Structural Colour in Butterfly Apatura Ilia Scales and the Microstructure Simulation of Photonic Crystal

The butterfly Apatura ilia is a species in the Northeast of China. There are billions of tiny scales on its wings, which overlap like roof tiles and completely cover the membrane, appearing as dust to people naked eye. The scales produce brilliant structural colour through their multilayer microstructure. In this paper, the microstructure and geometrical dimension of the scales were observed using a Scanning Electron Microscope (SEM). The cross section micro-configuration of the purple scales was achieved using a Transmission Electron Microscope (TEM). The reflectivity of the wing was measured by a spectrometer. The 3D multilayer microstructure of the ridges was optimized to 1D photonic crystal structure. The spectrometer experimental graph is in accord with the 1D photonic crystal simulation curves basically. In the end, the phenomenon of the purple structural colour was explained through the Snell equation.     

Effects of Methanol on Wettability of the Non-Smooth Surface on Butterfly Wing

The contact angles of distilled water and methanol solution on the wings of butterflies were determined by a visual contact angle measuring system. The scale structures of the wings were observed using scanning electron microscopy, The influence of the scale micro- and ultra-structure on the wettability was investigated. Results show that the contact angle of distilled water on the wing surfaces varies from 134.0° to 159.2°. High hydrophobicity is found in six species with contact angles greater than 150°. The wing surfaces of some species are not only hydrophobic but also resist the wetting by methanol solution with 55% concentration. Only two species in Parnassius can not resist the wetting because the micro-structure （spindle-like shape） and ultra-structure （pinnule-like shape） of the wing scales are remarkably different from that of other species. The concentration of methanol solution for the occurrence of spreading/wetting on the wing surfaces of different species varies from 70% to 95%. After wetting by methanol solution for 10 min, the distilled water contact angle on the wing surface increases by 0.8°-2.1°, showing the promotion of capacity against wetting by distilled water.     

蛱蝶翅鳞片的超微结构观察

对我国东北地区典型常见蛱蝶科15属20种蝴蝶翅鳞片的超微结构进行了扫描电镜观察。结果显示：蛱蝶翅鳞片形态上可分为窄叶形、阔叶形和圆叶形3种,鳞片长65～135 μm,宽35～85 μm,间距48～112 μm。蛱蝶翅鳞片的超微结构可分为拱桥形、棋盘形和筛孔形3 种。拱桥形结构和棋盘形结构比较接近,二者与筛孔形结构差异较明显。在已观察的种类中,线蛱蝶属红线蛱蝶翅鳞片上的纵肋突起最小（200 nm×300 nm）,闪蛱蝶属柳紫闪蛱蝶翅鳞片上的纵肋突起最大（590 nm×560 nm）。鳞片具有相似的形状、结构和排列,尤其是同属蝴蝶翅鳞片超微结构的形状和尺寸差异较小,表明它们之间的亲缘关系接近。     

14种石斛属(兰科)植物的花粉团形态及分类学意义

利用体式显微镜和扫描电镜观察了14种石斛的花粉团形态及其表面纹饰超微特征,为该属的物种划分和系统演化提供花粉形态证据。解剖镜下,14种石斛的花药里有4枚花粉团,表面金黄油亮呈蜡质,质地坚硬。根据每种石斛的4枚花粉团的总体轮廓形态和大小,可分为3种形态(心形、近心形和长心形)和4种类型(极小花粉团,小花粉团,大花粉团和超大花粉团)。根据单个花粉团边界轮廓的曲直,可将其分为4种类型(月牙型、弓型、棍状和米粒型)。扫描电镜下,14种石斛的花粉团表面纹饰类型有5种(光滑平整型、光滑带丝状突起型、光滑不平整型、粗网纹状型和皱波状型),在广东石斛和球花石斛的花粉团表面观察到晶体的存在。花粉团的形态大小和外壁纹饰特征在种间变化明显,对澄清石斛属的分类学问题有一定意义。     

Scale Arrangement Pattern in a Lepidopteran Wing. 1. Periodic Cellular Pattern in the Pupal Wing of Pieris rapae

In most species of lepidopteran insects, anteroposterior rows formed by scales are arranged at regular intervals in the adult wing; within each row two kinds of scales are alternately arranged. To investigate the cellular basis for the scale arrangement pattern, we examined cell arrangement in the epidermal monolayer of the pupal wing of a small white cabbage butterfly, Pieris rapae , by scanning electron microscopy and light microscopy.
The arrangement of scale precursor cells, closely resembling that of scales in the adult wing, was observed in the wing epidermis of the early pupa. Scale precursor cells are proximodistally elongated and form anteroposterior rows. Within a row two kinds of scale precursor cells are nearly alternately arranged, which is not so precise as the alternation of scales in the adult wing. Individual rows of scale precursor cells are separated by rows of single or double undifferentiated general epidermal cells. Occasionally, arrangement abnormalities occur both in the adult and the pupal wing. The cellular basis for the regular spacing of scale rows is discussed.     

福建石荠苧属植物花粉和果皮微形态特征

运用立体显微镜和扫描电子显微镜对产于福建省的石荠苧属3种药用植物的花粉和果皮的微形态特征进行系统观察。观察结果表明,3种植物花粉微形态特征比较相似;果皮微形态存在较明显的种间差异,且性状较稳定。石荠苧属果实表皮微形态特征是该属分类与系统研究中不可忽视的性状。     

Wing colors based on arrangement of the multilayer structure of wing scales in lycaenid butterflies (Insecta: Lepidoptera)

Male wing colors and wing scale morphology were examined for three species of lycaenid butterflies: Chrysozephyrus ataxus, Favonius cognatus and F. jezoensis. Measurement of spectral reflectance on the wing surface with a spectrophotometer revealed species‐specific reflection spectra, with one or two peaks in the ultraviolet and/or green ranges. Observations of wing scales using an optical microscope revealed that light was reflected from the inter‐ridge regions, where transmission electron microscopy revealed a multilayer structure. Based on the multilayer dimensions obtained, three models were devised and compared to explain the measured reflectance spectrum. The results showed that the best fit is a model in which thicknesses of thin films of the multilayer system are not constant and air spaces between cuticle layers are more or less packed with cuticle spacers. This suggests that the specific wing colors of the species examined are produced by the species‐specific arrangement of the multilayer structure of wing scales.     

FIB/SEM tomography with TEM-like resolution for 3D imaging of high-pressure frozen cells

Focused ion beam/scanning electron microscopy (FIB/SEM) tomography is a novel powerful approach for three-dimensional (3D) imaging of biological samples. Thereby, a sample is repeatedly milled with the focused ion beam (FIB) and each newly produced block face is imaged with the scanning electron microscope (SEM). This process can be repeated ad libitum in arbitrarily small increments allowing 3D analysis of relatively large volumes such as eukaryotic cells. High-pressure freezing and freeze substitution, on the other hand, are the gold standards for electron microscopic preparation of whole cells. In this work, we combined these methods and substantially improved resolution by using the secondary electron signal for image formation. With this imaging mode, contrast is formed in a very small, well-defined area close to the newly produced surface. By using this approach, small features, so far only visible in transmission electron microscope (TEM) (e.g., the two leaflets of the membrane bi-layer, clathrin coats and cytoskeletal elements), can be resolved directly in the FIB/SEM in the 3D context of whole cells.     

External Morphology of the Spicules of some Trichodoridae

External morphology of spicules in several species of Trichodoridae was studied by scanning electron and light microscopy. The bristles on the spicules observed in the light microscope in several species were revealed as small scales forming a sheath which covers most of the spicule body. Some species have smooth spicules, whereas other species exhibited complicated structures formed by projections. In all of the species studied, either a ventro-terminal or terminal opening of the spicules was observed.     

Influence of cuticle nanostructuring on the wetting behaviour/states on cicada wings

The nanoscale protrusions of different morphologies on wing surfaces of four cicada species were examined under an environmental scanning electron microscope (ESEM). The water contact angles (CAs) of the wing surfaces were measured along with droplet adhesion values using a high-sensitivity microelectromechanical balance system. The water CA and adhesive force measurements obtained were found to relate to the nanostructuring differences of the four species. The adhesive forces in combination with the Cassie-Baxter and Wenzel approximations were used to predict wetting states of the insect wing cuticles. The more disordered and inhomogeneous surface of the species Leptopsalta bifuscata demonstrated a Wenzel type wetting state or an intermediate state of spreading and imbibition with a CA of 81.3° and high adhesive force of 149.5 μN. Three other species (Cryptotympana atrata, Meimuna opalifer and Aola bindusara) exhibited nanostructuring of the form of conically shaped protrusions, which were spherically capped. These surfaces presented a range of high adhesional values; however, the CAs were highly hydrophobic (C. atrata and A. bindusara) and in some cases close to superhydrophobic (M. opalifer). The wetting states of A. bindusara, C. atrata and M. opalifer (based on adhesion and CAs) are most likely represented by the transitional region between the Cassie-Baxter and Wenzel approximations to varying degrees.     

Taxonomic Studies on Some Species of Diatoma

Six species and four varieties of Diatoma (D. hiemale (Roth) Heib. , D. maximum (Grun.) Fricke, D. mesodon (Ehr.) Kuetz. , D. moniliforme Kuetz. , D. tenue Ag., D. vulgare Bory and its varieties) were studied using optical microscope and scanning electron microscope. Their taxonomic problems were discussed as well.     

七种中国珠藓科植物孢子形态研究

作者通过光学显微镜和扫描电镜观察了7种珠藓科植物的孢子。观察结果显示：孢子近极薄壁区的有无、形状及外壁纹饰的细微结构等方面,在属间和种间存在一定的差异。与此同时,这7种珠藓科植物的孢子在大小、外壁厚度等方面表现出较大的相似性。本研究也显示孢粉学资料可以为研究珠藓科系统演化提供可靠的依据。     

Ultrastructural variation tune wing coloration of a moth Asota caricae Fabricius, 1775

Butterflies and moths develop highly ordered coloration in their wing for signal transmission. We have investigated the ultrastructural arrangement of wing coloration of a moth Asota caricae, applying light, optical polarized, and scanning electron microscopy, and spectrophotometry. The forewing of the moth is brown in color with a white spot at the center. The hindwing is golden yellow in color with many black patches in it. The ventral part of the forewing and dorsal hindwing share the similar color pattern. The ventral part of the hindwing has dull coloration in comparison to the dorsal one although the pattern remains same. The spectrometry analysis reveals various patterns of absorbance and reflectance spectra for various colors. The peak observed for various colors remain same although the intensity of peak changes. Bright colors possess highly ordered structures whereas irregular structures are found in dull colored scales. The color variation observed due to dorsal and ventral part of the wing is due to the minute difference observed in terms of ultrastructural arrangement revealed by scanning electron microscope. The color pattern of A. caricae is due to variation of microstructures present within the scale.     

等片藻属几个种的分类学问题研究

本文使用光学显微镜和扫描电子显微镜对等片藻属Diatoma的6个种：冬季等片藻 D·hiemale(Roth)Heib．、巨大等片藻D．maximum(Grun．)Fricke、中型等片藻D．mesodon(Ehr)Kuetz．、念珠状等片藻D．moniliforme Kuetz．、纤细等片藻D. tenue Ag.、等片藻D,vulgare Bory及其下的4个变种作了研究,并讨论了它们的分类学问题。     

The "windows", scales, and bristles of the tropical moth Rothschildia lebeau (Lepidoptera: Saturniidae)

The common Spanish name of the moth Rothschildia lebeau (Saturniidae) is cuatro ventanas (four 'windows'), because it exhibits a transparent oval path in each wing. The scales of the colored areas and the bristles from the "window" were analyzed. We developed a simple device to measure transmittance across the "windows" with an spectrophotometer. A square section of "window" was mounted onto a flat black card and placed onto a clamp that hung in the path of the light - beam of the spectrophotometer. Absorbance was measured at 350 and 550 nm, with the "window" positioned perpendicular to the light beam (incidence of 90 degrees); then the measurements were repeated with the "window" moved at an angle of 45 degrees. Each measurement was replicated 5 times. Wing color spots were analyzed with a light dissection microscope (stereoscope) and with scanning electron microscopy. The scales have a minimum of 4 morphological types, 3 of them showed the typical appearance of unspecialized scales described for other butterflies; whereas the fourth has features particular to this species. On the "window" the scales are transformed in hair-like bristles that do not interfere with light, conferring the transparency that characterizes the "windows". However, if the wing is illuminated at an almost grazing-incidence, they reflect the light as a mirror. Two hypothetical functional explanation for the windows are mimicry and interspecies communication.     

The Wettability and Mechanism of Geometric Non-Smooth Structure of Dragonfly Wing Surface

Scanning electron microscope and optical contact angle measuring instruments were used to investigate the microstructure and wettability of geometric non-smooth structure of dragonfly wing surface. Results show that the geometric non-smooth structure of dragonfly wing surface is one part of epicuticle, some organic solvents can effectively dissolve the main ingredient of non-smooth structure. The hydrophobicity of dragonfly wing surface is induced by the co-coupling of the non-smooth structure and the waxy layer covering.     

Three-dimensional X-ray observation of atmospheric biological samples by linear-array scanning-electron generation X-ray microscope system

Recently, we developed a soft X-ray microscope called the scanning-electron generation X-ray microscope (SGXM), which consists of a simple X-ray detection system that detects X-rays emitted from the interaction between a scanning electron beam (EB) and the thin film of the sample mount. We present herein a three-dimensional (3D) X-ray detection system that is based on the SGXM technology and designed for studying atmospheric biological samples. This 3D X-ray detection system contains a linear X-ray photodiode (PD) array. The specimens are placed under a CuZn-coated Si₃N₄ thin film, which is attached to an atmospheric sample holder. Multiple tilt X-ray images of the samples are detected simultaneously by the linear array of X-ray PDs, and the 3D structure is calculated by a new 3D reconstruction method that uses a simulated-annealing algorithm. The resulting 3D models clearly reveal the inner structure of the bacterium. In addition, the proposed method can easily be used for diverse samples in a broad range of scientific fields.     

气生凤梨叶片结构研究

我们以地生凤梨(Guzmnania‘Denise’)作为对照,利用扫描电镜技术、石蜡切片技术对3种气生凤梨(Til-landsia stricta‘Hard leaf’、T.stricta‘Cotton candy’与T.filifolia)的叶片表面和内部结构进行了研究。结果表明所有凤梨叶片表面均分布着葵花状的鳞片,鳞片由碟状细胞、环状细胞和翼状细胞3类细胞构成,最内部的碟状细胞通过柄状细胞与叶片内部的叶肉细胞相连。气生凤梨叶片表面鳞片白色、蜡质、密度很大,但气孔很少或不可见,暗示鳞片除吸收水分和养分外,还可能具有减少光呼吸、排水及反射阳光等功能。另外,不同的气生凤梨之间叶片表面鳞片的形态、大小和密度也不同,反映了它们对其不同起源地及现生存环境的适应。     

马尾树科及其近缘科花粉形态研究

本文观察了马尾树科(Rhoipteleaceae)、胡桃科(Juglandaceae)以及桦木科(Be-tulaceae)、9属9种植物花粉形态。马尾树科与桦木科桦木属(Betula L.)花粉粒均为扁球形,极面观呈钝三角形,萌发孔类型均为多孔类型,孔之间均有弓形加厚,而且外表面均具细颗粒状雕纹。而胡桃科大多为多边形、散孔类型。根据花粉形态资料,探讨了马尾树科的系统位置。     

钩介幼虫壳表面结构的扫描电镜观察

利用扫描电镜技术研究了鱼尾楔蚌和圆顶珠蚌钩介幼虫的形态特征,并进行了比较．结果表明,两种蚌的钩介幼虫均为有钩型,幼虫的大小、形态、壳表面、壳钩、棘刺等存在着差异、对这些特征在分类学上的意义进行了讨论．