Measurement of porosity in very small samples of plant tissue

The relative volume of internal gas spaces (i.e., porosity) of the shoot and roots of a plant largely determines its resistance to flooding, as oxygen may diffuse through these cavities from non-flooded parts of the plant into the submerged tissues. The current techniques to measure porosity either need relatively large amounts of plant tissue (200 mg per sample), or are time-consuming and not sufficiently accurate for specific types of plant material. These limitations were the reason to develop a new method of porosity measurement. Small segments of roots were taken from freshly harvested plants, placed in a two-piece hard gelatin capsule and weighed on a microbalance. The root segments were subsequently infiltrated with water under vacuum, blotted carefully and weighed again. Using the increase in weight and the specific weight of infiltrated tissue, derived from a larger sample of roots, it was possible to calculate the porosity of individual root segments as small as 3–5 mg with a length of 5 mm. The new method combines this use of small samples with a high accuracy, and proved useful for a variety of plant species. Porosity data obtained with this method will improve our knowledge of small-scale processes such as aerenchyma development in root tips.     

An intensive understanding of vacuum infiltration transformation of pakchoi (Brassica rapa ssp. chinensis)

Pakchoi (Brassica rapa L. ssp. chinensis), a kind of Chinese cabbage, is an important vegetable in Asian countries. Agrobacterium mediated in planta vacuum infiltration transformation has been performed in pakchoi since 1998, but a detailed study on this technique was lacking. Pakchoi plants 40-50 days old with inflorescences were vacuum infiltrated with Agrobacterium tumefaciens strain C58C1 harboring the binary vector pBBBast-gus-intron. The transformation frequency in the harvested seeds mainly varied from 1 x 10(-4) to 3 x 10(-4) over several years, and it was lower than the frequency in Arabidopsis thaliana. Transformants were obtained from both the upper and the lower parts of the infiltrated plants with or without an elongated inflorescence. Stained ovules and pollen grains were found in the unopened flower 13 days post-infiltration, which was about 0.5-1 mm in diameter at infiltration time with an open ovary as revealed by paraffin sections. Histochemical assays revealed that Agrobacteria were more abundant in the flower tissue than in stem and leaf tissues at all times after infiltration despite the sharp decrease of live Agrobacteria in plant 14 days post infiltration as revealed by the colony forming units on the Agrobacteria culture medium. The results of vacuum infiltration transformation of pakchoi and Arabidopsis thaliana were compared and a strategy to optimize the transformation conditions to increase the transformation frequency in pakchoi was discussed.     

An Ice-Solvent Method of Drying Frozen Tissue for Plant Cytology

A freeze-dry method where cold absolute ethanol is used as a dehydrating agent in place of vacuum dehydration has been applied to various plant materials with good cytological results. The method involves: (a) freezing rapidly small pieces of tissue 1 cubic mm or less in partly frozen isopentane cooled with liquid nitrogen, (b) transferring quickly to vials of cold absolute ethanol at -41° to -45°C, and (c) holding within this temperature range for 3 days to dissolve the ice. A simply constructed cryostat is used to maintain the vials of absolute alcohol and tissue at the cold temperature. This consists of a semi-frozen constant temperature bath of either 65% ethanol or pure diethyl oxalate in a tightly covered beaker which fits within a large dewar flask half filled with dry ice. The bath is arranged so that it will be on top of and in contact with the dry ice but properly insulated to prevent freezing completely.

The resulting dried tissue is very unstable in either water or hot absolute ethanol; therefore, to prevent loss of cytological detail during further processing, the tissue must be treated to render the proteins insoluble. Either (a) replace the cold absolute ethanol in the tissue vials with cold (approx. -40°C) 75% ethanol, warm slowly to 60°C, and hold for 1 hour, or (b) replace with cold acidulated 95% ethanol (100 ml. of 95% ethanol + 0.30 ml. of glacial acetic acid), warm to room temperature, and hold for 30 minutes. Following either treatment the tissues are dehydrated to absolute alcohol and embedded in paraffin by the usual technics. Sections are attached to slides by flattening over warm water and drying.

When epidermis from onion bulbs was used as a basis of comparison of fixed and living material with the phase-contrast microscope, the mitochondria, plastids, and other fine structures in fixed preparations appear to be nearly identical with the living. Fat droplets disappear. With larger tissues such as onion root tips, thin freehand sections must be prepared before freezing to obtain good cytological results. The application of the method to cytochemical studies is discussed and in many ways it seems to be as useful as the freeze vacuum-dry method.     

香蕉果实冻干过程参数优化的研究

对香蕉果实冻干生产工艺中的物料厚度、冻结方法、加热板温度、干燥室真空度等参数进行比较试验,结果表明,各过程参数对香蕉冻干品质量和产量均有显著的影响。香蕉冻干过程中参数较佳的工艺条件建议为物料厚度选取5~7 mm,采用速冻方法冻结,加热板温度设定45℃,干燥室真空度控制于20~30 Pa。     

黑果枸杞功能性状对氮磷添加的响应及其可塑性

分析养分添加对荒漠植物功能性状的影响,对揭示其响应和适应环境变化的规律至关重要.本研究以黑果枸杞为材料,设置3个氮磷(NP)添加量(低、中、高)和N/P(5∶1、15∶1、45∶1),量化分析了整株、根、茎、叶和果实性状对NP添加的响应.结果 表明:黑果枸杞功能性状差异化响应了NP添加量和比例,随NP添加量的增加,生物...     

海拔对青海湖流域群落水平植物功能性状的影响

海拔变化会引起气压、温度、降水、土壤湿度和风速等环境因子发生急剧变化, 植物功能性状-海拔的相互关系对于预测全球变化背景下山地植物的适应方式具有重要意义。该研究在青海湖流域海拔3 400-4 200 m范围内布设了5个样地(海拔间隔约200 m), 通过植物群落调查, 测定植物功能性状和土壤理化性质, 结合气象数据, 探讨了海拔对青海湖流域群落水平植物功能性状的影响。结果如下: (1)群落加权平均植株高度(H)、叶片干物质含量(LDMC)、叶片碳氮比(C:N)和叶片氮磷比(N:P)随海拔升高显著降低, 比根表面积(SRA)随海拔升高波动下降, 比叶面积(SLA)、叶片氮含量(LNC)和叶片磷含量(LPC)随海拔升高显著升高, 叶片碳含量(LCC)、比根长(SRL)和根组织密度(RTD)随海拔未发生显著变化。(2)所有性状的变异来源以物种组成变化为主, N:P和LPC的种内性状变异与物种组成变化呈现正的协变效应, 其余性状为负的协变效应。(3)降水和0- 10 cm土层土壤养分含量对SLA变化的解释率较高, 温度和10-20 cm土层土壤养分含量对其余性状随海拔变化的解释率较高。以上结果表明青海湖流域植物群落主要通过物种更替来适应随海拔升高而剧烈变化的环境, 且各群落中的非优势种倾向于占据与优势种相反的性状空间来提高资源利用率, 随海拔变化的热量和深层土壤养分含量是群落水平植物功能性状变化的主要影响因子。     

Light-enhanced Chloride Uptake by Wheat Laminae: A Comparison of Chopped and Vacuum-infiltrated Tissue

The time course of (36)Cl(-) uptake from 5 mm KCl by 1.5-mm leaf segments of Triticum aestivum L. seedlings has been determined over 24 hours both in the light and in the dark. A light-enhanced uptake of Cl(-) develops after a few hours. Using whole laminae which have been water-injected by vacuum infiltration, a light-enhanced uptake is apparent from zero time. Uptake values achieved in the light by the two types of tissue are similar but in the dark there is a restricted uptake by the whole infiltrated laminae. It is considered that the slower uptake by whole laminae relative to chopped tissue in the dark is due to cuticular resistance to solute penetration, whereas in the light the impediment is overcome by stomatal opening. A light-enhanced uptake unrelated to stomatal opening is discernible in both tissues. Its energetic basis has not been defined but may be related to substrate exhaustion. The absorption mechanism is not impaired by vacuum infiltration.     

植物材料快速石蜡制片方法

真空干燥箱已越来越广泛地应用于现代生物学研究领域。该文利用真空干燥箱温度和负压的可控制性能,将固定、脱水、透明和石蜡渗透等过程在真空干燥箱中进行,建立起一套可行的植物组织快速石蜡制片方法。结果显示,真空干燥箱的应用加速了多种试剂的渗透速率,提高了切片质量,达到了优化实验步骤、节省实验时间和减少室内有毒化学气体污染的目的。     

Root growth and water relations of oak and birch seedlings

Summary First year seedlings of English oak (Quercus Cobur) and silver birch (Betula pendula) were subjected to pressure-volume analysis to investigate the water potential components and cell wall properties of single leaves. It was hoped that this rapid-drying technique would differentiate between reductions in plant solute potential resulting from dehydration and the effects of solute accumulation.Comparison of results from these experiments with those of slow drying treatments (over a number of days) with plants growing in tubes of soil, indicated that some solute accumulation may have occurred in drying oak leaves. High leaf turgor and leaf conductance were maintained for a significant period of the drying cycle. Roots of well-watered oak plants extended deep into the soil profile, and possibly as a result of solute regulation and therefore turgor maintenance, root growth of unwatered plants was greater than that of their well-watered counterparts. This was particularly the case deep in the profile. As a result of deep root penetration, water deep in the soil core was used by oak plants to maintain plant turgor, and quite low soil water potentials were recorded in the lower soil segments.Root growth of well-watered birch seedlings was prolific but roots of both well-watered and unwatered plants were restricted to the upper part of the profile. Root growth of unwatered plants was reduced despite the existence of high soil water potentials deep in the profile. Shallow rooting birch seedlings were unable to use this water.Pressure-volume analysis indicated that significant reductions of water potential, which are required for water uptake from drying soil, would occur in oak with only a small reduction in plant water content compared to the situation in birch. This was a result of the low solute potential in oak leaves combined with a high modulus of elasticity of cell walls. Deep rooting of oak seedlings, combined with these characteristics, which will be particularly important when soil deep in the profile begins to dry, mean that this species may be comparatively successful when growing on dry sites.     

青藏高原20种灌木抗旱形态和生理特征

该研究以青藏高原地区采集的柠条锦鸡儿(Caragana korshinskii)等20种灌木树种为研究对象, 将其二年生幼苗移栽至苗圃培育, 通过田间试验测定三年生苗木生物量根冠比(RSR)、叶片蒸腾速率(T_r)、瞬时水分利用效率(WUE_i)、稳定碳同位素组成(δ¹³C)、叶片解剖结构特征和根系特征(长度、表面积、体积和根尖数)指标, 综合分析其抗旱性能差异, 为青藏高原干旱地区灌木树种抗逆性(耐旱)评价指标的建立、优良抗逆性树种的筛选及各种灌木树种的合理立地配置提供必要的理论依据。研究结果表明: 所选20种灌木为适应长期的干旱逆境, 不同植物种具有不同的抗旱策略。研究中将灌木抗旱机制划分为6个类型: 根系特征抗旱型、叶片旱生结构型、叶片旱生形态型、生物量分配型、节水型、高水分利用效率型。不同属和同属不同种灌木抗旱性有所差异, 沙棘属(Hippophae)植物总体抗旱性不佳, 而金露梅(Potentilla fruticosa)、豪猪刺(Berberis julianae)、树锦鸡儿(Caragana arborescens)、绣线菊(Spiraea salicifolia)和蒙古沙棘(Hippophae rhamnoides ssp. mongolica)综合抗旱性能较好, 总体上属于根系和叶片抗旱特征明显、低耗水、高生产效率的抗旱性强树种, 可以在青藏高原地区植被恢复树种筛选时优先考虑。根系特征值之间存在极显著正相关关系, 叶片结构特征指标之间也存在不同程度的相关关系, 但RSR、T_r、WUE_i和δ¹³C与根系特征值和叶片解剖结构特征指标之间总体上相关性不显著。主成分分析结果显示灌木全根和细根的长度、表面积、体积、根尖数和叶片栅栏组织厚度、海绵组织厚度、瞬时水分利用效率因子载荷较高, 能较好地反映青藏高原灌木树种抗旱性差异相关信息。此外, 灌木树种原产地与抗旱性也存在一定的联系, 青海西宁地区采集的灌木树种总体抗旱性优于甘肃天水和西藏拉萨地区。     

Morphological traits and physiological characteristics in drought tolerance in 20 shrub species on the Qinghai-Xizang Plateau

Aims Providing indispensably theoretical evidence for establishing indices of evaluation on drought tolerance in shrubs, and screening for tree species that are drought tolerant for afforestation in arid regions or for matching their characteristics with suitable habitat conditions are the key to vegetation restoration in the Qinghai-Xizang Plateau. However, these issues are not adequately addressed in recent research due to lack of systematic methods. Therefore, our objective was to make a comprehensive evaluation on drought tolerance in 20 shrub species collected from different areas in Qinghai-Xizang Plateau, and to study their underlying mechanisms in drought tolerance.
Methods We made measurements on variables depicting root characteristics, including the root length (TRL), surface area (TRSA), volume (TRV), and tips number (TRTN) of all roots, the root length (FRL), surface area (FRSA), volume (FRV), and tips number (FRTN) of fine roots (d≤2 mm), and derived plant characteristic indices including thickness of cuticle (CT), thickness of palisade tissue (TPT), thickness of spongy tissue (TST), TPT/TST, thickness of leaf (LT), palisable tissue cell density, and tissue structural tense ratio (CTR = TPT/LT × 100%) and spongy tissue loosened ratio (SR = TST/LT × 100%) of leaf anatomical structure, root to shoot ratio (RSR), leaf transpiration rate (T_r), instantaneous water use efficiency (WUE_i), and carbon isotopic composition (δ¹³C) of the 20 shrub species through field experiments. Correlation analysis and principal component analysis were performed on the 19 variables and indices.
Important findings Different shrubs had different mechanisms of drought tolerance. In this study, the character- istics of drought tolerance were mainly categorized into 6 types, involving modifications of (1) root systems, (2) leaf anatomical structure, (3) leaf pattern, and (4) biomass allocation, or via (5) low water-consumption and (6) high WUE_i. Different genera or different tree species within the same genus clearly differed in drought tolerance. The species of the genus Hippophae were relatively poorly tolerant to drought, whereas several shrubs including Potentilla fruticosa, Berberis julianae, Caragana arborescens, Spiraea salicifolia and Hippophae rhamnoides ssp. mongolica occurred to be more drought tolerant than other shrub species investigated in this study. On the other hand, there were highly significant correlations among the characteristics of root systems and among characteristics of leaf anatomical structure. The results of principal component analysis on 19 variables and indices showed that TRL, TRSA, TRV, TRTN, FRL, FRSA, FRV, FRTN, CT, TPT, TST and WUE_i could be effective indicators of drought tolerance of shrubs in the Qinghai-Xizang Plateau. In addition, the drought tolerance of shrubs had a close connection with their origin of collections; the shrubs collected from Xining prefecture in Qinghai Province were more drought tolerant than those from Tianshui Prefecture in Gansu and Lasa Prefecture in Xizang.     

Histoautoradiographic Localization of Calcium in Oat Plant Tissues

The leaching of water-soluble and exchangeable calcium in histoautoradiog-raphy of oat tissue can be prevented by using acetone as the dehydration fluid (freeze substitution technique) and by keeping the tissue sections, while stretching on water, embedded in the methacrylate matrix. Ca⁴⁵ was either added to the mineral solution on which the oat plants were grown (75 μc), or applied on the leaf surface (8 μc). After freezing in melting isopentane, specimens of 1-2 mm dimensions are fixed for 24 hr in an acetone-OsO₄ (1%) solution at—80 C. Dehydration is obtained by transferring the material every day for 6 successive days to a fresh acetone solution at—80 C. The material is infiltrated by a three-time renewed monomer methacrylate mixture (methylmethacrylate I, butylmethacrylate 4) at—50 C. The specimens are embedded in the polymerizing methacrylate mixture at room temperature. Sections of 4-8 μ are easily cut with a rotating microtome. If the methacrylate is not removed from the sections, they can be stretched on water without leaching of calcium. The presence of methacrylate in no way hinders microscopic observation nor effective histoautoradiography.     

Notes of Technic

The leaching of water-soluble and exchangeable calcium in histoautoradiog-raphy of oat tissue can be prevented by using acetone as the dehydration fluid (freeze substitution technique) and by keeping the tissue sections, while stretching on water, embedded in the methacrylate matrix. Ca⁴⁵ was either added to the mineral solution on which the oat plants were grown (75 μc), or applied on the leaf surface (8 μc). After freezing in melting isopentane, specimens of 1-2 mm dimensions are fixed for 24 hr in an acetone-OsO₄ (1%) solution at—80 C. Dehydration is obtained by transferring the material every day for 6 successive days to a fresh acetone solution at—80 C. The material is infiltrated by a three-time renewed monomer methacrylate mixture (methylmethacrylate I, butylmethacrylate 4) at—50 C. The specimens are embedded in the polymerizing methacrylate mixture at room temperature. Sections of 4-8 μ are easily cut with a rotating microtome. If the methacrylate is not removed from the sections, they can be stretched on water without leaching of calcium. The presence of methacrylate in no way hinders microscopic observation nor effective histoautoradiography.     

武夷山49种木本植物叶片与细根经济谱

植物经济谱能够阐述维管植物在资源获取和储存之间的权衡策略, 为理解生态位分化和物种共存机制等提供科学依据。该研究通过对武夷山49种木本植物的单叶面积(ILA)、比叶面积(SLA)、叶碳含量(LCC)、叶氮含量(LNC)和叶磷含量(LPC)等5个叶片性状以及根组织密度(RTD)、比根长(SRL)、比根面积(SRA)、根碳含量(RCC)、根氮含量(RNC)和根磷含量(RPC)等6个细根性状进行测定, 探讨木本植物叶片与细根经济谱是否存在以及常绿和落叶物种间的植物经济谱差异。结果表明: 沿着性状贡献率相对较大的PC1轴, 能够定义出叶经济谱(LES)、根经济谱(RES)和整株植物经济谱(WPES)。大部分常绿物种分布在经济谱保守的一侧, 而大部分落叶物种聚集在获取的一侧。此外, 叶片PC1、细根PC1和整株植物PC1的两两得分之间均存在显著正相关关系, 常绿和落叶物种具有共同的异速指数, 但不存在共同的异速常数。这些结果揭示了亚热带物种叶片与细根的策略遵循着WPES的协调整合, 表明叶片、细根以及整株植物之间是采取协同变化的资源策略, 而分布于经济谱两端的常绿和落叶物种则是通过不同的方式来构建WPES。     

Double Embedding Broad Thin Leaves in Paraffin

Paraffin pellets were melted in 24 × 24 × 5 mm stainless steel base molds. Specimens of leaves, 18 × 18 mm, were fixed, dehydrated and infiltrated with paraffin. Two specimens were transferred into molten paraffin on their laminar surfaces in a base mold and moved quickly onto a cold surface to cast them in a shallow block of paraffin. Each block was then scored with a razor blade, broken into two primary blocks, and trimmed to 20 × 9 mm with 5 mm flat edges. Each primary block was immersed upright on its long edge in a 22 × 22 × 20 mm Peel-A-Way® embedding mold containing molten paraffin. The leaf edge was held centrally in the mold while moving the double embedment onto a cold surface. In this secondary block, the leaf specimen stood perpendicular to the sectioning surface in perfect orientation for transverse ribbon sectioning. The two phases of paraffin bonded well.     

降水差异对内蒙古温带草原植物根系和叶片功能性状的影响北大核心CSCD

植物能够调整叶片或根系功能性状的变化来适应气候变化,从而形成多样性的环境适应策略。该研究以内蒙古温带草原降水量存在差异的草原群落(较为湿润的多伦草原和较为干旱的正镶白旗草原)为研究对象,分别测定两个草原群落优势种(多伦20种和正镶白旗13种)和共有种(8种)的根系功能性状(根直径、比根长和根组织密度)和叶片功能性状(叶面积、比叶面积、叶干物质含量、叶碳含量、叶氮含量),分析根叶性状的变异规律及其关系,以探究草种对不同降水环境的适应策略,为不同降水区域草种的选择以及草原经营管理提供理论依据。结果显示:(1)随着降水量的变化,草种的根性状在两个群落间无显著差异,多伦草原植物的比叶面积显著高于正镶白旗草原,而叶干物质含量和叶碳含量则呈相反趋势;两个草原群落的单子叶禾草类植物根直径最小,比根长最大,叶干物质含量最高;单子叶百合科类植物的根组织密度最小,叶干物质含量和叶氮含量最低;双子叶非禾草类植物的根组织密度最大,比叶面积最高而叶面积最低。(2)随降水量的减少,两个群落共有种的叶面积、比叶面积降低,叶干物质含量和叶碳含量增加;其中,羊草、冰草、糙隐子草的直径增加,比根长和根组织密度降低,而猪毛蒿的直径和比根长则呈相反的趋势;糙隐子草、羊草、猪毛蒿的叶氮含量增加,冰草、克氏针茅叶氮含量降低。(3)主成分分析表明,单个草原或综合两个草原的植物根与叶性状几乎不相关。研究表明,单子叶禾草类植物的根系性状在降水变化中差异较为明显,而双子叶非禾草类植物基本没有变化;干旱对植物叶性状的影响大于根性状;在不同降水环境下,草原植物根系存在独特的资源获取方式,根与叶性状对环境变化的适应策略均具有独立性。     

Nonhydraulic signalling of soil drying in mycorrhizal maize

Our objectives were to (1) verify that nonhydraulic signalling of soil drying can reduce leaf growth of maize, (2) determine if a mycorrhizal influence on such signalling can occur independently of a mycorrhizal effect on leaf phosphorus concentration, plant size or soil drying rate, and (3) determine if leaf phosphorus concentration can affect response to the signalling process. Maize (Zea mays L. Pioneer 3147) seedlings were grown in a glasshouse with root systems split between two pots. The 2 x 3 x 2 experimental design included two levels of mycorrhizal colonization (presence or absence of Glomus intraradices Schenck & Smith), three levels of phosphorus fertilization within each mycorrhizal treatment and two levels of water (both pots watered or one pot watered, one pot allowed to dry). Fully watered mycorrhizal and nonmycorrhizal control plants had similar total leaf lengths throughout the experiment, and similar final shoot dry weights, root dry weights and leaf length/root dry weight ratios. Leaf growth of mycorrhizal plants was not affected by partial soil drying, but final plant leaf length and shoot dry weight were reduced in half-dried nonmycorrhizal plants. At low P fertilization, effects of nonhydraulic signalling were not evident. At medium and high P fertilization, final total plant leaf length of nonmycorrhizal plants was reduced by 9% and 10%, respectively. These growth reductions preceded restriction of stomatal conductance by 7 d. This and the fact that leaf water potentials were unaffected by partial soil drying suggested that leaf growth reductions were nonhydraulically induced. Stomatal conductance of plants given low phosphorus was less influenced by nonhydraulic signalling of soil drying than plants given higher phosphorus. Soil drying was not affected by mycorrhizal colonization, and reductions in leaf growth were not related to soil drying rate (characterized by time required for soil matric potential to drop below control levels and by time roots were exposed to soil matric potential below typical leaf water potential). We conclude that mycorrhizal symbiosis acted independently of phosphorus nutrition, plant size or soil drying rate in eliminating leaf growth response to nonhydraulic root-to-shoot communication of soil drying.Abbreviations and Symbols ANOVA analysis of variance - Cs stomatal conductance(s) - med medium - P probability - matric potential(s) - water potential(s) This work was supported by the U.S. Department of Agriculture grant No. 91-37100-6723 and a University of Tennessee Professional Development Research Award to R.M.A. We thank Angela Berry for the graphics.     

Gas and Liquids in Intercellular Spaces of Maize Roots

Oils are spontaneously absorbed by gas-filled intercellularspaces (IS) in maize root cortex. The network of these spacesin living root sections was imaged by confocal laser scanningmicroscopy using a fluorescent solution of Nile red in oil.The gas volume fraction (GVF) of root segments was quantifiedby the increase in weight (differentiated zones) or tissue density(2–3 mm root tips) due to complete vacuum infiltration.Cooling to 6 °C or inhibition of oxidative phosphorylationdiminished the GVF of root tips but did not significantly affectthe GVF of differentiated root zones. The threshold pressuredifference for measurable infiltration of isolated root segmentsis lower (10 to 15  kPa) than the threshold for infiltrationof comparable zones of attached roots or of detached roots withthe cut surface sealed (>60 kPa). In the absence of an opencut, pressure-driven infiltration of the root cortex is acceleratedby microscopic fissures within the epidermal/hypodermal barrier.The GVF of the root cortex was reduced after transferring rootsfrom sugar solutions (0.1 to 0.3M ) to water. This points toefficient water transport from the medium to sugar-containingcortical cell walls through epidermal and hypodermal protoplasts.When 2-cm-long primary roots were vacuum infiltrated in situand then allowed to grow on aerated mineral medium for a further5 d, cortical IS of the originally infiltrated root bases remainedfilled with liquid but the subsequently grown apical root zoneshad a normal GVF. Copyright 1999 Annals of Botany Company Apoplastic and protoplasmic route, maize, infiltration, intercellular spaces, oil absorption, confocal laser scanning microscope, water transport, Zea mays L.     

Ecophysiological responses of nine floodplain meadow species to changing hydrological conditions

Here, we investigated how species from different floodplain meadow plant communities differ in their ecophysiological responses to an abrupt change in hydrological conditions. We simulated two contrasting hydrological scenarios for 5 weeks under controlled conditions: the waterlogging of a mesophilic species mixture (flooding scenario) and the drying of a hygrophilic species mixture (drying scenario). The mesophilic mixture was composed of three characteristic species of dry habitats (dry species) and three indifferent species with regard to the hydrological conditions; the hygrophilic mixture was composed of three characteristic species of wet habitats (wet species) and the same three indifferent species. The flooding scenario induced a significant decrease in photochemical efficiency (F _v/F _m) of all species for at least one day, and four of these species did not readjust their F _v/F _m at the end of the experiment. The F _v/F _m of four species was significantly reduced by the drying scenario, but was readjusted within the time of the experiment. Significant leaf plastic responses were mainly detected under the drying scenario, through increasing specific leaf area (SLA) and decreasing leaf dry matter content (LDMC) for two indifferent species, and through decreasing SLA and increasing LDMC for two wet species. Finally, the flooding scenario significantly decreased the aboveground biomass of one dry species, but increased the aboveground biomass of the three indifferent species, suggesting an acclimation response to waterlogging through increasing shoot/root ratio. Since the dry species did not show ecophysiological acclimation to changing hydrological conditions (in contrast to the wet species and the indifferent species), this study demonstrated that mesophilic meadow communities should be particularly affected by a change from dry to wet conditions. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Locating Iodine in Tissues Autographically, Especially after Fixation by Freezing and Drying

The ability of radioactive elements to affect photographic emulsions enables the detection of radioactive iodine in the thyroid. By placing unstained histological sections of a thyroid (from an animal treated with radioactive iodine) in contact with the gelatin side of medium lantern slide plates, each accumulation of radioactive iodine in the section affects the photographic plate. After exposures prolonged for several days to several weeks depending on the amount of radioactivity in the tissues, the plate is developed and fixed by routine photographic methods. The histological section is stained and may be compared under the microscope to the reactions on the plate or “autographs”.

In an attempt to detect the location of the inorganic iodine which is displaced during fixation and embedding by ordinary methods because of its solubility, a simplified freezing-drying technic for fixation was devised which, at least with the thyroid, yielded well fixed sections. The quick freezing was obtained with acetone-dry-ice mixtures; and the drying was performed at -25° to -30° C. Preliminary addition of paraffin to the tube in which the drying was performed made possible the inclusion in vacuum by heating the tube when drying was completed. The tissue could then be sectioned at 10ju on the microtome. The slides were placed on photographic plates for detection of radioactive iodine as indicated above. Before staining, the sections were treated with absolute alcohol for denaturation of the proteins.