Nigerian modernism(s) 1900-1960 and the cultural ramifications of the found object in art

Akpang, Clement Emeka

January 2016

This thesis explored the phenomenon of Modernism in Twentieth Century Nigerian art and the cultural ramifications of the Found Object in European and African art. Adopting the analytical tools of postcolonial theory and Modernism, modern Nigerian art was subjected to stylistic, conceptual and contextual analysis. The avant-gardist context of the form was explored for two reasons; first in an attempt to distinguish the approaches of named artists and secondly, to address the Eurocentric exclusion of the ‘Other’ in Modernist discourse. The works of Nigerian modernists - Aina Onabolu, Ben Enwonwu and Uche Okeke whose practices flourished from 1900 - 1960, were interrogated and findings from detailed artists case studies proved that during the period of European Modernism, a parallel bifurcated Modernism (1900-1930 / 1930 -1960) occurred in Nigeria characterised by the interlacing of modern art with nationalist political advocacies to subvert colonialism, imperialism and European cultural imposition. This radical formulation of modern Nigerian art, constituted a unique parallel but distinct avant-gardism to Euro-American Modernism, thus proving that Modernism is a pluralistic phenomenon. To valorise the argument that Modernism had multiple avant-garde centres, this thesis analysed the variations in philosophies, ideologies and formalism of the works of Nigerian Modernists and contrasted them from Euro-American avant-gardes. The resultant cultural and contextual differences proved the plurality of Modernism not accounted for in Western art history. Furthermore, by adopting comparative analysis of the Found Object in European and African art, this thesis proved that, the appropriation of mundane objects in art differ from culture to culture, in context, philosophies and ramifications. This finding contributes to knowledge by addressing the ambiguity in Found Object art discourse and problematic attempts to subsume this genre into a mainstream framework. The uncovering/theorisation of this parallel bifurcated Nigerian Modernism, contributes to expanding understanding of Modernism as a pluralistic phenomenon thus, contributing to debates for the recognition of the different Modernisms which cultures outside Europe gave rise to. The recognition and situation of Nigerian avant-gardism and modernism and interpretation of the Found Object as being culturally specific will subsequently contribute to the reconstruction of modernist discourse and Nigerian/African art histories.

709.669

Etude des propriétés angiogéniques du système Wnt/Frizzled : implication du récepteur Frizzled 4 dans la morphogénèse artérielle / Study of Wnt/Frizzled angiogenic properties : implication of Frizzled 4 receptor in arterial morphogenesis

Descamps, Betty

15 December 2009

De plus en plus d’études impliquent la signalisation Wnt/Frizzled (Wnt/Fzd) dans la formation des vaisseaux. La première partie de ce manuscrit démontre d’ailleurs que la signalisation Wnt, via son régulateur sFRP1 et un de ses ligands, Wnt4, potentialise les effets angiogéniques des cellules souches mésenchymateuses lors de l’angiogénèse. Le récepteur Frizzled4 (Fzd4), lui, est impliqué dans le développement vasculaire de la rétine puisque la délétion du gène fzd4 révèle une malformation du réseau vasculaire rétinien secondaire et tertiaire. Le but de ce travail a été d’étudier l’implication de Fzd4 dans la régulation de la morphogenèse vasculaire chez l’adulte. Il s’avère que Fzd4 présente un profil d’expression plutôt artériel, et que la délétion de ce gène empêche la formation d’un réseau artériel normal des organes périphériques. Des études in vitro réalisées sur des cellules vasculaires primaires ont mis en évidence plusieurs altérations de leurs propriétés angiogéniques. Cette étude a donc démontré un rôle central de Fzd4 dans la croissance vasculaire. Fzd4 régule les propriétés des cellules vasculaires mises en jeu dans l’angiogenèse, et régule la morphogenèse des ramifications vasculaires in vivo. Pour identifier et comprendre les mécanismes moléculaires induits par le récepteur Fzd4, une étude sur la protéine centrale du système Wnt/Fzd, l’isoforme Dishevelled (Dvl), et sur ses partenaires intracellulaires, a été initiée. Les premiers résultats suggèrent que les isoformes 1 et 3 de Dvl participent via Fzd4 à l’activation de la voie canonique nécessaire à la prolifération cellulaire. De plus, certains partenaires intracellulaires de Dvl3 ont pu être sélectionnés par une méthode de double hybride réalisée chez la levure. / Growing evidences link Wnt/Frizzled (Wnt/Fzd) pathway to proper vascular formation. The first part of this manuscript shows besides that Wnt pathway, via its regulator sFRP1 and one of its ligands, Wnt4, potentiates mesenchymal stem cells angiogenic properties during angiogenesis. An other Frizzled receptor (Fzd), Fzd4, has been shown to be implicated in retinal vascular formation because inactivation of the fzd4 gene revealed a malformation of the secondary and tertiary retinal vascular network. Here, we investigated the involvement of Fzd4 in adult vascular morphogenesis regulation. Fzd4 present an arterial vascular pattern, and the deletion of fzd4 impairs a normal arterial network formation in peripheral organs. In vitro studies on primary vascular cells show several alterations on their angiogenic properties. This study reveals a central role of Fzd4 in vascular growth. Fzd4 regulate angiogenic vascular cell properties and vascular branching morphogenesis in vivo. To further understand molecular mechanisms induced by Fzd4, we started to study the Wnt/Fzd central protein, Dishevelled (Dvl), and its intracellular partners. First results suggest that Dvl 1 and 3 isoforms would participate with Fzd4 to activate Wnt canonical pathway implicated in cell proliferation. Moreover, some Dvl3 partners could be selected by a yeast two-hybrid method.

Frizzled4

Réseau artériel

Ramifications vasculaires

Cellules vasculaires

Propriétés angiogéniques

Frizzled4

Arterial network

Vascular branching

Vascular cells

Angiogenic properties

Culture of indifference : dilemmas of the Filipina domestic helpers in Hong Kong

Kennelly, Estelle M.

January 2008

In this study, an examination of the everyday experiences of the contract migrant Filipina domestic helpers exposes a culture of indifference which pervades the Hong Kong society on all levels--individual, community, and judiciary. At the centre of the abuses inflicted upon the Helpers is the employment contract with extraordinarily restrictive terms which promotes abuse by many employers. This study also looks at the transnational informal social infrastructure which has been organized by the Filipino community to mediate the hostile working environment engendered by the indifference of the global economic and political climate upon their lives. Faced with the task of implementing new policies for controlling labour migration into Hong Kong, the legislators have focused on the end result and finding the means with which to accomplish their goal. Embedded within this process are unexamined cultural mores and practices. Although the starting point is to benefit the community, by providing domestic helpers to serve the middle and upper class households, too often the abusive consequences to individual migrants are ignored as the women become the means to an end. Migration has often been viewed as an aberration to the notion of the sedentary community. Treated as an anomaly, it is the migrant who problematizes simple theoretical positions of social organization and structure. The migrant is always treated as the one who does not conform to the ideal community and is conveniently merged into existing social categories, such as the lower status of women in Hong Kong, and the lower status of domestic workers -- relegated thereby to the periphery of the society's consciousness.

Functional Anatomy and Development of Cactus Ramifications

Schwager, Hannes

12 November 2015

Cacti (Cactaceae) represent a family of highly specialized angiosperm plants with a native range of distribution restricted to the American continents. Columnar cacti of the sub-family Cactoideae evolved in adaptation to their arid or semi-arid habitats characteristics that distinguish them from most other dicot plants, e.g. the stem succulence with a strongly vascularized storage parenchyma and the presence of the spine wearing areoles. Although cacti have been in cultivation since the discovery of America, some studies even suggest the agricultural use in pre-colombian times, and many scientific investigations were carried out on the functional morphology and anatomy with regard to biomechanical adaptations of the found structures, no research focused on the branch-stem attachment. The most conspicuous features of such a ramification are the pronounced constrictions at the branch-stem junctions that are also present in the lignified vascular structures within the succulent cortex. Based on Finite Element Analyses of ramification models it could be demonstrated that these indentations in the region of high flexural and torsional stresses are not regions of structural weakness, e.g. allowing vegetative propagation. On the contrary, they can be regarded as anatomical adaptations to increase the stability by fine-tuning the stress state and stress directions in the junction along prevalent fiber directions. The development of the woody support structure within the succulent cortex of the parental shoot can be traced back to the leaf and bud traces of the dormant axillary buds. Surprisingly, these initials also develop into another woody structure supporting the flowers of the cacti. As these two support structures differ significantly in their macroscopic and microscopic anatomy and as they develop from the same initial state as leaf/bud traces, another objective of this work was to analyze the secondary growth of the two structures with traditional botanic investigation methods. The results of these investigations reveal a wood dimorphism consisting of an early parenchymatous phase followed later by fibrous wood in both kind of support structure. In vegetative branches, the woody support structures have the typical ringlike arrangement as found in the stele of the parental shoot, whereas the flower support structures have a reticular arrangement of interconnected woody strands. This fundamentally different anatomy of the support structures results from the formation of an interfascicular cambium between the leaf/bud traces when a vegetative branch forms or its absence in the case of a flower. After shedding light on the functional morphology and anatomy of the cactus ramification and their development the question arises if the found load adaptation strategies may serve to improve technical fiber composite structures analogue to the design recommendation developed from the biomechanical analyses of tree ramifications. Such a biomimetic transfer from the cactus ramification as biological role model to a technical implementation and the adaptation of the fine-tuned geometric shape and arrangement of lignified strengthening tissues might contribute to the development of alternative concepts for branched fiber-reinforced composite structures within a limited design space.

Kaktusverzweigung

Cactaceae

funktionelle Morphologie und Anatomie

Biomechanik

sekundäres Dickenwachstum

Blatt- und Zweigspuren

ruhende Achselknospen

Cactus ramifications

Cactaceae

functional morphology and anatomy

biomechanics

secondary growth

leaf/bud traces

dormant axillary buds

ddc:570

rvk:WL 9065

Functional Anatomy and Development of Cactus Ramifications

Schwager, Hannes

09 July 2015

Cacti (Cactaceae) represent a family of highly specialized angiosperm plants with a native range of distribution restricted to the American continents. Columnar cacti of the sub-family Cactoideae evolved in adaptation to their arid or semi-arid habitats characteristics that distinguish them from most other dicot plants, e.g. the stem succulence with a strongly vascularized storage parenchyma and the presence of the spine wearing areoles. Although cacti have been in cultivation since the discovery of America, some studies even suggest the agricultural use in pre-colombian times, and many scientific investigations were carried out on the functional morphology and anatomy with regard to biomechanical adaptations of the found structures, no research focused on the branch-stem attachment. The most conspicuous features of such a ramification are the pronounced constrictions at the branch-stem junctions that are also present in the lignified vascular structures within the succulent cortex. Based on Finite Element Analyses of ramification models it could be demonstrated that these indentations in the region of high flexural and torsional stresses are not regions of structural weakness, e.g. allowing vegetative propagation. On the contrary, they can be regarded as anatomical adaptations to increase the stability by fine-tuning the stress state and stress directions in the junction along prevalent fiber directions. The development of the woody support structure within the succulent cortex of the parental shoot can be traced back to the leaf and bud traces of the dormant axillary buds. Surprisingly, these initials also develop into another woody structure supporting the flowers of the cacti. As these two support structures differ significantly in their macroscopic and microscopic anatomy and as they develop from the same initial state as leaf/bud traces, another objective of this work was to analyze the secondary growth of the two structures with traditional botanic investigation methods. The results of these investigations reveal a wood dimorphism consisting of an early parenchymatous phase followed later by fibrous wood in both kind of support structure. In vegetative branches, the woody support structures have the typical ringlike arrangement as found in the stele of the parental shoot, whereas the flower support structures have a reticular arrangement of interconnected woody strands. This fundamentally different anatomy of the support structures results from the formation of an interfascicular cambium between the leaf/bud traces when a vegetative branch forms or its absence in the case of a flower. After shedding light on the functional morphology and anatomy of the cactus ramification and their development the question arises if the found load adaptation strategies may serve to improve technical fiber composite structures analogue to the design recommendation developed from the biomechanical analyses of tree ramifications. Such a biomimetic transfer from the cactus ramification as biological role model to a technical implementation and the adaptation of the fine-tuned geometric shape and arrangement of lignified strengthening tissues might contribute to the development of alternative concepts for branched fiber-reinforced composite structures within a limited design space.

info:eu-repo/classification/ddc/570

ddc:570