小麦对钾高效吸收的根系形态学和生理学特征

用 6个小麦品种作为试验材料 ,研究了钾效率不同小麦的根系形态学和生理学特征 ,以及对K+吸收的动力学参数。结果表明 ,高效吸收钾的品种根系长、半径小、吸收面积大、Km小、Imax大。低效低响型品种京核 1号的最小临界浓度值 (Cmin)小。根系形态学和生理学特征可以作为筛选高效吸钾小麦品种的参考指标。K+吸收的动力学参数可以作为钾高效吸收和低响型小麦品种的筛选指标 ,最好的筛选指标是将根系形态和生理特性相结合。根系分泌H+的能力与K+的吸收无明显相关。     

小麦不同品种吸收钾离子的动力学研究

小麦不同品种吸收钾离子(K+)的动力学参数不同。米氏常数(Km)以绵阳11最大,红矮1最小;最大吸收速率(1max)繁6最高,红芒22最低。供试小麦各品种吸收K+的补偿点(Cmin)3.44.mol/L,远低于一般土壤溶液中的K+浓度,说明土壤溶液中K+浓度与小麦吸收K+的需要相适应。此外,硝酸根(NO3)、吲哚乙酸(IAA)和稀土显著促进小麦吸收K+;但铵离子(NH4+)显著抑制K+吸收;尿素对小麦吸收K+无显著影响。动力学参数的测定表明,NH4+抑制K+吸收的原因是提高了小麦吸收K+的Km;而NO3和稀土产生促进作用的原因分别是吸收K+的Imax增加和Km减少。IAA能促进H+分泌,导致小麦吸收K+的速率提高。     

不同温度型小麦K+吸收动力学特征及其盐胁迫效应

本试验采用吸收动力学方法结合药理学方法,研究了NR9405（暖型）、小偃六号（中间型）、RB6和陕229（冷型）等4种不同温度型小麦幼苗（14 d）K+ 的高亲和和低亲和吸收特征。结果表明: 1）在0～50mmol/L的K+浓度范围内,K+吸收可分为0～1和1～50mmol/L两个阶段,均可用米氏方程描述;2）对于高亲和吸收系统（0～1 mmol/L）,冷型小麦具有高的饱和吸收率Imax [42.46～43.12 mol/（h?g）,RDW]和亲合系数Km（0.430～0.432 mmol/L）,暖型小麦（NR9405）和小偃六号具有较低的Imax［33.57～35.38 mol/（h?g）,RDW］和Km（0.332～0.353 mmol/L）,抑制低亲和系统后增加了4种小麦的高亲和转运载体数量,降低了冷型小麦对K+的亲和力,但对NR9405和小偃六号的Km值影响较小; 3）抑制高亲和吸收后,低亲和系统的Imax和Km均增加; 4）在盐胁迫下,K+高亲和和低亲和吸收系统均受到抑制,小麦幼苗K+吸收能力均显著降低,暖型小麦NR9405和小偃六号的高亲和系统Km几乎不受盐胁迫的影响,而冷型小麦的Km值因盐胁迫而降低。因此,在盐胁迫下高亲和吸收系统的稳定性可能是影响暖型小麦耐盐性高的一个重要因素,这对小麦耐盐性研究及耐盐品种选育均具有一定的指导意义。     

铵对不同作物根系钾高亲和转运系统的影响

为探讨植物苗期根系高亲和转运系统的K+吸收动力学特征及其是否受吸NH4+的影响,采用溶液培养和添加K+通道抑制剂的方法,对低K+浓度下5种植物在有铵和无铵时的K+吸收动力学特征进行了研究。结果表明,植物根细胞K+高亲和系统的吸钾特征曲线符合Michaelich-Menten方程。不同植物K+高亲和系统的Km值之间差异较小,均在50%以内,说明不同植物的载体与K+间的亲和性差异较小;不同植物K+高亲和系统的Vmax值间差异很大,说明不同植物根细胞膜上的K4+载体数量间差异很大,这是导致不同植物在低钾条件下吸钾能力差异较大的主要原因。铵的存在可以明显降低供试植物在低钾条件下对K+的吸收速率。与无NH4+情况比较,NH4+的存在可使大豆K+吸收的Vmax减少80%;但NH4+对不同载体与K+之间亲和性(Km的影响较小,由NH4+所导致的Km的降低率均在10%以内。可见,对高亲和系统而言,NH4+对K+吸收的影响主要是由于铵竞争细胞膜上的钾载体所造成的。     

柚木优良无性系根系养分吸收动力学研究

以4个柚木优良无性系1年生苗木为试材,采用营养液培养和离子消耗曲线模拟方法,测定了根系的Ca2+、Mg2+、K+、NO-3吸收动力学参数。结果表明,以根系总吸收面积和总干重计算的Ca2+、Mg2+、K+、NO3-最大吸收速率相接近。在Ca2+、Mg2+、K+、NO3-最大吸收速率(Vmax)及离子流入速率(α值)指标上,不同基因型之间差异较大,而在养分离子吸收亲合力(Km)指标上,则没有明显差异。缅甸种源无性系VI-23根系对Ca2+、Mg2+、NO3-的Vmax及α值均为最大,而印度种源无性系70-12根系则对K+的Vmax及α值为最大,表明缅甸种源无性系VI-23为Ca、Mg和NO3--N硝态氮高效吸收基因型,印度种源无性系70-12为钾高效吸收基因型。     

NH4+对不同基因型棉花幼苗K+吸收和利用的影响

溶液培养条件下研究了NH4+对棉花不同基因型幼苗干物质积累以及K+吸收和利用的影响。结果表明,NH4+在不同供钾条件下均显著降低了棉花幼苗的干重、钾吸收量和钾利用指数,低钾条件下（K+ 0.03 mmol/L）尤其如此。中等供钾（K+ 0.5 mmol/L）在一定程度上缓解了NH4+对棉花幼苗干物质积累以及K+吸收和利用的抑制; 充分供钾 （K+ 2.5 mmol/L）却未能在中等供钾的基础上进一步减轻NH4+的毒害作用。鲁棉研22苗期的干物质积累在不同供钾条件下受NH4+影响的程度均较153018品系大,这主要与其体内钾利用能力受NH4+影响较153018大有关。     

嫁接对不同棉花基因型钾效率的影响

采用全生育期土培盆栽试验,在研究2个棉花基因型钾吸收效率和利用效率的基础上,对未嫁接和经嫁接的自根苗(接穗和砧木为同一基因型)处理的棉花干物质和钾的积累、分配进行比较。结果表明:自根苗植株与未嫁接植株相比,不同棉花基因型在不同钾水平下干物质和钾的积累及分配不同。高效基因型103经过嫁接后营养器官中的干物质和钾比例增加,生殖器官中的干物质和钾减少,产量和钾利用指数下降;低效基因型122经过嫁接后营养器官中的干物质和钾比例减少,生殖器官中的干物质和钾增加,产量和钾利用指数升高。吸收效率因钾水平而异,高效基因型103嫁接后施钾时吸收效率降低,缺钾时升高;而低效基因型122嫁接后施钾时吸收效率升高,缺钾时降低。嫁接对不同棉花基因型产生的效应不同,通过嫁接使不同棉花基因型物质分配趋于平衡。     

K+高亲和转运系统吸收动力学特征及其受NH4+影响的研究

为探讨钾的高亲和转运系统是否受到铵离子的影响,采用溶液培养方法研究了水稻、大豆两种作物苗期(16d)的K+高亲和转运系统吸收动力学特征及其受吸收液中NH4+的影响。结果表明,NH4+对K+吸收的Vmax的影响在作物种类间有较大的差异,水稻受影响显著小于大豆。NH4+对供试作物K+吸收的Km值影响均很小,说明NH4+对K+吸收速率的影响主要在于影响了细胞膜上K+载体的数量而非影响了载体吸收位点与K+之间的亲和性。     

不同基因型大麦对钾的吸收、积累及分配特性

通过不同供钾水平的土培试验,研究了钾高效基因型大麦Sandrime和钾低效基因型大麦ACWestech对钾素的吸收、积累和分配特性。结果表明：在各生育期,钾高效基因型Sandrime株高和生物量均大于钾低效基因型AC Westech,根冠比小于低效基因型,但钾低效基因型缺钾症状比高效基因型严重;不同钾效率基因型大麦各器...     

钾高效小麦基因型的筛选指标和筛选环境研究

不同植物或同一植物的不同基因型吸收和利用钾素的能力差异十分显著[1]。利用和选育耐低钾的植物基因型,挖掘作物自身基因潜力,是提高作物钾素营养效率和缓解我国钾素资源短缺,促进“生态环保型”农业可持续发展的一条有效途径。“钾高效”植物基因型的选育过程中,首先遇到的问题就是“钾高效”种质资源的筛选。针对不同作物和养分确立合适的筛选环境和筛选指标是做好这项工作的前提。近年来有关钾高效种质资源筛选的报道很多[2-5],这些研究采用的筛选环境有大田、土培、砂培、液培等,筛选指标有钾利用效率、钾利用指数、生物量、钾吸收动力…     

水培条件下加入钾和硅减轻甘蔗盐胁迫效应

A hydroponics experiment was conducted to evaluate the role of potassium (K) and silicon (Si) in mitigating the deleterious effects of NaCl on sugarcane genotypes differing in salt tolerance. Two salt-sensitive (CPF 243 and SPF 213) and two salt-tolerant (HSF 240 and CP 77-400) sugarcane genotypes were grown for six weeks in ? strength Johnson’s nutrient solution. The nutrient solution was salinized by two NaCl levels (0 and 100 mmol L-1 NaCl) and supplied with two levels of K (0 and 3 mmol L-1) and Si (0 and 2 mmol L-1). Applied NaCl enhanced Na+ concentration in plant tissues and significantly (P ≤ 0.05) reduced shoot and root dry matter in four sugarcane genotypes. However, the magnitude of reduction was much greater in salt-sensitive genotypes than salt-tolerant genotypes. The salts interfered with the absorption of K+ and Ca2+ and significantly (P ≤ 0.05) decreased their uptake in sugarcane genotypes. Addition of K and Si either alone or in combination significantly (P ≤ 0.05) inhibited the uptake and transport of Na+ from roots to shoots and improved dry matter yields under NaCl conditions. Potassium uptake, K+/Na+ ratios, and Ca2+ and Si uptake were also significantly (P ≤ 0.05) increased by the addition of K and/or Si to the root medium. In this study, K and Si-enhanced salt tolerance in sugarcane genotypes was ascribed to decreased Na+ concentration and increased K+ with a resultant improvement in K+/Na+ ratio, which is a good indicator to assess plant tolerance to salt stress. However, further verification of these results is warranted under field conditions.     

烤烟钾素营养特性的基因型差异研究

以10个烤烟基因型为材料,进行了离子耗竭溶液培养、土壤耗竭盆栽试验和田间小区试验,研究比较钾素营养特性的基因型差异。结果表明,不同基因型的吸钾速率和耐低钾能力差异显著。吸钾速率以红大和K358最大,耐低钾能力Nc27NF和K358最强,Nc729最弱。10个基因型全株含钾量在低钾水平下变幅为0.87%～1.25%,而在高钾水平下为1.40%～1.94%。高钾条件下,基因型G28、77089-12、Rg11和Nc82的叶片含钾量高于2%;K358、Coker319、K346和Nc27NF有较高的钾素利用效率,K346、Nc729、G28和K358的钾素收获指数大于50%。各烤烟基因型的钾素营养特性在不同供钾条件下无显著相关性。综合比较K346属于钾高效基因型。     

渗透胁迫对玉米幼苗根系活力和K+吸收动力学特征的影响

本试验以三个抗旱性不同的玉米品种作为试验材料,以26％聚乙二醇Polyethylene.glycol(PEG)(分子量4000)溶液对幼苗进行模拟渗透胁迫,研究了渗透胁迫对3个抗旱性不同的玉米品种幼苗根系活力及对K+吸收的动力学的影响。结果表明,玉米幼苗根系对K+的吸收速度符合Michaelis-Menten动力学方程;短期(24h内)的渗透胁迫可在一定程度上促进根系的生长,根系活力增强,NR活力升高,根系与离子的亲和力增加(Km下降),抗旱性强的品种促进程度大于抗旱性弱的品种;较长时间(超过48h)的渗透胁迫则抑制根系的生长,根系活力、NR活性等降低,根系与离子的亲和力下降(Km升高)。抗旱性强的品种受抑程度轻,Km值的升幅小,而抗旱性弱的品种受抑程度重,Km值的升幅大。玉米幼苗根系吸收K+的Km与根数、根重、根系活力、吸收面积、NR活力等极显著相关,可作为玉米抗旱性强弱的指标。     

Kinetic Characteristics of Nitrate Uptake by Wheat and Rape and Their Determination

15－day old seedlings of wheat and rape were grown in a series of solutions with different concentrations of KNO3 for a definite period of time.The changes in NO3^- concentration of the solutions were determined by the double ion-selective electrode method,and then the amount of NO3^- taken up by the plants was estimated and values of Km and Imax of the Michealis-Mentan equation were calculated.Results show that both the method and conditions of determination affected the values of Km and Imax.For example,the Km value was appreciably reduced when the volume of culture solution was increased or when the duration of nutrient uptake was shortened;the Km value obtained with short-term depletion method was higher than that obtained with long-term one.Similar Variations were found for the values of Imax.There was a considerable difference in the characteristics of uptake kinetics between wheat and rape when determined under the same conditions of determination.The isotherm of NO3^- uptake by wheat could be separated into saturated and unsaturated parts,and when the concentration of NO3^- exceeded 180μM,the relationship between the rate of NO3^- uptake and NO3^- concentration tended to be linear.However,the isotherm of NO3^- uptake by rape was found to fit the Michealis-Menten equation and no linear relationship could be found.     

不同基因型小麦铁营养效率差异及其可能机制

采用营养液培养试验对苗期6个不同小麦基因型旱选10,鲁麦14,小偃54,京411,洛夫林和中国春的铁营养效率进行了研究,并对其可能机制进行了探讨。试验设低铁(2μmol/L)和正常铁(100μmol/L)2个处理。结果表明,小麦的铁营养效率存在基因型差异,其范围从58%到92%。供试基因型中铁营养效率最高的基因型为中国春,最低的为旱选10。本试验条件下,小麦种子中铁浓度与其苗期铁营养效率间未发现相关性。多重回归分析表明,小麦铁营养效率差异主要由铁吸收决定,而铁吸收主要由根表面积差异决定。说明具有较大根表面积的小麦基因型在苗期具有更高的铁营养效率与抵抗铁缺乏的能力。     

POTASSIUM UPTAKE CHARACTERISTICS OF TWO MAIZE HYBRIDS AND THEIR PARENTS UNDER THE STRESS FROM A LOW AMOUNT OF POTASSIUM

The objective was to study the relationship between maize hybrids and their parents in potassium ion (K⁺)-uptake characteristics under the stress from a low amount of potassium. Superoxide dismutase (SOD) activity, the malondialdehyde (MDA) content, the potassium utilization index (KUI), root volume, total and active root uptake area, Michaelis-Menten coefficient (Km), and the maximum rate of uptake (Vm) of different maize (Zea mays L.) genotypes were determined. SOD activity and MDA content in the leaves of Si144, Xianyu335 and PH4CV were significantly higher than the control, whereas for Jidan27, Si-287 and PH6WC, no differences were detected. Jidan27 showed a higher KUI than Xianyu335 under 0.1 mM potassium chloride (KCl), but no differences were observed under 3 mM KCl. Jidan27, Si287, and PH6WC had a greater root volume, total and active uptake areas, higher Vm and smaller Km than the other genotypes under 0.1 mM KCl. The differences in the KUI among maize genotypes resulted from variation in the Km to a greater extent than the Vm. These results indicate that potassium absorption characteristics of the low-K⁺-tolerance genotype, Jidan27 resembled its female parent, Si-287, whereas that of the stress-sensitive genotype, Xianyu335 was more like its male parent, PH4CV.