盐胁迫对桑树幼苗生长、叶片水分状况和离子分布的影响

以黑龙江省两个桑树品种（秋雨桑和泰来桑）为试验材料,研究了不同盐浓度下桑树幼苗生长、叶片水分关系和不同器官中离子的分布.结果表明：盐胁迫明显降低了桑树幼苗的植株高度和每株干物质量,且对新生叶片干质量的影响大于老叶片.随着盐胁迫的加重,两个品种桑树的叶片水势、渗透势、压力势和相对含水量明显下降,根、茎中Na⁺浓度明显增加,当外界NaCl浓度达到或超过150 mmol·L^-1时,各器官中Na⁺浓度达到饱和.盐胁迫明显降低了两个品种桑树根、茎和叶片中K⁺ 和 Ca²⁺浓度,以及茎和叶片中Mg²⁺浓度,而对根中Mg²⁺浓度影响不大.Na⁺在根、茎和老叶中的区域化分布是两个品种桑树生长过程中表现出耐盐性的机理之一,而盐胁迫使叶片中的Ca²⁺、K⁺和Mg²⁺浓度降低,导致植株体内的离子亏缺,从而限制了植株的生长.     

外源SA和NO对NaCl胁迫下番茄幼苗生长、光合及离子分布的影响

以番茄(Lycopersicon esculentum Mill.)品种‘秦丰保冠’为试材,采用营养液培养法,研究单独和复配施用外源水杨酸(SA)、一氧化氮(NO)供体硝普钠(SNP)对100mmol/L NaCl胁迫下番茄幼苗生长、光合及离子分布的影响。结果表明:(1)单独和复配外施SA、SNP均能有效抑制NaCl胁迫下番茄幼苗叶片光合色素(Chla、Chlb、Chla+b和Car)含量、Chla/b值、净光合速率(Pn)、蒸腾速率(Tr)、气孔导度(Gs)、瞬时水分利用效率(WUEt)、表观光能利用效率(LUEapp)和表观CO2利用效率(CUEapp)的下降及Car/Chla+b值和胞间CO2浓度(Ci)的升高,并以SA和SNP复配处理效果最明显。(2)NaCl胁迫下,外源SA、SNP单独和复配处理的番茄幼苗各器官(叶、茎和根)中Cl-、Na+含量和Na+/K+、Na+/Ca2+、Na+/Mg2+值显著降低,而K+、Ca2+和Mg2+的含量却不同程度提高,其中以SA和SNP复配处理效果最好。(3)单独和复配外施SA、SNP均能有效减轻NaCl胁迫对番茄幼苗生长的抑制作用,并促进各器官生物量的积累和壮苗的形成,且以SA和SNP复配处理效果更佳。研究表明,复配外施SA和SNP在诱导番茄幼苗提高抗(耐)盐能力方面具有协同增效作用。     

盐胁迫对弗吉尼亚栎生长及矿质离子吸收、运输和分配的影响

以低浓度(50 mmol.L-1)和高浓度(150 mmol.L-1)NaC l处理弗吉尼亚栎(Quercus virginiana)2年生扦插苗,研究了弗吉尼亚栎生长和根系形态学参数变化以及Na+、K+、Ca2+、Mg2+、NO3-等矿质离子在不同器官的吸收、运输和分配。结果表明,盐胁迫不同程度促进了地上部和根系生长,地上部和根系干重、根长、表面积和体积在低浓度盐胁迫下明显增加(P0.05),而在高浓度盐胁迫下变化不大。随着根系对Na+和C l-吸收的增加,K+、Ca2+、Mg2+在根部和茎部的积累明显降低,矿质离子由根部向茎部运输的能力在低浓度盐胁迫增加而高浓度下受到抑制。叶片在低浓度和高浓度盐胁迫下对K+、NO3-具有很强的选择吸收能力,这对于维持叶片离子平衡和正常的光合作用及代谢过程具有重要意义。Na+和C l-在根部的浓度远远大于地上部,说明弗吉尼亚栎根系对盐离子具有较高的耐受性,而减少盐离子在地上部的积累,对于维持地上部的正常生长具有重要意义,这也是弗吉尼亚栎对盐胁迫的适应机制之一。     

NaCl胁迫对菊芋幼苗生长和叶片光合作用参数以及体内离子分布的影响

对不同浓度[0(CK)、50和100 mmol·L-1]NaCl胁迫条件下菊芋(Helianthus tuberosus L. )幼苗的生长、叶片光合作用参数以及体内Cl-、Na+和K+含量分布状况进行了比较研究.结果表明,随NaCl浓度的提高,菊芋幼苗单株地上部分的鲜质量和干质量以及全株鲜质量和干质量均逐渐下降且均与对照差异显著(P<0.05);地下部分的鲜质量和干质量也呈逐渐下降的趋势,但仅100 mmol·L-1NaCl处理组与对照组间有显著差异(P<0.05).随NaCl浓度的提高,叶片的净光合速率(Pn)和气孔导度(Gs)逐渐减小、水分利用效率(WUE)和气孔限制值(Ls)逐渐增大,但总体上差异不显著(P>0.05);50和100 mmol·L-1NaCl处理组的Pn分别为对照组的85.6%和44.9%,Gs分别为对照组的67.9%和57.1%,WUE分别为对照组的1.25和1.54倍,Ls分别为对照组的1.57和1.64倍.随NaCl浓度的提高,菊芋幼苗地上部分和地下部分的Cl-和Na+含量逐渐增加、K+含量逐渐减小,且各处理组间Na+含量差异显著、K+含量差异不显著;地上部分和地下部分的Na+/K+比均随NaCl浓度的提高逐渐增大,0、50和100 mmol·L-1NaCl处理组幼苗地上部分的Na+/K+比分别为0.26、0.83和2.39,地下部分的Na+/K+比分别为0.51、1.16和2.83;各处理组幼苗地上部分的Cl-、Na+和K+含量均明显高于地下部分,表明地下部分吸收的Cl-、Na+和K+大部分被转移至地上部分.研究结果显示,NaCl胁迫对菊芋幼苗生长和叶片光合作用等均有一定的抑制作用,对其体内离子平衡也有一定的影响,干扰了菊芋幼苗的正常生长.     

NaCl对碱谷幼苗无机离子含量和生长的影响

用等离子耦合吸收光谱（ICP）和DDS－11A型电导仪进行的分析表明,培养在含NaCl营养液中,碱谷（EleusinecoracanaL）幼苗根吸收大量Na ,而对K ,Ca 和Mg 的吸收降低,Na ／K 比值增加,同时质膜相对透性提高,K ,Na ,Ca2 ,Mg2 和Pi5 的相对外渗百分率增加。在NaCl的胁迫下,碱谷种子的发芽率降低,幼苗的生长受抑制。     

Effects of CO2, CH4 and N2 on growth and nutrition of rice seedlings

Summary Flooded soils, which accumulate gaseous products of anaerobic fermentation, are often associated with poor rice plant growth. In the present experiment the effects of CO₂, CH₄, N₂, and air on rice seedling growth and nutrition were evaluated. Nutrient culture techniques were used to avoid secondary soil effects normally experienced.Carbon dioxide gas in the root zone of rice reduced seedling growth significantly, whereas CH₄ and N₂ had no significant effect. Methane gave no stimulatory benefits, unlike results reported by some earlier workers. Of three major nutrient elements studied, P uptake was affected more than N or K. Phosphorus uptake was significantly reduced in leaves and sheaths by all three gases, but was significantly increased in roots. This suggests an immobilization mechanism affecting P in roots, and since CO₂, CH₄, and N₂ behaved similarly in contrast to air, a lack of oxygen in the root system is suspected as the causal mechanism rather than toxic effects of gases. Effects on N and K uptake were minimal and insignificant.Contribution from the Department of Agronomy and Range Science, University of California, Davis, California 95616.Contribution from the Department of Agronomy and Range Science, University of California, Davis, California 95616.     

NaCl对小麦根生长和无机离子分布的影响

培养在含NaCl营养液中的幼苗,根生长被抑制,线粒体超微结构受损伤。用扫描电镜、X-射线能谱仪和电感耦合等离子直读光谱（ICP）分析发现,培养在含NaCl营养液中的根,积累大量Na+和Cl-,而K+和Ca~（2+）的含量降低,无机离子总量和Na+/K+比值提高。     

肉桂醛对NaCl胁迫下番茄幼苗生长特性的影响

为探明肉桂醛对番茄幼苗耐盐性的影响,该研究以番茄‘合作903’为试验材料,探究肉桂醛(100μg·L^-1)对处于100 mmol·L^-1 NaCl胁迫下番茄种子萌发与幼苗生长特性的影响。在试验中设置4组处理：对照(CK,蒸馏水)、NaCl (100 mmol·L^-1)、NaCl+CA(100 mmol·L^-1 NaCl+100μg·L^-1 CA)、CA(100μg·L^-1)。结果表明：(1)在100 mmol·L^-1 NaCl胁迫下,添加100μg·L^-1的肉桂醛,番茄种子的发芽势和发芽率均有所提升,番茄幼苗的根长和鲜重均显著提高,说明添加肉桂醛对NaCl胁迫下番茄种子的萌发与幼苗生长均有一定缓解作用。(2)肉桂醛能够有效降低NaCl胁迫导致的番茄幼苗根尖总活性氧(reactive oxygen species, ROS)的过量累积,缓解膜脂过氧化程度从而降低细胞死亡率。综上表明,肉桂醛处理能够通过缓解幼苗的氧化...     

Osmoregulation,solute distribution,and growth in soybean seedlings having low water potentials

Soybean (Glycine max (L.) Merr.) seedlings osmoregulate when the supply of water is limited around the roots. The osmoregulation involves solute accumulation (osmotic adjustment) by the elongating region of the hypocotyls. We investigated the relationship between growth, solute accumulation, and the partitioning of solutes during osmoregulation. Darkgrown seedlings were transplanted to vermiculite containing 1/8 (0.13 x) the water of the controls. Within 12–15 h, the osmotic potential of the elongating region had decreased to-12 bar, but it was-7 bar in the controls. This osmoregulation involved a true solute accumulation by the hypocotyls, since cell volume and turgor were virtually the same regardless of the water regime. The hypocotyls having low water potentials elongated slowly but, when deprived of their cotyledons, did not elongate or accumulate solute. This result indicated a cotyledonary origin for the solutes and a dependence of slow growth on osmotic adjustment. The translocation of nonrespired dry matter from the cotyledons to the seedling axis was unaffected by the availability of water, but partitioning was altered. In the first 12 h, dry matter accumulated in the elongating region of the 0.13 x hypocotyls, and osmotic adjustment occurred. The solutes involved were mostly free amino acids, glucose, fructose, and sucrose, and these accounted for most of the increased dry weight. After osmotic adjustment was complete, dry matter ceased to accumulate in the hypocotyls and bypassed them to accumulate in the roots, which grew faster than the control roots. The proliferation of the roots resulted in an increased root/shoot ratio, a common response of plants to dry conditions.Osmotic adjustment occurred in the elongating region of the hypocotyls because solute utilization for growth decreased while solute uptake continued. Adjustment was completed when solute uptake subsequently decreased, and uptake then balanced utilization. The control of osmotic adjustment was therefore the rate of solute utilization and, secondarily, the rate of solute uptake. Elongation was inhibited by unknown factors(s) despite the turgor and substrates associated with osmotic adjustment. The remaining slow elongation depended on osmotic adjustment and represented some optimum between the necessary inhibition for solute accumulation and the necessary growth for seedling establishment.     

Effects of CaSO4 and NaCl on growth and nitrogen fixation ofLeucaena leucocephala

Effects and interactions of varying CaSO₄ and NaCl levels on growth and nitrogen fixation ofLeucaena leucocephala K8 were examined. Leucaena was grown in nutrient solution at four levels of CaSO₄ (0.5, 1.0, 2.5 and 5.0 mM) and NaCl (1, 25, 50 and 100 mM) in randomized blocks with five replications. While NaCl significantly reduced plant growth, additions of CaSO₄ increased plant height, leaf number, and biomass of salt treated plants. For the nonsaline treatments, high CaSO₄ levels slightly depressed growth, which contradicts suggestions that Leucaena has a high calcium requirement. A significant calcium/sodium interaction was not seen for nodule number or weight. Nodule number was significantly depressed by 100 mM NaCl and nodule weight of the salt stressed plants significantly increased as CaSO₄ concentration increased from 0.5 to 2.5 mM. Effects of NaCl and CaSO₄ on nitrogen content of plant parts were inconclusive. The promotion of Leucaena salinity tolerance by addition of CaSO₄ may be attributed to the effect of calcium in maintaing the selective permeability of membranes.     

Effects of NaCl on the growth, ion accumulation and photosynthetic parameters of Thellungiella halophila

Thellungiella halophila seedlings grown on a solid substrate for 25 days on standard medium were challenged with NaCl. Growth, tissue hydration, ion accumulation, photosynthesis, lipid peroxidation and antioxidant enzymatic activities were studied on rosette leaves. Three accessions of Arabidopsis thaliana were cultivated under the same conditions. During the first two weeks of salt treatment, the growth of T. halophila leaves was restricted by NaCl. No significant difference appeared between T. halophila and A. thaliana concerning biomass deposition, or hydric and ionic parameters. However, all A. thaliana plants displayed foliar damage, and died during the third week of salt (50mM NaCl) treatment. Almost all (94%) T. halophila plants remained alive, but did not display any sign of altered physiological condition. Tissue hydration, chlorophyll content, stomatal conductance, photosynthetic quantum yield, and photosynthetic rate were very similar to those of control plants. Lipid peroxidation, estimated from thermoluminescence, was very low and insensitive to salt treatment. Only slight changes occurred in antioxidant enzymatic activities (SOD, several peroxidases, and catalase). From the absence of physiological disorder symptoms, we infer that salt was efficiently compartmentalized in leaf vacuoles. In salt-treated A. thaliana, the photosynthetic quantum yield was diminished, and lipid peroxidation was augmented. These observations reinforce the conclusion that T. halophila could accumulate salt in its leaves without damage, in contrast to A. thaliana.     

NaCl胁迫对长春花幼苗离子分布和光合作用的影响

以0、50、100、150、200和250mmol&#183;L^-1NaCl的1／2Hoagland营养液处理长春花（Catharanthus roseus）幼苗5d,测定其生物量,根、茎及叶中不同组织细胞中无机离子相对含量,叶绿素含量及光合生理指标。结果表明：NaCl能显著降低长春花幼苗的鲜质量和干质量;对根、茎和叶片横切面X射线徽区分析表明,NaCl胁迫导致长春花体内各组织细胞中Na^＋和Cl^-相对含量显著增加,但在各器官、组织中分布稍有不同：与对照相比,根和茎中都是表皮细胞中增加幅度最大,中柱细胞次之,皮层细胞最低;在叶片中亦是表皮细胞增加幅度最大,依次是皮层细胞、海绵组织细胞及栅栏组织细胞。NaCl胁迫下,K^＋和Ca^2＋相对含量对其的响应特征在不同器官中亦不相同：与对照相比,在根和茎皮层及中柱细胞中的下降幅度低于表皮;而叶中则是栅栏组织细胞最低。盐胁迫能够抑制长春花幼苗生长,打破其体内的离子平衡,但植物为降低盐胁迫的伤害而将过多的Na^＋和Cl^-聚集于表皮细胞。NaCl胁迫下,长春花幼苗叶绿素含量、光合速率（Pn）、细胞间隙CO2浓度（Ci）、气孔导度（Gs）、蒸腾速率（Tr）显著降低,气孔限制值（Ls）升高,说明气孔限制是降低长春花幼苗光合速率的主要因素。     

Comparative effects of NaCl and polyethylene glycol on root distribution,growth, and stomatal conductance of sour orange seedlings

An experiment was conducted to study sour orange (Citrus aurantium L.) seedling root density, distribution, and morphological development under NaCl and polyethylene glycol (PEG) stresses in relation to shoot growth and stomatal conductance. Plants were treated with 2 stress levels (– 0.12 and – 0.24 MPa) of NaCl and PEG 4000 for 7 months. Root observation chambers were used to monitor root growth and distribution under stressed and non-stressed conditions. Seedlings receiving NaCl or PEG treatments produced fewer roots and shallower root systems with 46 to 65% of the roots occurring in the top portion of the soil. Fibrous root weight per unit length was increased by 24 to 30% by PEG but was not significantly increased by NaCl.Root growth rate usually alternated with shoot growth in a 2-month cycle. This alternating pattern was not shifted by NaCl and PEG stresses. In all NaCl and PEG treatments, growth was depressed and stomatal conductance was reduced. Compared to controls, plants that received NaCl or PEG had smaller shoot and root dry weights, fewer leaves, shorter height, and fewer roots. Sodium chloride usually caused less damage than PEG to sour orange seedlings suggesting that NaCl and PEG acted through different mechanisms.Florida Agricultural Experiment Station Journal Series No. 9941.     

土壤碳氮比对平邑甜茶幼苗生长和碳氮分配的影响

为探讨土壤碳氮比(C:N)对苹果(Malus pumila)植株生长和碳氮分配特性的影响, 采用碳氮双标记示踪技术, 以二年生平邑甜茶(Malus hupehensis)幼苗为试验材料, 研究了6个不同土壤C:N处理(T1-T6分别为4.70、9.78、14.70、19.96、25.60和28.83)下平邑甜茶的生长状况和氮素吸收、利用分配以及碳水化合物的运转特性。结果表明, 随着土壤C:N的逐渐增大, 平邑甜茶幼苗根系干重逐渐增加, 而株高、茎粗、地上部干重和植株总干重呈先增加后降低的趋势, 以T4处理最大。土壤C:N显著影响了平邑甜茶幼苗的 ¹⁵N利用率, 从T1到T4处理, 植株的 ¹⁵N利用率逐渐升高, T4处理(18.46%)是T1处理(10.65%)的1.73倍; 随着土壤C:N的进一步增加, 植株的 ¹⁵N利用率逐渐降低, T5和T6处理分别比T4处理降低了1.59%和2.58%。土壤C:N较低的T1和T2处理, 平邑甜茶幼苗各器官从肥料中吸收分配到的 ¹⁵N量对该器官全氮量的贡献率(Ndff)大小顺序为根>叶>茎, 随着土壤C:N的进一步增大, 叶片的Ndff均为最大, 其次是根, 茎最少。随着土壤C:N的增大, 叶片 ¹⁵N分配率逐渐升高, ¹³C分配率逐渐降低; 而根系 ¹⁵N分配率逐渐降低, ¹³C分配率逐渐升高。综合考虑植株生长和氮素利用状况, 本试验条件下适宜平邑甜茶生长的土壤C:N为21-23。     

盐胁迫对长春花幼苗生长和生物碱含量的影响

以NaCl浓度分别为0、50、100、150、200和250 mmol·L^-1的1/2 Hoagland营养液处理长春花幼苗,7 d后测定其鲜质量、干质量、丙二醛(MDA)和叶绿素含量、色氨酸脱羧酶（TDC）和过氧化物酶（POD）活性等生理指标及文多灵、长春质碱、长春新碱和长春碱等生物碱含量.结果表明：NaCl显著地降低长春花幼苗的鲜质量和干质量,提高MDA含量;叶绿素含量在低盐浓度(50 mmol·L^-1)下与对照相比差异不显著,在高于50 mmol·L^-1时随NaCl浓度的增加而逐渐降低;在NaCl处理下,POD活性与对照相比显著上升;TDC活性在50 mmol·L^-1 NaCl处理下活性最高,而后随盐浓度的增加逐渐降低;文多灵、长春质碱、长春新碱和长春碱含量都是在50 mmol·L^-1NaCl处理下最高,分别为4.61、3.56、1.19和2.95 mg·g^-1,并显著高于对照及其他处理.盐胁迫虽然在一定程度上抑制了长春花幼苗生长,但促进了其生物碱的代谢,提高了生物碱含量;50 mmol·L^-1NaCl处理对长春花吲哚生物碱代谢的促进作用最大.     

Effects of water deficit on N2(C2H2) fixation in cowpea and groundnut

The effect of water deficit on nodulation, N₂ fixation, photosynthesis, and total soluble sugars and leghemoglobin in nodules was investigated in cowpea and groundnut. Nitrogenase activity completely ceased in cowpea with a decrease in leaf water potential ( _leaf) from –0.4 MPa to –0.9 MPa, while in groundnut it continued down to –1.7 MPa. With increasing water stress, the acetylene reduction activity (ARA) declined very sharply in cowpea, but ARA gradually decreased in groundnut. Even with mild water stress ( _leaf of 0.2 MPa), nodule fresh weight declined 50% in cowpea partly due to a severe nodule shedding whereas nodule fresh weight declined in groundnut only when _leaf decreased by 1.0 MPa. No nodule shedding was noticed even at a higher stress level in groundnut. Photosynthesis and stomatal conductance were also more stable in groundnut than in cowpea under water stress. There was a sharp increase in total soluble sugars and leghemoglobin in the nodules of groundut with water stress, but no definite trend could be found in cowpea.     

水杨酸对NaCl胁迫下菊芋幼苗光合作用及离子吸收的影响

为探明水杨酸(SA)对NaCl胁迫下菊芋耐盐生理的调控作用,研究了100μmol·L-1水杨酸对不同浓度NaCl胁迫下菊芋幼苗光合响应特征及离子吸收运输的影响.结果表明:施用水杨酸不仅能够有效缓解NaCl胁迫对菊芋光合作用的抑制,促进NaCl胁迫下菊芋幼苗各种光合色素含量、净光合速率、蒸腾速率、气孔导度和水分利用效率的增加,降低细胞间隙CO2浓度,同时也能明显降低NaCl胁迫下菊芋体内Na+的积累,促进菊芋幼苗对K+和Ca2+的吸收和向上运输,其中在100 mmol·L-1 NaCl处理下施用水杨酸处理的菊芋叶片中K+和Ca2+含量分别比未施用水杨酸处理增加了12.9％和14.7％,而Na+含量则降低了30.6％.由此证明,一定浓度外源水杨酸的施用有利于促进NaCl胁迫下菊芋幼苗光合功能的改善,以及有效维持菊芋幼苗体内矿质营养元素含量平衡,从而增强菊芋对NaCl胁迫的抗性,提高NaCl胁迫下的生产力.     

砷对玉米生长、抗氧化系统及离子分布的影响

采用温室砂培试验,研究了不同浓度砷（As）处理对玉米郑单958幼苗生物量积累、光合色素含量、抗氧化系统、As及矿质离子吸收、分布的影响.结果表明：低浓度（＜2 mg·L^-1）的As刺激了玉米幼苗的生长,植株株高、主根长和生物量积累均显著增加;高浓度（＞4 mg·L^-1）As严重抑制了玉米幼苗生长.2 mg·L^-1As处理下,叶绿素a、叶绿素b和叶绿素a+b含量均达到峰值;随As处理浓度增加,叶绿素含量逐渐下降;电镜观察发现,10 mg·L^-1 As处理下,叶片叶绿体结构遭到破坏,类囊体膜溶解.根系3种抗氧化酶（SOD、POD、CAT）活性均随As浓度增加而增大;叶片3种抗氧化酶活性在8 mg·L^-1出现峰值,且对As处理的敏感性表现为POD>CAT>SOD.MDA、可溶性糖和可溶性蛋白含量与As浓度呈正相关.高浓度的As明显抑制了P、K、Ca、Fe等元素的吸收.根系对As胁迫的反应比地上部更为敏感,因此根系生长发育指标更适合作为植物As毒害的指示指标.