Global ETD Search

271	Study on the Sea Level Change Along Taiwan Western Coast Chen, Yu-Shan 01 September 2011 (has links) ¡@¡@The impacts of global warming and climate change were the important issue in the last few decades. The sea level rising was one of most discussion topics of physical impact which derived from global warming. In this study, about forty year¡¦s sea level records (from Harbor & Marine Technology Center) were used to analysis the long term water level trends at Keelung Harbor, Taichung Harbor and Kaohsiung Harbor in the western Taiwan. ¡@¡@We rearranged the records format, filtered out error data, and then sorted the data by the logged time. Three kinds of analysis method were applied to investigate the trend of water level change. The first one was harmonic analysis which was used to eliminate the effects of astronomical tide. The second method was spectrum analysis and it assisted to obtain the amplitudes and phases of tidal component. Finally, we used the moving average method to smooth data and discussed the tendency of water level change. ¡@¡@The result showed no evidence of sea level rising along the western coast of Taiwan. The average water level raised and declined evenly in the duration of forty years, and the general trends of water level varied near the zero level. The result also showed the variation of water level that affected by the measurement instruments was more over the physical effects. Global warming Moving Average Harmonic Analysis Spectrum Analysis Sea Level Change
272	The role of US agricultural and forest activities in global climate change mitigation Zhu, En 15 May 2009 (has links) In 2005 the highest global surface temperature ever was recorded. A virtual consensus exists today among scientists that global warming is underway and that human greenhouse gas (GHG) emissions are a significant cause. Possible mitigation of climate change through reduction of net GHG emissions has become a worldwide concern. Under the United Nation’s Framework convention on Climate Change, the Kyoto Protocol was formed in 1997 and required ratifying countries to co-operate in stabilizing atmospheric GHG concentrations. The protocol took effect on February 16, 2005. The mitigation cost for reducing GHG emissions for the US economy has been argued to be high particularly through the energy sector. Agriculture and Forestry (AF) can provide some low cost strategies to help with this mitigation principally through carbon sequestration but must be competitive with mitigation costs in the rest of the economy. A general equilibrium approach is used herein to evaluate the role of AF mitigation in an economy wide setting. The results show that the AF sectors have significant mitigation potential. Higher carbon prices lead to more sequestration, less emissions, reduced consumer and total welfare, improved environmental indicators and increased producer welfare. AF mitigation increases as the carbon price increase over time. In the earlier periods, while the carbon price is low, AF emissions and sink are quite small compared to the energy sector. As carbon prices increase over time, the AF sectors mitigate about 25% of the net emissions. This verifies McCarl et al's (2001) argument that the AF sectors “may be very important in a world that requires time and technological investment to develop low-cost greenhouse gas emission offsets.” AF GHG emission mitigation is sensitive to saturation of sequestration sinks. This research finds that ignoring saturation characteristics leads to a severe overestimate of mitigation potential with estimates being inflated by as much as a factor of 6. Global Warming CGE FASOM Saturation Response Function Second Generation Model Dynamic Adjustment
273	Impact of Climate Change on Long Term Nuclear Power Plant Operation Redwine, Adam B. 2010 August 1900 (has links) The present work examines the potential impact of changes in climatic conditions on the long-term functioning of nuclear power plants. Nuclear power plants are potentially susceptible to changes both in acute risks, such as severe storm events, and chronic risks, such as detrimental changes in the thermodynamics of plant operation. Extending plant lifetimes well beyond the lengths of operation for which they were originally designed suggests the necessity of studying the impacts such changes might have. Potential threats are examined in light of earlier work performed by Business Continuity Consulting on commission for Enteritgy Nuclear. The fourteen risk drivers identified in that work as threats warranting additional investigation are studied individually, and their relevance and likely impact extrapolated for regions covered by the ten selected sites under examination. Thermodynamic eff ects are simulated with a plant analysis program known as PEPSE (Performance Evaluation of Plant Systems Efficiencies), with which a broad range of modeled environmental and plant conditions are analyzed for potential impacts to plant functioning. Of the fourteen climatic risk drivers considered, changes in drought and ood severity and frequency resulting from climate change were determined to be the most likely detriments to plant operations. Precipitation gures indicate that plants located in the Midwest are particularly susceptible to future drought conditions while those in the Northeast are likely to experience more frequent ooding. Many of the risk drivers specifi ed by the earlier work were only cursorily examined in light of the complex nature of these phenomena and lack of well defi ned correlation to climate change. Other risks were analyzed using the gathered data, but were determined not to pose signi ficant threats to plant operations. In addition to large scale climatic e ffects, changes related to coolant uid temperature rise and plant component efficiency were examined to qualify their e ect on the thermodynamics of the model plant. Plant operating conditions were modeled for a wide range of conditions related to theoretical environmental changes. These examinations showed negligibly small impacts caused by increased coolant water temperature and moderate impact caused by changes in air humidity. Climate Change Nuclear Power Climate effect global warming nuclear energy utilities electrical
274	Warming and Intensified Summer Drought Influence Leaf Dark Respiration and Related Plant Traits in Three Dominant Species of the Southern Oak Savanna Lindgren, Kourtnee Marr 2009 May 1900 (has links) The short-term temperature-response of dark respiration may be altered by climate warming through temperature acclimation; however the role of drought in influencing thermal acclimation is not known. We hypothesized that leaf dark respiration in three dominant species of the southern oak savanna in Central Texas, Schizachyrium scoparium, Juniperus virginiana, and Quercus stellata, would respond differently to the effects of warming and intensified summer drought owing to their contrasting photosynthetic pathways, leaf habits, and drought tolerances. Furthermore, changes in respiration were predicted to be linked to alterations in leaf chemistry and structure, including leaf nitrogen and non-structural carbohydrates in response to warming and drought. Monocultures planted in replicated rainfall exclusion shelters were warmed ( 1.5 �C) and rainfall events were manipulated to intensify summer drought and augment cool season rainfall compared to the long-term mean. Both warming and drought affected the short-term temperature-response functions of dark respiration and species differed in their responses. Evidence of temperature acclimation through adjustment in Q10 (temperature sensitivity) and R10 (base rate at 10 �C) was found in S. scoparium and Q. stellata but not J. virginiana. All three species showed evidence of reduced temperature acclimation of respiration with progressive summer drought. Redistributed rainfall in J. virginiana increased respiration in midsummer compared to plants receiving the long-term mean rainfall, but differences disappeared in late summer when drought intensified. In response to rainfall events during summer drought, rates in S. scoparium increased, and the effect was greater in unwarmed compared to warmed plants. In both S. scoparium and Q. stellata, Q10 was reduced post-watering. Regression analyses of respiration against leaf N, soluble carbohydrates, and SLA revealed that relationships differed between species and temperature treatments. Respiration rates were uncoupled from changes in soluble carbohydrates in response to drought and rainfall pulses, suggesting that thermal acclimation is diminished by increasing drought stress in drying soils in contrasting tree and grass species. These findings suggest that models of respiratory carbon flux that incorporate temporal changes in respiratory temperature responses with drought and warming and unique species responses will be critical in predicting species and ecosystem-scale responses to climate change. Leaf dark respiration Climate change Climate warming Drought Southern Oak Savanna
275	The Effects of Water Vapor and Carbon Dioxide on Atmospheric Temperature Yen, Da-lung 11 August 2009 (has links) The effects of water vapor and carbon dioxide on temperature and heat transfer in the troposphere layer, which is less than the altitude of 10 km, in the atmosphere are presented in this work. Accounting for realistic temperature- and pressure- or concentration-dependent radiative properties, this work systematically evaluates heat transfer encountered in atmosphere. For simplicity, the heat transfer is assumed to be one-dimensional and pure conduction and radiation modes. The solar irradiation penetrates through the atmosphere within its short wavelength range near around visible range between 0.4-0.7 £gm , and absorbed and reflected by the earth ground with a black body property. The ground emits radiation in longwave range. Water vapor is transparent to longwave range 8-12 £gm , whereas carbon dioxide is absorbed in three long wavelength bands centered at 15, 10.4 and 9.4 £gm , respectively. The computed results quantitatively show that water vapor and carbon dioxide are the most important factors affecting temperature difference around 2 and 5 Celsius degrees. carbon dioxide climate change greenhouse gases water vapor greenhouse effects radiation transfer Global warming
276	Coral records of central tropical Pacific sea-surface temperature and salinity variability over the 20th century Nurhati, Intan Suci 07 July 2010 (has links) Accurate forecasts of future regional temperature and rainfall patterns in many regions largely depend on characterizing anthropogenic trends in tropical Pacific climate. However, strong interannual to decadal-scale tropical Pacific climate variability, combined with sparse spatial and temporal coverage of instrumental climate datasets in this region, have obscured potential anthropogenic climate signals in the tropical Pacific. In this dissertation, I present sea-surface temperature (SST) and salinity proxy records that span over the 20th century using living corals from several islands in the central tropical Pacific. I reconstruct the SST proxy records via coral Sr/Ca, that are combined with coral oxygen isotopic (d18O) records to quantify changes in seawater d18O (hereafter d18Osw) as a proxy for salinity. Chapter 2 investigates the spatial and temporal character of SST and d18Osw-based salinity trends in the central tropical Pacific from 1972-1998, as revealed by corals from Palmyra (6ºN, 162ºW), Fanning (4ºN, 159ºW) and Christmas (2ºN, 157ºW) Islands. The late 20th century SST proxy records exhibit warming trends that are larger towards the equator, in line with a weakening of equatorial Pacific upwelling over this period. Freshening trends revealed by the salinity proxy records are larger at those sites most affected by the Inter-Tropical Convergence Zone (ITCZ), suggesting a strengthening and/or an equatorward shift of the ITCZ. Taken together, the late 20th century SST and salinity proxy records document warming and freshening trends that are consistent with a trend towards a weakened tropical Pacific zonal SST gradient under continued anthropogenic forcing. Chapter 3 characterizes the signatures of natural and anthropogenic variability in central tropical Pacific SST and d18Osw-based salinity over the course of 20th century using century-long coral proxy records from Palmyra. On interannual timescales, the SST proxy record from Palmyra tracks El Niño-Southern Oscillation (ENSO) variability. The salinity proxy record tracks eastern Pacific-centered ENSO events but is poorly correlated to central Pacific-centered ENSO events - the result of profound differences in precipitation and ocean advection that occur during the two types of ENSO. On decadal timescales, the coral SST proxy record is significantly correlated to the North Pacific Gyre Oscillation (NPGO), suggesting that strong dynamical links exist between the central tropical Pacific and the North Pacific. The salinity proxy record is significantly correlated to the Pacific Decadal Oscillation (PDO), but poorly correlated to the NPGO, suggesting that, as was the case with ENSO, these two modes of Pacific decadal climate variability have unique impacts on equatorial precipitation and ocean advection. However, the most striking feature of the salinity proxy record is a prominent late 20th century freshening trend that is likely related to anthropogenic climate change. Taken together, the coral data provide key constraints on tropical Pacific climate trends, and when used in combination with model simulations of 21st century climate, can be used to improve projections of regional climate in areas affected by tropical Pacific climate variability. Tropical Pacific climate Sr/Ca Global warming ENSO Coral Hydrological changes Climatic changes Climatic changes Research
277	Timing effects of carbon mitigation and solar radiation management policies Qu, Jingwen 06 April 2012 (has links) We study timing effects of carbon mitigation and solar radiation management (SRM) policies for correlated pollutants, CO₂ and SO₂. We show that national levels of carbon and sulfur emissions quotas and SRM implementation are positively correlated with each other. First-mover advantages exist when deciding both carbon quotas and SRM levels. Moreover, we use an example to illustrate that if international equity is considered, governments would be willing to choose SRM levels before carbon quotas since it yields higher payoffs and less acid rain and droughts damages. This timing was neglected by all previous theoretical economic models on geoengineering. Timing effects Correlated pollutants Solar radiation management Engineering geology Global warming Solar radiation Greenhouse gas mitigation
278	Beitrag der polaren Eismassen zum globalen Meeresspiegelanstieg aus Daten der Satelliten-Schwerefeldmission GRACE Dietrich, Reinhard, Horwath, Martin, Groh, Andreas 18 February 2010 (has links) (PDF) Die mit dem globalen Klimawandel einhergehende Zunahme der mittleren Jahrestemperatur führt zu einem Anstieg des mittleren Meeresspiegels. Hierzu trägt auch das Schmelzwasser der kontinentalen Eismassen bei. Über die Bestimmung der kontinentalen Eismassenänderungen kann somit auf deren Beitrag zum globalen Meeresspiegelanstieg geschlossen werden. Eismassenänderungen spiegeln sich in Variationen des Gravitationsfeldes der Erde wieder. Diese Variationen werden durch die Satelliten- Schwerefeldmission GRACE monatlich bestimmt. Am Institut für Planetare Geodäsie wurden die Eismassenänderungen des Antarktischen und Grönländischen Eisschildes aus 61 GRACEMonatslösungen für den Zeitraum August 2002 bis Januar 2008 abgeleitet. Sie belaufen sich auf -109 ± 48 bzw. -193 ± 22 Gt/a, was einem äquivalenten Meeresspiegelanstieg von 0.31 bzw. 0.55 mm/a entspricht. / The mean annual temperature rise which goes hand in hand with global warming results in a mean sea level rise. Meltwater influx from continental ice masses is one component of this phenomenon. Hence, the determination of continental ice mass changes makes it possible to infer their contribution to the global mean sea level rise. Such mass variations induce changes in the Earth's gravity field, as observed on a monthly basis by the gravity field satellite mission GRACE. At the Institut für Planetare Geodäsie, mass changes across the ice sheets of Greenland and Antarctica have been derived from 61 GRACE monthly solutions for the period 08/2002 – 01/2008. These ice mass changes add up to -109 ± 48 and -193 ± 22 Gt/a, respectively. This equates to a sea level rise of 0.31 or 0.55 mm/a. Klimawandel Meeresspiegelanstieg Erwärmung climate change sea-level rise warming ddc:550 rvk:RB 10438
279	Der Einfluss von Klimavariabilität auf aquatische Nahrungsnetze Wagner, Annekatrin, Petzoldt, Thomas, Hülsmann, Stephan, Berendonk, Thomas U., Paul, Lothar, Benndorf, Jürgen 01 March 2010 (has links) (PDF) In den gemäßigten Breiten zeigte sich die allgemeine Erwärmung der letzten Jahrzehnte insbesondere im Winter und im zeitigen Frühjahr. Dementsprechend traten Veränderungen in der Phänologie, dem zeitlichen Verlauf von Populations- und Entwicklungsprozessen von Organismen (z. B. Zeitpunkt der Knospung bei Pflanzen oder der Laichperiode bei Fischen), vor allem im Frühjahr auf. Obwohl generell eine frühere und beschleunigte Entwicklung als Reaktion auf die Erwärmung beobachtet wurde, zeigten sich doch Unterschiede in der Sensitivität von Organismen. Dadurch kann es in Nahrungsnetzen zu Match- oder Mismatch- Situationen in Räuber-Beute Beziehungen kommen. Am Beispiel der komplexen Interaktionen im Nahrungsnetz der Talsperre Saidenbach wird der Einfluss verschiedener Erwärmungsszenarien auf Schlüsselorganismen und deren Interaktionen im Nahrungsnetz und letztlich auf die Wassergüte in dieser Trinkwassertalsperre im Rahmen des DFG-Schwerpunktprogramms AQUASHIFT analysiert. / In temperate regions, the warming trends of the last decades have been observed primarily in winter and early spring. Accordingly, changes in the phenology of individual species, e.g. sprouting in plants or spawning of fish, occurred mainly in spring. Although the general pattern is earlier and faster development in response to warming, differences in sensitivity have been apparent between species, potentially giving rise to match or mismatch scenarios in predator-prey relations. The impact of warming scenarios on key species, their interactions and ultimately on the water quality is studied at Saidenbach Reservoir within the framework of the DFG priority program AQUASHIFT. Klimawandel Erwärmung Nahrungsnetz climate change warming food network ddc:550 rvk:RB 10438
280	What is next after the Kyoto Protocol? : assessment of options for international climate policy post 2012 / Höhne, Niklas. January 2006 (has links) Univ., Diss.--Utrecht, 2005.

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