Reconstructions of Hydrography of the Western Pacific Warm Pool and the Linkage to the Global Climate System over the Past 2.2 Ma

Lin, Pin-chuan

12 September 2012

The Region of Western Pacific Warm Pool (WPWP) is closely related to Global climate system. Previous studies indicate that the region of WPWP is affected by Walker circulation (WC) and Hadley cell (HC). WPWP expands when WC becomes stronger or when HC becomes weaker, and contracts when WC becomes weaker or when HC becomes stronger. In this study, records derived from core ODP1115B, including stable oxygen and carbon isotopes are used to reconstruct the long-term hydrological variations of WPWP over the past 2.2 Ma. We compared two species of foraminifera: Neogloboquadrina dutertrei and Globigerinoides sacculifer, for the reconstruction of differences between surface water and oceanic subsurface water. We try to find out the relationships between the thermocline depth in southern WPWP, the region of WPWP, HC and WC. However, our records indicate that the depth of thermocline in southern WPWP may be effected by the region of WPWP and the hydrology of southern WPWP. According to the Paleothermometry records of ODP806, ODP847, ODP1115 and MD063018, we can explain the relationship between WC, HC and the region of WPWP. Before 1.8 Ma, southern WPWP may not be affected by weak WC. During 1.8~1.2 Ma, WC becomes stronger and effect the region of WPWP. At the period of 1.2~0.9 Ma, southward migration of WPWP enhanced the influence of WC on the region of south WPWP and the depth of thermocline, then weakened HC in the southern hemisphere. After 0.9 Ma, the variation of hydrology in southern WPWP may be affected by stronge WC, not HC. We suggest that the influence of HC in southern WPWP is resulted in the southern region of WPWP.

Planktonic foraminifera

WPWP

Stable Isotope

Thermocline

Hadley cell

Walker circulation

Role of inflammation and endothelial dysfunction of coronary arterioles in type 2 diabetes

Yang, Ji Yeon

15 May 2009

We hypothesized that the interaction between tumor necrosis factor alpha(TNF)/nuclear factor-kappaB (NFkB) via activation of IKK may amplify one anotherresulting in the evolution of vascular disease and insulin resistance associated withdiabetes. The interaction between TNFa and monocyte chemoattractant protein-1 (MCP-1) may contribute to the evolution of vascular inflammation and endothelial dysfunctionin coronary arterioles in type 2 diabetes. To test this hypothesis, endothelium-dependent(ACh) and –independent (SNP) vasodilation of isolated, pressurized coronary arterioles(40-100 μm) from mLeprdb (heterozygote, normal), Leprdb (homozygote, diabetic) andLeprdb mice null for TNF (dbTNF-/dbTNF-) were examined. Although dilation of vesselsto SNP was not different between Leprdb and mLeprdb mice, dilation to ACh was reducedin Leprdb mice. The NFkB antagonist, MG-132, IKK inhibitor, sodium salicylate(NaSal), or Anti-MCP-1 partially restored endothelium-dependent coronary arteriolardilation in Leprdb mice. Protein expression of IKK and IKK were higher in Leprdb thanin mLeprdb mice. The expression of IKK, but not the expression of IKK was increasedin dbTNF-/dbTNF- mice. Leprdb mice showed increased insulin resistance, but NaSal improved insulin sensitivity. Protein expression of TNFa, NFkB, phosphorylation ofIKK and JNK were greater in Leprdb mice, but NaSal attenuated protein expression ofthem in Leprdb mice. The ratio of phosphorylated IRS-1 at Ser307 (pIRS-1)/IRS-1protein expression was elevated in Leprdb mice; both NaSal and JNK inhibitor SP600125reduced pIRS-1/IRS-1 in Leprdb mice. MG-132 or neutralization of TNF reducedsuperoxide production in Leprdb mice. Anti-MCP-1 attenuated superoxide productionand protein expression of nitrotyrosine (N-Tyr), which is an indicator of peroxynitriteproduction, in isolated coronary arterioles of Leprdb mice. Immunostaining resultsshowed that expression of MCP-1 and vascular cellular adhesion molecule-1 (VCAM) isco-localized with endothelial cells and macrophages. Anti-TNFa or anti-MCP-1markedly reduced macrophage infiltration and the number of MCP-1 positive cells.Neutralization of TNFa or anti-MCP-1 reduced the expression of adhesion molecules. Inconclusion, our results indicate that the interaction between NFkB and TNFa signalinginduces activation of IKKb. In addition, TNFa and TNFa-related signaling, includingthe expression of MCP-1 and adhesion molecules, further exacerbates oxidative stressleading to endothelial dysfunction in type 2 diabetes.

Coronary circulation

Oxidant stress

Endothelium/vascular type/nitric oxide

Impact of the Southern ocean winds on sea-ice - ocean interaction and its associated global ocean circulation in a warming world

Cheon, Woo Geunn

15 May 2009

This dissertation discusses a linkage between the Southern Ocean (SO) winds and the global ocean circulation in the framework of a coarse-resolution global ocean general circulation model coupled to a sea-ice model. In addition to reexamination of the conventional linkage that begins with northward Ekman transport and extends to the North Atlantic (NA) overturning, the author investigates a new linkage that begins with the Southern Hemisphere (SH) sea-ice – ocean interaction perturbed by the anomalous SO winds and extends to the SH overturning, the response of the NA overturning, and the long-term baroclinic adjustment of the Antarctic Circumpolar Current (ACC). How the above two linkages will interact with each other in a warming world is also investigated. An interactive momentum flux forcing, allowing for the strength of momentum flux between atmosphere and sea ice to vary in response to the simulated sea-ice conditions, enhances wind-driven ice divergence to increase the fraction of leads and polynyas, which increases dense water formation, and thus intensifies convection. Within three experimental frameworks, this increased dense water consistently increases the Antarctic Bottom Water formation, which directly intensifies the SH overturning and indirectly weakens the NA overturning. As a result of the hemispheric change in overturning circulations, the meridional density gradient across the ACC appears to increase, ultimately increasing the baroclinic part of the ACC via an enhanced thermal wind shear. Subsequently, impacts of the poleward shifted and intensified SH subpolar westerly winds (SWWs) on the global ocean circulation are investigated in phases. When the SWWs are only shifted poleward, the effect of the anomalous winds is transmitted to the northern NA, decreasing both the NA overturning and the North Atlantic Deep Water (NADW) outflow. However, when the SWWs are shifted poleward and intensified, this effect is cut off by the intensified Deacon cell overturning, and is not transmitted to the northern NA, and instead increases the NADW outflow substantially. To sum up, with respect to the SO winds perturbed by the global warming, the SH overturning cell and the NADW outflow increase, leading to an increase in the volume transport of the ACC.

Southern Ocean winds

sea-ice - ocean interaction

global ocean circulation

A Mechanistic Study of Atlantic Meridional Overturning Circulation Changes on Tropical Atlantic Climate

Wen, Caihong

2009 August 1900

An eddy-permitting 2-1/2-layer Reduced Gravity Ocean (RGO) model is developed. Compared with the conventional 2-1/2-layer RGO models, the new model has improvements in subsurface thermodynamics, vertical mixing scheme and open boundary conditions. Using this new 2-1/2-layer RGO model as a dynamical tool, a systematic investigation of the role of oceanic processes in controlling tropical Atlantic sea-surface temperature (SST) response to Atlantic Meridional Overturning Circulation (AMOC) changes is carried out by varying the strength of northward mass transport at the open boundaries. It is found that the North Brazil Undercurrent (NBUC) reverses its direction in response to a shut-down of the AMOC. Such circulation change allows warm waters of the northern subtropical gyre enter the equatorial zone, giving rise to a prominent warming in the Gulf of Guinea and off the coast of Africa. Sensitivity experiments further show that the SST response behaves nonlinearly to AMOC changes. The rate of SST changes increases dramatically when the AMOC strength is below a threshold value. This nonlinear threshold behavior depends on the position of subsurface temperature gradient. The new RGO is coupled to an atmosphere general circulation model (AGCM) (CCM3.6). The coupled model is capable of capturing major features of tropical Atlantic variability. With the aid of this coupled model, a series of experiments with different combinations of oceanic and atmospheric processes are carried out to elucidate the relative importance of the oceanic processes and atmospheric processes in AMOC-induced tropical Atlantic variability/change. It is found that the oceanic processes are a primary factor contributing to the warming at and south of the equator and the precipitation increase over the Gulf of Guinea, while atmospheric processes are responsible for the surface cooling of the tropical north Atlantic and southward displacement of ITCZ. The sensitivity of the coupled system to different strength of the AMOC is further investigated. It is found that equatorial SST and precipitation response also behaves nonlinearly to AMOC changes. The impact of AMOC changes on Tropical Instability Waves (TIWs) is assessed. It is found that the activity of TIWs is reduced in response to the AMOC-induced equatorial SST warming. Correlation analysis suggests that AMOC may affect TIW activities by modifying SST gradient north of the equator.

Tropical Atlantic variability

Tropical instability wave

Influence Of Large Scale Atmospheric Systems On Hydorology And Ecology Of Turkish Lakes

Kerimoglu, Onur

01 February 2008

Impacts of climatic changes on in-land waters of Turkey is a topic that has not been sufficiently investigated yet. In this study, some exploratory work have been performed to form the core of further studies on the subject. EOF (Empirical Orthogonal Function) analysis has been applied to SLP (Sea Level Pressure) field with a wide coverage (20-70N, 50W-70E). The dominant sources of variability in this atmospheric system have been shown to be driven by 3 circulation indices, NAO (North Atlantic Oscillation), EAWR (East Atlantic - West Russia) and EA (East Atlantic) patterns. Linkages between this atmospheric system and the hydro-meteorological properties (data compiled from governmental organizations) of major Turkish lake ecosystems has been investigated with use of ordinary correlation analysis and CCA (Canonical Correlation Analysis). The results revealed the heavy forcing of large scale SLP field on regional temperature and E--P (evaporation minus precipitation) fields. The 15-year data set of Lake Mogan, as the longest available found, was used to exemplify the approaches and methodologies that can be employed for understanding the influence of climate variability on biological properties of lakes. It was suggested that temperature and salinity, being effective on phytoplankton and zooplankton groups, mediate the climatic impacts in Lake Mogan.

GE Environmental Sciences 1-140

Impact of Orography on the Simulation of Monsoon Climate in a General Circulation Model

Chakraborty, Arindam

06 1900

Orography plays a major role in the general circulation and climate of the tropics. Although many works have been done on the impact of global orography on summer monsoon, the previous studies have examined the impact on seasonal mean scale or only during the first half of the season. Role of orography on intra-seasonal variability has not been addressed previously. Also, the proximate and remote impacts of orography have not been studied. In this thesis an atmospheric General Circulation Model (GCM) has been used to investigate the impact of global and regional orography on monsoon climate. Two different cumulus schemes have been used to study the sensitivity of the results to the cumulus parameterization scheme. The model was forced with seasonally varying sea surface temperature (SST) for the year 1998. An ensemble simulation of 5 members were performed for each experiment. The simulations showed that the removal of Himalayas or orography over the entire earth caused a delay of about one month in the onset of the monsoon. The delay in monsoon onset was on account of a more stable atmosphere due to intrusion of mid-latitude cold air into the Indian region in the absence of Himalayas. After the onset, the precipitation rate was comparable in control and no-mountain simulations. The seasonal mean (June-September) precipitation over this region decreased by 25% in the no-mountain case as compared to control. A comparison of the impact of east and west Himalaya orography showed that orography west of 80E has more impact on the phase and intensity of summer monsoon precipitation over the Indian region than orography east of 80E. The onset of summer monsoon over the Indian region was delayed by about one month with the removal of Himalaya orography west of 80E, but was delayed by just about one week with the removal of Himalaya orography east of 80E. This is because, the cold air intrusion was more when Himalaya orography west of 80E was removed. Seasonal mean precipitation decreased by 22% and 12% with the removal of orography west and east of 80E respectively. Himalaya orography east of 80E showed more influence on precipitation over the north-east Indian region and East Asia. The removal of orography from the African continent increased the summer monsoon precipitation over the Indian region. This was on account of an increase in the zonal mass flux from the African continent in the absence of East African mountains. This mass flux brings more moisture into the south Asian region and increases precipitation over the Indian region and Bay of Bengal. A higher precipitation over the Bay of Bengal leads to higher wind over the Somalia coast and this acts as a positive feedback to enhance the summer monsoon precipitation by about 28% over the Indian region. The presence of orography only over the African continent resulted in the largest delay in the monsoon onset (by 50 days) and the lowest amount of seasonal precipitation (decrease by 36%) over the Indian region among all the simulations. This is due to further reduction in zonal mass (and hence, moisture) flux toward the Indian subcontinent with the inclusion of African orography when compared with no-global orography simulation. The seasonal mean precipitation decreased by 19% over the Indian region with the removal of American orography. The onset of monsoon was delayed by about 3 weeks in this experiment as compared to control. This delay was due to a relative downward motion in the upper troposphere on account of the shift of the Rossby wave with the removal of American mountains. In this thesis, a new theory has been proposed for monsoon onset based on thermodynamic conditioning (necessary condition) and mechanical trigger (sufficient condition) of the atmosphere. This theory was able to explain the large variation in monsoon onset dates (maximum spread 57 days) in different simulations. The low level circulation was affected more by Himalaya orography west of 80E, which had a profound influence on precipitation over the Indian region. However, upper level circulation was affected more by Himalaya orography east of 80 E. The northward shift of the upper tropospheric westerly jet during the Northern Hemispheric summer was sudden in presence of the Tibetan Plateau and gradual in its absence. This shift was not related to the onset of monsoon over the Indian region. Northward propagation of convection was found to be present even in the absence of global orography. But northward extent of this propagation was delayed without orography on account of the absence of a favorite meridional gradient of moist static energy in the lower troposphere in the early summer season due to intrusion of mid-latitude cold air. Space-time spectral analysis showed that the intensity of eastward moving convectively coupled atmospheric waves, known as Madden-Julian oscillation (MJO), decreased in absence of global orography. Moreover, the presence of orography favor the higher zonal wave number for MJO propagation.

Atmospheric Science

Orography

General Circulation Model

Monsoon

Climate

Das Geld der Nonnen und Mönche : Münzrecht, Münzprägung und Geldumlauf der ostfränkisch-deutschen Klöster in ottonisch-salischer Zeit, ca. 911-1125 /

Steinbach, Sebastian,

January 2007

Dissertation--Kulturwissenschaften--Universität Paderborn, 2006. / Bibliogr. p. 454-490.

Les monnaies du Poitou antique : circulation monétaire et histoire /

Hiernard, Jean,

January 1987

Thèse de doctorat--Histoire et archéologie des mondes anciens--Université de Bordeaux 3, 1987. / Bibliogr. p. 974-1005.

Les monnaies massaliètes en Vallée du Rhône : exposé en U. E. de Proto Histoire /

Doublier-Villette, Christian-Michel.

January 1900

Exposé en année de Maîtrise--Archéologie, U. E. de Proto Histoire--Université Lumière Lyon II, [2004]. / Bibliogr. p. IV, et notes bibliogr.

Libre-circulation et non-discrimination, éléments du statut de citoyen de l'Union européenne /

Iliopoulou, Anastasia,

January 2007

Texte remanié de: Thèse de doctorat--Droit communautaire--Paris 2, 2005. / Bibliogr. p. [717]-764.