs were investigated by 16S rRNA gene amplicon sequencing to see the effects of HRT.The predominant Archaea was an aceticlastic methanogen Methanosaeta.The composition of hydrogenotrophic methanogens changed with the HRTs:the population ...     

红壤区退化林地表土真菌群落结构对土壤改良措施的响应

真菌群落结构和多样性对于土壤改良效果具有高敏感性.研究南方红壤区侵蚀退化林表土真菌群落对有机肥、生物炭和石灰+微生物肥的响应,以明晰不同改土措施的作用.结果表明：(1)3种土壤改良措施均降低了表土真菌丰富度,其中石灰+微生物肥降低作用最大,3种土壤改良措施对表土真菌多样性也有影响,但影响不显著;(2)表土中优势真菌门为子囊菌门(Ascomycota, 31.29%～46.55%)、担子菌门(Basidiomycota, 30.07%～70.71%),优势真菌属为阿太菌属(Amphinema)和单形古根菌属(Archaeorhizomyces),3种土壤改良措施对表土真菌群落结构的影响不同,有机肥提高了子囊菌门和单形古根菌属的相对丰度,生物炭提高了担子菌门和阿太菌属的相对丰度,而石灰+微生物肥则提高了担子菌门和单形古根菌属的相对丰度;(3)土壤pH是影响表土真菌丰富度的关键因子,而表土真菌群落结构则受pH、全氮和有机碳的影响.研究结果为南方红壤区侵蚀退化林地土壤改良,林下植被生态恢复提供科学指导.