Salicylic acid alleviates the toxicity effect of cadmium on germination,seedling growth,and amylase activity of rice

Cadmium (Cd) is a toxic heavy‐metal pollutant in the environment. Salicylic acid (SA) is an essential component of plant resistance to pathogens and also plays an important role in mediating plant responses to some abiotic stresses. In the present investigation, the potential effects of SA in alleviating Cd toxicity during seedling stage of rice were studied. Seeds of rice (Oryza sativa L. cv. Xiushui 11) were sterilized and divided into two groups. Half of the seeds were presoaked in 0.1 mM SA solution for 24 h, then both groups were allowed to germinate under various Cd concentrations for 7 d. Cadmium treatments caused a gradual decrease in vigor index, root length, α‐amylase activity, and the mitotic index of root tips. However, pretreatment with SA partially alleviated the negative effect of Cd on germination parameters and increased enzyme activity and mitotic index. Cadmium uptake by seedlings increased with increasing Cd concentration and followed Michaelis‐Menten kinetics. Salicylic acid pretreatment of seeds influenced the Cd level in the seedlings by decreasing V_max. The results suggest that SA plays a positive role in rice‐seed germination and early seedling growth by protecting it against Cd toxicity.     

小麦苗期吸收和积累镉能力的品种间差异

采用水培方法,研究了25个小麦品种苗期对镉的吸收和积累的差异,以期筛选具有Cd低积累潜力的小麦品种。结果表明,Cd对地上部干物重有显著抑制作用,对地下部干物重影响因品种而异,对春性品种有抑制作用,对半冬性小麦品种有促进作用。小麦对镉的吸收、积累、耐性指数以及镉运转效率有极显著的品种间差异。在1μmol·L-1的Cd处理下,根系镉含量为33.1～139.7mg·kg-1,积累量为2.12～9.78μg·plant-1,地上部镉含量为3.6～15.3mg·kg-1,积累量为0.45～1.44μg·plant-1,表明小麦体内的Cd主要积累在地下部而非地上部。因此,以地上部Cd积累量为筛选指标,将25个小麦品种划分为Cd高积累型、Cd中积累型、Cd低积累型。     

Cd对油菜种子发芽与幼苗生长的生态毒性

通过水培实验研究了Cd胁迫下,油菜种子发芽及幼苗生长状况。结果表明:Cd胁迫下,发芽率、发芽势、发芽指数以5 mg L-1Cd浓度为阈值呈现低促高抑现象,发芽指数与Cd浓度曲线相关性好于发芽率和发芽势;活力指数、总长、芽长、根长、总重、芽重、根重表现为单抑现象。Cd对根生长抑制作用大于芽,逐步回归发现,Cd主要通过抑制根生长达到对幼苗生长抑制。种子电解质外渗率和根细胞有丝分裂指数分别与Cd浓度成极显著相关,相关系数分别为0.603**和-0.571**。因子分析发现,根长较其它指标对Cd敏感,可用于Cd污染的监测指标。     

稀土镧对镉胁迫下玉米幼苗生长的影响

以水培法研究了重金属Cd对玉米幼苗的胁迫伤害及稀土La对Cd伤害的缓解作用。结果表明,在Cd胁迫伤害下,玉米幼苗生长受到抑制,主要表现为株高、主根长下降,叶面积锐减,茎叶、根的鲜重以及干重明显下降,随着Cd胁迫浓度的增加,玉米幼苗受伤害程度趋向严重。在玉米幼苗上喷施适量浓度LaCl3(20mg/L),能缓解Cd对玉米幼苗生长造成的伤害。     

菜籽饼堆肥对水稻土壤Cd有效性及Cd在水稻全生育期转运与累积的影响

为研究菜籽饼堆肥对土壤Cd有效性和在水稻体内迁移转运与累积的影响,在Cd污染(Cd=0.72 mg/kg)土壤中施用不同添加量(0.75%,1.5%,3.0%)的菜籽饼堆肥,以未添加菜籽饼堆肥为对照(CK),并进行水稻盆栽种植试验。结果表明:(1)菜籽饼堆肥进入稻田土壤后会显著降低土壤中TCLP提取态Cd含量,在熟化期施用0.75%～3.0%的菜籽饼堆肥,与对照相比土壤TCLP提取态Cd含量下降了45.1%～68.7%。但水稻的种植会影响菜籽饼堆肥对土壤中TCLP提取态Cd含量的降低效果,使其含量随着水稻生育期的延长逐渐上升,但仍低于同时期的对照土壤。(2)施用菜籽饼堆肥能显著提高水稻产量,但同时也增加水稻糙米中Cd含量。与对照相比,施用0.75%～3.0%的菜籽饼堆肥,水稻糙米中Cd含量为0.04～0.14 mg/kg,低于国家食品中污染物限量标准(GB 2762—2012, Cd<0.2 mg/kg)。同时,每株水稻产量分别增加3.6～4.3 g/株,约为1 620～1 935 kg/hm^2。(3)施用菜籽饼堆肥会提高Cd在水稻体内的转运能力,同时显著提高水稻成熟期各部位Cd累积量,特别是地上部分。总体来说,施用菜籽饼堆肥增加水稻糙米中Cd含量,但依然保持在较低水平,满足中轻度Cd污染地区水稻的安全生产。但在Cd污染程度更高或者土壤Cd活性更强的土壤中施用菜籽饼堆肥,种植水稻糙米Cd含量可能高于国家食品中污染物限量标准。因此,在保证稻米安全的前提下对Cd污染稻田应该谨慎施用菜籽饼堆肥。     

赤泥对污染土壤中Cd,Pb和Zn形态及水稻生长的影响

通过盆栽试验,研究了赤泥对污染土壤中Cd,Pb和Zn形态和水稻糙米中Cd,Pb和Zn含量以及水稻生长的影响。结果表明,添加赤泥可有效提高土壤pH,改变土壤中Cd,Pb和Zn的形态,显著降低土壤中交换态Cd,Pb和Zn含量以及水稻糙米中的Cd,Pb和Zn含量。当赤泥施用量为12.5 g kg-1土时,土壤中交换态Cd,Pb和Zn的含量分别比空白对照降低了40.81%、25.68%和38.48%;水稻糙米中Cd,Pb和Zn的含量分别比空白对照降低了70.45%、42.46%和29.19%。与空白对照相比,赤泥施用量为5.0 g kg-1土时,水稻株高、穗长及每盆粒重均显著提高。但当赤泥施用量超过10.0 g kg-1土时水稻生长会受到抑制。在赤泥农业应用时应考虑其施用量及潜在的环境风险,以免影响作物生长。     

Genotypic differences in effects of cadmium on growth and nutrient compositions in wheat

Abstract

A solution culture study was conducted to determine the genotypic difference in the effects of cadmium (Cd) addition on growth and on the uptake and distribution of Cd and other 11 nutrients in wheat plants. Cadmium addition at a rate of 1 mg L^?1 significantly reduced root and shoot dry matter production, shoot height, root length, chlorophyll content, and tillers per plant. On the average of 16 wheat genotypes used in study, Cd concentrations of Cd‐treated plants were 48.1 and 459 μg g^?1 dry weight (DW) in shoots and roots, respectively, and retained 77.91% of total Cd taken up in the roots. On the whole, Cd addition reduced the concentration of sulfur (S), phosphorus (P), magnesium (Mg), molybdenum (Mo), manganese (Mn), and boron (B), and increased iron (Fe), irrespective of the plant parts. The effect of Cd on the concentration of potassium (K), calcium (Ca), and copper (Cu) differed in shoots and roots. The significant difference existed among 16 wheat genotypes in their response to Cd in terms of growth and nutrient concentrations. Genotype E81513, which showed relatively less inhibition in growth, had the lowest shoot Cd concentration and more Cd accumulation in roots, while Ailuyuang had the highest Cd concentration and accumulation in shoot with lower Cd concentration in root. The significant interaction was found between Cd treatment and genotype for all nutrient concentrations in both shoot and root, except S and Zn in root.     

外源褪黑素处理对镉胁迫下水稻种子萌发的影响

为探讨外源褪黑素对Cd胁迫下植物生长发育的影响,采用室内培养实验研究外源褪黑素对Cd胁迫下水稻种子萌发及相关生理指标的影响。结果表明：外源褪黑素对Cd胁迫下水稻种子萌发具有一定的促进作用,褪黑素施用可提高水稻种子的发芽率和发芽势,促进水稻幼根和幼芽的生长,当Cd浓度为100μmol·L-1时,添加100μmol·L-1褪黑素使得水稻根系活力和总根长分别比对照处理提高15.2%和133.7%;外源褪黑素能显著降低Cd胁迫下水稻幼芽的MDA含量,提高水稻体内的POD、SOD和CAT的活性,当Cd浓度为100μmol·L-1时,添加10~1000μmol·L-1褪黑素会使水稻幼芽MDA含量比对照处理降低8.2%~16.0%,POD、SOD和CAT的活性分别比对照处理提高21.3%~45.5%、24.2%~32.2%和77.8%~145.8%。褪黑素可以有效地缓解Cd对水稻的毒害作用。     

大田生产条件下不同品种水稻植株中镉的分布特点

通过4个水稻品种在大田生产条件下的试验,研究分析了水稻植株Cd积累和分布的特点。结果表明,水稻的根系是吸收Cd的主要器官,也是Cd的主要储存场所,无论在水稻分蘖期还是成熟期都很明显;在水稻成熟期,籽粒（糙米）中Cd的含量显著地低于其他器官,水稻植株器官中Cd的分布情况大致为：根〉鞘＞叶＞茎＞糙米,但随着品种的不同而有所变化;根据4个水稻品种在成熟期的植株Cd积累量的分析,9311是植株高累积Cd的水稻品种,Jia－48和Jia－51的糙米中Cd的积累很低;水稻品种间对于Cd的吸收和累积能力有显著的差异,但水稻类型间（粳稻与籼稻间）Cd含量没有显著差异,因此不能按照水稻类型来选育糙米中低Cd积累品种,应针对品种选育出糙米中低Cd积累的高产优质水稻品种。     

Zinc priming promotes seed germination and seedling vigor of rice

The present study evaluated effects of seed zinc (Zn) priming at concentrations from 0 to 25 mM ZnSO₄ on seedling vigor and viability in rice (Oryza sativa L.). Zinc priming substantially increased Zn concentration in the husk, but not in brown rice. The movement of primed Zn from the husk into the inner layers of rice seed during germination was suggested by Zn concentration declining in the husk coinciding with the increase in brown rice over time (r = –0.62; p < 1%), which did not happen in unprimed seed. Zinc priming significantly enhanced seedling growth and development up to 5 mM. Germination rate, root number, and dry weight were much higher than in unprimed seed, but higher Zn concentrations (10 and 25 mM) depressed seedling vigor. Priming rice seed with 2.5 mM Zn also improved the germination rate of rice in a Zn‐deficient soil, with or without soil Zn application. The results confirm that priming rice seed with Zn can improve germination and seedling vigor and for the first time show how Zn requirement of germinating rice seed and seedlings can be met by the prime Zn accumulated in the husk.     

Non‐protein thiols and glutathione S‐transferase alleviate Cd stress and reduce root‐to‐shoot translocation of Cd in rice

A hydroponic experiment was conducted to investigate the dynamic variations of cadmium (Cd) uptake and transport, non‐protein thiols (NPT) and glutathione (GSH) concentrations, glutathione S‐transferase (GST) activity and lipid peroxidation under Cd stress in order to clarify the role of NPT and GST in reducing Cd toxicity and translocation in rice (Oryza sativa L.). Cadmium accumulation was initially fast and then slowed down with increasing time of Cd exposure. However, the rice growth inhibition and lipid peroxidation were not intense until 5d after Cd treatment, even though Cd kept accumulating in root and shoot, suggesting that Cd may be effectively detoxified. The concentrations of NPT in root increased gradually until 5d after Cd stress, whereas those in shoot showed no significant changes. The concentration of shoot GSH was progressively enhanced upon Cd treatment, while it gradually declined in root after an initial increase. The GST activity varied similarly in root and shoot, reaching the maximum level on 3rd day, followed by a significant decrease 5 d after Cd application. Significant increases of lipid peroxidation and root‐to‐shoot translocation on 7th day indicate that the equilibrium in Cd‐thiol interaction in rice might be disturbed upon the prolonged Cd exposure. In summary, our results suggest that Cd may be retained and detoxified in rice root through chelation with thiol compounds and subsequent sequestration.     

Genotypic Difference in Arsenic and Cadmium Accumulation by Rice Seedlings Grown in Hydroponics

Genotypic differences in arsenic (As) and cadmium (Cd) uptake and their translocation within rice seedlings grown in solution culture were investigated. Arsenic uptake and its translocation differed significantly between eight cultivars. The largest shoot and root As concentrations were found in cultivar ‘TN1’ and ‘ZYQ8’, while cultivar ‘JX-17’ had the lowest As concentration. Arsenic concentration in shoot or root of ‘JX-17’ was about 50% of that in cultivar ‘ZYQ8’. Specific Arsenic uptake (SAU) was found significantly different between rice cultivars, which was about 2-fold higher of ‘ZYQ8’ than that of ‘JX-17’. The Cd accumulation also differed significantly between cultivars. Rice cultivar ‘JX-17’ had the highest ability in Cd uptake, but the lowest ability in Cd translocation from root to shoot. The transfer factor (TF) of Cd had an important effect on Cd accumulation by rice seedlings. Arsenic can competitively inhibit P uptake by rice seedlings, P concentrations in shoots, or roots treated with As were significantly lower than those without As addition. However, the concentrations of P and As were positively correlated within these genotypes. The Cd immobilization by cell wall was an important mechanism for Cd detoxification. The cell wall bound 21–44% of total Cd in shoots and 25–59% of total Cd in roots of these tested genotypes. The genotypic differences in As and Cd uptake and translocation within rice seedlings provide the possibility of selecting and breeding genotypes and /or cultivars with reduced levels of As and Cd in rice grains.     

硒对镉胁迫下寒地水稻镉含量与分配的影响

【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。     

Effect of salt stress on tomato plant and the role of calcium

Abstract

Salinity is one of the serious abiotic stresses that has adverse effects on plant growth. The aim of this study was to investigate the effect of sodium chloride (NaCl) on germination and growth parameters of tomato plant as well as the role of Ca²⁺as an ameliorating agent. 100?mM NaCl and two concentrations of calcium (5 and 10?mM) were applied to tomato seeds and seedlings. This study was carried out in a Completely Randomized Design (CRD) with a total of six treatments each comprising of three replicates. The application of 100?mM of NaCl delayed the germination time by 27.6%, reduced the seedling length and seedling vigor by 24.33% and germination stress tolerance by 27.6% as compared to control. Salinity also reduced the plant growth (root and shoot length, root fresh and dry weight, shoot fresh and dry weight, membrane stability, relative water content and leaf area), whereas the application of calcium mitigated the negative effects of salinity on germination and growth to a greater extent. With increased calcium concentration, growth and germination increased significantly both alone and in the salt-affected plant. 10?mM calcium showed best results and enhanced the promptness index by 20.7%, seedling length and vigor by 15.1% and GSI by 20.7%. It also improved root fresh and dry weight, shoot fresh and dry weight, relative water content and leaf area. Similarly, 5?mM calcium also increased plant height and membrane stability index. The present study suggests that application of Ca²⁺ enhanced the growth of tomato plant under saline conditions.     

含Pb、Cd细颗粒物暴露对水稻、马铃薯早期生长的影响

大气含重金属细颗粒物对陆生植物的早期生长有负面影响。通过搭建合理的暴露场景,在植物早期生长阶段,模拟不同程度大气污染条件,评价含Pb、Cd重金属细颗粒物对水稻、马铃薯2种受试植物出苗、幼苗生长和鲜重(陆上茎叶和地下块茎两部分)等生物量的影响。结果显示,暴露处理组人工土壤Cd、Pb元素浓度在试验结束时均有增加,其中Cd元素浓度比背景值增加了约8.8倍,Pb元素浓度增加相比背景值不明显。水稻陆上茎叶部分对Cd、Pb的富集量分别为0.002 0 mg·kg~(-1)和0.054 mg·kg~(~(-1));马铃薯地下块茎部分对Cd、Pb的富集量分别为0.185 0 mg·kg~(-1)和0.074 mg·kg~(-1)。暴露处理后对水稻的各生物量终点抑制效应不明显,而对马铃薯地下块茎鲜重的抑制率达到27%。由此可见,在模拟暴露条件下,人工土壤Cd污染元素浓度变化较大,马铃薯地下块茎对Cd元素富集效应明显。与空白对照组相比,暴露处理导致的Pb-Cd重金属复合污染对于马铃薯地下块茎生物量有显著的抑制效应和胁迫效应。同时,水稻陆上部分对于暴露的污染物及设定浓度表现出较好的适应性和低敏感性。     

不同供钾水平下水稻钾素吸收利用与产量的基因型差异

通过田间试验研究了不同供钾水平对8个水稻品种钾紊吸收利用和稻谷产量的影响。研究结果表明，两种供钾水平下，水稻的稻谷产量、钾利用效率和各生育期地上部钾积累都存在显著的基因型差异。低钾胁迫显著降低水稻的稻谷产量和各生育期地上部钾积累量，显著提高水稻的钾利用效率。相关性分析表明．低钾胁迫下水稻生育前期（秧苗期＋分蘖期）地上部钾积累量以及生育中期（抽穗期）地上部钾积累量呈显著正相关；正常供钾条件下水稻生育前期地上部钾积累量呈显著正相关。因此筛选和培育具有较高钾利用效率和在生育前期具有较强钾索积累特性的水稻基因型可能是缓解南方水稻土钾素严重缺乏的有效途径之一。     

不同供磷水平下水稻磷素吸收利用和产量的基因型差异

通过田间试验研究了不同供磷水平对8个水稻品种磷素吸收利用和稻谷产量的影响。研究结果表明,两种供磷水平下,水稻的稻谷产量、磷利用效率和各生育期地上部磷积累都存在显著的基因型差异。低磷胁迫显著降低水稻的稻谷产量和各生育期地上部磷积累,显著提高水稻的磷利用效率。相关性分析表明,低磷胁迫下水稻稻谷产量与水稻磷利用效率、生育前期(秧苗期+分蘖期)地上部磷积累以及生育中期(抽穗期)地上部磷积累呈显著正相关(p<0. 05);正常供磷条件下水稻稻谷产量与磷利用效率、生育前期地上部磷积累呈显著正相关(p<0. 05)。因此筛选和培育具有较高磷利用效率和在生育前期具有较强磷素积累特性的水稻基因型可能是缓解南方水稻土磷素严重缺乏的有效途径之一。     

不同品种大白菜苗期吸收积累镉的差异研究

利用实验室水培模拟轻度镉污染土壤研究了13个大白菜品种苗期吸收积累镉的差异。结果表明,不同品种大白菜地上部和根部的镉含量存在显著差异,其中,603大白菜地上部镉含量较低(104.7 mg kg-1),耐性指数较高,在轻度镉污染土壤上种植603大白菜有利于降低镉污染的人类健康风险。不同大白菜品种在受到Cd胁迫时,其叶绿素含量和组成均有显著差异,为耐性机理研究提供了理论依据。     

外源褪黑素对镉胁迫下豌豆种子萌发、幼苗抗性生理及镉含量的影响

为探究外源褪黑素(MT)对镉胁迫下豌豆种子萌发和幼苗生长影响的生理机制,以豌豆品种中豌6号为试验材料,采用培养皿滤纸法,研究不同浓度外源褪黑素(0、50、100、200、400 μmol·L^-1)对镉胁迫(0、10、100 μmol·L^-1)下豌豆种子萌发、幼苗生长及生理指标的影响。结果表明,镉胁迫显著抑制了豌豆种子萌发及幼苗生长;施用外源褪黑素能够显著提高镉胁迫下豌豆种子的发芽势和发芽率,促进豌豆幼芽和幼根的生长,提高豌豆幼芽的超氧化物歧化酶(SOD)、过氧化物酶(POD)和过氧化氢酶(CAT)活性,并降低丙二醛(MDA)和镉含量。当Cd²⁺浓度为10 μmol·L^-1时,施用100 μmol·L^-1 MT较未添加MT豌豆的发芽势、发芽率、芽长、根长、芽鲜重和根鲜重分别增加90.47%、82.94%、127.27%、129.47%、131.71%和83.33%,SOD、POD和CAT活性分别提高24.17%、40.50%和76.91%,MDA含量下降57.64%,镉含量下降57.62%。结果表明,适宜浓度的外源褪黑素能够通过提高抗氧化酶活性,降低活性氧的积累,抑制豌豆幼苗对镉的吸收,从而缓解镉胁迫对豌豆幼苗的毒害作用,促进种子萌发及幼苗生长。本研究结果为进一步探索外源褪黑素缓解豌豆镉胁迫的机理提供了一定的理论依据。     

水稻镉耐性差异及镉低积累种质资源的筛选

比较水稻亲本材料的镉耐性差异, 筛选镉低积累水稻种质资源, 为水稻镉安全品种(Cd-safe cultivars, CSCs)的培育提供遗传材料。以收集的具有明显遗传差异的145种水稻亲本材料为研究对象, 通过水培试验, 研究水稻植株生长性状和镉积累特征, 比较不同材料的镉耐性和镉积累差异, 并以耐性指数和镉含量为指标, 筛选镉低积累种质资源。结果表明: (1)在镉胁迫条件下, 水稻生物量和株高受到不同程度的抑制, 根长和根冠比呈不同程度增加。(2)恢复系各材料间镉含量和积累量最大值分别为最小值的2.79倍和6.45倍, 保持系各材料间镉含量和积累量最大值分别为最小值的2.00倍和2.98倍。(3)根据耐性指数差异将恢复系和保持系各分成耐性不同的5类, 并将耐性较强材料进行镉积累差异分类, 得到恢复系镉低积累种质资源13种, 分别是"MR183"、"MR86"、"R047"、"R364"、"泸恢602"、"泸恢615"、"泸恢17"、"GR548/M63//527_2"、"R18"、"成恢838"、"GR548/M63//M63_5"、"GRL17/IRBN95-199_3"和"GRL17/ATTP//L17_3"; 保持系镉低积累种质资源2种, 分别是"玉香B"和"D62B"。(4)镉耐性较强材料中, 高积累材料的镉含量和镉积累量表现为恢复系中分别为低积累材料的1.97倍和2.03倍, 保持系中分别为低积累材料的1.43倍和1.40倍; 镉含量和镉积累量在两系的低积累材料间无明显差异。筛选镉低积累材料培育镉安全品种将成为解决镉安全威胁的关键。