两种盐生植物解剖结构的生态适应性

结合对研究区域土壤水分和盐分的分析,对3种不同生境下梭梭和多枝柽柳两种荒漠盐生植物光合器官解剖结构的研究表明:梭梭(Haloxylon ammodendron)依靠当年生绿色同化枝进行光合作用,且同化枝具有发达的贮水组织,是典型的超旱生稀盐盐生植物;同化枝的栅栏组织富含叶绿体,是C_4高光效植物,提高了植物的光合作用效率,进一步增强了梭梭对荒漠干旱、盐渍化环境的适应能力.多枝柽柳(Tamarix ramosissima)同化枝及叶的表皮上均具下陷的气孔和泌盐腺,是旱生泌盐盐生植物;叶为全栅型,且同化枝具有发达的维管柱,占同化枝直径的60%以上,此外,其同化枝及叶的表皮细胞外凸形成乳状突,是一种环境胁迫指示结构.这些特征均能说明梭梭和多枝柽柳具有很好的抗旱、耐盐碱能力,且作为荒漠环境的优势树种,它们对荒漠生态系统的恢复和重建有积极意义.     

运城盐湖4种藜科盐生植物叶的比较解剖研究

应用扫描电镜和光学显微镜对山西运城盐湖周围盐渍环境中4种藜科(Chenopodiaceae)盐生植物叶的结构进行了比较解剖研究.结果表明,碱蓬(Suaeda glauca Bunge)和盐地碱蓬(Suaeda salsa (Linn.) Pall.)属真盐生植物,结构特征相似:叶线形、肉质化,表皮上气孔器密集,叶肉具有发达的储水组织细胞和栅栏组织.灰绿藜(Chenopodium glaucum Linn.)和西伯利亚滨藜(Atriplex sibirica Linn.)为泌盐盐生植物,其中,灰绿藜具有双细胞构成的盐腺,西伯利亚滨藜则具有盐囊泡,此外,两种泌盐盐生植物中存在的异细胞和含晶细胞,对适应盐生环境有积极意义.从表皮细胞来看,4种植物的叶都有相同的适盐特征.总之,4种藜科盐生植物的叶片结构具有适盐的共同性和个体的多样性特征.     

运城盐湖4种藜科盐生植物叶的比较解剖研究

应用扫描电镜和光学显微镜对山西运城盐湖周围盐渍环境中4种藜科（Chenopodiaceae）盐生植物叶的结构进行了比较解剖研究。结果表明,碱蓬（Suaeda glauca Bunge）和盐地碱蓬（Suaedasalsa（Linn．）Pall．）属真盐生植物,结构特征相似：叶线形、肉质化,表皮上气孔器密集,叶肉具有发达的储水组织细胞和栅栏组织。灰绿藜（Chenopodium glaucum Linn．）和西伯利亚滨藜（Atriplex sibirica Linn．）为泌盐盐生植物,其中,灰绿藜具有双细胞构成的盐腺,西伯利亚滨藜则具有盐囊泡,此外,两种泌盐盐生植物中存在的异细胞和含晶细胞,对适应盐生环境有积极意义。从表皮细胞来看,4种植物的叶都有相同的适盐特征。总之,4种藜科盐生植物的叶片结构具有适盐的共同性和个体的多样性特征。     

新疆10种沙生植物旱生结构的解剖学研究

新疆１０种沙生植物的形态解剖研究表明,它们为适应沙生环境形态结构发生变化。叶器官的形态呈三种类型：叶片退化成膜质或鳞片状,而由同化枝执行光合功能;叶片上下都具栅栏组织,表皮角质膜厚,表皮毛发达,气孔下陷,输导组织和机械组织都发达;叶片肉质化,叶肉组织不分化,贮水组织发达而输导组织不发达。轴器官中厚壁组织发达,围绕维管组织,维管组织内部也有发达的厚壁组织。根中普遍具有周皮,一些植物存在异常的维管组织,部分植物还具有粘液细胞或结晶。沙生植物形成各种旱生结构,以不同的方式适应沙生环境。     

四种野生盐生植物解剖结构与抗旱耐盐性

为了解盐生植物的解剖结构与抗盐性和抗旱性的关系,以二色补血草、草木樨,艾蒿、猪毛菜为材料,通过徒手切片和显微观察了植物的叶、茎、腺毛、分泌腔、气孔、表皮毛分布和结构。结果显示:猪毛菜的气孔密度低、气孔器小,表皮毛密集,叶面积小,抗旱能力最强;艾蒿的表皮毛长、浓密,气孔密度较低、气孔较小,抗旱性较强;二色补血草表皮毛短、密集,但气孔密度较高、气孔器较大,抗旱性较差;草木樨表皮毛短、稀疏,气孔密度较高、气孔也较大,抗旱性最差;二色补血草有发达的内分泌和外分泌组织,根系吸收的大量盐份积累在分泌腔中,并通过盐腺排出叶片,是排盐植物,耐盐性强;猪毛菜具有发达的内分泌组织,有大量分泌腔,且有粘液细胞和大量薄壁细胞,是耐盐植物,耐盐性强;草木樨具有较多的盐腺,是泌盐植物,耐盐性较强;艾蒿无盐腺等分泌组织。猪毛菜可以作为盐碱地"生物脱盐器"。     

五种C4荒漠植物光合器官中含晶细胞的比较分析

为了探讨荒漠植物适应干旱环境的机理,选择光合器官发生很大变化的5种C4荒漠植物进行了解剖结构的对比研究。结果表明,这5种植物中含晶细胞的数量、大小、形态和分布位置等存在差异。白梭梭（Haloxylon persicum）和梭梭（H.ammodendron）的同化枝普遍具有含晶细胞;沙拐枣（Calligonum mongolicum）的含晶细胞很少,一般只分布在贮水组织或靠近栅栏组织处;木本猪毛菜（Salsola arbuscula）的含晶细胞也不多,主要分布在栅栏组织和表皮细胞之间;猪毛菜（S.collina）的含晶细胞更少,仅在贮水组织中偶尔可见晶簇。比较梭梭、白梭梭和沙拐枣同化枝不同部位的解剖结构发现,梭梭同化枝基部含晶细胞最多,中部次之,顶部最少;白梭梭同化枝项部的含晶细胞数量较多,中部及基部较少;沙拐枣同化枝顶部与基部的粘液细胞较多,中部较少,基部几乎没有栅栏组织,而其维管组织较为发达。综合晶体的酸碱溶解性及硝酸银组化分析结果,并参照能谱仪的分析结果得知,梭梭、白梭梭、沙拐枣和木本猪毛菜的叶片或同化枝中所含晶体的主要成分为草酸钙。通过比较解剖结构发现,梭梭和白梭梭的同化枝中含晶细胞最多,其它3种植物的同化器官中含晶细胞较少,而沙拐枣同化枝中有粘液细胞存在。     

北疆荒漠几种盐生(耐盐)植物抗逆附属结构的初步研究

利用石蜡切片、扫描电镜、临时装片等方法,对北疆荒漠的3种藜科植物—灰绿藜、费尔干猪毛菜、蒙古猪毛菜和1种菊科植物—花花柴的表皮附属结构进行了显微和超微观察研究。结果表明:(1)对四种植物的解剖结构观察显示,其叶片都含有角质层;气孔器下陷;茎中含有大量的维管束;多数种的细胞中含有簇状晶体结构;(2)四种植物表皮附属结构研究表明:花花柴表皮具有多细胞组成的盐腺和表皮毛结构;灰绿藜表皮有大量囊泡结构;蒙古猪毛菜叶表皮有短硬毛和乳突状结构;费尔干猪毛菜表皮具大量表皮毛,且表皮毛有节。上述结构和特征反映出不同植物对干旱、盐碱土生境适应的多样性,也为旱生和盐生植物的生理学研究提供了新的实验依据。     

五种C4荒漠植物光合器官中含晶细胞的比较分析

 为了探讨荒漠植物适应干旱环境的机理, 选择光合器官发生很大变化的5种C₄荒漠植物进行了解剖结构的对比研究。结果表明, 这5种 植物中含晶细胞的数量、大小、形态和分布位置等存在差异。白梭梭(Haloxylon persicum)和梭梭(H. ammodendron)的同化枝普遍具有含晶细 胞; 沙拐枣(Calligonum mongolicum)的含晶细胞很少, 一般只分布在贮水组织或靠近栅栏组织处; 木本猪毛菜(Salsola arbuscula)的含晶细 胞也不多, 主要分布在栅栏组织和表皮细胞之间; 猪毛菜(S. collina)的含晶细胞更少, 仅在贮水组织中偶尔可见晶簇。比较梭梭、白梭梭和 沙拐枣同化枝不同部位的解剖结构发现, 梭梭同化枝基部含晶细胞最多, 中部次之, 顶部最少; 白梭梭同化枝顶部的含晶细胞数量较多, 中部 及基部较少; 沙拐枣同化枝顶部与基部的粘液细胞较多, 中部较少, 基部几乎没有栅栏组织, 而其维管组织较为发达。综合晶体的酸碱溶解性 及硝酸银组化分析结果, 并参照能谱仪的分析结果得知, 梭梭、白梭梭、沙拐枣和木本猪毛菜的叶片或同化枝中所含晶体的主要成分为草酸钙 。通过比较解剖结构发现, 梭梭和白梭梭的同化枝中含晶细胞最多, 其它3种植物的同化器官中含晶细胞较少, 而沙拐枣同化枝中有粘液细胞存 在。     

阜康荒漠植被灌木与半灌木种群生态位的研究

 通过测算三维生态因子梯度上阜康荒漠植被灌木与半灌木种群的生态位宽度和生态位重叠,结果表明;阜康荒漠植被灌木、半灌木按生态位宽度可分成4类,类群Ⅰ包括红砂(Reaumuria soongorica)和梭梭(Haloxylon ammodendron);类群Ⅱ包括白刺(Nitraria sibirica)、盐爪爪(Kalidium foliatum)、囊果碱蓬(Suaeda physophora)、里海盐爪爪(K．caspicum);类群Ⅲ包括多枝柽柳(Tamarix ramosissima)、长穗柽柳(T．elongata)、短穗柽柳(T．laxa)和无叶假木贼(Anabasis aphylla);类群Ⅳ包括黑果枸杞(Lycium ruthenicum)、粗枝猪毛菜(Salsola subcrassa)和盐节木(Halocnemum strobilaceum)。根据生态位重叠矩阵,红砂和梭梭间生态位重叠较大;盐爪爪、囊果碱蓬、里海盐爪爪、多枝柽柳、长穗柽柳间重叠较大;白刺、短穗柽柳、无叶假木贼、黑果枸杞、粗枝猪毛菜和盐节木与其它种的重叠值均较小。     

山东滨海盐生植物叶结构的比较研究

通过对１１科１４属１４种滨海盐生植物的叶焉结构的比较研究表明：（１）生长在同一盐生环境中的１４种植物,其中片具有许多结构的共同适应特征,如表皮细胞大小不等,外切向壁外突;栅栏组织发达;存在结晶细胞,单宁细胞和贮水细胞;机械绷带和维管组织都不发达等。     

关于野大豆盐腺问题的探讨

以中国3个省的盐生野大豆(Glycine soja Sieb. et Zucc.)为材料,在沙基培养、溶液培养和大田种植3种种植条件下用不同浓度的盐处理,观测了茎叶表面附着物的形态分布和腺毛的超微结构,测定了叶片腺毛分泌物中和叶片组织内部Na^ 和Cl^-的含量变化,并对腺毛的3个细胞以及表皮细胞和叶肉细胞内的Na^ 相对含量变化进行了X射线微区分析。结果发现：盐生野大豆茎叶表皮上生长的附着物中只有表皮毛和腺毛,腺毛的形态类似于禾本科植物中的一些盐腺,叶片上的腺毛均生长在叶脉上;腺毛细胞内部结构具有一般盐腺的特点,如有大液泡,稠密的细胞质,大量的线粒体、叶绿体、胞间连丝以及较厚的细胞壁等。通过测定在无盐对照、盐处理和盐处理加盐腺泌盐抑制剂条件下盐生野大豆叶片腺毛分泌物中和叶片组织内部的Na^ 和Cl^-含量,结果显示,盐生野大豆腺毛具有泌盐功能,加入泌盐抑制剂后,其泌盐作用停止;腺毛的3个细胞以及表皮细胞和叶肉细胞内的Na^ 在不同的盐浓度下的微区定位分析结果表明,盐生野大豆叶片的腺毛细胞有较强的积累Na^ 的能力。综合分析认为,盐生野生大豆的腺毛就是具有泌盐功能的盐腺,没有发现其他类型的盐腺。     

獐茅盐腺形态结构及其泌盐性

显微观察结果显示,獐茅盐腺为典型的双细胞结构,主要分布在叶脉附近,这样有利于它快速收集来自根部的盐离子。同时,X-ray微区分析结果表明,獐茅盐腺可以有效地将Na^＋从表皮细胞和叶肉细胞转运到基细胞,由帽细胞分泌到体外,从而降低植物体内盐分水平以适应盐渍环境。用不同盐类处理材料,獐茅对Na^＋、K^＋和Ca^2＋的吸收和分泌均表现为具有不同的选择性,分泌量的顺序为Na^＋〉K^＋〉Ca^2＋,并且仅仅24h内,盐分的分泌量就已经超过了叶片内的含量,结果植株体内的总离子含量水平几乎不变,说明獐茅具有较强的泌盐能力。     

Salt effects on membranes of the hypodermis and mesophyll cells of Avicennia germinans (Avicenniaceae): a freeze-fracture study

Freeze-fracture electron microscopy was used to investigate intramembranous particle (IMP) densities and particle distributions in the plasma membrane and tonoplast of the cells of secreting and nonsecreting leaves of Avicennia germinans (L.) Steam. Intramembranous particle densities of the protoplasmic (P) and exoplasmic (E) face of the plasma membrane and tonoplast were significantly higher in hypodermal cells of secreting leaves than of nonsecreting leaves. In contrast, no significant differences in the frequency of intramembranous particles were found in any membrane faces of secreting or nonsecreting mesophyll cells. However, particle densities were higher in the plasma membrane and tonoplast of the mesophyll cells, compared to the hypodermal cells, with the exception of the P-face of hypodermal plasma membranes of secreting tissue, which had the highest particle density measured. Particle distributions were dispersed and no discernible patterns such as paracrystalline arrays or other multi-IMP structures were observed. Results support the hypothesis that secretion is coupled to changes in membrane ultrastructure, and the possibility that salt secretion is an active process driven by integral membrane proteins such as the H⁺/ATPase. Additionally, the hypodermal cells of the leaf may function as storage reservoirs for salt as well as water, suggesting a regulatory role in salt secretion.     

盐生植物星星草叶表皮具有泌盐功能的蜡质层

利用扫描电镜和 X射线电子探针研究了星星草 (Puccinellia tenuiflora)的叶表皮及其与生境高盐的关系。结果表明 ,叶表皮由表皮细胞和气孔器组成 ,下表皮气孔器多于上表皮 ,且常下陷 ,表皮具表皮毛。表皮细胞外存在丰富的蜡质纹饰和蜡质颗粒 ,这些蜡质包含盐离子 ,具有泌盐的功能。这些特征表明星星草受外界生态因素的影响 ,而演化出具有泌盐功能的蜡质层来适应所生长的高盐生境     

Contribution of NaCl excretion to salt resistance of Aeluropus littoralis (Willd) Parl

Aeluropus littoralis is a perennial halophyte, native to coastal zones. Although it is usually exposed to high saline, this plant grows normally without toxicity symptoms. In order to assess leaf salt excretion, different growth parameters, Na(+), K(+), Ca(2+), Mg(2+) and Cl(-) concentrations, as well as excreted ions were examined in plants grown for 2 months in the presence of various salinity levels (0-800 mM NaCl). In addition, salt crystals, salt glands and other leaf epidermal structures were investigated. Results showed that total plant growth decreased linearly with increase to medium salinity. This reduction concerns mainly shoot growth. In addition, this species was able to maintain its shoot water content at nearly 50% of the control even when subjected to 800 mM NaCl. Root water content seemed to be unaffected by salt. Sodium and chloride ion contents in shoots and in roots increased with salinity concentrations, in contrast to our observation for potassium. However, calcium and magnesium contents were not greatly affected by salinity. Excreted salts in A. littoralis leaves were in favor of sodium and chloride, but against potassium, calcium and magnesium which were retained in plants. Sodium and chloride were excreted from special salt glands, which were scattered on the both leaf surfaces. In addition to salt glands, papillae were the most frequent epidermal structure found on A. littoralis leaves, and are likely involved in A. littoralis salt resistance.     

毛乌素沙地10种重要沙生植物叶的形态结构与环境的关系

10种重要沙生植物叶器官的比较解剖学研究表明其普遍特征是;叶片的表面积与体积比值小;叶表具表皮毛和厚的角质膜;气孔下陷、具孔下室;叶肉中栅栏组织发达;叶各类组织中普遍有含晶细胞和粘液细胞,具有发达的机械组织和输导组织。个别植物叶退化而由同比枝行使光合作用;部分植物具皮下层和异细胞层,以及具异常结构,以上特征是适应沙漠干旱环境的结果,反映出植物形态结构与环境的统一性。     

Salt excretion from the salt glands in Rhodes grass (Chloris gayana Kunth) as evidenced by low-vacuum scanning electron microscopy

Some salt-tolerant plants belonging to the Poaceae excrete salts to the leaf surfaces under salinity conditions, and the bicellular glands on their leaf surfaces have been postulated to excrete salt. However, clear evidence of the salt excretion from these bicellular salt glands has not been shown at the electron-microscope level because soluble attachments on the leaf surface are completely removed during specimen preparation for conventional electron microscopy. To determine whether the bicellular salt glands actually excrete salt, we examined the leaves of Rhodes grass (Chloris gayana Kunth), Poaceae, by scanning electron microscopy in a low-vacuum mode, which allows to observe specimens without preparation procedures. Unwashed and washed fresh leaf surfaces were examined, and excreted materials on the leaf surface were analyzed by energy dispersive X-ray spectrometry. On the unwashed leaf surfaces, globular materials were observed arranged along the same lines as the macrohairs of the leaf surface, but the salt glands were hardly observed. After leaf surfaces were washed, the globular materials disappeared, and the salt glands appeared localized at the same lines as the macrohairs. Density of the globular materials observed under unwashed conditions and the salt glands under washed conditions was equal. These findings indicate that the glands indeed excrete globular materials just above their cap cells. The excreted materials contained sodium, chlorine, and potassium, and the counts of sodium and chlorine was increased greatly with NaCl treatment of the plants. After removing the excreted materials, most of the cap cells of the salt glands were smooth globular, without ruptures in their cuticle. We conclude that the leaves of Rhodes grass indeed excrete salt from the bicellular salt glands, but without rupturing the cuticle on the cap cell.     

Salt excretion through the cuticle without disintegration of fine structures in the salt glands of Rhodes grass (Chloris gayana Kunth)

Some salt-tolerant plants belonging to the Poaceae possess bicellular salt glands that excrete salt-containing water. To clarify the excretion process from the outer cell of the bicellular salt gland (cap cell), unwashed and washed fresh leaves of Rhodes grass (Chloris gayana Kunth), Poaceae, were cryo-fixed rapidly, and the surface fine structures of the leaves were observed by cryo-scanning electron microscopy with high resolution. The cuticle on the cap cell did not have any pores or signs of rupturing. The cuticle of the cap cells lacks the epicuticular waxes that cover most surfaces of leaf epidermis. After excreted droplets on the salt glands were completely removed by washing with water, re-excreted droplets were observed 3 h later. These findings indicate that the bicellular salt glands of Rhodes grass excrete salt-containing water continuously through the wax-free cuticle of the cap cell without disintegration of the cuticular structure.     

蕾期土壤盐度降低后棉花叶片的生理功能恢复

试验于2011—2012年在江苏南京江苏省农业科学院经济作物研究所试验田进行,采用盆栽方法,以鲁棉研37号和苏棉22号为供试材料,设置土壤盐度降低试验(初始土壤含盐量为0.2%,棉花进入二叶期后每7d加入混合盐1次,每次增加0.1%,使土壤含盐量逐渐达到0.5%,蕾期进行盐度降低处理,使土壤含盐量降低到0.2%左右),研究蕾期土壤盐度降低后棉花叶片的生理代谢动态特征。结果表明:土壤盐度降低后,棉花叶片叶绿素(Chl)、类胡萝卜素(Car)含量和Chl/Car升高;净光合速率和气孔导度升高,且分别在土壤盐度降低后第14天和7天接近于低盐对照;土壤盐度降低后棉花叶片超氧化物歧化酶(SOD)和过氧化物酶(POD)活性升高,过氧化氢酶(CAT)活性和丙二醛(MDA)含量降低,MDA含量在土壤盐度降低后第14天接近于低盐对照;土壤盐度降低后棉花叶片中可溶性糖、游离氨基酸和脯氨酸含量降低,且接近于低盐对照。上述结果表明土壤盐度降低后,棉花叶片生理功能逐渐恢复,进而实现棉花生长发育的恢复补偿。棉花叶片生理功能在土壤盐度降低后的恢复能力存在品种间差异,鲁棉研37号较苏棉22号叶片生理功能表现出更强的恢复能力。     

Comparative transcriptome analysis of developmental stages of the Limonium bicolor leaf generates insights into salt gland differentiation

With the expansion of saline land worldwide, it is essential to establish a model halophyte to study the salt‐tolerance mechanism. The salt glands in the epidermis of Limonium bicolor (a recretohalophyte) play a pivotal role in salt tolerance by secreting excess salts from tissues. Despite the importance of salt secretion, nothing is known about the molecular mechanisms of salt gland development. In this study, we applied RNA sequencing to profile early leaf development using five distinct developmental stages, which were quantified by successive collections of the first true leaves of L. bicolor with precise spatial and temporal resolution. Specific gene expression patterns were identified for each developmental stage. In particular, we found that genes controlling salt gland differentiation in L. bicolor may evolve in a trichome formation, which was also confirmed by mutants with increased salt gland densities. Genes involved in the special ultrastructure of salt glands were also elucidated. Twenty‐six genes were proposed to participate in salt gland differentiation. Our dataset sheds light on the molecular processes underpinning salt gland development and thus represents a first step towards the bioengineering of active salt‐secretion capacity in crops.