15 research outputs found
A new application of oxyreactive thermal analysis in marine algological studies
This is a preliminary study of the application of oxyreactive thermal analysis in algological investigations. Several species of Chlorophyta, Phaeophyta, Rhodophyta and Zostera marina taken from different stations off the southern Baltic coast have been studied. It is pointed out that oxyreactive thermal analysis can be used
for taxonomical investigations in order to establish the systematic membership of certain species of algae based on fragments of thallus. This method can also be applied in order to establish environmental specificity by differentiating the chemical composition of certain species. It is also suitable for assessing biochemical
differentiation among the various parts of the thallus
Macrophyta as a vector of contemporary and historical mercury from the marine environment to the trophic web
Bio-optical characterization of selected cyanobacteria strains present in marine and freshwater ecosystems
Growth dynamics and morphology of plankton green algae from brackish waters under the influence of salinity, temperature and light
Nine unicellular green algal species isolated from the Gulf of Gdańsk phytoplankton were studied. The species were cultured within the salinity range of 0-35% at temperatures of 5-38°C and at light intensity (PAR) ranging within 20-380 μE/m2s. Four species were typical of brackish water, five being freshwater plants. In terms of temperature requirements, groups of three species each belonged to high temperature, mesothermophilic, and low-temperature strains. Most species required relatively high light intensities as growth of six of them was saturated at 120 μE/m2s
Gyrotron Technology
The article presents a microwave vacuum tube
called gyrotron. Its applications, construction and principle of
operation are briefly described. It is also discussed the issue
of an appropriate electron beam generation and formation
The Microwave Sources for EPR Spectroscopy
Rapid development of many scientific and technical disciplines, especially in material science and material engineering increases a demand for quick, accurate and cheap techniques of materials investigations. The EPR spectroscopy meets these requirements and it is used in many fields of science including biology, chemistry and physics. For proper work, the EPR spectrometer needs a microwave source, which are reviewed in this paper. Vacuum tubes as well as semiconductor generators are presented such as magnetron, klystron, traveling wave tube, backward wave oscillator, orotron, gyrotron, Gunn and IMPATT diodes. In this paper main advantages of gyrotron usage, such as stability and an increased spectral resolution in application to EPR spectroscopy is discussed. The most promising and reliable microwave source is suggested
THz spectroscopy of explosive-related simulants and oxidizers
In this paper we report on measurement of spectra of commonly applied explosives, some materials which can be used for manufacture of explosive and THz simulants of explosives in transmission mode. Substances were prepared as pellets, and the measurements were performed using the Time Domain Spectroscopy system in the range 0.1–3.0 THz