Global ETD Search

71	Oceanic-Atmospheric and Hydrologic Variability in Long Lead-Time Forecasting Oubeidillah, Abdoul Aziz 01 August 2011 (has links) Water managers throughout the world are challenged with managing scarce resources and therefore rely heavily on forecasts to allocate and meet various water demands. The need for improved streamflow and snowpack forecast models is of the utmost importance. In this research, the use of oceanic and atmospheric variables as predictors was investigated to improve the long lead-time (three to nine months) forecast of streamflow and snowpack. Singular Value Decomposition (SVD) analysis was used to identify a region of Pacific and Atlantic Ocean SSTs and a region of 500 mbar geopotential height (Z500mb) that were teleconnected with streamflow and snowpack. The resulting Pacific and Atlantic Ocean SSTs and Z500mb regions were used to create indices that were then used as predictors in a non-parametric forecasting model. The majority of forecasts resulted in positive statistical skill, which indicated an improvement of the forecast over the climatology or no-skill forecast. The results indicated that derived indices from SSTs were better suited for long lead-time (six to nine month) forecasts of streamflow and snowpack while the indices derived from Z500mb improved short lead-time (3 month) forecasts. In all, the results of the forecast model indicated that incorporating oceanic-atmospheric climatic variability in forecast models can lead to improved forecasts for both streamflow and snowpack. SVD Streamflow Snowpack ENSO PDO Forecasting Civil Engineering Environmental Engineering Fresh Water Studies Hydrology
72	Antarctic Circumpolar Current System and its Response to Atmospheric Variability Kim, Yong Sun 1976- 14 March 2013 (has links) The Antarctic Circumpolar Current (ACC) is well known for its multiple bands with large meridional property gradients in the upper waters, each associated with a deep-reaching current core. A revised nineteen-year time series (1992?2011) of altimeter data from the CNES/CLS AVISO is analyzed to identify and trace the spatial distribution of ACC fronts. Specific contours of sea surface height (SSH) are selected within narrow continuous bands of relative maxima SSH slope in the Southwest Atlantic Ocean sector, where they closely follow the distribution of ACC fronts derived from inspection of concurrent high-resolution profile data at hydrographic stations. When applied to the full circumpolar belt, the frontal distribution derived from these new altimeter-based indicators also agrees well with the traces of current jets and in-situ dynamic height fields calculated from concurrent Argo profile data. The temporal variability of ACC fronts is analyzed in relation to dominant modes of atmospheric forcing variability in the Southern Ocean. All three ACC fronts have experienced large seasonal to decadal variability throughout the satellite altimetry era. The general seasonal tendency for each of these jets, with respect to long-term mean positions, is to be located farther to the south during the austral summer and to north in the winter. Circumpolar-mean annual frontal locations show a consistent linear trend of southward migration. However, the estimated decadal variability of the frontal distributions is highly localized, and due to selective response mechanisms to atmospheric variability. A persistent poleward drift of ACC fronts is observed in the Indian sector consistent with increasing sea surface temperature trends. In contrast, a vacillation in the meridional location of ACC fronts is observed in the Pacific sector in association to minor sea surface cooling trends. Therefore, unlike in the Indian sector, the regional Pacific Ocean response is significantly sensitive to dominant atmospheric forcing indices. Mesoscale eddies derived from instabilities at strong current cores are successfully identified with specific SSH gradient criteria. The new estimates of rings population in the Southern Ocean are tightly linked to interannual to decadal atmospheric variability. Increased number of mesoscale eddies correlate with positive SAM forcing about two years earlier, or negative ENSO forcing two to three months earlier. These cross-correlations might explain a prominent peak in rings abundance estimated during 2000 and 2001, and the short-lived maximum that appeared in 2010. There are no persistent trends in the estimated sea surface slope across Drake Passage, and therefore neither in the transport of the ACC. High cross-correlation between the abundance of mesoscale eddies and atmospheric forcing suggests that the overall ACC system is in an eddy-saturated state. However, Drake Passage positive sea level slope anomalies were two-year lagged with negative SAM forcing and with positive ENSO events. These regional responses are characteristic of eastward-propagating signals from a buoyancy-dominated Pacific sector of the Southern Ocean. Climate change SSH SST Southern Ocean eddy SAM ENSO fronts ACC
73	Analysis of Antarctic Sea Ice Thickness: A Newly Created Database for 2000-2009 Morgan, Benjamin Patrick 2011 August 1900 (has links) Observations of Antarctic sea ice thickness are sporadic in space and time, hindering knowledge of its variability. A proxy based on stage of development data from the National Ice Center (NIC) weekly operational charts is used to create a high-resolution time series of sea ice concentration, thickness and volume for 2000-2009. Record-length mean thickness and volume of Antarctic sea ice are 66.7 cm and 7.7 x10^3 km^3. The mean growth and decay seasons in the Southern Ocean and in the Ross sector are 210 days and 155 days, but at least at least one week shorter (growth) and longer (decay) in the Amundsen/Bellingshausen sector. Over 90% of the Antarctic continental shelf is covered with sea ice for 3-5 months, and for 2 to 4 months longer periods in the Amundsen/Bellingshausen and Ross sectors. Yearly mean sea ice area (extent) in the Southern Ocean increased at a rate of 0.71 x 10^6 km^2/decade (0.70 x 10^6 km^2/decade), equivalent to a 7.7 %/decade (6.3 %/decade) rise. A comparable trend of 9.1 %/decade (8.5 %/decade) is estimated in the Ross sector, at 0.21 x 10^6 km2/decade (0.23 x 10^6 km2/decade). The opposite trend is found in the Amundsen/Bellingshausen sector: a -0.15 x 10^6 km^2/decade (-0.17 x 10^6 km^2/decade) decline, or -14.6 %/decade (-13.4 %/decade). The estimated annual increase of Antarctic sea ice thickness is 22.6 cm/decade (49.2 %/decade) and of volume is 3.78 x 10^3 km^3/decade (68.3 %/decade). The Ross sector showed similar trends for thickness, at 23.8 cm/decade (47.0 %/decade), and volume, at 1.11 x 10^3 km^3/decade (75.8 %/decade). Thickness has increased in the Amundsen/Bellingshausen sector, 20.7 cm/decade (44.8 %/decade), but with a less pronounced volume rise of 0.17 x10^3 km^3/decade (26.0 %/decade). Monthly sea ice thickness anomalies show a weak response to the El Nino Southern Oscillation (ENSO) index. A strong positive response is observed in 2008 when a negative a negative ENSO index compounded to a positive Southern Annular Mode (SAM) index. Therefore the estimated increase of sea ice thickness in the Southern Ocean could be attributed to the prevailing atmospheric conditions with a positive SAM phase over the past decade. Antarctic sea ice volume thickness area extent Southern Ocean atmospheric variability SAM ENSO
74	Utformning av operatörsverktyg för åskådliggörande av rörliga kostnader Öberg Bustad, Gabriel, Lundewall, Sara January 2010 (has links) Syftet med detta arbete som utförts på Kvarnsvedens pappersbruk i Borlänge har varit att framställa ett operatörsverktyg. Ett operatörsverktyg som ska åskådliggöra processens rörliga kostnader, som kan benämnas en produktkalkyl för stunden. Verktyget skall senare möjliggöra förbättrade utsikter för kontroll, styrning och uppföljning av rörliga kostnader inom företaget samt öka möjligheterna till att minska de rörliga kostnaderna som är kopplade till processen. Massafabriken på Kvarnsvedens pappersbruk och pappersmaskin 11 har utgjort arbetets grundläggande måltavlor för operatörsverktyget. Arbetet innefattade kartläggning och granskning av pappersprocessen för att skapa en så heltäckande bild av uppdragsbeskrivningen som möjligt. När processen studerats och processflöden kartlagts mer ingående påbörjades utvecklandet av operatörsverktyget. Vidare utfördes en litteraturundersökning för att urskilja potentiella handlingsalternativ vid utformningen av operatörsverktyget samt för en ökad förståelse för verksamheten och ämnesområdet. I dagsläget saknas direkt återkoppling, i realtid, för den kontinuerliga utvecklingen av de rörliga kostnaderna eftersom nuvarande uppföljning är baserad på månadsrapporter. Operatörsverktyget som arbetet utmynnade i kommer med hög sannolikhet vara av betydelse för utvecklingen av verksamheten på företaget. Operatörsverktyget kommer även att understödja både styrningen och kontrollen av processens rörliga kostnader. Förhoppningen är att verktyget skall fungera som ett hjälpmedel i arbetet med att optimera arbetet och processen. Några av de fördelar som operatörsverktyget förväntas ge är bland annat att operativa prestationer omedelbart kan kopplas till företagets resultat, ett snabbt synliggörande av exempelvis resultat vilket öppnar för faktabaserad beslutsstrategi samt att viktig information inte behöver gå förlorad. Operatörsverktyget kan framöver anpassas och utnyttjas på fler av verksamhetens pappersmaskiner. Stora Enso Kvarnsvedens pappersbruk Operatörsverktyg Rörliga kostnader Papperstillverkning Pappersmassa Insatsvaror Styrning och Uppföljning
75	Teleconnections between ENSO events and growing season precipitation on the Canadian Prairies Bonsal, Barrie Richard 01 January 1996 (has links) Teleconnections between ENSO events and growing-season precipitation variations on the Canadian Prairies are examined. Correlation and composite analyses indicate that between 1948 and 1991, El Nino events were associated with more frequent extended dry spells. Conversely, La Nina events coincided with fewer extended dry spells. Both relationships occurred during the third growing season following the onset of the ENSO events (i.e. approximately a 10-season or 30-month lag). A series of atmosphere - ocean teleconnections over the Pacific Ocean including Pacific North America (PNA) circulation patterns, North Pacific sea-surface temperature anomalies and upper-atmospheric circulation anomalies were found to result in growing-season precipitation variations over the Canadian Prairies. Results of this analysis are incorporated into a conceptual model which may form the basis of a long-range forecasting technique of growing-season precipitation variations on the Canadian Prairies. Rainfall ENSO events Canadian prairies - weather patterns El Niño/Southern Oscillation Precipitation Climatology
76	Relationship between the Pacific Ocean SST Variability and the Ganges-Brahmaputra River Discharge Jian, Jun 10 April 2005 (has links) A simple correlation analysis was used to investigate the linear relationships between sea surface temperature (SST) and monthly flow of Ganges and Brahmaputra at the borders of Bangladesh and India using approximately 50 years of river discharge data. Strong correlations were found between the equatorial Pacific SST and boreal summer Ganges discharge from three-month lag to two-month lead times. The El Nio-Southern Oscillation (ENSO) explains Ganges flow variance exceeding 0.95 significance level using both the Nino 3.4 SST correlation and the composites made for El Nio (La Nina) periods. The May SST of the southwest Pacific Ocean to the east of Australia continent has a strong correlation (>0.6) with early summer Ganges discharges. Using a lag correlation analysis of Ganges discharge and SST, we found a steady and continuous development in the Nino 3.4 SST relationship, and a strong correlation with the southwest Pacific SST which is most pronounced three-four months prior to the onset of Asian summer monsoon. These relationships mean that at least 25% of the interannual summer Ganges River discharge variability can be explained by antecedent equatorial and southwest Pacific SST. It provides a possible statistical method for linear forecasting two or three months in advance. The Brahmaputra River discharge, on the other hand, shows weak relationships with tropical SST variability except for the Bay of Bengal and the higher northern latitudes of the Pacific. ENSO Correlation Analysis SST Ganges-Brahmaputra River discharge Ocean temperature Stream measurements Southern oscillation Multivariate analysis
77	Carbon Dioxide Variations in and around the South China Sea Hou, Wei-Ping 30 August 2004 (has links) The purpose of this study was to discuss the CO2 variation in and around the South China Sea (SCS), the largest marginal sea in the world. The SCS and Sulu Sea (SS) in November and December respectively, were a small CO2 source to the atmosphere. The West Philippine Sea (WPS) was a large CO2 source to the atmosphere in September. Due to strong upwelling and mixing in the SCS, the excess CO2 penetrated only to approximately 1000m compared to 1200m in the WPS. Because the SCS subsurface water flows to the SS through the 420 m-deep Mindoro Strait, the excess CO2 in the SS was found throughout the entire water column. According to NOAA, 2002 was a weak-to-moderate strength ENSO year and the second warmest since 1986. The Taiwan Strait is the sole passage which connects the East and South China Seas, but the CO2 variation in the Taiwan Strait is unclear during the ENSO year. We heady discuss the relation between the ENSO and CO2 variation in the Taiwan Strait. During the ENSO year, the Penghu Channel mixed in more Kuroshio water but the upwelling strength weakened. During an ENSO event, the southwest monsoon and surface circulation are weaker than normal, hence there is less SCS water flowing to the Penghu Channel. Primary productivity in the non-ENSO year (2001) was high so the fCO2 was low in the upwelling area in the Penghu Channel. The £G fCO2(sea-air) was about 15µatm and 20µatm in the non-ENSO year and the ENSO year, respectively. The southern Taiwan Strait was a source of CO2 in summer. The hydrology in the northern Taiwan Strait in summer was comprised mainly of two different water masses. A salinity front was found at between 25.67oN, 121.24oE and 25.87oN, 120.95oE in the non-ENSO year and at between 25.67oN, 121.24oE and 25.77oN, 121.08oE in the ENSO year. There was coastal upwelling in the western Taiwan Strait in the ENSO year. In the ENSO year, the southward flowing China Coastal Current in winter (January to March) was weaker than normal, which led to a higher percentage of northward flowing water mass in summer. As a result, the summer time salinity in the surface layer became higher so the vertical density gradient became lower than a normal year. East of the front was the Kuroshio and west of the front was the water mass that flew through the Taiwan Strait. The Kuroshio is high in temperature and salinity so the fCO2 to the east of the front was higher than found west of the front in the non-ENSO year. In the ENSO year, owing to the coastal upwelling, the fCO2 near the Chinese coast was higher than east of the front. The northern Taiwan Strait had a £G fCO2(sea-air) of about 21µatm and 16µatm in the non-ENSO and the ENSO years, respectively, and it was still a source of CO2 in summer. CO2 Taiwan Strait Sulu Sea South China Sea ENSO West Philippine Sea
78	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
79	El Niño-Southern Oscillation variability during the Little Ice Age and medieval climate anomaly reconstructed from fossil coral geochemistry and pseudoproxy analysis Hereid, Kelly Ann 26 February 2013 (has links) The El Niño-Southern Oscillation (ENSO) dominates global interannual climate variability. However, the imprint of anthropogenic climate change hinders understanding of natural ENSO variability. Model predictions of the response of future ENSO variability to anthropogenic forcing are highly uncertain. A better understanding of how ENSO operates during different mean climate states may improve predictions of its future behavior. This study develops a technique to quantify the response of tropical Pacific sea surface temperature and salinity to ENSO variations. This analysis defines expected regional relationships between ENSO forcing and the tropical Pacific climate response. For example, the western tropical Pacific records El Niño events with greater skill than La Niña events; whereas the oceans near the South Pacific Convergence Zone (SPCZ) preferentially record La Niña events. This baseline understanding of regional skill calibrates interpretations of both modern and pre-instrumental coral geochemical climate proxy records. A suite of monthly resolved 18O variations in a fossil corals (Porites spp.) from the tropical western Pacific (Papua New Guinea) and the SPCZ (Vanuatu) are used to develop case studies of ENSO variability under external forcing conditions that differ from the modern climate. A record from Misima, Papua New Guinea (1411-1644 CE) spans a period of reduced solar forcing that coincides with the initiation of the Little Ice Age. This record indicates that the surface ocean in this region experienced a small change in hydrologic balance with no change in temperature, extended periods of quiescence in El Niño activity, reduced mean El Niño event amplitudes, and fewer large amplitude El Niño events relative to signals captured in regional modern records. Several multidecadal (~30-50 year) coral records from Tasmaloum, Vanuatu during the Medieval Climate Anomaly (~900-1300 CE), a period of increased solar forcing, depict ENSO variability that is generally lower than modern times. However, these records often cannot be distinguished from 20th century ENSO variability due to ENSO variability uncertainty associated with record lengths. Neither record can be tied to concurrent changes in solar or volcanic forcing, calling into question the paradigm of ENSO variability being predominantly mediated by external forcing changes on multidecadal time scales. / text El Niño-Southern Oscillation ENSO South Pacific Convergence Zone SPCZ Fossil corals Papua New Guinea Vanuatu
80	Coral-based reconstruction of surface salinity at Sabine Bank, Vanuatu Gorman, Meaghan Kathleen 15 July 2011 (has links) A monthly resolved coral δ18O record from Sabine Bank, Vanuatu (SBV; 166.04° E, 15.94°S), extending from 2006 to 1929 CE, is used to assess the influence of sea surface salinity (SSS) on the oxygen isotopic composition of coral aragonite at this location. Monthly SSS anomalies at SBV between 2006 and 1970 are strongly correlated with monthly anomalies in sea surface temperature (SST) variations in the central Pacific cold tongue, as recorded by SST anomalies in the Niño 3.4 grid box (i.e., canonical record of ENSO variability, r = 0.68, p < 0.01; lag of 6 months). This relationship demonstrates that SSS in the waters offshore of Vanuatu respond to ENSO-driven changes in the coupled ocean-atmosphere system in the tropical Pacific. SBV coral δ18O is also strongly correlated with monthly instrumental SSS anomalies at Vanuatu (r = 0.71, p < 0.01), therefore SBV coral δ18O variations are driven by the ENSO-related changes in surface ocean conditions. A calibration-verification exercise using SBV coral δ18O values and instrumental SSS was performed over the period 2006-1970 CE. A statistically robust transfer function was determined and used to predict SSS at SBV back to 1929 CE. The coral δ18O and SSS relationship at Vanuatu is further evaluated via comparison with a coral δ18O record from Malo Channel, Vanuatu, a site that is 130 km to the east of SBV. The strong correlation between the two coral δ18O records (r = 0.70; p < 0.01) suggests that ENSO drives regional changes in SSS in this region and that such changes can be reconstructed using variations in skeletal δ18O of corals. / text ENSO Coral aragonite Sea surface salinity Paleoclimate Sabine Bank, Vanuatu Pacific ocean

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