Global ETD Search

31	Effects of UV-B Radiation on Egg and Larval Golden Shiner (Notemigonus crysoleucas) in Castle Lake, California Kim, Jai-Ku 01 May 1998 (has links) I studied effects of UV-B radiation on egg and larval golden shiner (Notemigonus crysoleucas) in Castle Lake, California, USA. To compare egg hatching and survival of larval golden shiner, I exposed eggs and larval fish to three different UV-B treatments, low UV-B (4% UV-B), high UV-B (92% UV-B), and ambient (100% UV-B). The egg experiment was conducted in lake and pond water, whereas proto- and mesolarval stage experiments were conducted in lake water only. High and ambient UV-B radiation affected the hatching rate of golden shiner eggs. The mean hatching rate was 13% lower in high UV-B, and 9% lower in ambient UV-B compared to the low UV-B treatments. The hatching rate, however, was not significantly different between lake and pond treatments. The survival of egg to hatched larval stage was reduced under high and ambient UV- 8 radiation compared to low UV-8 treatment in the lake water experiment. In the pond water experiment, however, the survival of newly hatched larvae was not different among UV-8 treatments. During the experimental periods, no survival difference among treatments was observed for larval stages of golden shiners. Mean amount of UV-8 radiation penetrating an oligo-mesotrophic lake differed from that in an adjoining pond during the summer of 1997. UV-8 radiation in pond water was highly absorbed compared to absorbency in lake water. High concentrations of dissolved organic carbon in pond water were likely responsible for the difference in absorbency of UV-8 radiation. uv-b radiation egg larval golden shiner notemigonus crysoleucas castle lake Aquaculture and Fisheries
32	Molecular mechanisms underlying environmental and epigenetic fruit ripening control in highbush blueberry / 環境制御とエピジェネティクス制御によるハイブッシュブルーベリー果実成熟促進の分子機構 LI, TAISHAN 24 September 2021 (has links) 京都大学 / 新制・課程博士 / 博士(農学) / 甲第23526号 / 農博第2473号 / 新制\|\|農\|\|1087(附属図書館) / 学位論文\|\|R3\|\|N5357(農学部図書室) / 京都大学大学院農学研究科農学専攻 / (主査)教授田尾龍太郎, 教授那須田周平, 教授中﨑鉄也 / 学位規則第4条第1項該当 / Doctor of Agricultural Science / Kyoto University / DGAM abscic acid blueberry cluster ripening DNA methylation fruit ripening UV-B Vaccinium corymbosum 610
33	Habitat fragmentation and woodland amphibians: consequences for distribution, genetic diversity and fitness responses to UV-B radiation Weyrauch, Shauna L. 30 September 2004 (has links) No description available. amphibians habitat fragmentation hydroperiod genetic diversity UV-B radiation Rana sylvatica wood frog
34	DIRECT AND INDIRECT EFFECTS OF ULTRAVIOLET RADIATION AND DISSOLVED ORGANIC MATTER ON FRESHWATER FLAGELLATES Macaluso, Amy L. January 2010 (has links) The purpose of this study was to examine the direct and indirect effects of ultraviolet-B (UV-B) radiation on freshwater protists. Laboratory experiments were conducted in order to determine the importance of photoenzymatic repair (PER) of UVBinduced DNA damage in the heterotrophic nanoflagellate Paraphysomonas sp. Investigations into the combined effects of UV-B and chromophoric dissolved organic matter (CDOM) were conducted in laboratory experiments in which protist cultures were exposed to UV-B radiation in the presence and absence of water amended to a higher CDOM concentration in order to determine the ability of CDOM to act as a UV-B filter and as a potential nutrient source. Field experiments examined the responses of natural communities of protists and bacteria to ultraviolet radiation (UVR) in the presence of high and low concentrations of CDOM. Ultraviolet-B radiation (UV-B; 280 – 320 nm) negatively affects many aquatic organisms, including heterotrophic flagellates, by directly damaging DNA. The quantity of UV-B reaching the surface of a lake varies with atmospheric chemistry, including stratospheric ozone, and the presence of large holes (Alldredge 1977) in this ozone shield during the last decade resulted in historically high UV-B levels. In aquatic systems, the nature of the damage to organisms depends on the intensity and duration of solar radiation, plus its attenuation in the water column. The amount of UV-B damage is highly dependent on the concentration of CDOM in the water column because CDOM strongly absorbs UV-B radiation. This protective role of CDOM is likely to be reduced in areas where warmer, drier climate decreases watershed runoff, which ultimately results in acidification and increased CDOM photodegradation. However, CDOM also may also act as an organic carbon source for bacteria and stimulate growth of the microbial food web, including bacterivores like heterotrophic flagellates. The effect of UV and CDOM interactions on the microbial food web is not well understood, but climate-related increase in CDOM in an oligotrophic lake could increase the heterotrophic microbial food web impact by reducing UV-B damage and increasing available resources. Since aquatic organisms, including protists, are differentially susceptible to UV-B radiation, climate change effects on CDOM and UV-B attenuation are likely to alter the ecology and community structure of aquatic systems. This thesis describes investigations into the direct and indirect effects of UV-B radiation on freshwater protozoa. The role of PER of direct UV-B induced DNA damage was examined in laboratory experiments that compared the survival and population growth of the heterotrophic nanoflagellate Paraphysomonas sp. at two environmentally relevant temperatures. The results from these experiments demonstrated the reliance of Paraphysomonas sp. on PER, with 100% mortality in the absence of the photorepair radiation that activates photoenzymatic repair enzymes. The ability of Paraphysomonas sp. to recover from exposure to UV-B radiation declined in flagellates adapted to 15°C relative to the same exposures at 20°C. Experiments examining the direct and indirect effects of UV-B radiation and CDOM on freshwater protists conducted in the laboratory and in an oligotrophic lake in the Pocono Mountains showed that potential DNA damage resulting from UV exposure is reduced and microbial growth may be enhanced with an increase in CDOM concentration. / Biology Biology, Limnology Biology, Ecology Cdom Cpd Flagellate Paraphysomonas Sp. Protist, Uv-b
35	Ancient plant cuticle chemistry: preservation and characterization of organic matter as biomarker of past UV-B radiation / Kemin i fossila löv: bevaring och karakterisering av organiskt material som biomarkör för forntida UV-B-strålning Lopes Cavalcante, Larissa January 2021 (has links) Biologiska processer hos olika organismer påverkas av ultraviolett-B-strålning (UV-B). Kunskapen om förändringar i UV-B-flödet som nått planetens yta under det geologiska tidsspann sedan flercelligt liv uppstod är dock begränsad. Följaktligen har olika biologiska proxies använts som ett sätt att försöka rekonstruera UV-B-flödet som når jordens yta. Växter reagerar på fluktuationen av UV-B genom att variera produktionen av fenolföreningar såsom parakumarsyra (pCA) och ferulinsyra, och därför kan dessa beståndsdelar användas som UV-B-proxys. UV-B-absorberande föreningar (UAC) finns i växternas yttersta skikt, den så kallade kutikulan men även i pollen och sporer, vilka oftaär välbevarade i det geologiska arkivet. Ändå är användningen av kutikula som UV-B-proxy inte lika undersökt. Därför syftar denna magisteruppsats till att analysera kemiska förändringar i fossila växters från trias – jura-gränsen (c. 200 miljoner år gamla) och deras potential som UV-B-proxys. Eftersom de fossila löven behövde rengöras från sediment och från förkolnat mesofyll, gjordes också en analys av de kemiska förändringarna som orsakades av de olika rengöringsstegen. Icke-destruktiva tekniker, som mikro-FTIR och konfokalt Raman-mikroskop, användes för analysen. Försöken visade att analysen endast kunde utföras med mikro-FTIR på grund av den höga auto-fluorescensen hos de fossila bladen vilketförhindrade analys med Raman. Signifikanta förändringar orsakades då Schulzes reagens användes för borttagning av mesofyllet, vilket ledde till nitrering av kutikulan. Ett mindre aggressivt och mer hållbart alternativ till denna process har visat sig vara väteperoxid, vilket orsakade mindre förändringar av den fossila kutikulans kemiska sammansättning. Dessutom upptäcktes indikation på förekomst av UAC endast i Ginkgoites regnellii, vilket indikerar att eventuell nedbrytning av dessa föreningar inträffade under diagenesen av de andra analyserade fossilerna. / Biological processes of different organisms are impacted by ultraviolet-B radiation (UV-B). However, knowledge about alterations in the UV-B flux reaching the planet’s surface during the geological past is limited. Consequently, different biological proxies have been used as an approach to attempt reconstructing the UV-B flux reaching Earth’s surface. Plants respond to the fluctuation of UV-B by varying the production of phenolic compounds such as p-coumaric acid (pCA) and ferulic acid, and therefore these constituents can be used as UV-B proxies. UV-B-absorbing compounds (UACs) can be found in the cuticle, pollen, and spores, which are all well-preserved in the geological record. Nevertheless, the use of cuticles as UV-B proxy is not as explored. Hence, this Master’s thesis aimed to analyse chemical changes in the plant cuticles from the Triassic–Jurassic boundary and their potential as UV-B proxies. Moreover, as the cuticles needed to be cleaned from rocks and isolated from coalified mesophyll, an analysis of the chemical changes caused by the cleaning steps was also done. Non-destructive techniques, as micro-FTIR and confocal Raman microscope, were used for the analysis. Yet, the analysis could only be conducted with micro-FTIR due to auto-fluorescence of the leaves preventing success with Raman. Main changes during the cleaning steps were caused using Schulze’s reagent, which led to nitration of the cuticles. A less aggressive and more sustainable alternative to this process is shown to be hydrogen peroxide, which caused minor alteration of the fossil cuticle’s chemical composition. Moreover, indication of the presence of UACs was detected only in Ginkgoites regnellii, indicating that possible degradation of these compounds occurred during diagenesis of the other fossils analysed. UACs fossil cuticle p-coumaric acid ferulic acid UV-B proxy micro-FTIR confocal Raman microscope UAF fossil kutikula p-kumarinsyra ferulinsyra UV-B-proxy mikro-FTIR konfokalt Raman-mikroskop Physical Chemistry Fysikalisk kemi
36	Influence of Photosynthetic Photon Flux Density on UV-BInduced Photoinhibition in Soybean Leaves: Comparison of Preconditioning and Concomitant Light Treatments Warner, Charles W. 01 May 1982 (has links) Previous studies indicate that the degree of UV-Binduced photosynthetic inhibition may be highly dependent upon the photosynthetic photon flux density (PPFD, total quantum flux in the waveband 400-700 nm) incident on a plant. This study illustrates that Essex soybean leaves (Glycine max) preconditioned under high PPFD suffered less UV-B-induced photoinhibition than when preconditioned under low PPFD. However, sensitivity to UV-B increased when soybean leaves received high-PPFD as a concomitant treatment. The relative msgnitude of UV-B-induced damage was similar for both light-limited and light-saturated photosynthesis. This probably indicates that UV-B is inhibiting fundamentally different photosynthetic processes. Soybean leaves preconditioned under high PPFD had greater specific-leaf-weight, chlorophyll a/b ratio, and crude flavonoid content. The total chlorophyll concentration of soybean leaves preconditioned under high PPFD increased slightly over a UV-B irradiation period of five hours. Total chlorophyll concentration of leaves preconditioned under low PPFD decreased slightly in response to the same irradiation period. photosynthetic photon flux density UV-B photoinhibition soybean leaves preconditioning concomitant light treatments Ecology and Evolutionary Biology Environmental Sciences Plant Sciences
37	Piktžolių ir vasarinių miežių konkurencija ir adaptacija skirtingomis aplinkos sąlygomis / Piktžolių ir vasarinių miežių konkurencija ir adaptacija skirtingomis aplinkos sąlygomis Romaneckienė, Regina 17 December 2007 (has links) The competition between agricultural crops and weeds constantly occurs in agrophytocenoses. Increasing of crop stand density would result in enhanced competitive ability of spring barley, effective utilization of PAR and UV-B radiation as well as in a decline in weed emergence and in increasing weed death during the growing season. The competitive ability of a crop is affected by different sensitivity of a plant species and adaptivity to intensifying anthropogenic factors. It is foreseen that under simulated climate and environmental conditions (phyto-chamber), increasing intensity of exposure to anthropogenic effects - pH and acids (H2SO4), carbon dioxide ,ozone , UV-B, cadmium, temperatures as well as their complex effect would encourage weed growth (weeds would adapt) at low concentrations and would significantly inhibit weed growth (weeds would not be able to adapt) at increasing concentrations. / Agrofitocenozėse nuolat vyksta žemės ūkio augalų ir piktžolių konkurencija. Todėl didinant pasėlio tankumą dėsningai didėtų vasarinių miežių konkurencingumas, būtų efektyviai panaudojamos fotosintetiškai aktyvios (FAR) ir ultravioletinės (UV-B) spinduliuotės kiekis, mažėtų piktžolių sudygimas bei didėtų jų sunykimas vegetacijos metu. Be to pasėlio konkurencingumą įtakoja ir nevienodas skirtingų augalų rūšių jautrumas bei prisitaikymas prie intensyvėjančių antropogeninių veiksnių. Priklausomai nuo antropogeninio veiksnio stiprumo bei skirtingų veiksnių derinių poveikio piktžolių augimas gali būti skatinamas arba slopinamas. Agronomy Photosynthetically active radiation UV-B PH and acids Carbon dioxide Ozone Agrofitocenozė Piktžolės Spinduliuotė Antropogeniniai veiksniai Adaptacija
38	A Novel Pathway for Hormonally Active Calcitriol Lehmann, Bodo, Knuschke, Peter, Meurer, Michael 20 February 2014 (has links) (PDF) Calcitriol [1α,25(OH)2D3], the hormonally active form of vitamin D3 (D3) is produced in both renal and extrarenal tissues. Our findings demonstrate that physiological doses of UVB radiation at 300 nm induce the conversion of 7-dehydrocholesterol (7-DHC) via preD3 and D3 into calcitriol in the pmol range in epidermal keratinocytes. The hydroxylation of photosynthesized D3 to calcitriol is strongly suppressed by ketoconazole, a known inhibitor of cytochrome P450 mixed function oxidases. The UVB-induced formation of calcitriol in human skin is demonstrable in vivo by the microdialysis technique. These results suggest that human skin is an autonomous source of hormonally active calcitriol. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich. Calcitriol Keratinozyt Mikrodialyse Ultraviolettstrahlung UV-B Vitamin D3 Cholecalciferol Calcitriol Keratinocyte Microdialysis UVB Vitamin D3 ddc:610 rvk:XA 10000
39	Photosynthesis, Dark Respiration, and Growth of Rumex Patientia L. Exposed to UV-B (280-315 nm) Irradiance Corresponding to Reduced Atmospheric Ozone Concentrations Sisson, William B. 01 May 1976 (has links) Net photosynthesis, dark respiration, chlorophyll concentrations and growth were determined for Rumex patientia L. exposed to UV-B radiation corresponding to reduced atmospheric ozone concentrations. The hypothesis of whether reciprocity is maintained in the response of R. patientia to polychromatic UV-B radiation was tested. On the basis of the relationships derived from these studies, a simulation model was developed for the prediction of photosynthesis and growth of R. patientia exposed to UV-B radiation corresponding to any atmospheric ozone reduction. Photosynthetic rates were found to be depressed after two hours exposure to UV-B irradiance simulating a 0.18 atm•cm ozone column when the sun is at 30° from the zenith. During this initial exposure period, partial stomatal closure was implicated in the suppression of photosynthesis. However, after one day exposure, substantial increases in photosynthetic resistances apart from stomatal diffusion resistance occurred in the UV-irradiated plants and no differences in stomatal diffusion resistance were apparent between UV-irradiated and control plants. Dark respiration rates were slightly higher in those plants exposed to UV radiation. Leaf expansion of R. patientia was substantially repressed but only during the initial few days of exposure. Thereafter, leaf expansion was similar in the UV-irradiated and control plants. A reduction in total plant dry weight and leaf area of approximately 50 percent occurred after 22 days treatment while chlorophyll concentrations remained unaltered. Time of leaf initiation was shawm to be delayed in those plants exposed to UV-B radiation. Leaf longevity was decreased with increased UV radiation but accelerated whole-plant senescence and death was not observed. Photosynthetic rates determined through the ontogeny of the third leaf of R. patientia exposed to four levels of UV irradiance were found to be depressed as a function of the accumulated biologically effective UV irradiation. Thus, reciprocity was demonstrated between 6350 and 3175 J biologically effective UV irradiation. Results of the simultion model showed that under reduced atmospheric ozone concentrations, suppression of photosynthesis and leaf growth would be more severe during mid-sunnner (i . e. June) than would occur during the March to early May period, This results from smaller solar angles from the zenith and lower prevailing ozone concentrations prevalent during June. A validation test of the model was made with photosynthetic data obtained during a field study with R. patientia exposed to UV-B radiation corresponding to a 38 percent atmospheric ozone reduction (0.18 atm•cm when the sun was at 30° from the zenith). This validation test showed a reasonable correspondence between the measured and predicted photosynthetic rates. R. patientia was selected as the test species for this study because (1) it is reasonably sensitive to UV radiation as determined in preliminary studies evaluating approximately 20 native and agricultural plant species, (2) it is normally exposed to full sunlight in · its natural habitat, and (3) individual leaves are relatively long - lived (about 60 days) and are not normally shaded by other leaves of the same plant. Although this species probably represents one of the more sensitive plants to UV radiation, it would be this group of sensitive plants that would be initially affected under conditions of reduced atmospheric ozone. If more resistant plants with long-lived plant parts also accumulate UV radiation damage as was shown to occur in R. patientia, over sufficient periods of time even these species might be significantly impacted under conditions of reduced atmospheric ozone. photosynthesis dark respiration growth rumex patientia UV-B irradiance atmospheric ozone reduced concentrations Life Sciences Plant Sciences
40	Evolutionary ecology of ultraviolet-B radiation stress tolerance in amphibians Pahkala, Maarit January 2001 (has links) <p>During the last decades many amphibian species and populations have experienced declines and extinctions in different parts of the world. Anthropogenic activities are believed to account for these declines, and one of the hypothesized causes has been the increased level of ultraviolet-B (UV-B) radiation due to depletion of the stratospheric ozone layer. </p><p>Although negative effects of UV-B radiation on development of many amphibian species have been demonstrated, a number of potentially critical issues around assessment of amphibian UV-B radiation tolerance have remained unexplored. For instance, next to nothing is known about geographic variation in UV-B tolerance and about possible carry-over effects of early UV-B exposure to later life-stages. Likewise, synergistic effects with other stressors, as well as sublethal effects on growth have received little attention. </p><p>The results from field and laboratory experiments show that <i>R. temporaria</i> and <i>R. arvalis</i> are relatively tolerant to even high levels of UV-B in terms of embryonic survival. However, it was found that even normal levels of UV-B can reduce early embryonic growth. In addition, the effects of early exposure to UV-B became manifested mostly or only after a considerable time-lag (i.e. at metamorphosis). Furthermore, it was found that the sublethal effects of UV-B may become manifested only in combination with other stressors, such as low pH, and this synergism may differ among different populations. No evidence for genetic differentiation in UV-B tolerance was found.</p><p>These findings suggest that even a relatively tolerant species, such as <i>R. temporaria</i>, may be sensitive to increased levels of UV-B radiation, but that this sensitivity may be highly population, environment and trait dependent. The observed carry-over effects over life-stages emphasise the importance of the early life environment on later life fitness.</p> Developmental biology amphibians anomalies embryonic development geographic variation growth Rana arvalis Rana temporaria survival UV-B radiation Utvecklingsbiologi Developmental biology Utvecklingsbiologi

Search results