NaCl胁迫对黑籽南瓜和西葫芦种子萌发影响的对比研究

用不同浓度的NaCl胁迫处理黑籽南瓜和西葫芦种子,观察其发芽情况，计算发芽率、发芽势、发芽指数和活力指数，进行对比分析。结果表明,黑籽南瓜种子萌发对盐水生境的适应性比西葫芦强，黑籽南瓜种子萌发的NaCl胁迫浓度适宜值为50.66 mmol/L，而西葫芦为43.98 mmol/L 。     

NaCl胁迫对黑籽南瓜和西葫芦种子萌发影响的对比研究

用不同浓度的NaCl胁迫处理黑籽南瓜和西葫芦种子,观察其发芽情况,计算发芽率、发芽势、发芽指数和活力指数,进行对比分析.结果表明,黑籽南瓜种子萌发对盐水生境的适应性比西葫芦强,黑籽南瓜种子萌发的NaCl胁迫浓度适宜值为50.66 mmol/L,而西葫芦为43.98 mmol/L .     

NaCl胁迫对中国杂交南瓜和黑籽南瓜幼苗生长的影响

在组织培养条件下,对中国南瓜杂交种和黑籽南瓜的幼苗分别进行不同NaCl浓度(0、40、80、120、160、200、240 mmol/L)胁迫处理,10 d后调查不同处理单株幼苗的下胚轴长度、鲜质量、干质量和盐害程度。结果表明,360-3×112-2杂交种和黑籽南瓜在幼苗期存在明显的耐盐性差异,360-3×112-2杂交种耐盐性比黑籽南瓜强,360-3×112-2的最高耐盐浓度是160 mmol/L,黑籽南瓜的最高耐盐浓度是120 mmol/L,其耐盐性具有较大的利用价值。     

NaCl胁迫下甜瓜幼苗离子吸收特性研究

以厚皮甜瓜黄河蜜和薄皮甜瓜白沙蜜为试材,在人工控制条件下,研究了NaCl胁迫对甜瓜幼苗Na+、K+、Ca2+和Cl-吸收与分配的影响。结果表明,随NaCl浓度的增加,两个甜瓜品种各器官中Na+和Cl-含量均逐渐增加,K+含量逐渐减少,叶片中Ca2+含量逐渐降低,而根中的 Ca2+含量逐步增加;各器官中Na+/K+和叶片中Na+/ Ca2+逐渐增加;SK、Na 和SCa、Na逐步下降。NaCl胁迫下,黄河蜜叶片和茎中Na+ 积累和叶、茎、根中Cl-积累及K+ 、Ca2+ 降低幅度均明显低于白沙蜜;黄河蜜对K+ 和Ca2+的选择吸收和运输能力受胁迫的影响小于白沙蜜。表明厚皮甜瓜黄河蜜比薄皮甜瓜白沙蜜具有更强的耐盐性和盐适应性。     

NaCl胁迫下作物对离子的吸收及分配

盐渍化土壤在世界上分布广泛,在我国也有很大的面积。为了开发利用盐渍化的土地资源,传统的治理途径是采用工程和农业措施相结合的方法。然而,近年来越来越多的研究表明,发掘利用现有的生物资源,应用现代生物技术,通过培育抗盐品种来提高植物抗盐性也是开发利用盐碱土的一个重要方面。本文通过对作物耐盐品种和盐敏感品种的比较,综述了盐胁迫下粮食、果树、蔬菜及棉花等作物对K+、Na+、Ca2+、Mg2+等离子吸收及分配的影响,并提出了进一步的研究方向。     

钙对NaCl胁迫下马铃薯脱毒苗离子吸收、分布的影响

【目的】马铃薯是对盐分较敏感的农作物,土壤盐渍化会严重影响马铃薯的生长发育及其产量和品质。有关钙对Na Cl胁迫下马铃薯离子吸收、分布的研究较少。本文通过研究不同浓度Ca Cl2对Na Cl胁迫下马铃薯脱毒苗离子吸收、分布和运输的影响,探讨钙对Na Cl胁迫下马铃薯的调控机制,为盐渍土上马铃薯的生产提供理论依据与技术支持。【方法】以‘克新一号’马铃薯品种为试验材料,采用组织培养方法,将0、5、10、15和20 mmol/L Ca Cl2与0、25、50和75 mmol/L Na Cl分别添加到MS+2mg/L B9+3%蔗糖+0.9%琼脂培养基中,制成不同处理组合的培养基。将继代培养的脱毒苗按单节茎段剪切接种到培养基中进行培养。接种30天时调查脱毒苗生物量和Na+、Cl-、K+、Ca2+、Mg2+、P积累量,并分析Na+/K+、Na+/Ca2+、Na+/Mg2+比值及根系与茎叶的SK、Na、SMg、Na和SCa、Na值,探讨离子吸收、运输及分布情况。【结果】Na Cl胁迫抑制马铃薯脱毒苗的生长,随Na Cl胁迫浓度的增加,马铃薯脱毒苗鲜重、干重显著下降,各器官Na+和Cl-含量极显著增加,K+含量显著下降,Ca2+和Mg2+含量减少,茎、叶中P含量降低而根中P含量增加。Na+/K+、Na+/Ca2+、Na+/Mg2+比值随Na Cl胁迫浓度的增加而升高。随Na Cl胁迫浓度的增加,马铃薯脱毒苗根系与茎叶的SK、Na和SMg、Na值逐渐降低,SCa、Na值呈先升高后降低趋势。0、25和50 mmol/L Na Cl胁迫浓度下,以10 mmol/L Ca Cl2处理的马铃薯脱毒苗根、茎叶鲜重和干重最高,75 mmol/L Na Cl胁迫下以15 mmol/L Ca Cl2处理的马铃薯脱毒苗生物量最高。各Na Cl胁迫浓度下,添加Ca Cl2后,马铃薯脱毒苗各器官Na+含量明显降低,Cl-含量显著增加,K+、Ca2+、Mg2+含量升高,P含量先降低后升高。0、25、50和75 mmol/L Na Cl胁迫浓度下,添加适量Ca Cl2可明显降低马铃薯脱毒苗各器官Na+/K+、Na+/Ca2+、Na+/Mg2+比值,提高SK、Na、SMg、Na和SCa、Na值,增强K+、Ca2+、Mg2+向地上部的选择运输能力,抑制Na+向地上部的选择运输能力,维持细胞内离子平衡,缓解盐胁迫造成的营养亏缺。【结论】Na Cl胁迫下添加外源钙,能够有效改善马铃薯脱毒苗体内的离子平衡,促进营养吸收,Na+向叶片选择运输能力降低,K+、Ca2+、Mg2+向地上部的选择运输能力增强,离子在各器官水平上的区域化分布发生改变是钙缓解盐胁迫的重要生理机制之一。     

胁迫下不同砧木对嫁接黄瓜叶片氮素代谢的影响

采用营养液栽培,研究了以中国南瓜“360-3×112-2”杂交种和黑籽南瓜为砧木,以“津春2号”为接穗的2种嫁接黄瓜和“津春2号”自根黄瓜成株期在 80 mmol/L NaCl 胁迫12 d 后的生长状况和光合能力,以及试验期间叶片氮素代谢及其关键酶活性的动态变化。结果表明,NaCl 胁迫12 d 后以中国南瓜“360-3×112-2”杂交种为砧木嫁接黄瓜植株的主蔓生长速率、第一片功能叶面积、全株鲜重和光合参数均高于自根黄瓜和以黑籽南瓜为砧木的嫁接黄瓜; 且以“360-3×112-2”杂交种为砧木嫁接黄瓜的生长状况好于以黑籽南瓜为砧木的嫁接黄瓜。NaCl 胁迫处理植株叶片中硝态氮、铵态氮含量、谷氨酰胺合成酶(Gs)活性和可溶性蛋白含量比对照先高后低; 而硝酸还原酶(NR)活性先低后回升,但仍低于对照,说明NaCl 胁迫下,黄瓜叶片氮素代谢能力的降低。不同处理氮素代谢能力的差异其原因在于根系吸收氮源的能力差异。NaCl 胁迫对以“360-3×112-2”杂交种为砧木的黄瓜植株生长抑制较小,氮素代谢能力下降较少,表现出较强的耐盐性,可以作为一个黄瓜耐盐砧木在生产上使用。     

外源一氧化氮对NaCl胁迫下番茄幼苗光合作用和离子含量的影响

在100.mmol/L.NaCl胁迫下,研究了外源一氧化氮供体硝普钠(SNP)处理对番茄幼苗光合作用和离子含量的影响。结果表明,外源一氧化氮能使在NaCl胁迫下的番茄幼苗叶片叶绿素含量、净光合速率(Pn)、气孔导度(Gs)、叶绿素荧光参数Fv/Fo和Fv/Fm显著提高,胞间CO2浓度(Ci)明显下降;番茄幼苗根系、叶片中K+、Ca2+和Mg2+含量均显著提高,Na+含量明显降低。表明外源一氧化氮可以减轻盐胁迫对番茄幼苗叶片光合功能的不利影响,缓解NaCl胁迫对番茄幼苗的抑制作用。     

盐胁迫下柚实生苗生长、矿质营养及离子吸收特性研究

以坪山柚为材料,对盐胁迫下实生苗生长、矿质营养及离子吸收特性进行了研究。结果表明,沙培30d,80～200mmol/L盐胁迫,随盐浓度提高,坪山柚实生苗株高、叶面积、地上部干重和根部干重明显降低。溶液培养8d,坪山柚实生苗地上部及根Na+、Cl-含量随盐浓度的增加而增加,根及地上部K+、Ca2+、Mg2+以及P和Mn含量下降,Fe、Zn、Cu含量的变化因器官而异。其中,地上部Fe含量对盐胁迫敏感,可作为柚耐盐性鉴定指标。40mmol/L盐胁迫,坪山柚地上部K+/Na+、Ca2+/Na+、Mg2+/Na+值均显著下降,且Mg2+/Na+值+/Na+值>1;浓度≥160mmol/L盐胁迫,K+/Na+值+吸收、运转效率比Cl-高。     

沸石添加对NaCl胁迫下黄瓜幼苗生长及离子含量的影响

试验研究了沸石添加对NaCl胁迫下黄瓜幼苗生长及离子含量的影响。结果表明,在相同的NaCl溶液浓度下,随沸石量的增加,幼苗的株高、茎粗、叶面积及干物重呈增加趋势;光合色素含量上升,蒸腾速率(E)、光合速率(Pn)和气孔导度(Gs)增加而胞间CO2浓度(Ci)下降;超氧化物岐化酶(SOD)、过氧化氢酶(CAT)活性和可溶性蛋白质含量(Pr)含量增加;K、Mg在根、茎、叶中的含量上升,Ca在茎叶中含量亦增加,Na在根、茎、叶中的含量明显下降。表明沸石可以在一定程度缓解NaCl胁迫对黄瓜幼苗造成的伤害。     

Effect of silicon on alleviation of manganese toxicity in pumpkin (Cucurbita moschata Duch cv. Shintosa)

A series of experiments was conducted to investigate the mechanism of Siinduced alleviation of Mn toxicity in pumpkin (Cucurbita moschata Duch cv. Shintosa) which has been used as a bloom-type stock for grafting cultivation of cucumbers. In the first experiment, the effect of Si on Mn toxicity in the Shintosa cultivar was compared with that in the Super unryu cultivar which is used as a bloomless-type stock. Without Si supply, growth depression occurred in both cultivars at the levels of 100 and 500 µM Mn in the nutrient solution. The alleviative effect of Si on the growth depression was observed more distinctly for the Shintosa cultivar than for the Super unryu cultivar, and the effect became more pronounced with increasing Si levels in the nutrient solution. Regardless of the Mn levels, addition of Si did not decrease the Mn content of the plants. The relative shoot growth was reduced to less than 80% when the molar ratio of Si/Mn in the shoots was lower than 4.5. In the second experiment, Mn and Si in the lower leaves of the Shintosa cultivar treated with different levels of Mn with and without Si supply were extracted with 10 mM Tris-HCI buffer (pH 7.4). At the levels of 100 and 250 µM Mn, the amounts of Mn in the buffer-insoluble fraction increased in the presence of Si supply and the buffer-soluble Mn accounted for less than 9% of the total Mn in the leaf. In addition, more than 84% of the total Si was found in the buffer-insoluble fraction at each Mn level. Distribution of Mn and Si on the surface of the lowerú leaves of the Shintosa cultivar treated with 250 µM Mn with and without Si supply was examined by electron probe X-ray microanalysis in the third experiment; Both Mn and Si accumulated at high concentrations around the base of the trichomes in the presence of Si supply. Without Si supply, Mn was detected around the necrotic brown lesions in addition to the base of the trichomes. These results suggested that in the Shintosa cultivar, Si alleviated the Mn toxicity through a localized accumulation of Mn with Si in a metabolically inactive form around the base of the trichomes on the leaf surface.     

NaCl胁迫下外源腐胺和钙对草莓幼苗离子吸收的影响

在150 mmol/L NaCl 胁迫条件下,以达塞莱克特草莓为试材,利用基质盆栽方法研究了外源腐胺和钙对草莓生长、叶片含水量、脯氨酸含量及Ca2+、Na+ 和 Cl- 吸收的影响。结果表明,在营养液中添加14 mmol/L 硝酸钙和叶面喷施 1×10-5 mol/L 腐胺均可提高盐胁迫草莓植株的地上部和地下部干鲜重,提高叶片含水量、脯氨酸含量,抑制 Na+ 和Cl- 的吸收及运输,提高根系和叶片的 K+/Na+ 值和 Ca2+/ Na+ 值,硝酸钙和腐胺同时处理的效果优于单独处理。缺钙条件下,喷施外源腐胺的 K+/Na+ 值和 Ca2+/ Na+ 值显著或极显著低于腐胺加钙处理,Cl- 含量显著高于腐胺加钙处理。外源腐胺对 Na+ 和 Cl- 吸收的调控作用受到 Ca2+ 的调节。     

The regulation of accumulation and secretion of several major inorganic cations by Chinese Iris under NaCl stress

Chinese Iris (Iris lactea Pall. var. chinensis (Fisch.) Koidz.) is a monocotyledonous halophyte, which is considered an important salt-tolerant species. In this study, the plant growth, ion absorption and transportation and leaf secretion characteristics of Iris under sodium chloride (NaCl) stress were investigated using nutrient solutions with four NaCl concentrations ranging from 0 to 300 mmol L^?1. The main results indicated that Na⁺ secretion accounted for 5.7–11.5% of the ion distribution pattern of 90% of the ions accumulated in vivo by Iris. The ion transportation ratio was potassium > magnesium > calcium > sodium, (K⁺ > Mg²⁺ > Ca²⁺ > Na⁺), K⁺/Na⁺, Ca²⁺/Na⁺, Mg²⁺/Na⁺ in the shoot were greater than those in the root. K–Na and Ca–Na selectivity ratios showed an increasing trend overall. The contribution of salt secretion to the salt tolerance of Iris was tiny, which will be discussed in further research, achieving ion balance in vivo through selective absorption and transportation under salt stress is undoubtedly a primary salt-tolerance adaptation mechanism of Iris.     

Effect of potassium on uptake and translocation of sodium and potassium in Chinese cabbage under NaCl stress

To investigate the influence of potassium (K⁺) on the salinity tolerance of Chinese cabbage (Brassica pekinensis Rupr.) seedlings, the plants were cultured at three K⁺ levels (0, 5, or 10?mM), under normal (0?mM NaCl) and high-salt (100?mM NaCl) conditions. The results indicated that the dry weight of Chinese cabbage increased with the application of K⁺ under salt stress. Addition of K⁺ increased K⁺ concentrations and suppressed sodium (Na⁺) concentration, which eventually increased the K⁺/Na⁺ ratios in roots or shoots. Application of K⁺ enhanced the uptake of K⁺ and suppressed the uptake of Na⁺. Moreover, the ratios of shoot-K⁺/root-K⁺ increased considerably, but the ratios of shoot-Na⁺/root-Na⁺ decreased in response to K⁺ application. It was concluded that the application of K⁺ could enhance the salt stress tolerance in Chinese cabbage because more K⁺ than Na⁺ was absorbed and translocated from roots to shoots.     

Effect of grafting on the growth and ion concentrations of cucumber seedlings under NaCl stress

Abstract

To assess whether grafting raised the salt tolerance of cucumber seedlings by limiting transport of Na⁺ to the leaf and to test whether the salt tolerance of grafted plants was affected by the shoot genotype, two cucumber cultivars (“Jinchun No. 2”, a relatively salt-sensitive cultivar, and “Zaoduojia”, a relative salt-tolerant cultivar) were grafted onto rootstock pumpkin (Cucurbita moschata Duch. cv. “Chaojiquanwang”, a salt-tolerant cultivar). Ungrafted plants were used as controls. The effects of grafting on plant growth and ion concentrations were investigated under NaCl stress. Reductions in the shoot and root dry weights, leaf area and stem diameter of grafted plants were lower and concentrations of K⁺ and Cl^? in the leaves were higher than those of ungrafted plants under the same NaCl stress. The Na⁺ concentration and Na⁺/K⁺ ratio in scion leaves and in the stems of grafted plants were lower, whereas those in rootstock stems and roots were higher than in ungrafted plants under the same NaCl stress. Shoot and root dry weight, leaf area and stem diameter were negatively correlated with leaf Na⁺ concentrations and Na⁺/K⁺ ratio, but were positively correlated with leaf K⁺ concentrations. The Na⁺ concentrations and Na⁺/K⁺ ratio were lower, whereas the K⁺ concentrations in the leaves of grafted “Zaoduojia” plants were higher than those in grafted “Jinchun No. 2” plants under the same NaCl stress. The reductions in leaf area and stem diameter of grafted “Jinchun No. 2” plants were more severe than those of grafted “Zaoduojia” plants. These results indicate that: (1) the higher salt tolerance of grafted cucumber seedlings is associated with lower Na⁺ concentrations and Na⁺/K⁺ ratio and higher K⁺ concentrations in the leaves, (2) grafting improved the salt tolerance of cucumber seedlings by limiting the transport of Na⁺ to the leaves, (3) the salt tolerance of grafted cucumber seedlings is related to the shoot genotype.     

氯化钠胁迫下施氮对冬小麦生长发育及体内氯、钠离子积累的影响

温室盆栽试验研究了不同NaCl胁迫水平下施氮对冬小麦生长发育及氯、钠离子吸收特性的影响。结果表明,在盐胁迫下,施用化学氮肥能显著增加小麦株高与叶面积,使产量提高。施氮后不但增加了小麦植株体含氮量,而且抑制了苗期Cl-在植株体的积累和生长后期Na+在植株体的积累。利用植株体N/Cl比和N/Na比可作为衡量施氮对小麦不同生育期植株体累积Cl-、Na+抑制效果的指标。     

镉胁迫下钝化剂对菠菜镉吸收累积及土壤微生物群落结构的影响

为了探究镉（Cd）胁迫下不同钝化剂对菠菜Cd吸收转运及根际微生物群落结构的影响,设置不施钝化剂（CK）、单施纳米羟基磷灰石（nHAP）、单施巯基生物炭（TMB）、配施纳米羟基磷灰石+巯基生物炭（HPTB）4个处理,比较各处理的土壤微生物群落结构、土壤化学性质与菠菜生物量及Cd含量。结果表明,各钝化剂处理下菠菜生物量均增加,Cd含量均降低;不同钝化剂对土壤主要优势菌群的组成没有显著影响,但会改变细菌和真菌的相对丰度。主成分分析表明,nHAP对细菌群落结构影响较大,对真菌群落结构影响较小。冗余分析发现,pH是影响细菌群落结构的主要因子,全磷含量是影响真菌群落结构的主要因子。综上所述,单施nHAP能够促进菠菜生长,降低Cd含量,且对微生物群落结构的影响较小。