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1.
《Journal of plant nutrition》2013,36(12):2745-2761
ABSTRACT

Effect of cadmium (Cd) on biomass accumulation and physiological activity and alleviation of Cd-toxicity by application of zinc (Zn) and ascorbic acid in barley was studied, using semisolid medium culture including 15 treatments [four Cd concentration treatments: 0.1, 1, 5, 50?µmol?L?1, four treatments with addition of 300?µmol?L?1 Zn or 250?mg?L?1 ascorbic acid (ASA) based on these four Cd concentrations, respectively, and three controls: basic nutrient medium, and with Zn or ASA, respectively]. Cadmium addition to semisolid medium, at a concentration of 1, 5, and 50?µmol?L?1, inhibited biomass accumulation and increased malondialdehyde (MDA) content of barley plants, while the addition of 0.1?µmol?L?1 Cd increased slightly dry mass. There was a tendency to a decrease in Zn, copper (Cu) concentrations both in shoots and roots and iron (Fe) in shoots of barley plants exposed to 1 to 50?µmol?L?1 Cd. In addition, there were indications of a stress repose characterized by increased superoxide dismutase (SOD) and peroxidase (POD) activities relative to plants not subjected to Cd. The physiological changes caused by Cd toxicity could be alleviated to different extent by application of 300?µmol?L?1 Zn or 250?mg?L?1 ASA in Cd stressed plants. The most pronounced effects of adding Zn or ASA in Cd stressed medium were expressed in the decreased MDA and increased biomass accumulation, e.g., MDA contents were reduced (p≤0.01) by 4.8%–17.8% in shoots and 0.5%–19.7% in roots by adding 300?µmol?L?1 Zn, in 50?µmol?L?1 Cd stressed plants, and by 1.3%–7.4% in shoots and 2.6%–4.5% in roots by application of 250?µmol?L?1 ASA, respectively. However, ASA addition may enhance Cd translation from root to shoot, accordingly, ASA would be unsuitable for the edible crops grown in Cd contaminated soils to alleviate phytotoxicity of Cd.  相似文献   

2.
The effects of selenium (Se) cadmium (Cd) interactions on plant growth and metabolism are not fully clear. In the present study, we assessed whether Se could alleviate the toxic effects of Cd on growth and metabolism of maize. Seeds of maize variety FH-985 were sown in pots filled with sand treated with CdCl2 (0, 50 and 100 µM) and Se (0, 2 and 4 mg L?1) through Hoagland’s nutrient solution. Low Se (2 mg L?1) increased germination percentage and rate, while high Se (4 mg L?1) increased fresh and dry biomass under Cd stress. Interestingly, all Se concentrations were effective in alleviating the toxic effects of Cd on photosynthetic pigments, whereas higher Se mitigated the Cd-induced oxidative stress and increased flavonoids both in the shoots and roots while phenolics in the roots. The results demonstrated that root zone Se altered tissue-specific primary metabolism in maize. Furthermore, low Se mitigated the Cd-induced decrease in total proteins in the root. Overall, Se-mediated decrease in the oxidative stress in the shoots while increase of secondary metabolites in the roots helped the plants to grow faster at early growth stage and caused increase in the biomass under different Cd regimes.  相似文献   

3.
Selenium (Se) is an essential element for humans but is not considered as essential for plants. However, its beneficial role in improving plant growth and stress tolerances is well established. In order to study the role of Se in cadmium (Cd) toxicity in pepper (Capsicum frutescens cv. Suryankhi Cluster), this experiment was carried out in greenhouse conditions. Treatments comprised Cd [0, 0.25, and 0.5 mM cadmium chloride (CdCl2)] and Se [0, 3, and 7 µM sodium selenite (Na2SeO3)] with three replications. The result showed that Cd decreased chlorophyll a, chlorophyll b, and carotenoids, whereas Se supplementation diminished Cd toxicity on photosynthetic pigment. Selenium at 7 µM significantly increased the leaf area in the plants grown at 0.25 mM Cd. The application of Se at 3 µM with 0.25 mM Cd and Se at 3 µM and Se at 7 µM with 0.5 mM Cd increased the activity of catalase (CAT). Selenium at 7 µM decreased the proline content of pepper leaves exposed to Cd at 0.5 mM (30%). Selenium significantly enhanced the antioxidant activity of leaves, which was diminished by Cd toxicity. In general, Se has a beneficial effect on plant growth and is an antioxidant enzyme of pepper cv. Suryankhi Cluster under Cd stress and non-stress conditions.  相似文献   

4.
Cadmium (Cd) is a deleterious non-essential metal in plants.To elucidate the mechanisms by which zinc (Zn) application alleviates cadmium (Cd)toxicity in wheat,we characterized plant growth,antioxidant system,leaf cell ultrastructure,and Cd transporter gene expression in winter wheat under Cd exposure (50μmol L-1Cd) with foliar Zn application in a hydroponic experiment.Results showed that Zn addition (Zn+Cd) or pretreatment (pre-Zn+Cd) at 2 g L-1as Zn SO4·7H...  相似文献   

5.
Mechanisms preventing oxidative burst in cells exposed to high metal concentrations are crucial for cell survival. In this report, sunflower (Helianthus annuus L.) was used as a model species to investigate: (a) how cadmium (Cd) affects plant defense pathways (in particular, those involved in preventing oxidative stress), and (b) whether antioxidative enzymes of plants and of in vitro cell culture (calluses) have similar responses to Cd exposure. For this experiment, plants (grown hydroponically on Long Ashton medium) and calluses (grown on Murashige and Skoog medium) were exposed for three weeks to different Cd concentrations (0, 5, 50, and 500 μ M). Solute and electrolyte leakage increased significantly with the increase in Cd concentration in the external medium and in exposed leaves, and less in exposed calluses. Cadmium exposure also reduced significantly soluble protein contents in both leaves and calluses. The activities of catalase and peroxidase decreased significantly in 50 and 500 μ M-exposed leaves compared with the control, but increased in 5 μ M-exposed calluses, decreasing in the calluses exposed 500 μ M Cd. The decrease in antioxidative enzymes activities is congruent with the decrease in membrane integrity and suggests that calluses develop antioxidant mechanisms that respond better to Cd stress than do leaves. On average, 100% of plants exposed for 21 d to 500 μ M and 95% of plants exposed for 45 d to 50 μ M Cd were dead. After 45 d, only 53% of 50 μ M-exposed calluses had died. These surviving calluses were maintained on 50 μ M for six months. Six-month-old exposed calluses had higher activities of peroxidase and catalase when compared with control calluses, as well as lower membrane degradation. These data show that calluses are more tolerant than plants to Cd exposure, and that antioxidant mechanisms under Cd exposure may differ between the two cell systems and vary with time.  相似文献   

6.
Ornamental kale (Brassica oleracea var. Acephala) is usually planted from early autumn until late winter. Since most of the plants used for phytoremediation cannot be grown during this time, kale can be a suitable option for phytoremediation and utilized during autumn and winter in urban landscape, especially in metropolitan areas where high levels of cadmium (Cd) and lead (Pb) pollutions exist. Kale growth in saline soil at different growth stages (germination and vegetative growth stages) was studied in this investigation. A factorial experiment based on completely randomized design (CRD) with four replications was used in this study. Treatments included three levels of sodium chloride (NaCl) (0, 30, and 60 mg/kg), four levels of Cd (0, 4, 8, and 16 mg/kg), and four levels of Pb (0, 1, 5, and 10 mg/kg). Results indicated that increase in Cd and Pb concentrations in the soil decreased fresh and dry weights of the plants. The results of the various growth stages revealed that under salinity stress, kale plants were able to absorb more Pb than Cd and effectively remediate Pb in polluted and saline lands. Cd accumulation in control treatment was 6.2% more than that in the saline treatments, whereas, Pb accumulation in the highest NaCl level, 60 mg/kg salinity treatment was 7.64% more than that of the control condition. Also, proline content of the plants was significantly increased under Cd and Pb stress. From the results of this study, it was concluded that using kale plant is recommended for phytoremediation of saline soils with 10 and 16 mg/kg Pb and Cd contents, respectively.  相似文献   

7.
Cadmium(Cd) is highly toxic to plants, animals, and humans. Limited information is available on the role of nitric oxide(NO)and/or 24-epibrassinolide(EBR) in response of plants to Cd stress. In this study, a hydroponic experiment was performed to investigate the effects of NO and/or EBR on peanut plants subjected to Cd stress(200 μmol L~(-1)) with sodium nitroprusside(SNP, an exogenous NO donor)(250 μmol L~(-1)) and/or EBR(0.1 μmol L~(-1)) addition. The results showed that Cd exposure inhibited plant growth, and this stress was alleviated by exogenous NO or EBR, and especially the combination of the two. Treatment with Cd inhibited the growth of peanut seedlings, decreased chlorophyll content, and significantly increased the Cd concentration in plants. Furthermore, the concentration of reactive oxygen species(ROS) markedly increased in peanut seedlings under Cd stress, resulting in the accumulation of malondialdehyde(MDA) and proline in leaves and roots. Under Cd stress, applications of SNP, EBR, and especially the two in combination significantly reduced the translocation of Cd from roots to leaves, increased the chlorophyll content, decreased the concentrations of ROS, MDA, and proline, and significantly enhanced the activities of superoxide dismutase(SOD), peroxidase(POD), and catalase(CAT) in peanut seedlings. Exogenous NO and/or EBR also stimulated the activities of nitrate reductase(NR)and nitric oxide synthase(NOS) and increased the contents of antioxidants, such as ascorbic acid(AsA) and reduced glutathione(GSH). Furthermore, exogenous NO and/or EBR enhanced Cd accumulation in the cell wall and thus decreased Cd distribution in the organelles in the roots. The concentrations of calcium(Ca), iron(Fe), magnesium(Mg), and zinc(Zn) were also regulated by exogenous NO or EBR, and especially by the two in combination. These results indicated that SNP and EBR, alone and particularly in combination, can mitigate the negative effects of Cd stress in peanut plants.  相似文献   

8.
The effects of cadmium (Cd) exposure on sunflower (Helianthus annuus L.) nutrient accumulation remain unclear. However, studies concerning crop improvement for Cd tolerance suggest the use of biotechnology techniques such as tissue culture. It is still unknown whether in vitro cells respond to Cd exposure in a way similar to plants. In this paper, the objectives were (1) to characterize the effects of Cd exposure in macronutrient and micronutrient accumulation in different sunflower organs/tissues and (2) to compare the behavior of two culture systems (plants vs. tissue culture) regarding Cd and nutrient accumulation. To achieve these aims, sunflower plants were grown hydroponically in the presence of Cd (at levels of 0, 5, 50, and 500 μ M). For in vitro cultures, seeds were germinated axenically and leaf explants were then grown on Murashige and Skoog medium (MS). One-month-old calluses were grown on MS medium containing 0, 5, 50, and 500 μ M Cd. After 21 d of exposure to 500 μ M, all plants were dead. The contents of macro- and micronutrients and of Cd were determined by ICPS in 18 d-exposed plants and calluses and in calluses exposed for six months to 50 μ M Cd. At day 18, Cd content increased in leaves, roots, and calluses. Cadmium exposure also decreased the contents of magnesium (Mg), calcium (Ca), iron (Fe), and manganese (Mn) in roots and of Mg, Ca, copper (Cu), Fe, and Mn in shoots. Exposed calluses suffered decreases only in Mg, Ca, and Mn contents. The contents of most of these nutrients in six-month-exposed calluses were similar to those of the control calluses, indicating that these long-term exposed in vitro cells developed mechanisms for regulating the effects of Cd on the accumulation of nutrients.  相似文献   

9.
为探讨苦楝在重金属Cd和酸雨的单一及复合胁迫下的生理响应特征,采用人工配置土壤盆栽试验,研究不同浓度Cd(0、30、60、90、120、150、180 mg·kg-1)和3个梯度模拟酸雨(pH值5.6、4.5、3.5)单一及复合处理对苦楝幼苗生物量、Cd含量及叶片保护性酶[超氧化物歧化酶(SOD)、过氧化物酶(POD)和过氧化氢酶(CAT)]活性和抗坏血酸-谷胱甘肽循环(AsA-GSH)的影响。结果表明,除低浓度Cd(≤30 mg·kg-1)单一及其与pH值4.5酸雨复合处理对幼苗地上部、地下部生物量有促进作用外,其他处理均表现出抑制作用,其中复合处理对苦楝幼苗的抑制作用更明显,表现为叠加效应;单一Cd处理时,随着Cd浓度的增加,幼苗根、茎、叶中Cd含量逐渐升高,且根系大于茎叶,复合处理抑制了植物对Cd的积累,对叶片的抑制作用最强;Cd和酸雨单一及复合处理下叶片SOD、CAT和POD活性均有所增加,分别在60 mg·kg-1 Cd、pH值5.6,60 mg·kg-1 Cd、pH值4.5和90 mg·kg-1Cd、pH值4.5时出现阈值;在AsA-GSH循环中,单一Cd处理下,AsA、GSH含量和抗坏血酸过氧化物酶(APX)、谷胱甘肽还原酶(GR)活性均随着Cd浓度的增加呈先上升后下降的趋势,单一酸雨处理对上述4个指标的影响不尽一致,而复合处理下上述指标在Cd浓度≤60 mg·kg-1、pH值≥4.5时均能保持较高值,且随着胁迫程度的加深均出现了阈值。综上所述,苦楝对重金属Cd和酸雨胁迫具有一定的耐性,可在Cd浓度≤60 mg·kg-1和pH值≥4.5的酸雨双重污染区域正常生长。本研究结果为土壤Cd污染的酸雨区域的修复植物筛选提供了理论基础和参考依据。  相似文献   

10.
Photosynthetic Response of Maize Plants Against Cadmium and Paraquat Impact   总被引:1,自引:0,他引:1  
The effects of cadmium (Cd) and/or paraquat (PQ) toxicity on photosynthesis in maize leaves were examined by measurement of gas exchange and chlorophyll content in hydroponically cultured plants. It was found that growth rate was distinctly influenced only by 100 µM Cd treatment. Chlorophyll a and chlorophyll b decreased along with the increase of Cd concentration, while PQ spraying, alone and combined with Cd, increased chlorophyll a content on the third and seventh experimental days. Generally, carotenoid content increased in response to Cd and PQ and reached the highest levels at 100 µM Cd. Rate of photosynthesis in maize decreased after Cd treatment. CO2 assimilation was approximately 60% reduced at 50 µM Cd and 70% reduced in the presence of 100 µM Cd. PQ toxicity was partly overcome after the third day of exposure. Transpiration and stomatal conductance in maize leaves decreased on the third day along with Cd concentration and PQ spraying, except for the 25-µM Cd-treated plants. On the tenth day, the 25-µM Cd-treated plants and those from PQ-treated variants showed an increase of transpiration and stomatal conductance. Maize exhibited an ability to accumulate Cd in high quantities, especially in the roots—over 4,500 mg Cd/kg dry weight.  相似文献   

11.
通过对芦苇、菖蒲和水葱在6种Cd浓度(0.5、1.0、5.0、15.0、30.0、60.0 mg.L^-1)处理条件下的水培实验,测定分析了3种湿地植物及其不同生长部位对于Cd的富集能力。结果表明,3种湿地植物在不同Cd处理浓度条件下的Cd的富集能力表现出明显的差异性。植株地上和地下部分富集的Cd含量均随着水培溶液中Cd处理浓度的增加而增加,呈现出显著的正相关关系。菖蒲对水体中的Cd具有最强的富集能力,而芦苇对Cd的富集能力最弱。高浓度的Cd处理会显著促进3种湿地植物对Cd的吸收和富集,低浓度条件对植物的Cd富集能力没有明显影响。3种湿地植物地下部分对水体中Cd的富集能力显著大于地上部分,均达到1倍以上。水葱、菖蒲、芦苇均能够有效吸收水体中的Cd,对Cd的去除最高分别可达10 074.17、14 759.33 mg.kg^-1和4 620.00 mg.kg^-1,均可作为植物修复重金属污染水体的遴选物种,用于重金属Cd污染水体的生物修复。  相似文献   

12.
Exploitation of genetic differences to select wheat cultivars’ pollution-safe from cadmium (Cd) contamination requires better understanding of Cd uptake and translocation patterns. For this purpose, 15 wheat cultivars were grown in nutrient solution and exposed to four levels of Cd, i.e., 0, 15, 30, and 45 µM. The plants were harvested after 2 weeks of Cd exposure. Root and shoot relative dry matter (DM) was decreased in most of the cultivars, but some cultivars did not exhibit any toxic symptoms. The lowest Cd concentration in shoots was recorded for Lasani-2008 and Iqbal-2000 while the highest for Sehar-2006 and Inqlab-91. Both root absorption and translocation accounted for regulating Cd concentration in shoots. There was no relationship between relative DM and Cd concentrations in roots and shoots. The results suggest that wheat cultivars with low shoot Cd concentration but higher tolerance, i.e. Lasani-2008 and Iqbal-2000, could be used in breading programs for low Cd wheat.  相似文献   

13.
硒对镉胁迫下寒地水稻镉含量与分配的影响   总被引:9,自引:0,他引:9  
【目的】研究施硒对不同镉污染土壤上镉在水稻各器官中的分配及稻米中镉含量的影响,探讨通过施硒降低水稻镉吸收量及在稻米中分配的可行性。【方法】采用盆栽试验,以垦鉴稻6号为材料,研究添加不同浓度镉(0、2、4和8 mg/kg土壤)的条件下,施硒(0、0.07和0.14 mg/kg土壤)对水稻不同器官镉含量和镉分配的影响。成熟期整盆收获,分别测定叶片、叶鞘、茎秆、根系和糙米、精米镉含量、硒含量和干物重,计算镉积累量和分配比例。【结果】1)当土壤镉浓度在0 4 mg/kg时,水稻各营养器官和糙米、精米中镉含量随土壤镉浓度增高而显著增加,但当土壤中镉浓度4 mg/kg时,糙米和精米中镉含量增加不显著。未施硒(Se0)时,Cd2(4 mg/kg)和Cd3(8mg/kg)处理糙米中镉含量分别为0.221 mg/kg和0.234 mg/kg,分别是Cd0处理的15.8和16.7倍,均超过我国国家食品安全标准中稻米镉的限量(0.2 mg/kg),精米镉含量未超过国家食品安全规定的限量,Cd3处理精米中镉含量最高,为0.174 mg/kg。2)相同镉浓度下,随着硒浓度的增加,水稻各营养器官和糙米、精米的镉含量和镉积累量均显著下降,糙米和精米的镉含量均低于我国国家食品安全规定的稻米镉限量,且Se2(0.14 mg/kg)处理优于Se1(0.07 mg/kg)处理。其中Cd1(2 mg/kg)浓度时,Se2处理的精米镉含量下降幅度最大,比Se0降低31.5%(P0.01)。3)镉在各器官中的分配比例为根系茎鞘稻谷叶片。随着硒浓度的增加,镉在根系中的分配比例增加,在地上部的分配比例减少,在稻壳中的分配比例增加,在精米中的分配比例下降。在Cd1浓度时,根系镉分配比例范围为60.9%67.8%,稻谷镉分配比例为12.6%13.8%;Se2处理稻壳中镉分配比例比Se0增加5.2个百分点,而精米中镉分配比例则下降了6.2个百分点。4)相同镉浓度下,随着硒浓度的增加,植株各营养器官干物重均增加,Se2处理对干物重的影响优于Se1处理。Cd1、Cd2和Cd3浓度下,Se2处理比Se0处理稻谷干物重分别增加了6.4%(P0.01)、5.2%(P0.05)和11.3%(P0.01)。【结论】施硒可降低镉污染土壤上水稻各营养器官和糙米、精米的镉含量,并能显著降低精米中镉的分配比例,保证稻米的食用安全性,尤其在Cd加入量为2mg/kg土浓度下,施硒效果最显著,以施Se量为0.07 mg/kg处理的效果最好。  相似文献   

14.
A 28-day pot (sand culture) experiment was carried to evaluate the effects of phosphorus (P) application in alleviating Cd phytotoxicity in wheat plants. Different levels of P (0, 10, and 20 kg ha?1) were applied without and with 100 µM Cd. The results showed that 100 µM Cd concentration decreased plant biomass, chlorophyll contents, gas exchange attributes, and mineral nutrients in wheat plants. Cadmium stress increased tissue Cd and H2O2 concentrations. The activities of superoxide dismutases (SOD), peroxidase (POD) enzymes, increased while the activities of catalase (CAT), ascorbic acid (AsA), α-tocopherol, and phenolics decreased under Cd stress. Phosphorus supply increased shoot biomass, leaf area, photosynthetic pigments, and mineral nutrients and decreased Cd and H2O2 concentrations in shoots. Phosphorus application improved antioxidant enzyme activities and gas exchange attributes which emerged as an important mechanism of Cd tolerance in wheat. We conclude that P application contributes to decreased Cd concentrations in wheat shoots and increased gas exchange attributes and antioxidant enzymes and could be implemented in a general scheme aiming at controlling Cd concentrations in wheat for sustained production of this important grain crop.  相似文献   

15.
《Journal of plant nutrition》2013,36(8):1617-1634
Abstract

Young seedlings of tomato (Lycopersicon esculentum Mill.) grown on nitric medium and treated with different cadmium (Cd) concentrations (0–50 µM) were used. Results obtained show that Cd remains predominantly located in the roots, which then seem to play the role of trap‐organs. Increasing Cd concentration in the medium leads particularly to a decrease in NO3 ? accumulation, together with decrease in the activities of nitrate reductase (NR), nitrite reductase (NiR), and glutamine synthetase (GS). On the other hand, stimulations were observed for ammonium accumulation, anabolitic activity of glutamate dehydrogenase (GDH) and protease activity. Contrarily, decreases were obtained for soluble protein contents and catabolitic activity of GDH. These results were discussed in relation to the hypothesis attributing to the mitochondrial enzyme NADH‐dependent GDH, an important role in the plant defense processes, in maintaining the glutamate pool in conditions where the need for NH4 + detoxification is increased by heavy metals.  相似文献   

16.
以实验室培养的铜锈环棱螺(Bellamya aeruginosa)为测试生物,采用28d沉积物生物毒性测试研究了Cd、Pb单一及复合污染沉积物对铜锈环棱螺肝胰脏超氧化物歧化酶(SOD)活性和金属硫蛋白(MT)含量的影响,并分析了Cd和Pb对SOD和MT的联合作用特征。结果表明,Cd、Pb单一污染沉积物均对肝胰脏SOD活性具有显著的促进作用,且SOD活性随胁迫浓度的增加而升高,中、高浓度Pb胁迫下的SOD活性显著高于相应浓度的Cd胁迫。低浓度Cd、Pb单一胁迫对MT没有影响,中、高浓度Cd胁迫引起MT水平显著升高,而中、高浓度Pb胁迫导致MT水平显著下降。低、中和高浓度Cd-Pb复合胁迫均对肝胰脏SOD活性具有显著的促进作用,且SOD活性随胁迫浓度的增加而升高,但低于Cd、Pb单一胁迫下的SOD活性。低浓度Cd-Pb联合胁迫对MT没有影响,中、高浓度Cd-Pb联合胁迫导致MT含量显著升高。SOD对Cd-Pb联合胁迫的敏感性高于MT。析因分析表明,Cd-Pb对SOD的联合作用表现为拮抗作用;中、高浓度Cd-Pb对MT的联合作用表现为相加作用,其交互作用机理有待进一步研究。  相似文献   

17.
采用土培方法探讨了不同光强(自然光和50%遮光)和镉(Cd)不同添加量(0、 25、 50、 75和100 mg/kg)复合处理下,龙葵对Cd的吸收累积特征,超氧化物歧化酶(SOD)、 过氧化物酶(POD)、 过氧化氢酶(CAT)和抗坏血酸过氧化物酶(APX)活性以及叶绿素、 丙二醛(MDA)、 谷胱甘肽(GSH)和植物螯合肽(PCs)含量等的变化特征。结果表明, 自然光条件下龙葵叶绿素b、 叶绿素a+b以及地上和地下部Cd富集量均显著低于遮光处理; 叶和根的SOD、 POD、 CAT和APX活性在自然光条件下随土壤Cd添加量的增大先升后降,而在遮光处理下则持续升高; 除Cd 25 mg/kg处理时根POD及叶CAT活性在不同光强处理下没有显著差异外,其余Cd添加量处理下SOD、 POD、 CAT和APX活性在自然光条件下均显著高于遮光处理; 自然光条件下龙葵叶和根的MDA含量显著高于遮光处理,而叶和根的GSH含量和叶中PCs含量均显著低于遮光处理。研究结果表明,遮光环境促进了龙葵对Cd的富集,并且减轻了Cd对龙葵的氧化胁迫。  相似文献   

18.
An experiment was established to assess the ability of selenium (Se) to reduce cadmium (Cd) toxicity when tomato was grown hydroponically. A factorial experiment was arranged in a completely randomized design with six replicates in cucumber (Cucumis sativus cv. 4200). The Se was applied at four levels [0 mg L–1 (Se0), 2 mg L–1 Se (Se1), 4 mg L–1 Se (Se2), and 6 mg L–1 Se (Se3)], whereas Cd was applied at three levels [0 µM Cd (Cd0), 5 µM Cd (Cd1), and 7 µM Cd (Cd2)]. The Se improved the dry weight of roots even when plants were exposed to Cd. Treatment Se1 improved the dry weight of shoots in Cd1 and Cd2. Treatments Se1 and Se2 improved photosynthesis in Cd1. Treatment Se1 significantly improved stomatal conductance in Cd2 at all levels of Se relative to Cd2. The greatest Cd concentration in leaves was observed in Cd2 × Se0 and while Se concentration in solution increased in response to Se1, Se2, and Se3. The greatest Se level reduced Cd uptake the most. Growth and photosynthetic attributes can be negatively affected by Cd, but Se has the ability to buffer, or improve, several attributes.  相似文献   

19.
Chinese cabbage and surface soil samples (0–20 cm) from a periurban market garden in Yunnan Province (P.R. China) were collected to determine variations of cadmium (Cd) and zinc (Zn) contents in Chinese cabbage and the influence of soil factors. Mean Cd content was 0.49 mg kg?1 dry materials (DM) in Chinese cabbage, ranging between 0.23 and 1.34 mg kg?1 DM (n = 21 samples). Mean Zn content was 51.2 mg kg?1 DM, ranging from 34.9 to 157.5 mg kg?1 DM (n = 21 samples). The soil factors best predicting Chinese cabbage Cd and Zn contents were total and available Cd and Zn contents and cation exchange capacity (CEC). Soil samples and corresponding Chinese cabbage samples were divided into two groups: soils with low pH (<6.5, n = 10) and soils with high pH (>6.5, n = 11). Positive correlation between CEC with pH > 6.5 and Cd and Zn contents in Chinese cabbage were observed. Available trace element contents and CEC explained 77% and 69% of variation of Cd and Zn contents in Chinese cabbage, respectively. AEC (enrichment coefficient related to trace element availability) and BCF (bioaccumulation factors) could be used to understand Cd and Zn accumulation in Chinese cabbage.  相似文献   

20.
为探究葛根素(PUE)对小白菜镉(Cd)损伤的保护效果,采取外源添加不同葛根素处理,将小白菜植株随机分为7组,即对照组(CK)、PUE30组(葛根素30μmol·L-1)、Cd4组(镉4 mg·L-1)、Cd与PUE共处理组(4+15、4+30、4+45、4+60)。处理30 d后,观察小白菜植株生长状况、测定Cd富集量及抗胁迫生理活性物质,包括叶绿素、抗氧化酶(SOD、APX、CAT、POD)活性及过氧化氢(H2O2)、丙二醛(MDA)Vc、可溶性蛋白含量,并用实时荧光定量PCR(qRT-PCR)技术检测抗氧化酶基因(SOD、POD、APX及CAT)表达量。结果表明,与CK组相比,Cd4组小白菜根中Cd含量、H2O2和MDA含量显著升高,而地下部鲜重、地上部鲜重、抗氧化酶(SOD、POD和APX)活性和叶绿素含量整体显著降低(P<0.05)。与Cd4组相比,Cd+PUE共处理组小白菜氧化损伤程度减轻,H2O2  相似文献   

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