By providing the genuinely new „networked“ understanding of exile, this study aims to rewrite significantly the story of Czechoslovak political emigration and re-assess its functioning mostly by means of a tool so far ignored in this field: The Social Network Analysis. According to the dominant historiographical narrative, the Czechoslovak exile followed mostly political goals and was structured as an hierarchy with the Council of Free Czechoslovakia being the supreme body initially respected by most (though not by all) fractions within the exile movement across the globe. That is why the historical research, rather one-sidedly, focused upon the institutional history, biographies of political leaders and ideological debate within political parties in exile. The study argues that the traditional approach needs a substantial revision. Though initially designed as a state-like hierarchy with pyramidal decision-making procedures (with coordinating power vested in the Council of Free Czechoslovakia) the exile soon transformed itself into a horizontal and rather informal network of loosely interconnected and mutually collaborating units and individuals across the globe. The „network thesis“ is demonstrated upon the model analysis of František Váňa’s and Přemysl Pitter’s communication webs being part of the long-term research of Czechoslovak exile networks, 1948–1989.
Ca2+ has been considered as a necessary ion for alleviation of stress-induced damages in plants. We investigated effects of exogenous Ca2+ on waterlogging-induced damage to pepper and its underlying mechanisms. Pepper seedlings under stress were treated by spraying of 10 mM CaCl2. Applying exogenous Ca2+ increased the biomass of pepper leaves and roots, improved photosynthetic characteristics, membrane permeability, root activity, osmotic substance contents, antioxidant enzyme and alcohol dehydrogenase activities, while it reduced lactate dehydrogenase activity. It maintained hydroxide radical contents and activities of malate dehydrogenase and succinate dehydrogenase relatively high. Our results suggested that applying exogenous Ca2+ could regulate osmotic substance contents, antioxidant system activity, root respiration, and metabolism, and subsequently alleviate waterlogging-induced damages to pepper plants., B. Z. Yang, Z. B. Liu, S. D. Zhou, L. J. Ou, X. Z. Dai, Y. Q. Ma, Z. Q. Zhang, W. C. Chen, X. F. Li, C. L. Liang, S. Yang, X. X. Zou., and Obsahuje bibliografii
The hypothesis that application of exogenous glycine betaine (GBEX) may attenuate the effects of mild water deficit in leaf gas exchange and lipid peroxidation in Carapa guianensis was examined. For this reason, 110-d old plants were sprayed with 0, 25, and 50 mM GBEX and then subjected to two watering regimes. In the first, irrigation was continuously performed to maintain the soil near to field capacity (watered plants). In the second, irrigation was withheld and water deficit resulted from progressive evapotranspiration (water-stressed plants). Treatment comparisons were assessed when predawn leaflet water potential (Ψpd) of stressed plants reached -1.28 ± 0.34 MPa. Regardless of the watering regime, significant (P<0.05) increases in foliar glycine betaine (GBLeaf) concentration were observed in response to increasing GBEX; however, such increases were more expressive in stressed plants. The net photosynthetic rate, stomatal conductance to water vapor, and intercellular to ambient CO2 concentration ratio were significantly lower in water-stressed plants independently of GBEX concentration sprayed on leaves. The application of 25 and 50 mM GBEX caused significant (P<0.05) increases in ascorbate peroxidase (APX) activity in stressed plants, while significant (P<0.05) increases in catalase activity was observed just in the stressed plants treated with 50 mM GBEX. Malondialdehyde concentrations did not differ between watered and stressed plants regardless of GBEX concentration. In conclusion, C. guianensis was able to incorporate GBEX through their leaves and the resulting increases in GBLeaf attenuated lipid peroxidation in stressed plants through positive modulation of APX and CAT activities., F. J. R. Cruz ...[et al.]., and Obsahuje bibliografii
Cyanobacteria Spirulina platensis and Nostoc linckia were grown in the presence of 5 mM and 50 mM glucose or 5 mM mannose, non-metabolisable glucose analogue that effectively triggers the repression of photosynthesis. Glucose evoked active cyanobacterial growth but chlorophyll (Chl) content decreased to some extent and porphyrins were excreted. The content of monogalactosyldiacylglycerol decreased in glucose-grown cyanobacteria and that of phosphatidylglycerol increased substantially. Mannose inhibited cyanobacteria growth as well as Chl synthesis, however, phosphatidylglycerol contents were higher than in respective control samples. In cyanobacterial cells glucose may not only inhibit photosynthetic processes, but also cause structural transformations of membranes which may be necessary for the activity of respiratory electron transport chain components under heterotrophic conditions. and N. F. Mykhaylenko ... [et al.].
Melatonin mediates many physiological processes in animals and plants. To examine the potential roles of melatonin in salinity tolerance, we investigated the effects of exogenous melatonin on growth and antioxidant system in cucumber under 200 mM NaCl stress conditions. The results showed that the melatonin-treated plants significantly increased growth mass and antioxidant protection. Under salinity stress, the addition of melatonin effectively alleviated the decrease in the net photosynthetic rate, the maximum quantum efficiency of PSII, and the total chlorophyll content. Our data also suggested that melatonin and the resistance of plants exhibited a concentration effect. The application of 50-150 μM melatonin significantly improved the photosynthetic capacity. Additionally, the pretreatment with melatonin reduced the oxidative damage under salinity stress by scavenging directly H2O2 or enhancing activity of antioxidant enzymes (including superoxide dismutase, peroxidase, catalase, ascorbate peroxidase) and concentrations of antioxidants (ascorbic acid and glutathione). Therefore, the melatonin-treated plants could effectively enhance their salinity tolerance., L. Y. Wang, J. L. Liu, W. X. Wang, Y. Sun., and Obsahuje seznam literatury
This year‘s Nobel Prize in Physics was awarded to three astrophysicists, Jim Peebles, Michel Mayor and Didier Queloz. Peebles was awarded half of the prize for cosmology and Mayor and Queloz were awarded a quarter each for the discovery of the first exoplanet orbiting a Sun-like star 51 Pegasi. Their discovery was reported almost 25 years ago and started a new era of exoplanetary research. This article presents the steps leading to the discovery of planet 51 Pegasi b and the following efforts to detect and characterise exoplanets. The future of the exoplanetary research field is also discussed in this article. and Petr Kabáth.
Polární záře jsou konečným důsledkem řetězce událostí souvisících se sluneční aktivitou. Nabité částice se od Slunce šíří jako součást slunečního větru meziplanetárním prostorem. Malá část z nich je zachycena magnetosférami planet a některé z nich magnetosférou naší Země. Zejména elektrony pak interagují s horními vrstvami atmosféry a excitované atomy či molekuly kyslíku a dusíku způsobují při deexcitaci překrásné nebeské divadlo - polární záři. V článku jsou vysvětleny makroskopické a mikroskopické mechanismy vzniku polárních září včetně historie jejich výzkumu. Stručně jsou shrnuty výsledky expedice Aurora 2002 pořádané katedrou fyziky FEL ČVUT a sdružením Aldebaran Group for Astrophysics. Diskutovány jsou naše zkušenosti s fotografováním a pozorováním polárních září., Jakub Rozehnal, Petr Kulhánek., and Obsahuje bibliografii