基于CSCD的盐生植物研究文献计量评价

以中国科学引文数据库（CSCD,477篇）为主线,以维普、万方和CNKI数据库（3329篇）为基础数据,采用文献计量分析的方法,对盐生植物研究文献进行统计分析,分别从文献的年代、机构、作者、来源期刊、学科类别、高被引论文和文献的关键词这7个方面,对盐生植物研究文献的分布规律和研究现状进行总体回顾与评价。全面概括、总结和分析该研究领域研究热点、区域、内容、技术和方法,优秀人才、领先机构和主要团队,揭示中国盐生植物研究的进展情况。结果表明：1956年有盐生植物论文发表,2007年文献总量340篇为最高记录;在CSCD,1991年有盐生植物论文发表,至2011年62篇为最高,均呈逐年上升趋势。中国在盐生植物研究方面已经形成了引领该研究方向的4个主要科研团队,分别是山东师范大学、中国科学院新疆生态与地理研究所、中国农业大学和南京大学。盐生植物的研究呈现明显的地域相关性,热点地区包括新疆、山东、北京、南京、东北、内蒙古、宁夏、兰州等地。盐生植物研究热点是：耐盐性（耐盐机制）、盐胁迫、盐碱地、基因克隆、土壤盐分、植物生长、开发利用、渗透调节、生理指标、种子萌发、脯氨酸、基因工程（基因表达）和植物群落等。     

田菁根际促生菌的筛选及其促生耐盐效果

【目的】为探究盐生植物田菁及其根际功能微生物改良盐碱地的效果,本研究从黄河三角洲盐碱区田菁根际土壤中分离促生菌,并明确其耐盐促生效果。【方法】采用选择培养方法从田菁根际土壤中分离固氮菌、解磷菌以及解钾菌,并进行16S rRNA分子生物学鉴定。之后对菌株的耐盐及促生特性进行测定,筛选性状优良菌株进行玉米促生作用研究。【结果】共分离得到105株根际促生菌,其中N102兼具多种促生特性且耐盐性达15%。田菁种子发芽试验表明,N102可显著提高田菁发芽率(47%,P0.05)、芽长(48.5%,P0.05)和根长(60%,P0.05);玉米盆栽试验结果表明,N102对盐胁迫下玉米的株高、根长、叶绿素含量、地上部干重以及根干重具有显著的促进作用。经系统发育分析,N102与Enterobacter soli ATCC BAA-2102 (NR117547)序列相似度为99.30%,鉴定属于Enterobacter属。【结论】菌株N102具有多种植物促生耐盐特性,具有开发成有效促进盐碱地作物生长的微生物肥的良好前景。     

60份豇豆品种资源的耐盐能力评判

运用《豇豆基因型耐盐能力技术鉴定方法》(专利号ZL200810048423.5),对60份豇豆品种的耐盐能力进行了鉴定评判。试验材料经苗期培养和盐胁迫处理后,分别测定处理组和对照组的植株叶片叶绿素含量、过氧化氢酶活性、可溶性蛋白质含量、细胞伤害率以及单株鲜重等指标并计算其SRI值,运用专利技术的预测模型,得出各品种耐盐综合评价值(D值)。依据评判标准,紫魁、玉农农家宝特优、抗病芦花等11个品种的综合评价值D≥0.68,归为盐耐受型品种;之豇14、白皮、矮紫尾青等8个品种的综合评价值D≤0.48,归为盐敏感型品种;其余41个品种的D值介于0.48~0.68之间,属于中度耐盐品种。本研究结果扩大了豇豆种质耐盐能力鉴定评判份数,丰富了耐盐种质鉴定信息。     

基于高通量测序分析盐角草根部内生细菌多样性及动态规律

【目的】探讨盐角草根部内生细菌群落多样性特征,揭示内生细菌群落结构在宿主关键发育期动态变化规律。【方法】通过罗氏454高通量测序获得内生细菌16S r RNA片段,然后进行生物信息分析。【结果】共获得20363条16S r RNA基因序列。各样品中可操作分类单元(operational taxonomic units,OTUs)在552–941之间。根部内生细菌群落主要包括4个门,其中Proteobacteri门占主导地位,其余依次是Firmicutes,Actinobacteria,Bacteroidetes。在Proteobacteria门中,Gammaproteobacteria是第一大纲,其后是Betaproteobacteria纲。宿主5个发育时期共同拥有7个细菌属,包括Azomonas,Serratia,Pantoea,Serpens,Pseudomonas,Halomonas,Kushneria。整体上看,Gammaproteobacteria纲在宿主5个发育时期呈现增长趋势。优势菌属在5个发育期存在差异,分别为Delftia,Kushneria,Serratia,Pantoea,Erwinia。所有文库总共含2108个特异OTUs,共同拥有5个相同OTUs。花期OTUs数量最多,结种期内生细菌多样性降低。在宿主的5个发育时期中,土壤p H、月均温和土壤盐含量这3个环境因子组成的集合对其内生细菌群落变化具有显著影响。【结论】盐角草内生细菌群落多样性丰富,宿主发育期决定了内生细菌群落结构。     

中华补血草内生与根际具ACC脱氨酶活性细菌的筛选及其生物多样性

【目的】获得江苏沿海滩涂盐生药用植物中华补血草内生及根际具有1-氨基环丙烷-1-羧酸(ACC)脱氨酶活性的细菌,研究其遗传多样性和潜在促生活性。【方法】从中华补血草和根际土壤分离筛选具有ACC脱氨酶活性的菌株,对其ACC脱氨酶活性定量检测,通过16S r RNA基因序列分析确定菌株系统发育地位。同时研究其固氮、溶磷、产植物生长素吲哚乙酸(IAA)及耐盐能力。【结果】分离筛选获得18株具有ACC脱氨酶活性的内生与根际细菌,定量检测发现其中有13株菌的ACC脱氨酶含量在20 nmolα-KA/(mg Pr·h)以上,有11株菌可以固氮,7株菌能够解磷,9株菌产生IAA。菌株的Na Cl盐耐受范围多数在0–13%之间。16S r RNA基因测序表明,活性菌株分属于7个属,多样性丰富,节杆菌属(Arthrobacter)为优势类群。其中菌株KLBMP 5180为节杆菌属的潜在新种。【结论】江苏沿海滩涂盐生药用植物中华补血草共生环境中具有丰富多样的具ACC脱氨酶活性的菌株,并存在潜在新物种资源,具有进一步研究价值。     

盐穗木HcmiR172e和预测的靶基因HcTOE3的克隆及盐胁迫下的靶向关系分析

盐穗木(Halostachys caspica)广泛分布于新疆干旱盐碱地区,属于藜科极端耐盐的盐生灌木。从600 mmol?L-1 Na Cl处理48 h的盐穗木根的小RNA文库中筛选到差异极显著的HcmiR172e做为研究对象,利用盐穗木转录组数据预测其靶基因为HcTOE3,开展HcmiR172e-HcTOE3的分子克隆和胁迫表达相关性工作。通过同源克隆和RACE技术获得盐穗木HcmiR172e前体和HcTOE3全长序列;使用生物信息软件分析前体和靶基因信息及相关性;采用q RT-PCR技术检测了不同盐浓度(200、400和600 mmol?L-1 Na Cl)处理48 h的盐穗木HcmiR172e及预测的靶基因HcTOE3的表达变化。结果显示,克隆得到的HcmiR172e前体序列可形成颈环结构,各项指标符合前体要求。其靶基因HcTOE3 c DNA全长为1 744 bp,开放阅读框1 329 bp,在编码区有一个高度匹配HcmiR172e的结合位点(CTGCAGCATCATCAGGATTC);q RT-PCR分析结果表明HcmiR172e与其预测的靶基因HcTOE3均响应盐的处理,二者呈现一定的负相关性。后续将通过实验逐步阐明盐穗木HcmiR172e对HcTOE3在逆境中的靶向调控作用。     

Effects of groundwater salinity on the characteristics of leaf photosynthesis and stem sap flow in Tamarix chinensis

AimsThe objective of this study was to investigate the change pattern of leaves photosynthesis and stem sap flow of Tamarix chinensisin under different groundwater salinity, which can be served as a theoretical basis and technical reference for cultivation and management of T. chinensis in shallow groundwater table around Yellow River Delta.MethodsThree-year-old T. chinensis, one of the dominated species in Yellow River Delta, was selected. Plants were treated by four different salinity concentrations of groundwater—fresh water (0 g∙L^-1), brackish water (3.0 g∙L^-1), saline water (8.0 g∙L^-1), and salt water (20.0 g∙L^-1) under 1.2 m groundwater level. Light response of photosynthesis and the diurnal courses of leaf transpiration rate, stem sap flux velocity and environment factors under different groundwater salinity were determined via LI-6400XT portable photosynthesis system and a Dynamax packaged stem sap flow gauge based on stem-heat balance method, respectively.Important findings The result showed that groundwater salinity had a significant impact on photosynthesis efficiency and water consumption capacity of T. chinensis by influencing the soil salt. The net photosynthetic rate (P_n), maximum P_n, transpiration rate, stomatal conductance, apparent quantum yield and dark respiration rate increased first and then decreased with increasing groundwater salinity, while the water use efficiency (WUE) continuously decreased. The mean P_n under fresh water, brackish water and salt water decreased by 44.1%, 15.1% and 62.6%, respectively, compared with that under saline water (25.90 µmol∙m^-2∙s^-1). The mean WUE under brackish water, saline water and salt water decreased by 25.0%, 29.2% and 41.7%, respectively, compared with that under fresh water (2.40 µmol∙mmol^-1). With the increase of groundwater salinity from brackish water to salt water, light saturation point of T. chinensisdecreased while the light compensation point increased, which lead to the decrease of light ecological amplitude and light use efficiency. Fresh water and brackish water treatment helped T. chinensis to use low or high level light, which could significantly improve the utilization rate of light energy. The decrease in P_n of T. chinensis was mainly due to non-stomatal limitation under treatment from saline water to fresh water, while the decrease in P_n of T. chinensis was due to stomatal limitation from saline water to salt water. With increasing groundwater salinity, stem sap flux velocity of T. chinensis increased firstly and then decreased, reached the maximum value under saline water. The mean stem sap flux velocity under fresh water, brackish water and salt water decreased by 61.8%, 13.1% and 41.9%, respectively, compared with that under saline water (16.96 g·h^-1). Tamarix chinensis had higher photosynthetic productivity under saline water treatment, and could attained high WUE under severe water deprivation by transpiration, which was suitable for the growth of T. chinensis.     

Eco-physiological responses of linseed (Linum usitatissimum) to salt and alkali stresses

AimsEffects of salt and alkali stresses (NaCl-Na₂SO₄ and NaHCO₃-Na₂CO₃) were compared on growth, photosynthesis characters, ionic balance and osmotic adjustment of linseed (Linum usitatissimum), to elucidate the mechanisms of salt and alkali stress (high pH value) damage to plants, and their physiological adaptive mechanisms to the stresses. MethodsThe experiment was carried out in an artificial greenhouse. Plants grew at approximately 700 mmol·m^-2·s^-1 photosynthetic photon flux density (PPFD) in greenhouse under photoperiod of 15 h in light and 9 h in dark. In each plastic pot (17 cm diameter) which contained 2.5 kg of washed sand, 20 linseed seeds were sown. The seedlings were exposed to stresses lasting 14 days after 2 months.Important findingsThe inhibitory effects of alkali stress on linseed growth were more remarkable than those of salt stress, indicating that alkali and salt represent two distinct forms of stress. The alkali stress increased the Na⁺ content in shoots, damaged the photosynthetic system, and highly reduced the net photosynthetic rate and C assimilation capacity. Under salinity stress, the Na⁺ content increased, the K⁺ content decreased with increasing stress. Greater changes were observed under alkali than under salt stress. Alkali stress caused the massive influx of Na⁺, which probably explained that the harmful of alkali stress on plants was stronger than that of salt stress. Under alkali stress, Ca²⁺ and Mg²⁺ decreased in roots, showing that high pH value around roots hindered the absorption of them. Fe²⁺ and Zn²⁺ had little effects on the osmotic adjustment, mainly because of they had a low ion content. Under salt stress, anion increased in order to balance the sharp increase of Na⁺. However, alkali stress made severe deficit of negative charge, broke the intracellular ionic balance and pH homeostasis, and caused a series of strain response. Our results showed that linseed enhanced the synthesis of soluble sugars to balance massive influx of Na⁺ under salt stress, but linseed enhanced the synthesis of organic acids to compensate for the shortage of inorganic anions, which might be a key pathway for the pH adjustment. In conclusion, the alkali stress (high pH value) clearly inhibited the growth, element absorption, ion homeostasis reconstruction of plants. Organic acid concentration is possibly a key adaptive factor for linseed to maintain intracellular ion balance and regulate high pH value under alkali stress.     

植物响应盐胁迫组学研究进展

盐胁迫对植物生长的影响主要表现在离子毒害、渗透胁迫以及次级氧化胁迫等,植物遭受盐胁迫时迅速启动相关基因,进行转录调控,进而合成相应蛋白质来控制代谢物合成和离子转运以调节渗透平衡。随着现代分子生物学迅速发展,对植物耐盐机理研究也深入到了转录组、蛋白质组、代谢组及离子组等水平,"组学"研究为耐盐基因鉴定及标志性代谢物的挖掘等提供了有力手段。该文对近年来国内外有关转录组学、蛋白质组学、代谢组学、离子组学的主要研究方法及在盐胁迫中的应用研究进展进行综述,以揭示植物耐盐机理,为优良耐盐碱植物的筛选与培育提供支持。     

有色大麦种质芽期耐盐性鉴定

以44份有色大麦种质为试材,通过测定发芽势、发芽率、发芽指数、萌发活力指数结合两个颜色指标YU(颜色亮度和浓度)进行芽期的耐盐性鉴定,并运用相关性分析、主成分分析、聚类分析等方法对有色大麦材料进行多指标耐盐性综合评价。结果表明,发芽率和发芽指数对盐胁迫响应最为敏感,芽长和根长对盐胁迫响应较为迟钝;粒色亮度与耐盐性综合评价F值呈显著负相关;粒色浓度与耐盐性综合评价F值呈显著正相关;综合指标F值相关分析表明,颜色越深,耐盐性越强;用综合指标F值,可将44份有色大麦分为4类,其中强耐盐材料包括XZDM-1401、XZDM-1404、XZDM-1543、XZDM-1546等4份,中等耐盐性包括XZDM-926、XZDM-957、XZDM-972等16份,弱耐盐性包括XZDM-815、XZDM-1606、XZDM-1030等12份,敏盐性包括XZDM-973、XZDM-1042、XZDM-1318等12份。