Cu2+与Zn2+递进胁迫下高羊茅的初期生长效应及生态阈限研究

通过重金属 Cu2 +、Zn2 +递进胁迫高羊茅初期生长效应及生态阈限的研究 ,结果表明 :在 Cu2 +与 Zn2 +递进胁迫作用下 ,高羊茅生长在各处理浓度均不同程度上受到抑制作用 ,其抑制效应随重金属浓度的增加而增强 ,各项测定指标与胁迫浓度呈极显著负线性关系 ,并各相关系数均达到极显著水平 ( r>-0 .90 0 0 * * ) ;生长综合效应分析比较 ,Cu2 +比 Zn2 +的负向效应为明显。根与茎叶对 Cu2 +与 Zn2 +的富集状况分析采用 ICP-AES法 ,分析结果表明 ,随着重金属 Cu2 +与 Zn2 +胁迫浓度的增加 ,高羊茅根系和茎叶的重金属含量均随之增加 ,根系对 Cu2 +与 Zn2 +的富集系数均明显大于茎叶。从绿度分析看 ,本实验条件下的 Cu2 +与 Zn2 +胁迫 ,均未出现草坪草绿度的明显变化。     

锌对大叶相思-根瘤菌共生固氮体系影响研究

 研究报道了大叶相思(Acacia auriculaeformis)和美丽胡枝子(Lespedeza formosa)两种根瘤菌在Zn2+重金属环境中耐受性以及植物-根瘤菌共生固氮体系在这种环境中的结瘤、固氮和生长变化,讨论了大叶相思在Pb／Zn矿尾矿废弃地作为先锋植物克服定居初期氮素缺乏的可能性。结果表明：大叶相思根瘤菌对Zn2+的耐受性较强,可以忍受＜10.0 mM的Zn2+浓度,Zn2+对它的半致死浓度是7.91 mM。大叶相思在无重金属无菌砂培条件下固氮酶活性为2.71 C2H4 μg·g-1·h-     

茎瘤对长喙田菁在铅锌尾矿环境适应中的意义I. 茎瘤对长喙田菁生长发育的影响

 通过设置保留茎瘤和去除茎瘤处理,研究长喙田菁(Sesbania rostrata)在铅锌尾矿、客土和纯土环境中的生长发育情况。结果表明:保留茎瘤使长喙田菁的株高、地上部生物量、地下部生物量、全株生物量和叶绿素含量分别比去除茎瘤处理提高了2.4%～4.8%、27.4%～67.9%、28.5%～99.3%、27.6%～72.3%和17.0%～23.4%,这种作用在纯尾矿处理组最为显著,客土处理组次之,即环境愈恶劣,茎瘤这种作用愈显著,证明了茎瘤对长喙田菁适应铅锌尾矿环境有积极的贡献。     

重金属镉、锌在菹草叶细胞中的超微定位观察

水环境污染中十分突出的是重金属的污染 ,主要来源为流入物、渗漏和大气沉降 (Ｌａｒｃｈｅｒ ,1995 )。由于重金属污染物不但不能被微生物所分解 ,而且能在生物体内富集 ,并通过水生食物链的生物放大作用而对高营养级的生物甚至人类造成危害 ,因此日益引起人们的特别关注。许多研究从超微结构损伤和生理生化的角度研究了重金属对植物的毒害机制。施国新等 (2 0 0 0 )观察了重金属汞、镉污染对水生植物黑藻叶细胞的超微结构损伤。彭鸣等 (1991)研究了重金属镉、铅诱导的玉米超微结构的变化。李荣春 (2 0 0 0 )研究了Ｃｄ、Ｐｂ及其复合污染…     

Enzymic changes in response to zinc nutrition

With a view to evaluating the suitability of Zn induced changes in enzyme activities and for assessing Zn nutrient status, black gram (Vigna mungo L. cv. IPU 94) was grown under controlled sand culture at five levels of Zn supply ranging from 0.01 to 10 μmol/L. Leaves of 60 d old plants were examined for Zn concentration and activities of fructose 1,6 biphosphate aldolase, carbonic anhydrase, total superoxide dismutase, Cu-Zn SOD, acid phosphatase and ribonuclease, which have been shown to be activated/inhibited by Zn deficiency. Sub-optimal supply of Zn decreased the activities of FBPAse, CA, total SOD and Cu-Zn SOD and increased the activities of APase and RNAse. Activities of the Zn enzymes CA and Cu-Zn SOD, are highly correlated with Zn supply, and suitable as indicators of Zn nutrient status of plants. Activation of APase and RNAse by other micronutrient deficiencies and stress conditions does not favour their use as indicators of Zn nutrient stress.     

紫色土外源锌、镉形态的生物有效性

通过对7种形态Zn,Cd与有效态Zn,Cd(DTPA提取）的相关分析及各形态Zn,Cd与植株Zn,Cd含量的通径分析,评价各形态Zn,Cd的生物有效性及对植株的相对贡献和途径。结果表明,交换态Zn,Cd与有效态Zn,Cd呈极显著正相关（r=0.954,0.953),交换态Zn,Cd与植株Zn,Cd含量的通径系数为1．267、1．168,交换态Zn,Cd有效性高,具有最大的生物活性,对植株Zn,Cd含量的贡献最大。其它形态如碳酸盐结合态锌、氧化锰结合态Zn、Cd通过交换态作用于植株的通径链系数（间接通径系数）分别为0．856、0．592、0．723,上述形态对植株Zn,Cd含量也有影响,具有一定的生物相对有效性,但通过交换态间接作用。交换态不仅自身具有最大的生物有效性,而且还作为其它形态Zn,Cd生物有效性的中介,为紫色土其它Zn,Cd库流向植株的主要通道。     

Effect of Salinity on Zinc uptake by Brassica juncea

Salinity is a major worldwide problem that affects agricultural soils and limits the reclamation of contaminated sites. Despite the large number of research papers published about salt tolerance in Brassica juncea L., there are very few accounts concerning the influence of salinity on the uptake of trace metals. In this study, B. juncea plants divided through soil sets comprising 0, 900 and 1800 mg Zn kg^?1, were treated with solutions containing 0, 60 and 120 mmol L^?1 of NaCl, with the purpose of observing the effect of salt on Zn uptake, and some physiological responses throughout the 90 days experiment. Increasing concentrations of NaCl and Zn produced a decline in the ecophysiological and biochemical properties of the plants, with observable synergistic effects on parameters like shoot dry weight, leaf area, or photochemical efficiency. Nevertheless, plants treated with 60 mmol L^?1 of NaCl accumulated striking harvestable amounts of Zn per plant that largely exceed those reported for Thlaspi caerulescens. It was concluded that salinity could play an important role on the uptake of Zn by B. juncea. The potential mechanisms behind these results are discussed, as well as the implications for phytoremediation of Zn on saline and non-saline soils.     

Zinc fertilisation increases tolerance to Rhizoctonia solani (AG 8) in Medicago truncatula

The effect of Zn fertilisation on tolerance of Medicago truncatula to infection by the root-rotting pathogen Rhizoctonia solani (AG 8) was studied in a field survey and in two experiments in controlled conditions. From the field survey, the concentration of Zn in the shoots of medics was found to be inversely related to the severity of disease on the root. Overall, the addition of Zn to Zn-deficient soil in controlled environment experiments resulted in reduced yield loss in the presence of R. solani, a reduction in disease score and no change in the concentration of nutrients in the shoots. However, under Zn deficiency, increasing levels of added R. solani resulted in significant yield loss, an increase in disease score and a reduction in concentration of Zn in the roots. This occurred despite a decrease in the number of infection sites caused by the fungus on the root and a lower amount of R. solani DNA extracted in medics deficient in Zn compared with plants supplied with Zn. While plants supplied with Zn were able to maintain a stable concentration of Zn in the shoots, the concentration of Zn in the roots also declined with increasing levels of R. solani. In conclusion, Zn application does not directly inhibit infection by R. solani, nor reduce its pathogenicity, but it does strongly increase root growth. The net result is that Zn-sufficient plants are more tolerant to the effects of root pruning by the fungus than Zn-deficient plants.