根际微生物群落多样性在重金属土壤修复中的研究

植物根际微生物在植物修复重金属污染土壤时分泌的激素、铁载体、ＡＣＣ脱氨酶、黄酮类化合物和酚酸类等rn有机物具有增强植物生长、促进植物根际对重金属吸收、转运和积累的作用,同时促进适应相应根际环境的功能微rn生物群落的建立．文章结合作者课题组的研究结果,概述根际微生物在植物修复重金属污染土壤过程中的作用,总rn结了根际细菌、真菌、古菌在植物修复中的作用,进一步分析了土壤污染类型、改良剂、根际植物的种类等对根际微rn生物活动的影响,对今后植物修复重金属污染土壤过程中与根际微生物作用相关的研究进行了展望．     

A new atmospherically relevant oxidant of sulphur dioxide

Atmospheric oxidation is a key phenomenon that connects atmospheric chemistry with globally challenging environmental issues, such as climate change, stratospheric ozone loss, acidification of soils and water, and health effects of air quality. Ozone, the hydroxyl radical and the nitrate radical are generally considered to be the dominant oxidants that initiate the removal of trace gases, including pollutants, from the atmosphere. Here we present atmospheric observations from a boreal forest region in Finland, supported by laboratory experiments and theoretical considerations, that allow us to identify another compound, probably a stabilized Criegee intermediate (a carbonyl oxide with two free-radical sites) or its derivative, which has a significant capacity to oxidize sulphur dioxide and potentially other trace gases. This compound probably enhances the reactivity of the atmosphere, particularly with regard to the production of sulphuric acid, and consequently atmospheric aerosol formation. Our findings suggest that this new atmospherically relevant oxidation route is important relative to oxidation by the hydroxyl radical, at least at moderate concentrations of that radical. We also find that the oxidation chemistry of this compound seems to be tightly linked to the presence of alkenes of biogenic origin.