Chen Baodong, Roos Per, Borggaard Ole K, Zhu Yong-Guan, Jakobsen Iver
Department of Soil Environmental Science, Research Center for Eco-Environmental Sciences, Chinese Academy of Sciences, Beijing 100085, China.
New Phytol. 2005 Feb;165(2):591-8. doi: 10.1111/j.1469-8137.2004.01244.x.
Some phosphate rocks (PR) contain high concentrations of uranium (U), which are potentially toxic via accumulation in soils and food chains, and plant uptake of U is likely to be influenced by characteristics of roots and associated microorganisms. The relative importance of root hairs and mycorrhiza in U uptake from PR was studied using a root hairless barley (Hordeum vulgare) mutant (Brb) and its wild type (WT). Both plant genotypes were grown in pots with Glomus intraradices BEG 87, or in the absence of mycorrhiza, and three P treatments were included: nil P, 2% (w/w) PR and 50 mg KH(2)PO(4)-P kg(-1) soil. Mycorrhiza markedly increased d. wts and P contents of Brb amended with nil P or PR, but generally depressed d. wts of WT plants, irrespective of P amendments. Mycorrhiza had contrasting effects on U contents in roots and shoots, in particular in Brb where mycorrhiza increased root U concentrations but decreased U translocation from roots to shoots. The experiment supports our understanding of arbuscular mycorrhiza as being multifunctional by not only improving the utilization of PR by the host plant but also by contributing to the phytostabilization of uranium.
一些磷矿石(PR)含有高浓度的铀(U),铀可通过在土壤和食物链中的积累而具有潜在毒性,并且植物对铀的吸收可能受根系及相关微生物特性的影响。利用无毛根大麦(Hordeum vulgare)突变体(Brb)及其野生型(WT)研究了根毛和菌根在从磷矿石中吸收铀方面的相对重要性。两种植物基因型均种植于装有根内球囊霉BEG 87的花盆中,或在无菌根条件下种植,并且设置了三种磷处理:不施磷、2%(w/w)磷矿石和50 mg KH₂PO₄-P kg⁻¹土壤。菌根显著增加了不施磷或施磷矿石处理的Brb的干重和磷含量,但总体上降低了野生型植株的干重,与磷处理无关。菌根对根和地上部的铀含量有相反的影响,特别是在Brb中,菌根增加了根中的铀浓度,但降低了铀从根向地上部的转运。该实验支持了我们对丛枝菌根多功能性的理解,即丛枝菌根不仅能提高宿主植物对磷矿石的利用率,还能促进铀的植物稳定作用。
