土壤调理粉剂处理下茶园土壤重金属污染特征及潜在风险评价

本文以贵州安顺不同土壤调理粉剂处理下“瀑布毛峰”茶园土壤为供试样品,通过样品测试与理化分析,对CK处理(0 kg/hm²)、A处理(600 kg/hm²)、B处理(750 kg/hm²)和C处理(900 kg/hm²)下茶园土壤重金属含量特征及污染水平进行探讨。结果表明：不同土壤调理粉剂处理下,研究区域土壤重金属Cr、Hg、Pb、Cu、Zn、Ni、As和Cd的变异程度各异,且土壤中这8种重金属含量也各不相同,其中pH、Cr、Pb和Ni含量在C处理中最高,As、Hg和Cd含量在A处理中最高,Cu和Zn含量在B处理中最高;对各重金属元素进行相关性分析可知,Ni与Pb之间存在极显著相关性,表明两者之间的同源性极高,其余元素之间相关性特征不明显;由综合污染指数（P_综）得出A处理为轻度污染,CK处理、B处理和C处理均为中度污染,不同处理土壤中Cr均在国家Ⅱ级标准(GB15618—2008)规定范围内,样点达标率为100%,在所选定的污染评价因子中,Cu的贡献率最高,为土壤主要影响因子,其次是Cd和Ni;研究区土壤重金属单项潜在生态风险指数($E_{r}^{i}$)中Hg属于强生态风险,其余7种重金属处于轻微潜在生态风险等级;综合潜在生态风险指数(RI)平均值为196.79,总体处于中等潜在生态风险水平,Hg对RI的贡献率最大,是最主要的生态风险元素。     

土壤铅和镉溶出伏安法检测中影响因素及其削弱方法研究进展

溶出伏安法具有分析速度快、成本低、灵敏度高等优点被广泛应用于检测土壤重金属含量，但在检测土壤重金属时，溶出伏安检测精度会受到多方面因素的影响。该文在介绍溶出伏安法工作原理的基础上，从伏安参数、试验条件和土壤物质成分三方面阐述溶出伏安法检测土壤Pb2+和Cd2+为的影响因素，解析各因素的影响机理，归纳影响削弱方法的研究进展。研究结论为：方波脉冲阳极溶出伏安法最常用于检测土壤Pb2+和Cd2+，伏安参数包括脉冲幅值、电压增量和脉冲频率，试验条件包括沉积时间、沉积电压和支持电解质种类及其pH值，土壤成分主要干扰因素包括非目标重金属和有机质。针对伏安参数和试验条件的影响可以设计优化试验有效削弱。针对非目标重金属和有机质的干扰影响，目前研究还没有提出有效的削弱方法。最后，展望了溶出伏安法检测土壤重金属的未来发展方向。     

微流控芯片在农产品安全检测中的应用

近年来,随着食品工业的迅猛发展,国内外食品安全事故也频繁发生。开发安全可靠、便携有效的检测方法对食品安全至关重要。微流控芯片集样品前处理、分离和检测等过程为一体,实现了样品前处理和检测分析的自动化、集成化、小型化、低消耗、高效率和便携化,满足了现场、实时检测的需求。本研究对微流控芯片在食品成分、农药残留、兽药残留、食品添加剂和重金属检测中的应用进行归纳总结,为农产品安全检测提供参考。     

鲁西北一次农业致灾暴雨天气成因分析

为了揭示局地暴雨天气的成因,以期为此类农业灾害性天气的预报预警提供指示,笔者利用常规观测资料、加密自动站资料和多普勒雷达回波资料,对鲁西北地区2012年7月4—5日暴雨天气过程的环流背景、物理量场特征和中小尺度系统进行分析。结果表明:此次暴雨的主要影响系统是高空西风槽、切变线和低空急流;聊城地区水汽通量散度所揭示的强水汽辐合时间与垂直运动发展增强时间没有很好的对应,因此此次强降水时间较短;暴雨落区与强上升运动的发展区域在空间上相关性更好;对流层低层辐合线触发了不稳定能量的释放产生暴雨;此次暴雨过程的局地特点可以用中小尺度系统进行解释,而中小尺度系统的跟踪一定程度上依赖于区域站资料的开发应用;多普勒雷达的强雷达回波单体和阵风锋能较好地解释此次局地暴雨过程,多普勒雷达产品的应用有待进一步深化研究。     

生物质炭添加对重金属污染稻田土壤理化性状及微生物量的影响

分析了生物质炭添加对红壤性水稻土理化性状、重金属含量及微生物生物量的影响。通过田间小区长期定位试验,一次性施入不同量生物质炭(0,10,20,30,40t/hm2),于2017年9月采集各处理表层土样(0—15cm),研究土壤理化性状、重金属含量及微生物生物量的变化。结果表明:生物质炭添加对土壤理化性状、重金属含量及微生物生物量均有显著影响。与对照相比,供试土壤的pH、EC和有机质含量随生物质炭添加量的增加而增大,增幅分别为5.11%~18.43%,37.62%~104.31%和1.72%~22.41%,而有效磷和铵态氮含量随生物质炭添加量的增加呈先增大后减小趋势,分别在生物质炭添加量为10t/hm2和30t/hm2时达到最大值。随生物质炭添加量的增加,土壤有效态Cd和有效态Pb含量均呈降低趋势,而土壤有效态As含量呈先增加后减少的趋势,三者均在生物质炭添加量为40t/hm2时达到最小值。土壤微生物生物量碳、氮和微生物商随生物质炭添加量的增加均呈先升高后降低的趋势,均在生物质炭添加量为20t/hm2时达到最大值。相关分析表明,生物质炭添加量分别与土壤有效态Cd和Pb含量之间呈极显著负相关(P0.01);通径分析表明,生物质炭主要是通过直接作用影响土壤有效态Cd含量,而土壤pH、EC、有机质、微生物生物量碳、氮和有效磷主要是通过间接作用影响土壤有效态Cd含量。因此,添加适量生物质炭不仅可以改善土壤重金属污染现状和土壤理化性状,提高土壤养分含量,还可以改良土壤生物学性质,增加土壤微生物量。研究结果可为提高稻田土壤肥力和改善土壤重金属污染状况提供科学依据。     

Advances on Response and Resistance to Heavy Metal Stress in Cotton

In China, the risk of cotton production on arable land contaminated with heavy metals has increased in recent years. Compared with other major crops, cotton shows stronger and widespread resistance to abiotic stresses such as heavy metals. As the main product of cotton is non-edible fibers, and cotton possesses a set of sophisticated stress-resistance strategies, cotton is an ideal crop for use in phytoremediation of soil contaminated by heavy metals. We present a global review of recent literature on the toxic effects of five heavy metals (cadmium, chromium, lead, arsenic, and mercury) at present in China and their effects on cotton, as well as summarize recent studies on the mechanisms of avoidance and avoidance both. We aim to provide insights into understanding the mechanisms of resistance to heavy metal stress in cottonunderstanding the relationship between cotton and heavy metal stress.     

Potato absorption and phytoavailability of Cd,Ni, Cu,Zn and Pb in sierozem soils amended with municipal sludge compost

Effects of sludge utilization on the mobility and phytoavailability of heavy metals in soil-plant systems have attracted broad attention in recent years. In this study, we analyzed the effects of municipal sludge compost(MSC) on the solubility and plant uptake of Cd, Ni, Cu, Zn and Pb in a soil-potato system to explore the mobility, potato plant uptake and enrichment of these five heavy metals in sierozem soils amended with MSC through a potato cultivation trial in Lanzhou University of China in 2014. Ridge regression analysis was conducted to investigate the phytoavailability of heavy metals in amended soils. Furthermore, CaCl_2, CH_3 COONH_4, CH_3COOH, diethylene triamine pentacetic acid(DTPA) and ethylene diamine tetraacetic acid(EDTA) were used to extract the labile fraction of heavy metals from the amended soils. The results show that the MSC could not only improve the fertility but also increase the dissolved organic carbon(DOC) content of sierozem soils. The total concentrations and labile fraction proportions of heavy metals increase with increasing MSC percentage in sierozem soils. In amended soils, Cd has the highest solubility and mobility while Ni has the lowest solubility and mobility among the five heavy metals. The MSC increases the concentrations of heavy metals in the root, stem, peel and tuber of the potato plant, with the concentrations being much higher in the stem and root than in the peel and tuber. Among the five heavy metals, the bioconcentration factor value of Cd is the highest, while that of Ni is the lowest. The complexing agent(DTPA and EDTA) extractable fractions of heavy metals are the highest in terms of phytoavailability. Soil properties(including organic matter, p H and DOC) have important impacts on the phytoavailability of heavy metals. Our results suggest that in soil-potato systems, although the MSC may improve soil fertility, it can also increase the risk of soils exposed to heavy metals.     

京津冀一次区域性暴雨特征分析

利用FNL再分析资料、卫星资料和自动站资料对2019年7月22~23日京津冀一次区域性暴雨过程进行了环流形势、卫星云图、动热力结构的分析。结果表明:此次暴雨发生在500hPa两槽一脊、副热带高压北抬、低空急流的大尺度环流背景下。西南方向的水汽输送和黄渤海的补充水汽为暴雨提供了良好的水汽条件,在河北中部的水汽辐合抬升则为暴雨提供了抬升条件。此次暴雨的产生受中尺度对流云团的连续生成合并影响,降水效率高。在暴雨中心整层表现为低层辐合、高层辐散,上升速度中心明显,使得高层的抽吸作用更强,更有利于上升运动的维持与发展,为降水强度增大提供了有力的动力条件,高空弱冷空气的入侵对能量锋区不稳定能量的释放起到了触发作用。     

酸、Cd胁迫对宽叶雀稗种子萌发、幼苗生长及亚细胞结构的影响

为研究宽叶雀稗(Paspalum wettsteinii)对酸和Cd胁迫可能存在的特殊响应策略,以宽叶雀稗种子为试验材料,采用培养皿滤纸法,设置不同酸(pH为5.5、4.5、3.5)和Cd(5、10、20 mg·L-1)胁迫浓度,测定不同胁迫条件下宽叶雀稗种子萌发、幼苗生长及亚细胞结构等指标。结果表明:酸胁迫对宽叶雀稗种子发芽率具有促进作用,其中pH 4.5具有显著促进作用;pH 3.5处理对宽叶雀稗种子的发芽势、发芽指数、活力指数、根长、芽长和生物量等指标具有抑制作用,其他酸胁迫处理则与对照(纯水处理)无显著差异(P0.05);Cd胁迫条件下宽叶雀稗的发芽率、发芽势和发芽指数均与对照无显著差异(P0.05),活力指数、芽长、根长和生物量均随Cd胁迫浓度的增加呈显著降低趋势(P0.05);pH 3.5和10 mg·L-1Cd胁迫均会对根尖质膜和芽的亚细胞结构造成严重损伤,出现淀粉粒肿胀、断裂,细胞器解体和细胞空泡化等现象。研究表明,宽叶雀稗种子对酸和Cd胁迫有一定的耐性,轻度胁迫会促进种子萌发和幼苗生长。     

Enhanced Lead Uptake by an Association of Plant and Earthworm Bioaugmented with Bacteria

Lead (Pb) is recorded as the second most hazardous pollutant of the environment. Previous cases of Pb bioremediation has been reported using single biosystem, but very few reports are available in biological approaches using multi-biosystems to achieve an enhanced bioremoval of Pb. The present study evaluated the capacity of a unique association of Pennisetum purpureum, a hyperaccumulator plant, and Lumbricus terrestris (earthworm) bioaugmented with a Pb-resistant bacterium, obtained from an industrially contaminated site and identified as isolate VITMVCJ1 Klebsiella variicola, to bioremediate Pb. The Pb-resistant gene was amplified in the bacterial isolate VITMVCJ1. The study was conducted for 60 d. Results verified that the bioaugmentation process enhanced 1) root and shoot length of the plants, 2) chlorophyll content of the plants, and 3) biofilm-producing ability of the microbes from the rhizosphere region of the plants. The total phenolic and flavonoid contents were found to be lower in the plants in the bioaugmented setup. The study also observed a reduction in the toxic effects of Pb on earthworm and plant. The earthworm was used to assess the Pb-induced stress syndrome after exposure to sublethal concentrations of Pb in the soil. A reduction in the content of malondialdehyde, a potential biomarker, on exposure to Pb demonstrated the role of the inoculum to alleviate heavy metal-induced stress in earthworms. All three symbionts accumulated Pb; Pb was accumulated mainly in the root of the plant, and poorly in the shoot of the plant and body mass of the earthworm. The bioaugmentation system exhibited stable and excellent uptake of Pb from the contaminated soils. The results of the present study suggest the positive effect of the synergistic association of the plant and earthworm with appropriate microbes for the bioremoval of Pb.