How the Situationist International became what it was

The Situationist International (1957-1972) was a small group of communist revolutionaries, originally organised out of the West European artistic avant-garde of the 1950s. The focus of my thesis is to explain how the Situationist International (SI) became a group able to exert a considerable influence on the ultra-left criticism that emerged during and in the wake of the May movement in France in 1968. My wager is that the pivotal period of the group is to be found between 1960 and 1963, a period marked by the split of 1962. Often this is described as the transition of the group from being more concerned with art to being more concerned with politics, but as I will argue this definitional shorthand elides the significance of the Situationist critique of art, philosophy and politics. The two axes of my thesis are as follows. First, that the significant minority in the group which carried out the break of 1962, identified a homology between the earlier Situationist critique of art — embodied in the Situationist ‘hypothesis of the construction of situations’ — and Marx’s critique and supersession of the radical milieu of philosophy from which he emerged in the mid- 1840s. This homology was summarised in the expression of the Situationist project as the ‘supersession of art’ (dépassement de l’art). Secondly, this homology was practically embodied in the resolution of the debates over the role of art in the elaboration of the Situationist hypothesis, which had been ongoing since 1957. However, it was the SI’s encounter with the ultra-left group Socialisme ou Barbarie that would prove decisive. Via Guy Debord’s membership, the group was exposed to both the idea of a more general revolutionary criticism, but also ultimately what was identified as the insufficiently criticised ‘political militancy’ of this group. Indeed, in the ‘political alienation’ found in Socialisme ou Barbarie, a further homology was established between the alienation of the political and artistic avant-gardes. This identity would prove crucial to the further elaboration of the concept of ‘spectacle’. By way of an examination of the peculiar and enigmatic ‘Hamburg Theses’ of 1961, and the relationship between these ‘Theses’ and the Situationist criticism of art and politics worked out over the first five years of the group, I will argue that the break in 1962 should be conceived as one against politics as much as art (rather than just the latter, as it is more often represented). Additionally, I will outline how the SI, through the paradoxical reassertion of their artistic origins, attempted to synthesise their criticism of art with the recovery of the work of Marx beyond its mutilation as Marxism. Indeed, it was the synthesis of these critiques that enabled the considerable development of the concept of ‘spectacle’, opening the way to the unique influence the SI exerted in the re-emergence of a revolutionary movement at the end of the 1960s

A Study of the Factors That Influence Consumer Attitudes Toward Beef Products Using the Conjoint Market Analysis Tool

This study utilizes an analysis technique commonly used in marketing, the conjoint analysis method, to examine the relative utilities of a set of beef steak characteristics considered by a national sample of 1,432 US consumers, as well as additional localized samples representing undergraduate students at a business college and in an animal science department. The analyses indicate that among all respondents, region of origin is by far the most important characteristic; this is followed by animal breed, traceability, animal feed, and beef quality. Alternatively, the cost of cut, farm ownership, the use (or nonuse) of growth promoters, and whether the product is guaranteed tender were the least important factors. Results for animal science undergraduates are similar to the aggregate results, except that these students emphasized beef quality at the expense of traceability and the nonuse of growth promoters. Business students also emphasized region of origin but then emphasized traceability and cost. The ideal steak for the national sample is from a locally produced, choice Angus fed a mixture of grain and grass that is traceable to the farm of origin. If the product was not produced locally, respondents indicated that their preferred production states are, in order from most to least preferred, Iowa, Texas, Nebraska, and Kansas.

The service of the Scottish mercenary forces in Ireland, from 1565-1603, with an account of the mercenary system in Ireland and of its effect on Scottish history

CHAPTER ONE: The Background of relationship between Scottish and Irish affairs (to c.1565)CHAPTER TWO: The Scottish Mercenary Forces of Turlough Luineach O'Neil in Ulster, and the service of the Scots in Connacht (1565-1575.)CHAPTER THREE: The service of the Scots in Munster and Ulster, and in Connacht during the second and third Clanricarde Rebellions. (1575-1581).CHAPTER FOUR: The Effect of the Composition in Connacht, Perrott's Failure in Antrim, and the suspected Implication of the Court of King James VI. in Irish Affairs. (1581-1586.)CHAPTER FIVE: The Growth of the Earl of Tyrone's Disaffection, his intrigues with the Scots, the last internal rebellion in Connacht, and the reaction on Irish affairs of the activities of the MacLeans. (1586 -1594).CHAPTER SIX: The MacLean Intrigue, Secret Service Nork in the Isles, and the Abortive Expedition of 1595 (1594- 1595).CHAPTER SEVEN: The successes of the Irish in Rebellion, the English suspicion of King James in that regard, and the course of the MacLean-MacDonald Feud in the Isles. (1596- 1598.)CHAPTER EIGHT: Continued Success of the Irish, and the Project of Employing Scots in the Service of queen Elizabeth. (1598 -1599)CHAPTER NINE. The Defeat,of the Irish at Kinsale, the Efforts of King James on Elizabeth's behalf, and the movements of .the Clan Donald in Antrim, (1600 -1601)CHAPTER TEN: aftermath. (1602 -1603

Glycans and glycosaminoglycans in neurobiology: key regulators of neuronal cell function and fate

The aim of the present study was to examine the roles of l-fucose and the glycosaminoglycans (GAGs) keratan sulfate (KS) and chondroitin sulfate/dermatan sulfate (CS/DS) with selected functional molecules in neural tissues. Cell surface glycans and GAGs have evolved over millions of years to become cellular mediators which regulate fundamental aspects of cellular survival. The glycocalyx, which surrounds all cells, actuates responses to growth factors, cytokines and morphogens at the cellular boundary, silencing or activating downstream signaling pathways and gene expression. In this review, we have focused on interactions mediated by l-fucose, KS and CS/DS in the central and peripheral nervous systems. Fucose makes critical contributions in the area of molecular recognition and information transfer in the blood group substances, cytotoxic immunoglobulins, cell fate-mediated Notch-1 interactions, regulation of selectin-mediated neutrophil extravasation in innate immunity and CD-34-mediated new blood vessel development, and the targeting of neuroprogenitor cells to damaged neural tissue. Fucosylated glycoproteins regulate delivery of synaptic neurotransmitters and neural function. Neural KS proteoglycans (PGs) were examined in terms of cellular regulation and their interactive properties with neuroregulatory molecules. The paradoxical properties of CS/DS isomers decorating matrix and transmembrane PGs and the positive and negative regulatory cues they provide to neurons are also discussed

Immunolocalization of keratan sulfate in rat spinal tissues using the keratanase generated BKS-1(+) neoepitope: correlation of expression patterns with the slass II SLRPs, lumican and keratocan

This study has identified keratan sulfate in fetal and adult rat spinal cord and vertebral connective tissues using the antibody BKS-1(+) which recognizes a reducing terminal N-acetyl glucosamine-6-sulfate neo-epitope exposed by keratanase-I digestion. Labeling patterns were correlated with those of lumican and keratocan using core protein antibodies to these small leucine rich proteoglycan species. BKS-1(+) was not immunolocalized in fetal spinal cord but was apparent in adult cord and was also prominently immunolocalized to the nucleus pulposus and inner annulus fibrosus of the intervertebral disc. Interestingly, BKS-1(+) was also strongly associated with vertebral body ossification centers of the fetal spine. Immunolocalization of lumican and keratocan was faint within the vertebral body rudiments of the fetus and did not correlate with the BKS-1(+) localization indicating that this reactivity was due to another KS-proteoglycan, possibly osteoadherin (osteomodulin) which has known roles in endochondral ossification. Western blotting of adult rat spinal cord and intervertebral discs to identify proteoglycan core protein species decorated with the BKS-1(+) motif confirmed the identity of 37 and 51 kDa BKS-1(+) positive core protein species. Lumican and keratocan contain low sulfation KS-I glycoforms which have neuroregulatory and matrix organizational properties through their growth factor and morphogen interactive profiles and ability to influence neural cell migration. Furthermore, KS has interactive capability with a diverse range of neuroregulatory proteins that promote neural proliferation and direct neural pathway development, illustrating key roles for keratocan and lumican in spinal cord development

Perlecan in pericellular mechanosensory cell-matrix communication, extracellular matrix stabilisation and mechanoregulation of load-bearing connective tissues

In this study, we review mechanoregulatory roles for perlecan in load-bearing connective tissues. Perlecan facilitates the co-acervation of tropoelastin and assembly of elastic microfibrils in translamellar cross-bridges which, together with fibrillin and elastin stabilise the extracellular matrix of the intervertebral disc annulus fibrosus. Pericellular perlecan interacts with collagen VI and XI to define and stabilize this matrix compartment which has a strategic position facilitating two-way cell-matrix communication between the cell and its wider extracellular matrix. Cues from the extracellular matrix are fed through this pericellular matrix back to the chondrocyte, allowing it to perceive and respond to subtle microenvironmental changes to regulate tissue homeostasis. Thus perlecan plays a key regulatory role in chondrocyte metabolism, and in chondrocyte differentiation. Perlecan acts as a transport proteoglycan carrying poorly soluble, lipid-modified proteins such as the Wnt or Hedgehog families facilitating the establishment of morphogen gradients that drive tissue morphogenesis. Cell surface perlecan on endothelial cells or osteocytes acts as a flow sensor in blood and the lacunar canalicular fluid providing feedback cues to smooth muscle cells regulating vascular tone and blood pressure, and the regulation of bone metabolism by osteocytes highlighting perlecan\u27s multifaceted roles in load-bearing connective tissues

The gas vesicles, buoyancy and vertical distribution of cyanobacteria in the Baltic Sea

The mean pressures required to collapse gas vesicles in turgid cells of cyanobacteria from the Baltic Sea were 0·91 MPa (9·1 bar) in Aphanizomenon flos-aquae, 0·83 MPa in Nodularia sp. collected from the main deep basins and 0·34 MPa in Nodularia from shallower coastal regions. The gas vesicles were strong enough to withstand the depth of winter mixing, down to the permanent halocline (60 m in the Bornholm Sea, 90 m in the Eastern Gotland Sea) or to the sea bottom (30 m or less in the shallow Arkona Sea and Mecklenburg Bight). The cyanobacteria had low cell turgor pressures, within the range 0·08–0·18 MPa. The colonies were highly buoyant: the Aphanizomenon colonies floated up at a mean velocity of 22 m per day and the Nodularia colonies at 36 m per day. The colonies remained floating when up to half of the gas vesicles had been collapsed. In summer the cyanobacteria were mostly restricted to the water above the thermocline and in calm conditions their concentration increased towards the top of the water column. A series of colony concentration profiles indicated that, following a deep mixing event, the population of colonies moved upward with a net velocity of 22 m per day, similar to the colony floating velocity. This demonstrated that the buoyancy provided by gas vesicles would give a selective advantage to populations of cyanobacteria by enabling them to float into the higher irradiance of the near-surface water

Quantum enhanced metrology: quantum mechanical correlations and uncertainty relations

The foundational theory of quantum enhanced metrology for parameter estimation is of fundamental importance to the progression of science and technology as the scientific method is built upon empirical evidence, the acquisition of which is entirely reliant on measurement. Quantum mechanical properties can be exploited to yield measurement results to a greater precision (lesser uncertainty) than that which is permitted by classical methods. This has been mathematically demonstrated by the derivation of theoretical bounds which place a fundamental limit on the uncertainty of a measurement. Furthermore, quantum metrology is of immediate interest in the application of quantum technologies since measurement plays a central role. This thesis focuses on the role of quantum correlations and uncertainty relations which govern the precision bounds. We show how correlations can be distributed amongst limited resources in realistic scenarios, as permitted by current experimental capabilities, to achieve higher precision measurements than current approaches. This is extended to the setting of multiparameter estimation in which we demonstrate a more technologically feasible method of correlation distribution than those previously posited which perform as well as, or worse than, our scheme. Furthermore, a quantum metrology protocol is typically comprised of three stages: probe state preparation, sensing and then readout, where the time required for the first and last stages is usually neglected. We consider the more realistic sensing scenario of time being a limited resource which is divided amongst the three stages and demonstrate the most efficient use of this resource. Additionally, we take an information theoretic approach to quantum mechanical uncertainty relations and derive a one-parameter class of uncertainty relations which supplies more information about the quantum mechanical system of interest than conventional uncertainty relations. Finally, we demonstrate how we can use this class of uncertainty relations to reconstruct information of the state of the quantum mechanical system