茄子种质资源的耐冷性鉴定

采用低温胁迫下幼苗叶片冷害指数、种子活力指数、叶片电导百分率为指标,对34份不同类型的茄子种质资源进行耐冷性鉴定。结果表明,活力指数与冷害指数、电导百分率均呈极显著负相关,电导百分率与冷害指数呈极显著正相关。通过耐冷隶属函数值和聚类分析,初步筛选出11份耐冷性较强的材料。     

水稻抗旱耐盐蛋白质组学研究进展

抗旱耐盐是水稻抗逆研究的重要方向。水稻抗旱耐盐蛋白质组学研究通过观察水稻在干旱和盐胁迫条件下的蛋白质组表达情况,动态分析水稻的蛋白质组变化,使研究的结果和性状联系更紧密,相对于从基因组水平上研究更具实际意义。简要介绍了水稻蛋白质组研究的基本方法和技术并重点叙述了水稻抗旱耐盐蛋白质组研究取得的成果。     

我国建成首个耐盐植物种质资源库

我国第一个以耐盐植物为主的种质资源数据库在山东省科学院生物所建成。该数据库涵盖了自1953年以来世界上各相关研究单位公开发表的耐盐植物信息,涉及99638个分类种。同时,与数据库相对应的,耐盐植物种质资源实体库正在建设中。     

小麦耐盐种质的筛选鉴定和耐盐基因的标记

通过对 40 0份材料的芽期、苗期鉴定 ,筛选出 11份耐盐性较强的普通小麦 (TriticumaestivumL .)、小麦和黑麦 (SecalecerealeL .)、小麦和延安赖草 (Leymuschinensis (Trin .)Tzvel.)杂交后代材料 ,其中耐盐性突出的材料有 :普通小麦品种“红蚂蚱”、“科遗 2 6”、“希望”(Hope) ;小麦与黑麦杂交后代材料 98_46、98_113、98_131;小麦与延安赖草杂交后代材料 98_16 0、98_16 1、98_16 3。耐盐性表现最突出的材料是 98_113和 98_16 0。细胞学鉴定和原位杂交及醇溶蛋白酸性聚丙烯酰胺凝胶电泳 (A_PAGE)分析和低分子量谷蛋白SDS_PAGE分析 ,证明 98_113是稳定的小麦 黑麦二体附加系 ,但具体附加的是黑麦的哪条染色体还不清楚 ;98_131是小麦 黑麦 1B/ 1R易位系。结合其他 1B/ 1R材料的耐盐表现 ,提出了黑麦 1R染色体短臂上存在耐盐基因的可能性。对 (98_16 0×BanacakaMska)F2 代分离群体苗期抗盐鉴定分析 ,表明在这一杂交组合中的耐盐性状可能由一个主效基因控制。应用SSR标记技术 ,筛选到了与 98_16 0耐盐性状连锁的SSR标记WMS6 7和WMS2 13,它们与耐盐基因的遗传距离分别为 13.9cM (centMorgan)和 31.0cM。结合小麦SSR图谱分析 ,将该主效抗性基因定位在 5BL上。     

小麦抗旱种质资源的遗传多样性

在雨养和灌水条件下,田间栽培小麦抗旱材料。根据结实器官建成与物候期、生育期的对应关系,通过供试材料产量构成因素的旱、水表现,分析在各因素形成时期的抗旱性。分别以抗旱系数和抗旱指数作为评价抗旱性的指标,通过聚类分析供试材料的遗传多样性。结果发现有些材料表现为全生育期抗旱,而有些材料只在苗期、拔节期、开花期和灌浆期等一个或几个生育时期表现抗旱;有的材料表现为抗旱高产,但有的材料产量水平较低;同时还发现部分抗旱种质资源在灌水条件下有较大的增产潜力。     

俄罗斯水稻种质资源的苗期耐盐鉴定

采用在沿海滩涂用海水灌溉的方法,对从俄罗斯引进的104份水稻种质资源进行了苗期耐盐性鉴定.结果表明,随着海水灌溉时间延长,土壤电导率和盐度逐渐增加,水稻受盐害的程度加剧,不同材料之间差异明显.敏感对照日本晴在海水灌溉第9天全部死亡.根据国际水稻所水稻耐盐性9级分级方法进行苗期耐盐性评价,从俄罗斯资源中筛选出1级耐盐材料2份, 3级耐盐材料14份,两次重复鉴定结果基本一致.试验结果表明,水稻耐盐性受生态环境影响较大,有必要对引进的资源进行重新筛选和评价.     

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。     

小麦耐盐种质遗传多样性的RAPD分析

选用２２个引物对２４份小麦耐盐种质进行ＲＡＰＤ分析,共产生２００条扩增片段,多态性片段数为１７２条,扩增片段的多态性百分率为８６％,利用ＮＹＳＴＳ软件根据Ｊａｃｃａｒｄ系统分析ＲＡＰＤ结果,并按ＵＰＧＭＡ类平均法进行聚类。２４份材料相似系数在０．２１￣０．９７之间,其中含有多枝赖草、黑麦和偃麦草等外源染色体的多１７４、ＷＲ８３０和南前１２７被分别在３个独立的组,多１７４和南前１２７的亲关系最远,相     

水稻种质资源芽期耐冷性的鉴定与评价

对新收集的879份水稻种质资源进行了水稻芽期耐冷性的鉴定与评价,从中筛选出芽期耐冷性极强的水稻种质资源39份,均为贵州地方粳稻品种.供试粳稻品种61.23%具有强芽期耐冷性(3级),而籼稻品种只有13.77%具有强芽期耐冷性(3级 ),粳稻品种的芽期耐冷性显著强于籼稻品种.无论籼稻,还是粳稻,贵州地方稻种的芽期耐冷性显著强于来自其他地区的品种,从贵州地方稻种中挖掘极强耐冷种质资源的潜力较大 .     

花苜蓿抗旱耐盐EST-SSR标记筛选

为了给花苜蓿（Medicago ruthenica Trautv.）抗旱耐盐的生态适应性研究提供特异的遗传标记,在已公布的70对鹰嘴豆抗旱耐盐EST-SSR标记中筛选出稳定性好、多态性高的8对引物,并用这8对引物对挑选出的11个居群的286个个体进行扩增,获得111个等位基因。平均等位基因数为13.88;平均观察杂合度为0.497;平均预期杂合度为0.687;多态信息含量从0.313到0.883不等,平均值为0.649。以上结果表明,筛选出来的8个EST-SSR标记可以用于花苜蓿的遗传多样性分析,而且遗传多样性处于较高水平。多态性丰富的EST-SSR 引物适用于花苜蓿生态适应性进化分析,对揭示花苜蓿抗旱耐盐基因型的遗传变异和地理分布格局以及探讨花苜蓿抗旱耐盐的适应性分化机制有重要意义。     

Co-existence of salt and drought tolerance in Triticeae

Cell membrane stability (CMS) technique was used to screen for drought tolerance, salt tolerant accessions of three Aegilops species, Ae. tauschii, Ae. cylindrica, Ae. geniculata and two hexaploid wheat (Tricitum aestivum L.) cultivars comprising salt tolerant LU-26 and drought tolerant Chakwal-86. The objectives were to see how valid it is for a salt tolerant plant to be drought tolerant as well and to identify the character(s) that may contribute to drought tolerance. Three moisture levels equal to 100, 50 and 25% saturation capacity of the soil were used for plant cultivation. Injury percentage (IP) based on in-vitro desiccation induced by polyethylene glycol (PEG) in leaf tissue was measured through the conductivity of the electrolyte leakage. Injury percentage decreased in all the test material with decrease in soil moisture contents. Ae. cylindrica exhibited minimum injury at 100% soil moisture level followed by Ae. tauschii and Ae. geniculata while drought tolerant wheat cultivars exhibited the maximum. The wheat cultivar Chakwal-86 has been developed for dry areas, with low soil moisture levels, and high water potential enhances the injury percentage. Aegilops cylindrica is a salt tolerant species and can thus tolerate water deficit conditions created due to low osmotic potential. Potassium appeared to play an important role in drought tolerance which was evident from high K+ contents and low K+ leakage from Aegilops cylindrica and drought tolerant wheat cultivar Chakwal-86. It was inferred from the study that salt tolerant species might prove drought tolerant in the areas where water deficit prevails due to the ability to create low intracellular osmotic potentials.     

滨海半干旱地区海水灌溉对土壤安全和作物产量的影响

2001至2003年,连续3a在山东莱州地区布置田间试验,研究海水灌溉对土壤安全和作物产量的影响。试验共设4个处理,即CK(未灌溉处理)、25%、50%、75%的海水灌溉处理。结果表明:未灌溉处理土壤中的总盐量呈明显积累趋势,2003年较2001年增加了1.3倍;25%和50%的海水灌溉处理,2001年土壤盐分明显积累,此后两年有逐年脱除的趋势。2003与2001年相比,脱盐率分别达到34.9%和41.0%。连续3a海水灌溉后,除CK外,各处理耕层中的盐分较为稳定,且处于较低水平;CK和50%的海水灌溉处理,60~100cm的土层中的盐分明显积盐,而其它处理均未表现出积盐趋势。25%的海水灌溉处理土壤钠吸附比明显高于50%、75%的海水灌溉处理,但仍然未达到10mmol/L。2001和2002年,25%和50%的海水灌溉处理,较未灌溉处理增产效应显著。因此,25%和50%的海水灌溉耐盐作物菊芋,能够保证土壤安全和作物高产高效。     

Some mechanisms of salt tolerance in crop plants

Summary In the first part of this review the main features of salt tolerance in higher plants are discussed. The hypothesis of intracellular compartmentation of solutes is used as a basis for models of tolerance mechanisms operating in roots and in leaves. Consideration is given to the implications of the various mechanisms for the yield potential of salt-tolerant crop plants.Some work on the more salt-tolerant members of the Triticeae is then described. The perennial speciesElytrigia juncea andLeymus sabulosus survive prolonged exposure to 250 mol m^–3 NaCl, whereas the annual Triticum species are severely affected at only 100 mol m^–3 NaCl. In the perennial species the tissue ion levels are controlled within narrow limits. In contrast, the more susceptible wheats accumulate far more sodium and chloride than is needed for osmotic adjustment, and the effects of salt stress increase with time of exposure.Two different types of salt tolerance are exhibited in plants capable of growing at high salinities. In succulent Chenopodiaceae, for example, osmotic adjustment is achieved mainly by accumulation of high levels of sodium and chloride in the shoots, accompanied by synthesis of substantial amounts of the compatible solute glycinebetaine. This combination of mechanisms allows high growth rates, in terms of both fresh and dry weight. At the opposite end of the spectrum of salt tolerance responses are the halophytic grasses, which strictly limit the influx of salts into the shoots, but suffer from very much reduced growth rates under saline conditions. Another variation is shown in those species that possess salt glands. The development and exploitation of crop plants for use on saline soils is discussed in relation to the implications of these various mechanisms.     

滨海盐碱地刺槐(Robinia pseudoacacia)混交林土壤水盐动态

以固氮树种刺槐与绒毛白蜡、榆树、臭椿三树种的混交林及其纯林为研究对象,研究了刺槐与不同树种混交对土壤水分、盐分年动态变化的影响.研究结果表明:(1)刺槐与3个树种混交,刺槐臭椿混交林生长最好,均高于各自纯林.(2)混交林一定程度改善了土壤含水量及层次分布,土壤含水量整体趋势均表现出0～60 cm表层土中含水量高于各自纯林,而深层土壤含水量低的特点,只有8月份纯林和混交林的土壤含水量没有显著差别.不同树种在具体层次上略有差异;(3)混交林降低了土壤含盐量,改变了土壤盐分层次分布和年变化规律.不同月份间土壤含盐量随土壤深度、混交树种的变化而变化.深层土壤含盐量高,表层土壤含盐量低,混交林含盐量低于纯林且存在树种差异.混交林与纯林含盐量均雨季低,旱季高;但在某一具体月份各层次含盐量差别不大;不同土层含水量、含盐量与天然降水之间有明显的相关性,天然降水是混交林及纯林土壤水分的主要来源.     

Enhancing Arabidopsis salt and drought stress tolerance by chemical priming for its abscisic acid responses

Drought and salt stress tolerance of Arabidopsis (Arabidopsis thaliana) plants increased following treatment with the nonprotein amino acid beta-aminobutyric acid (BABA), known as an inducer of resistance against infection of plants by numerous pathogens. BABA-pretreated plants showed earlier and higher expression of the salicylic acid-dependent PR-1 and PR-5 and the abscisic acid (ABA)-dependent RAB-18 and RD-29A genes following salt and drought stress. However, non-expressor of pathogenesis-related genes 1 and constitutive expressor of pathogenesis-related genes 1 mutants as well as transgenic NahG plants, all affected in the salicylic acid signal transduction pathway, still showed increased salt and drought tolerance after BABA treatment. On the contrary, the ABA deficient 1 and ABA insensitive 4 mutants, both impaired in the ABA-signaling pathway, could not be protected by BABA application. Our data demonstrate that BABA-induced water stress tolerance is based on enhanced ABA accumulation resulting in accelerated stress gene expression and stomatal closure. Here, we show a possibility to increase plant tolerance for these abiotic stresses through effective priming of the preexisting defense pathways without resorting to genetic alterations.     

不同水旱轮作体系稻田土壤剖面N2O的分布特征

通过原位采集淹水和排水状态下土壤剖面4个层次的气体,研究氧化亚氮(N2O)在水旱轮作体系稻田土壤剖面中的动态分布特征.试验设置小麦-单季稻和油菜-双季稻两种轮作体系,包括施N和不施N两种施肥方式.结果表明:施用N肥极显著促进了土壤剖面N2O的产生(P＜0.01),不同层次间N2O浓度相关性极显著(P＜0.01),小麦、油菜生长期施N和无N处理下层30 cm和50 cm处N2O浓度均高于表层7 cm和15 cm处;早稻无N处理则为表层7 cm和15 cm处高于下层30 cm和50 cm处(P＜0.05),其他水稻处理各层次间无显著差异.无N处理土壤N2O峰值出现在旱作向水稻的转变期,施N处理则出现在旱作第2次追肥后,季节转变期也有较高的N2O浓度.     

滨海盐碱地刺槐(Robinia pseudoacacia)混交林土壤水盐动态

以固氮树种刺槐与绒毛白蜡、榆树、臭椿三树种的混交林及其纯林为研究对象,研究了刺槐与不同树种混交对土壤水分、盐分年动态变化的影响。研究结果表明：（1）刺槐与3个树种混交,刺槐臭椿混交林生长最好,均高于各自纯林。（2）混交林一定程度改善了土壤含水量及层次分布,土壤含水量整体趋势均表现出0～60 cm表层土中含水量高于各自纯林,而深层土壤含水量低的特点,只有8月份纯林和混交林的土壤含水量没有显著差别。不同树种在具体层次上略有差异;（3）混交林降低了土壤含盐量,改变了土壤盐分层次分布和年变化规律。不同月份间土壤含盐量随土壤深度、混交树种的变化而变化。深层土壤含盐量高,表层土壤含盐量低,混交林含盐量低于纯林且存在树种差异。混交林与纯林含盐量均雨季低,旱季高;但在某一具体月份各层次含盐量差别不大;不同土层含水量、含盐量与天然降水之间有明显的相关性,天然降水是混交林及纯林土壤水分的主要来源。