ABSTRACT
The morphology and elemental composition of crystals in embryos, seedlings and adult plants of the globose cacti Mammillaria uncinata were studied. Samples of mature fruits and adult plants were collected. To obtain embryos and seedlings, seeds from mature fruits were germinated under laboratory conditions. Both embryos and seedlings as well as stem and root of the adult plants were processed by conventional microtechniques and tissue macerations to isolate the individual crystals. The crystal morphology was evaluated by light and scanning electron microscopy while its chemical composition was analyzed by energy dispersive spectroscopy, IR and Raman spectroscopy. The results demonstrated the occurrence of calcium oxalate crystals in the three stages of plant growth. Solitary and small crystals are present in embryos and seedlings in contrast crystals are aggregates or conglomerates in the adult plants. The compositional analysis showed that seedling crystals contain carbon (50.37%), oxygen (45.29%) and calcium (3.36%) while in adult plants the percentage has changed to carbon (12.54%), oxygen (53.06%) and calcium (34.38%). In the IR spectrum, the vibration bands around 1321 and 1621â¯cm-1 are attributed to the calcium oxalate in the dihydrate state (weddellite), the Raman peak at 1475â¯cm-1 shows also that crystals correspond to the pure state of calcium oxalate dihydrate state. The crystal size was also different for seedlings and adult plants, mean values varied from 12.11 to 13.38⯵m for width and length, respectively in seedlings and from 65.10 to 73.90⯵m, in adult plants. It is concluded that the elemental composition, size and morphology of crystals in M. uncinata depend on the growth stage, as it happens in other plant species.
ABSTRACT
In order to characterize iron-chromium oxides generated by laser irradiation on the surface of stainless steel plates, an ultraviolet-visible (UV-Vis) near-infrared (NIR) multiwavelength excitation Raman analysis has been performed using both austenitic SS304 and ferritic SS430 stainless steel samples. Raman spectra were obtained using five different excitation wavelengths from blue (455 nm) to NIR (830 nm). These measurements have allowed us to observe and identify four Raman bands, among which two have not been previously observed for iron-chromium oxides, and characterize the existence of different resonant excitation conditions for the different excitation wavelengths. For example, when using 455 nm as excitation wavelength the band at 485 cm-1 did not show up, although that when using 830 nm as excitation wavelength is a clear characteristic band for iron-chromium oxide. In addition, the dependence of the spectra profile with the excitation wavelength for films and microspheres features was observed. This experimental Raman analysis shows the importance of the excitation wavelength for the characterization of metallic oxides with different features.
ABSTRACT
To find markers that distinguish the different Cactaceae species, by using near infrared Raman spectroscopy and scanning electron microscopy, we studied the occurrence, in the stem, of solid deposits in five Cactaceae species (Coryphantha clavata, Ferocactus latispinus, Opuntia ficus-indica, O. robusta, and O. strepthacantha) collected from their natural habitats from a region of México. The deposits in the tissues usually occurred as spheroidal aggregates, druses, or prismatic crystals. From the Raman spectra, the crystals were identified either as calcium oxalate monohydrate (CaC2O4·H2O) or calcium oxalate dihydrate (CaC2O4·2H2O). Opuntia species (subfamily Opuntioideae) showed the presence of CaC2O4·H2O, and the deposition of CaC2O4·2H2O was present in C. clavata and F. latispinus (subfamily Cactoideae, Cacteae tribe). As a punctual technique, Raman spectroscopy seems to be a useful tool to identify crystal composition. In addition to allowing the analysis of crystal morphology, this spectroscopic technique can be used to identify Cactaceae species and their chemotaxonomy.
