不同强度盐胁迫下AM真菌对羊草生长的影响

不同浓度NaCl盐处理下,AM真菌对羊草(Leymus chinensis)的侵染能力和对植物生长的影响,从植物形态和离子含量角度探讨了AM真菌提高羊草耐盐性的作用机理。结果表明,在高盐胁迫下,AM真菌显著降低了盐胁迫效应,提高了羊草生物量,菌根效应明显。菌根化羊草的根茎比显著增加,并且N、P浓度较高,Na~+和Cl~-离子浓度较低,表明AM真菌即促进羊草对营养元素的吸收,又减少了离子毒害。菌根化羊草的Ca~(2+)和K~+离子浓度,以及P/Na~+和K~+/Na~+比高于非菌根化羊草,表明AM真菌可通过调节渗透势以避免或减缓盐胁迫造成的生理缺水。随着盐胁迫的增加,菌根化羊草对磷的依赖性逐渐转换为对钾的依赖性。研究结果有助于揭示AM真菌提高植物耐盐能力的作用机理,并对应用菌根技术修复盐化草地具有理论指导意义。     

混合盐碱胁迫下裸燕麦的种子萌发和幼苗逆境生理特征

为了解裸燕麦新品种‘定莜6号’对混合盐碱胁迫的生理响应,根据种植区土壤盐分的组成,采用砂培法研究了不同浓度混合盐碱处理对种子萌发和幼苗逆境生理特征的影响。结果表明,随着处理浓度增大,裸燕麦种子萌发率、萌发指数、活力指数及幼苗含水量和生物量明显下降,叶片超氧阴离子、过氧化氢和丙二醛含量及质膜相对透性显著增大;Na~+含量增加,K~+含量和K~+/Na~+降低,质膜H~+-ATP酶、过氧化物酶、抗坏血酸过氧化物酶活性和可溶性蛋白质含量先升后降,超氧化物歧化酶活性及谷胱甘肽、有机酸和脯氨酸含量升高,过氧化氢酶活性和抗坏血酸含量降低,游离氨基酸含量先降后升,可溶性糖含量呈升—降—升趋势变化。表明盐碱胁迫下活性氧代谢失调和Na~+、K~+平衡破坏是裸燕麦生长受抑的重要原因,有机酸和脯氨酸可能是裸燕麦适应盐碱的主要渗透调节物质。     

AM真菌对留兰香和常夏石竹耐盐性的影响

为探究接种丛枝菌根(arbuscular mycorrhiza,AM)真菌对不同盐胁迫水平下留兰香和常夏石竹侵染特性与生理指标的影响,该研究采用盆栽试验的方法,将留兰香和常夏石竹分为接种处理与对照处理,并施加不同浓度(0、50、100、150、200 mmol/L)的NaCl胁迫,胁迫结束后测定两种植物的侵染特性与生理指标。结果表明：(1)随着盐浓度的升高,留兰香和常夏石竹的侵染率、侵染强度、丛枝丰度和泡囊丰度均不断下降,且常夏石竹的各项侵染指标总体上均高于留兰香。(2)接种AM真菌提高了各盐浓度下留兰香和常夏石竹的总叶绿素含量以及可溶性糖与可溶性蛋白含量,同时显著降低了二者在不同盐浓度条件下的脯氨酸含量。(3)接种AM真菌在不同程度上提高了留兰香和常夏石竹体内超氧化物歧化酶(SOD)、过氧化物酶(POD)、过氧化氢酶(CAT)和抗坏血酸过氧化物酶(APX)的活性;并降低了在不同盐浓度条件下留兰香和常夏石竹的丙二醛含量。研究发现,接种AM真菌可以在不同程度上提高盐胁迫下留兰香和常夏石竹渗透调节能力和抗氧化酶系统活性,增强了植物的耐盐能力,从而使植物在盐胁迫条件下更好地生长。     

丛枝菌根-黑心菊共生体对盐碱逆境的生理响应特性

黑心菊(Rudbeckia hirta L.)是城市园林绿化中最常用的地被植物,具有耐寒耐旱和耐盐碱的特点。该研究以丛枝菌根(arbuscular mycorrhiza, AM)真菌摩西斗管囊霉(Funneliformis mosseae)为菌剂接种基质进行黑心菊盆栽,正常培养70 d后分别以不同浓度(0、65、135、195和260 mmol·L^-1)NaCl和NaHCO₃溶液进行盐或碱胁迫处理,处理10 d后测定黑心菊菌根侵染率以及叶片叶绿素含量、丙二醛含量、抗氧化酶活性和渗透调节物质含量,以明确AM真菌对黑心菊根系侵染状况以及耐盐碱性的影响,为实际生产中利用黑心菊进行盐碱地修复和AM真菌应用提供理论依据。结果显示：(1)与对照相比,AM真菌的侵染率和侵染强度在盐胁迫下均呈现下降趋势,在碱胁迫下则呈先上升后下降的趋势。(2)AM真菌能够在一定程度上提高盐碱胁迫下黑心菊叶片中的叶绿素含量,降低丙二醛含量;随着盐碱胁迫浓度的增加,接种AM真菌不仅能提高黑心菊叶片脯氨酸、可溶性糖和可溶性蛋白等渗透调节物质的含量,还能够增强植株超氧化物歧化酶、过...     

干旱胁迫下AM真菌对油蒿叶片保护系统的影响

基利用盆栽试验在正常水分和干旱胁迫条件下研究了灭菌土接种AM真菌摩西球囊霉(Glomus mosseae)和土著AM真菌对油(蒿Artemisia ordosica)生长及叶片保护系统的影响。结果表明,干旱胁迫显著抑制了土著AM真菌对油蒿的侵染,但对G.mosseae的侵染影响较小。正常水分和干旱胁迫条件下,接种AM真菌显著增加了油蒿生物量和干重以及根系含磷量;提高了叶绿素、可溶性糖、可溶性蛋白含量并降低了脯氨酸和丙二醛含量;显著增强了过氧化氢酶(CAT)和过氧化物酶(POD)活性,增强了油蒿对干旱的防御能力。     

AM真菌对盐胁迫下白芨生长和养分吸收的影响

土壤盐渍化是世界性的生态环境问题之一。关于丛枝菌根真菌(AM真菌)对盐胁迫下白芨生长和养分吸收的影响研究相对较少。以白芨幼苗为研究对象，设置盐处理(0 mM和200 mM)和AM真菌处理(不接种AM真菌和接种摩西球囊霉)各两个水平共计4个处理组合，探讨盐胁迫下AM真菌对白芨幼苗生长和养分吸收的影响。结果表明，盐胁迫显著降低白芨根系侵染率、总干重和地上部分P含量分别约56.1%、48.9%和10%；在对照盐浓度下，接种AM真菌显著提高了白芨根系侵染率、总干重、地上部分N含量及地上部分P含量分别约14%、56.1%、10.8%和8.2%而在高盐浓度下，接种AM真菌则显著提高白芨根系侵染率、总干重、地上部分N含量及地下部分P含量分别约42.7%、30.7%、12.1%和11%，说明接种AM真菌可降低盐胁迫对白芨的生长和养分吸收的抑制作用。以上结果表明，接种AM真菌有助于提高白芨的耐盐能力，这对应用菌根技术提高白芨在盐化生境的种植和管理具有理论和实践指导意义。     

SA浸种对盐胁迫下小麦种子萌发和幼苗生长的影响

以小麦盐敏感品种鲁麦15为材料,研究了外源水杨酸(salicylic acid,SA)浸种对100 mmol/L NaCl胁迫下小麦种子萌发和幼苗生长的影响。研究结果表明:盐胁迫下,无论经SA浸种还是未经SA浸种,小麦幼苗的生长均受到明显抑制,干、鲜重显著下降;0.1 mmol/L、0.2 mmol/L和0.3 mmol/L SA溶液浸种均能显著缓解NaCl胁迫对小麦幼苗生长的抑制,其中以0.2 mmol/L SA溶液浸种预处理效果最好。实验中,0.2 mmol/L SA浸种可显著提高盐胁迫下小麦种子β-淀粉酶的活性和吸胀速率。此外,与未经SA浸种的盐胁迫小麦幼苗相比,0.2 mmol/L SA浸种的盐胁迫小麦幼苗整株的干、鲜重显著增加,幼苗体内Na~+含量降低,K~+含量和K~+/Na~+比值显著提高;同时,小麦幼苗叶片中超氧化物歧化酶(superoxide dismutase,SOD)、过氧化氢酶(catalase,CAT)、过氧化物酶(peroxidase,POD)活性升高,而丙二醛(MDA)含量则显著降低。由此可以得出,SA浸种能有效提高盐胁迫下小麦幼苗体内K~+/Na~+比值,提高SOD、CAT和POD的活性,减轻膜脂过氧化程度,以缓解盐胁迫对小麦幼苗生长的抑制作用,从而提高耐盐性。     

盐碱胁迫对流苏幼苗生长及离子分布的影响

采用NaCl、Na_2SO_4、NaHCO_3、Na_2CO_(3 )四种盐按不同总盐浓度(50、100、200、300 mmol·L~(-1))和比例混合为不同处理盐碱溶液,对1a生流苏幼苗进行处理,分析了幼苗生长变化、离子代谢途径。结果表明:盐碱胁迫下流苏的生长受到显著影响。流苏幼苗的相对株高、地径生长量以及生物量均随着盐碱胁迫的加重而减少;而其根冠比却不断增加。随着盐碱浓度的增加,各器官中Na~+含量显著高于对照,其排序为:叶根茎;根中K~+含量呈下降趋势,叶中K~+含量先升后降,茎K~+含量变化较平缓,其排序为:叶茎根;各器官中K~+/Na~+呈下降趋势;流苏根的K~+-Na~+选择性吸收系数S_(K, Na)值呈下降趋势,茎、叶的S_(K, Na)值呈先升后降的趋势。研究认为,流苏幼苗对低盐碱环境具有一定的主动适应性,其盐碱适应机制主要是由于根系具有补偿生长效应及叶对Na~+进行区隔化,同时也与茎、叶选择性运输K~+的能力较强有关。     

褪黑素对盐胁迫下香椿幼苗生长及离子吸收和光合作用的影响

以香椿幼苗为材料,采用水培法研究不同浓度褪黑素(0、50、100、200和400μmol/L)对盐(150 mmol/L NaCl)胁迫下香椿幼苗生长指标、矿质元素离子(Na~+、K~+、Ca~(2+)和Mg~(2+))含量、净光合速率(P_n)、蒸腾速率(T_r)、气孔导度(G_s)和胞间CO_2浓度(C_i)等光合作用指标的影响,以探究外源物质褪黑素对盐胁迫下香椿幼苗生长和生理的调控作用。结果表明:(1)在盐胁迫条件下,香椿幼苗的生长受到显著抑制,叶绿素含量和P_n显著降低,叶片和根系中Na~+含量比对照(CK)显著增加,而K~+、Mg~(2+)和Ca~(2+)含量以及离子含量的比值(K~+/Na~+、Mg~(2+)/Na~+和Ca~(2+)/Na~+)则明显下降,且丙二醛含量显著增加。(2)施加适宜浓度褪黑素能显著促进盐胁迫下香椿植株生长,降低其叶片和根系中Na~+含量,提高其K~+、Ca~(2+)、Mg~(2+)含量和离子含量比值以及叶片P_n、T_r、水分利用效率(WUE)和G_s和C_i,但却降低了气孔限制值(L_s)。(3)适宜浓度褪黑素使盐胁迫下香椿植株叶片的丙二醛积累明显下降,叶绿素含量显著上升。研究发现,外施适宜浓度的褪黑素能降低盐胁迫下香椿幼苗叶片和根系内Na~+浓度,增加K~+、Mg~(2+)和Ca~(2+)浓度,调控植物体内细胞的离子平衡状态,增强对营养元素的吸收,提高光合作用效率,从而提高香椿幼苗对盐胁迫的抗性,并以100μmol/L褪黑素处理的效果最佳。     

腐植酸浸种对盐碱胁迫下小麦幼苗抗氧化系统的影响

对龙麦26和克旱16两种不同基因型春小麦品种进行腐植酸浸种处理,研究了腐植酸对盐(NaCl)、碱(Na CO3)两种胁迫下小麦幼苗抗氧化系统的影响.结果表明:盐碱胁迫下小麦幼苗叶片脯氨酸含量增加,膜透性增强,地上部鲜质量降低;盐胁迫下,过氧化氢酶(CAT)活性升高,过氧化物酶(POD)活性降低,超氧化物歧化酶(SOD)活性先升后降,而碱胁迫下CAT和POD活性均升高,SOD活性降低;碱胁迫处理的小麦幼苗叶片抗氧化酶系统活性高于同浓度的盐胁迫处理;腐植酸浸种提高了小麦叶片谷胱甘肽含量,提高了SOD和CAT活性,有效缓解了盐碱胁迫对幼苗生长的影响.不同基因型小麦品种在抵御盐碱胁迫的能力和机制上存在一定差异,且与盐离子组成、浓度间存在一定互作,并受浸种方式调控.     

Effects of Different Arbuscular Mycorrhizal Fungi on Physiology of <i>Viola prionantha</i> under Salt Stress

Arbuscular mycorrhizal (AM) fungi distribute widely in natural habits and play a variety of ecological functions. In order to test the physiological response to salt stress mediated by different AM fungi, Viola prionantha was selected as the host, the dominant AM fungus in the rhizosphere of V. philippica growing in Songnen saline-alkali grassland, Rhizophagus irregularis, and their mixtures were used as inoculants, and NaCl stress was applied after the roots were colonized. The results showed that V. philippica could be colonized by AM fungi in the field and the colonization rate ranged from 73.33% to 96.67%, and Claroideoglomus etunicatum was identified as the dominant AM fungi species in the rhizosphere of V. philippica by morphology combined with sequencing for AM fungal AML1/AML2 target. Inoculation with both the species resulted in the formation of mycorrhizal symbiosis (the colonization rate was more than 70%) and AM fungi significantly enhanced plants’ tolerance to salt stress of varying magnitude. Higher activity of antioxidant enzymes and augmented levels of proline and other osmoregulators were observed in AM plants. The content of MDA in CK was higher than that in the inoculations with the stress of 100, 200, and 250 mM. All indices except soluble protein content and MDA content were significantly correlated with AM fungal colonization indices. The analysis for different AM fungal effects showed that the mixtures and R. irregularis worked even better than C. etunicatum. These results will provide theoretical support for the exploration and screening of salt-tolerant AM fungi species and also for the application of AM-ornamental plants in saline-alkali urban greening.     

Contributions of arbuscular mycorrhizal fungi to growth,photosynthesis, root morphology and ionic balance of citrus seedlings under salt stress

A pot study was conducted to determine the effects of arbuscular mycorrhizal (AM) fungi (Glomus mosseae and Paraglomus occultum) and salt (NaCl) stress on growth, photosynthesis, root morphology and ionic balance of citrus (Citrus tangerine Hort. ex Tanaka) seedlings. Eighty-five-day-old seedlings were exposed to 100 mM NaCl for 60 days to induce salt stress. Mycorrhizal colonization of citrus seedlings was not affected by salinity when associated with P. occultum, but significantly decreased when with G. mosseae. Compared with the non-mycorrhizal controls, mycorrhizal seedlings generally had greater plant height, stem diameter, shoot, root and total plant biomass, photosynthetic rate, transpiration rate and stomatal conductance under the 0 and 100 mM NaCl stresses. Root length, root projected area and root surface area were also higher in the mycorrhizal than in the non-mycorrhizal seedlings, but higher root volume in seedlings with G. mosseae. Leaf Na⁺ concentrations were significantly decreased, but leaf K⁺ and Mg²⁺ concentrations and the K⁺/Na⁺ ratio were increased when seedlings with both G. mosseae and P. occultum. Under the salt stress, Na⁺ concentrations were increased but K⁺ concentrations decreased in the mycorrhizal seedlings. Under the salt stress, Ca²⁺ concentrations were increased in the seedlings with P. occultum or without AM fungi (AMF), but decreased with G. mosseae. Ratios of both Ca²⁺/Na⁺ and Mg²⁺/Na⁺ were also increased in seedlings with G. mosseae under the non-salinity stress, while only the Mg²⁺/Na⁺ ratio was increased in seedlings with P. occultum under the salt stress. Our results suggested that salt tolerance of citrus seedlings could be enhanced by associated AMF with better plant growth, root morphology, photosynthesis and ionic balance.     

Arbuscular Mycorrhizal Fungal Colonization at Different Succession Stages in Songnen Saline-Alkali Grassland

Arbuscular mycorrhizal (AM) fungi can form symbiosis with 90% of the vascular plants and play important roles in ecosystem. To realize the AM fungal colonization at different succession stages in saline-alkali land and screen AM fungi species with great functions, roots and soil samples were collected from the three succession stages of Songnen saline-alkali grassland. The soil properties and AM fungal colonization were measured, and the fungus distributed extensively in three stages was annotated by sequencing for AML1/AML2 target, subsequently, maize was selected as the host to verify its colonization. The results showed that the soil properties improved with the succession of saline-alkali grassland. The plants’ communities of the three stages could be colonized by AM fungi, and the colonization rate of Leymus chinensis (the third stage) ranged from 66.67% to 100%, Puccinellia tenuiflora (the second stage) ranged from 50% to 80%, while the Suaeda glauca (the first stage) was only 35%–60%. Glomeraceae sp1 was identified as the dominant AM fungi species which occurred frequently in the succession of saline-alkali land with the isolation frequency, relative abundance, and importance value of 100%, 18.1%, and 59.1%, respectively. The colonization rate of Glomeraceae sp1 in maize ranged from 80% to 87% and similar mycorrhizal characteristics were detected in the roots of P. tenuiflora, S. glauca, and L. chinensis, indicating that Glomeraceae sp1 colonized the samples in the field. The correlation matrix indicated that colonization rate, colonization intensity, and vesicle abundance were closely related to soil conditions most, and they were related significantly to all the soil properties except cellulase activity. Besides, redundancy analysis (RDA) showed that soil properties drove the changes of AM fungal colonization and sporulation. These results will provide theoretical support for realizing the relationship between AM fungal colonization and soil conditions, and also for the exploration of AM fungi species with great functions.

     

AM真菌对盐胁迫下番茄幼苗生理特征及AVP1表达的影响

采用温室盆栽试验研究不同NaCl浓度（0、50 和85 mmol/L）持续胁迫接种摩西球囊霉和地表球囊霉 2种AM真菌对加工番茄耐盐性的影响。结果显示:（1）在0 mmol/L NaCl处理条件下,2种菌的番茄菌根化苗的根系活力、叶片中可溶性糖、可溶性蛋白、根系脯氨酸含量以及超氧化物歧化酶和过氧化物酶活性均高于非菌根植株,且丙二醛含量低于非菌根植株,但差异不显著。（2）在50、85 mmol/L NaCl浓度胁迫下,接种2种菌根真菌可显著提高番茄植株根系活力,促进叶片中可溶性糖、可溶性蛋白及根系脯氨酸含量的积累,显著提高叶片中与抗逆相关的超氧化物歧化酶和过氧化物酶的活性,减少丙二醛在根系中的积累;随着NaCl浓度的增加,效果更为明显。（3）RT-PCR分析显示,AM真菌和盐胁迫共同调控H⁺转运无机焦磷酸酶H⁺- PPase的表达,随NaCl浓度的增加,AVP1基因表达量下降,但菌根化番茄植株的AVP1基因表达量显著高于非菌根植株。研究表明,接种AM真菌后,菌根化植株可通过显著促进幼苗体内渗透调节物质积累和抗氧化酶活性的提高,有效降低体内膜脂过氧化水平,同时过量表达AVP1基因增加了番茄植株中离子向液泡膜的转运,从而缓解盐胁迫对植株的伤害,增强番茄幼苗对盐胁迫的耐性。     

Arbuscular mycorrhizal fungi native from a Mediterranean saline area enhance maize tolerance to salinity through improved ion homeostasis

Soil salinity restricts plant growth and productivity. Na⁺ represents the major ion causing toxicity because it competes with K⁺ for binding sites at the plasma membrane. Inoculation with arbuscular mycorrhizal fungi (AMF) can alleviate salt stress in the host plant through several mechanisms. These may include ion selection during the fungal uptake of nutrients from the soil or during transfer to the host plant. AM benefits could be enhanced when native AMF isolates are used. Thus, we investigated whether native AMF isolated from an area with problems of salinity and desertification can help maize plants to overcome the negative effects of salinity stress better than non‐AM plants or plants inoculated with non‐native AMF. Results showed that plants inoculated with two out the three native AMF had the highest shoot dry biomass at all salinity levels. Plants inoculated with the three native AMF showed significant increase of K⁺ and reduced Na⁺ accumulation as compared to non‐mycorrhizal plants, concomitantly with higher K⁺/Na⁺ ratios in their tissues. For the first time, these effects have been correlated with regulation of ZmAKT2, ZmSOS1 and ZmSKOR genes expression in the roots of maize, contributing to K⁺ and Na⁺ homeostasis in plants colonized by native AMF.     

The differential behavior of arbuscular mycorrhizal fungi in interaction with Astragalus sinicus L. under salt stress

Three arbuscular mycorrhizal (AM) fungi (Glomus mosseae, Glomus claroideum, and Glomus intraradices) were compared for their root colonizing ability and activity in the root of Astragalus sinicus L. under salt-stressed soil conditions. Mycorrhizal formation, activity of fungal succinate dehydrogenase, and alkaline phosphatase, as well as plant biomass, were evaluated after 7 weeks of plant growth. Increasing the concentration of NaCl in soil generally decreased the dry weight of shoots and roots. Inoculation with AM fungi significantly alleviated inhibitory effect of salt stress. G. intraradices was the most efficient AM fungus compared with the other two fungi in terms of root colonization and enzyme activity. Nested PCR revealed that in root system of plants inoculated with a mix of the three AM fungi and grown under salt stress, the majority of mycorrhizal root fragments were colonized by one or two AM fungi, and some roots were colonized by all the three. Compared to inoculation alone, the frequency of G. mosseae in roots increased in the presence of the other two fungal species and highest level of NaCl, suggesting a synergistic interaction between these fungi under salt stress.     

不同浓度Fe2+与Zn2+对羊草幼苗生长和生理特性的影响

以羊草幼苗为研究对象,通过调整全营养培养基(CK,0.05 mmol/L Fe²⁺、0.015 mmol/L Zn²⁺)中铁或者锌含量设置0、10倍、20倍Fe²⁺(Zn²⁺)浓度处理Fe₀(Zn₀)、Fe₁₀(Zn₁₀)、Fe₂₀(Zn₂₀),以及在高铁培养基中单独添加0.15 mmol/L Zn²⁺或同时添加10 mmol/L Ca²⁺、5 mmol/L Mg²⁺、20 mmol/L K⁺处理,测定培养6 d后幼苗生长指标和矿质元素含量、以及高铁(Fe₂₀)处理下幼苗根中抗氧化指标和相关基因表达量,探究不同浓度Fe²⁺、Zn²⁺对羊草幼苗生长、矿质元素吸收积累及抗氧化指标、基因表达的影响。结果表明：(1)缺锌(Zn₀)显著抑制羊草幼苗鲜重的增加和Zn元素的积累,但促进Fe、Mg元素的积累;高浓度锌(Zn₁₀、Zn₂₀)显著促进幼苗叶片生长和Zn元素的积累;缺铁(Fe₀)显著抑制幼苗的根长、鲜重和Fe元素的积累,促进Mg、Zn元素的积累;高浓度铁(Fe₁₀、Fe₂₀)显著抑制羊草幼苗根叶生长、根毛发育和Ca、Zn、Mg、K元素的积累。(2)增加Zn²⁺和Ca²⁺、Mg²⁺、K⁺浓度无法恢复高铁胁迫对幼苗生长的抑制作用。(3)高浓度铁(Fe₂₀)处理羊草幼苗48 h后,根部过氧化物酶、超氧化物歧化酶、过氧化氢酶、抗坏血酸过氧化物酶、谷胱甘肽还原酶活性和丙二醛、抗坏血酸、还原型谷胱甘肽含量显著升高;烟酰胺合成酶基因、过氧化物酶基因表达量显著下调,植物类萌发素蛋白基因表达量显著上调。研究发现,羊草幼苗生长发育和矿质元素积累对环境中Zn²⁺浓度变化不敏感,却受到环境中高浓度Fe²⁺的显著抑制,并造成严重的氧化胁迫伤害,这种伤害无法在添加Zn²⁺或同时添加Ca²⁺、Mg²⁺、K⁺的条件下恢复。     

柽柳根际一株盐单胞菌Bachu 26的分离、鉴定及其盐胁迫下的促生作用研究

盐渍化是世界性的土壤问题,植物促生根际细菌(plant growth-promoting rhizobacteria,PGPR)在盐碱地改良和促进植物生长方面具有独特优势。柽柳是典型的盐生植物,筛选其根际微生物并研究其促生效果与促生机制,以此开发微生物菌肥,具有重要的应用价值。【目的】筛选耐盐碱植物柽柳的根际微生物,对其基本特性、耐盐碱能力、促生功能及促生效果进行评估。【方法】从新疆巴楚境内野生柽柳根际土壤中筛选出一株耐盐碱细菌菌株Bachu 26;通过形态学观察、生理生化特性测定和16S rRNA基因序列分析,对该菌株进行鉴定;利用不同盐浓度(0%–20%)和不同pH(7.0–13.0),对菌株Bachu 26的耐盐耐碱能力进行测定;采用多种功能鉴定培养基测定其促生功能,并对生长素吲哚乙酸(indole-3-acetic acid, IAA)进行定量测定;通过二分格培养皿实验验证菌株产生挥发性酸性物质的能力;在普通培养皿上将拟南芥幼苗与菌株Bachu 26共培养,分析菌株对拟南芥幼苗的促生作用;在二分格培养皿上将拟南芥与Bachu 26隔离培养,分析菌株产生的挥发性酸性物质对拟南芥幼...     

盐旱交叉胁迫对柽柳幼苗渗透调节物质含量的影响

以2年生柽柳幼苗为试验材料,采用盆栽模拟试验研究不同盐分和干旱胁迫对其叶片中渗透调节物质的影响,以探讨柽柳幼苗对盐旱交叉胁迫的适应性.结果表明:(1)随盐旱胁迫的不断加剧,幼苗叶片中可溶性糖含量呈先升高后降低的趋势,且中度和重度盐旱胁迫下均显著高于对照(CK).(2)幼苗叶片中脯氨酸含量在不同盐旱胁迫下均呈逐渐上升趋势,但在重度盐分和中度、重度干旱交叉胁迫下显著高于CK.(3)幼苗叶片中Na+、Cl含量在不同干旱胁迫下,随盐胁迫的加剧呈不同的变化规律,盐旱胁迫的各个处理水平下均显著高于CK,而K+、Ca2+、SO42-含量在轻度和重度干旱胁迫下随盐胁迫增强不断降低.(4)在中度盐旱胁迫下,K+、Ca2+含量与CK无明显差异.研究表明,柽柳幼苗中渗透调节物质在其抗旱耐盐性方面具有积极的调节作用;柽柳幼苗在盐旱胁迫下表现出一定的交叉适应性,适度的干旱胁迫能增强柽柳幼苗对盐分胁迫的耐受能力.