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1.
水稻品种间吸收和转运硒特性差异机制研究 总被引:4,自引:0,他引:4
采用溶液培养试验比较了富硒水稻与非富硒水稻对硒的吸收和运输特征,期望揭示富硒水稻秀水48和非富硒水稻丙9652籽粒硒累积差异部分生理机制。结果表明,两品种水稻根部对硒吸收的Km值差异不大,但富硒水稻秀水48的Vmax是非富硒水稻的1.57倍,两品种水稻根系对硒的共质体吸收皆受载体调控。硒吸收时间动力学试验证实秀水48茎中硒的浓度和含量在各个处理时间段均要高于丙9652,富硒水稻秀水48的木质部汁液中硒的浓度大约是非富硒水稻丙9652的2倍,在相等蒸腾速率的条件下,秀水48地上部硒含量显著高于丙9652,说明两品种水稻向地上部转运硒的能力差异显著,秀水48更易将根中的硒转运到地上部,高效的转运体系是富硒品种地上部硒含量高的关键所在。富硒水稻具备很强的向地上部转运硒的能力,部分原因在于其根部木质部对硒的装载能力较强。 相似文献
2.
富硒与非富硒水稻品种对硒的吸收分配的差异及机理 总被引:14,自引:3,他引:11
采用盆栽试验方法研究了富Se与非富Se水稻(秀水48和丙9652)对土壤中Se吸收累积的生育期动态变化和Se在水稻植株不同部位的分配差异.结果表明:随着生长发育期的推进,水稻在拔节期对Se累积量骤增,从拔节期到灌浆期水稻Se的累积量占总Se累积量的65%-77%,说明这一段时期是水稻吸收Se的关键时期,水稻生命周期中吸收的Se大部分在这个时期完成.在水稻苗期,秀水48较高的Se吸收量是由于其根系对亚硒酸盐吸收能力较高.而在籽粒成熟期,两个品种生物量和Se吸收量没有差异,无论在低Se土壤还是加Se土壤上,秀水48籽粒Se含量都显著高于丙9652,这说明水稻对土壤Se的吸收是非恒定的,富Se水稻秀水48比非富Se水稻丙9652有较强的Se吸收能力和较强的Se转运能力,但是,Se在两个水稻品种的籽粒和其他器官中的分配差异是引起籽粒Se含量差异的一个重要原因.土壤不施Se时植株各器官Se含量顺序依次为根>叶≈茎>籽粒,Se易于向营养体富集,土壤施亚硒酸盐后植株各器官Se含量则为根>籽粒>叶>茎,表现出Se向籽粒富集的特征. 相似文献
3.
不同形态硒向水稻籽粒转运途径及品种差异 总被引:3,自引:0,他引:3
硒是人体必需微量元素,提高水稻籽粒硒含量对改善人体膳食硒营养有重要意义。以富硒水稻品种(Oryza sativa L.)秀水48和非富硒品种S.Andrea为材料,在灌浆期分别供应离体穗亚硒酸盐、硒酸盐、硒代蛋氨酸(SeMet)和硒甲基硒代半胱氨酸(SeMeSeCys),探讨两品种水稻在灌浆期向籽粒转运不同形态硒的品种差异及转运途径。结果表明:水稻体内有机硒主要通过韧皮部转运至籽粒,硒酸钠可能通过木质部和韧皮部共同转运至剑叶,而亚硒酸钠主要通过木质部转运至剑叶。秀水48从茎至籽粒转运硒酸盐和硒代蛋氨酸能力显著强于S.Andrea,并且富硒水稻秀水48从剑叶至籽粒转运有机硒(硒代蛋氨酸)能力显著高于S.Andrea。与非富硒水稻相比较,富硒水稻能通过茎和剑叶向籽粒转运较多的硒,这可能是引起水稻籽粒硒含量差异的直接原因。 相似文献
4.
不同大豆品种积累硒的特性及基因型差异 总被引:12,自引:1,他引:11
田间试验结果表明 ,在低硒土壤上 ,施硒极显著提高植株、子粒中的积硒量 ,增加幅度植株为夏大豆 秋大豆 春大豆 ,子粒为秋大豆 夏秋大豆 春大豆 ;并筛选出富集硒能力强的品种 10份。在富硒土壤上种植的不同春大豆品种 ,植株、子粒硒积累量也存在显著差异。在不同硒浓度条件下 ,同一大豆品种各生育阶段硒积累量存在差异 ,其大小顺序为成熟期 花期 苗期。施硒浓度以 1 0mg/L单株积累量最高 相似文献
5.
叶面喷硒对水稻籽粒硒富集及分布的影响 总被引:29,自引:1,他引:29
在大田试验条件下,研究了江苏省苏南地区水稻(龙晴4号、86优8和丙9652)叶面喷施和未喷施亚硒酸钠对水稻籽粒硒含量、硒的形态及对蛋白质结合态硒的影响。结果表明:叶面喷施亚硒酸钠10g hm^-2,可使该地区水稻籽粒硒含量达255.3—586.5μg kg^-1,是不喷硒的7.9-11.0倍。无论喷硒还是未喷硒,水稻籽粒硒主要以有机硒的形态存在,有机硒含量占总硒量的87.72%-90.98%,对产量没有显著差异。总体看来,叶面喷硒可以显著提高籽粒蛋白结合态硒含量,籽粒蛋白质结合的硒占有机硒的43.07%-51.65%,占总硒的38.04%-48.98%。叶面喷硒与对照相比,二个品种(龙晴4号与丙9652)籽粒的蛋白谱带基本一致,只是喷硒的水稻籽粒在14~20kDa之间增加了一些蛋白条带,这可能是由于喷硒增加了一些小分子蛋白质的合成。 相似文献
6.
有色稻与常规稻富硒能力比较及其机理初探 总被引:4,自引:0,他引:4
利用根袋盆栽试验,初步比较了有色稻(龙晴四号和黑米120)和常规稻(秀水 48 和S.Andrea)苗期富Se能力的差异,并分析了富Se能力与根际特征的相关性.结果表明,植株富Se能力与稻种颜色无直接关系,而与茎叶Se转运能力关系更为密切.无论土壤施Se与否,富Se品种均表现出较强的茎叶Se转运能力,但与有色稻相比常规品种显示出较高的Se肥效应.富Se品种在植株N、P养分的吸收利用上同样表现出强的能力,其累积顺序与Se累积顺序一致:秀水48>龙晴四号>黑米120>S.Andrea;相关分析表明,4个水稻品种茎叶Se含量与茎叶N、P含量及根际速效P亏缺率显著相关,而与根际K和pH值无关.无论有色稻还是常规稻,较高的茎叶Se转运能力可能是其富Se原因之一. 相似文献
7.
水稻不同生育期对硒吸收累积及铁膜的吸附特性 总被引:2,自引:0,他引:2
采用盆栽试验方法,研究不同生育期水稻各部位对硒的吸收累积及根表铁膜对水稻吸收积累硒的影响机制。结果表明:水稻营养器官生物量在拔节期积累最快,不同时期营养器官中硒含量不同,根中的硒在拔节期达到最大,根和茎中的硒在灌浆期和成熟期被转运至其他部位。水稻各组织中约50%的硒在拔节期和孕穗期被吸收,小穗吸收总硒的47.22%且是在孕穗期完成的,说明这两个时期对于水稻硒吸收累积非常关键。铁膜中硒占总硒的比例在幼苗期高达73.63%,是同时期茎中硒所占比例的4.87倍。随着生育期的推进,铁膜中硒所占比例显著递减,在成熟期降低至20.02%,同时期茎中硒占总硒的比例为65.42%。这表明,根表铁膜在水稻整个生长周期内通过吸附作用使其表面能够富集一定量的硒,在水稻生育后期,当土壤溶液中硒含量较少时,根表铁膜可能会作为一个硒源,吸附在根表铁膜中的硒重新被水稻所利用,铁膜在水稻硒吸收转运的过程中扮演了"缓冲器"的角色。明确不同生育期根表铁膜对水稻硒累积特性,在生产管理中可在不同生育期采取措施提高稻田硒生物有效性,从而为进一步提高农产品中硒含量提供科学依据。 相似文献
8.
水稻不同品种在海南富硒土壤中硒的吸收和分配机理 总被引:8,自引:0,他引:8
利用盆栽研究了5个水稻品种在两种不同的富硒土壤中Se吸收累积的生育期动态变化和Se在水稻植株不同部位的分配机理.结果表明,随着生长发育期的推进,水稻在孕穗期对Se含量和累积量同时骤增,从苗期到孕穗期水稻Se的累积量占总Se累积量的45.5%~67%,同时Se含量也达到最高,说明这一段时期是水稻吸收Se的关键时期;在富硒土壤1中水稻各器官Se含量都显著大于相应土壤2中水稻各器官,水稻各器官Se含量顺序依次为根>叶>茎>籽粒,Se易向营养体富集;5个水稻品种中只有杂交稻在土壤1中生长正常;3个常规水稻中旱14、2004-95、稻翅品种在土壤2中的SOD、POD酶活性比土壤1中呈明显减小趋势,但杂交稻特优10 SOD酶活性变化相反,其POD酶活性变化的幅度也最小;在土壤2中5个水稻品种生长都正常,杂交稻的平均硒含量最低,但累积量最高. 相似文献
9.
锌离子活度对水稻幼苗锌吸收分配的影响及基因型差异 总被引:1,自引:1,他引:1
采用卜HEDTA螯合缓冲营养液,在4个锌水平(pZn2+即-log[Zn2+])分别为11.4、11.0、10.3和9.7下对锌营养效率不同的4个水稻基因型[IR8192、IR26、BY(碧玉早糯)、Z921(浙农921)]进行营养液培养试验,研究水稻幼苗对Zn吸收、转运和利用规律。结果表明,随着锌离子活度下降,各水稻基因型的锌累积量下降,锌从地下部向地上部的转运率提高,锌利用效率提高,且各基因型间差异显著。在锌离子活度较低时,耐低锌基因型(IR8192)锌养分利用效率和提高养分利用率的能力要远远高于锌敏感基因型IR26和子粒富锌基因型BY;在锌离子活度较高时,水稻子粒富锌基因型BY有较强的锌富集能力,具有较高的秧苗锌累积量,这可能是其子粒富锌的主要机理之一;利用苗期营养性状筛选子粒富锌水稻基因型效果可能较好。 相似文献
10.
不同时期追氮对冬小麦植株氮素积累及转运特性的影响 总被引:2,自引:2,他引:2
采用盆栽和大田相结合,并应用15N示踪技术,研究了不同时期追氮对两个不同穗型冬小麦品种植株氮素积累及转运特性的影响。结果表明,成熟期小麦植株各部位氮素积累量和分配比例均表现为子粒茎鞘+叶根系或颖壳+穗轴;子粒中氮素积累量以拔节期追氮处理最高,氮素在子粒中的分配比例以抽穗期追氮最高,在根系中的分配比例则以全部底施处理最高。小麦植株吸收追施15N的比例为16.45%~26.6%,兰考矮早八和豫麦49-198分别以返青期追氮和拔节期追氮吸收的比例最高;子粒中氮素来自15N的比例均以返青期追氮最高,分别为27.16%和22.20%,但和拔节期追氮处理差异不显著。随着追氮时期推迟,氮的花后同化量、花后贡献率增加,而花前贡献率呈下降趋势;全氮对子粒贡献率表现为花前转运的贡献大于花后同化的贡献,但抽穗期追氮处理中,15N对子粒的贡献率表现为花后同化率大于花前转运贡献率。综合考虑子粒产量、蛋白质含量以拔节期追氮较为合适。 相似文献
11.
Two japonica rice (Oryza sativa L.) cultivars, Xiushui 48 and S. Andrea, differing in their ability to accumulate Se in the grain (as high as a three-fold difference), were compared for selenium (Se) accumulation in their shoots when their growth media was supplied with different forms of Se. Results indicated that when treated with 0.25μmol L^-1 Na2SeO3, Xiushui 48 accumulation of Se in the shoots was significantly more rapid (P〈0.05) than S. Andrea, probably because of greater Se uptake and transport in Xiushui 48. Xiushui 48 rice seedlings had a higher shoot-Se accumulation rate and absorbed selenocysteine (Se-Cys) more rapidly than S. Andrea seedlings. However, when treated with Se as 0.25μmol L^-1 selenomethionine (Se-Met), the S. Andrea seedlings' accumulation rate was significantly greater (P〈0.05) than that of Xiushui 48. Possibly, the high Se accumulation rate of Xiushui 48 seedling shoots compared to S. Andrea shoots was the result of a higher capacity of Xiushui 48 to transform selenite to organic Se compounds and a higher selenite uptake rate. 相似文献
12.
Muhammad Jaffar Hassan Guoping Zhang Feibo Wu Kang Wei Zhonghua Chen 《植物养料与土壤学杂志》2005,168(2):255-261
A hydroponic experiment with two rice cultivars differing in cadmium (Cd) tolerance was conducted to investigate the alleviating effect of zinc (Zn) on growth inhibition and oxidative stress caused by Cd. Treatments consisted of all combinations of two Zn concentrations (0.2 and 1 μM), three Cd concentrations (0, 1, and 5 μM), and two rice cultivars (Bing 97252, Cd‐tolerant; Xiushui 63, Cd‐sensitive). Cd toxicity caused a dramatic reduction in plant height and biomass, chlorophyll concentration and photosynthetic rate, and an increase in Cd concentration in both roots and shoots, malondialdehyde (MDA) concentration, and superoxide dismutase (SOD) and peroxidase (POD) activities in shoots. The response of all these parameters was much larger for Xiushui 63 than for Bing 97252. Addition of Zn to the medium solution alleviated Cd toxicity, which was reflected in a significant increase in plant height, biomass, chlorophyll concentration, and photosynthetic rate, and a marked decrease in MDA concentration and activity of anti‐oxidative enzymes. However, it was noted that Zn increased shoot Cd concentration at higher Cd supply, probably due to the enhancement of Cd translocation from roots to shoots. Therefore, further studies are necessary to determine the effect of Zn supply on Cd translocation from vegetative organs to grains or grain Cd accumulation before Zn fertilizer is applied to Cd‐contaminated soils to alleviate Cd toxicity in rice. 相似文献
13.
缺铁水稻根表铁膜对硒的转运和吸收的影响 总被引:2,自引:0,他引:2
Under anaerobic conditions, ferric hydroxide deposits on the surface of rice roots and affects uptake and translocation of certain nutrients. In the present study, rice plants were cultured in Fe-deficient or sufficient solutions and placed in a medium containing selenium (Se) for 2 h. Then, FeSO4 was added at the various concentrations of 0, 10, 40, or 70 mg L-1 to induce varying levels of iron plaque on the root surfaces and subsequent uptake of Se was monitored. The uptake of Se was inhibited by the iron plaque, with the effect proportional to the amount of plaque induced. The activity of cysteine synthase was decreased with increasing amounts of iron plaque on the roots. This may be the important reason for iron plaque inhibition of Se translocation. At each level of iron plaque, Fe-deficient rice had more Se than Fe-sufficient rice. Furthermore, with plaque induced by 20 mg Fe L-1, plants from Fe-deficient media accumulated more Se than those from Fe-sufficient media, as the Se concentration was increased from 10 to 30 or 50 mg L^-1. We found that phytosiderophores, highly effective iron chelating agents, could desorb selenite from ferrihydrite. Root exudates of the Fe-deficient rice, especially phytosiderophores in the exudates, could enhance Se uptake by rice plants with iron plaque. 相似文献
14.
硒与黄腐酸组配对水稻镉吸收的影响 总被引:1,自引:0,他引:1
以Cd污染水稻土为研究对象,采用盆栽试验研究不同用量Se(0.5,1.0 mg/kg)与黄腐酸(0.6,1.2 g/kg)组配对水稻吸收积累镉的影响,并探讨其作用机理,以期为Cd污染稻田的安全利用提供科学依据。结果表明:单施Se可使土壤pH提高0.08~0.23个单位,土壤CaCl_2提取态Cd含量降低8.6%~20.9%,水稻地上部各器官Cd含量显著降低29.4%~39.5%,单施Se能有效降低水稻吸收Cd,并阻控Cd向地上部以及籽实中的转运。单施黄腐酸能显著降低土壤pH,但对土壤CaCl_2—Cd含量、水稻各器官Cd和Se含量(除低量黄腐酸处理叶片和糙米Cd含量外)及水稻各器官Cd的分配无显著影响。Se与黄腐酸组配对土壤pH的影响取决于二者的用量,黄腐酸与高量Se组配处理显著降低CaCl_2提取态Cd 16.5%~21.9%。Se与黄腐酸组配处理能显著减少水稻Cd的吸收及向地上部和籽粒的转运,更为有效地降低稻米Cd含量,高量Se与黄腐酸组配的2个处理与对照相比,稻米Cd含量分别降低38.1%和50.2%。总体来看,施Se能有效降低稻米Cd含量,而Se与黄腐酸配合施用降Cd效果更佳。 相似文献
15.
氮素对不同生育期小麦植株累积硒的影响 总被引:4,自引:0,他引:4
【目的】施用氮肥是农业生产上最重要的增产措施之一,但增施氮肥对不同生育期小麦植株中硒累积、 转运和分配的影响尚不明确。本研究通过盆栽试验研究不同氮水平对小麦生长过程中植株各器官硒累积的影响,为合理施氮提高小麦硒含量提供理论参考。【方法】 试验设置N 100 mg/kg和200 mg/kg 两个水平,每个氮水平设置低硒 (Se 0.81 mg/kg)和高硒 (Se 5.02 mg/kg) 处理,分别在小麦苗期、 拔节期、 孕穗期、 抽穗期、 扬花期、 灌浆期和成熟期取样,分析不同生育期小麦对土壤外源硒的吸收速率,探讨不同硒水平下施氮量对小麦各器官硒累积、 转运和分配的影响。【结果】 1)与低氮相比,高氮促进了小麦籽粒产量增加,低硒的促进作用大于高硒,低硒和高硒时的高氮处理小麦籽粒产量较低氮处理分别提高了21.7%和13.7%。低硒时的高氮处理能提高小麦穗(特别是籽粒)和老叶中的硒含量,籽粒和颖壳硒含量较低氮处理分别提高了31.2%和13.6%,但高硒时高氮处理却导致小麦各器官(特别是籽粒和根)中硒含量下降,其中籽粒和根部硒含量较低氮处理分别下降了13.2%和17.8%。 2)相同硒水平下,高氮处理小麦根部硒占植株总硒的比例较低氮处理下降了约1/4; 在营养生长阶段,低硒时高氮处理能促进硒向小麦地上部转运,而在生殖生长阶段其能促进硒从小麦茎叶向颖壳和籽粒中转运,使得籽粒中硒占总硒比例提高了18.4%; 但高硒时高氮处理却促进硒从茎叶转运到颖壳中,致使籽粒中硒占总硒比例下降了8.0%。3)小麦根部硒含量在苗期和拔节期,抽穗期和扬花期之间增长幅度最大,说明此期间是小麦硒吸收的敏感期。【结论】小麦硒含量因生育期和外源硒水平的不同而异,施氮量也影响着小麦硒累积、 转运和分配。增施氮肥能提高硒的利用效率,建议低硒地区农业生产中补硒时要结合氮的合理施用。 相似文献
16.
《Journal of plant nutrition》2013,36(7):1259-1270
Abstract The effect of cadmium (Cd) toxicity on growth, lipid peroxidation, and antioxidant enzymes was studied using two rice cultivars, Bing 97252 with low and Xiushui 63 with high grain Cd accumulation. Plants were exposed to 0–5 μ M Cd in hydroponic culture. Cadmium stress inhibited plant height and chlorophyll content and altered melondialdehyde (MDA) content and the activities of superoxide dismutase (SOD), catalase (CAT), and peroxidase (POD). Roots and shoots responded differently to Cd in terms of antioxidant enzyme activity. Generally, the activities of SOD, POD, and CAT decreased with increase in Cd level, while the activity of MDA increased with increase in Cd level. With the increase in Cd concentration in nutrient solution, MDA content in shoots and roots of Xiushui 63 increased at a much higher rate than did that of Bing 97252 at both growth stages. At booting stage, a decrease of 46%–52% in SOD activity was noted in plant roots grown under 5 μ M Cd, while at tillering stage the decrease was 13%–19% compared with the control. A significant decrease in chlorophyll content and plant height was noted under higher Cd treatment (1.0 and 5.0 μ mol) at two stages. The higher MDA and lower chlorophyll content in the cultivar Xiushui 63 showed that it is more sensitive to Cd than the cultivar Bing 97252. 相似文献
17.
Manpreet Kaur Dhanwinder Singh 《Communications in Soil Science and Plant Analysis》2018,49(13):1650-1659
The present investigation reports the effects of different doses of sodium selenate and sodium selenite on its uptake, carbohydrate composition, and sucrose and starch metabolizing enzymes in flag leaf and developing grains of wheat grown under greenhouse conditions. Selenium (Se) concentration increased significantly in leaves and developing grains of Se-treated plants compared to control at different intervals post-anthesis. Total soluble sugars and sucrose concentrations in developing grains increased due to various Se treatments. Different selenite treatments increased sucrose synthase activity from 10 to 20 days post-anthesis and increased starch accumulation compared to control plants. Lower starch accumulation in selenate than control and selenite treatments was observed. The activities of α, β and total amylase, invertase and sucrose synthase increased whereas sucrose phosphate synthase declined. Results indicated that Se accumulation causes disturbances in carbohydrate metabolism that is dependent on Se concentration, form and the development stage of the plant. 相似文献