1,611 research outputs found
The evolution of photosynthesis and chloroplasts
This review focuses on what has been learned about the evolution of photosynthesis in the past five years, and omits evolution of CO2 assimilation. Oxygenic photosynthesis (using both photosystems I and II) has evolved from anoxygenic photosynthesis. The latter occurs in different variants, using either a type 1 photosystem resembling photosystem I, or a type 2 photosystem resembling photosystem II. Opinions differ as to how two types of photosystem came to be combined in the same organism, whether by gene transfer between bacteria, by fusion of bacteria, or as a result of gene duplication and evolution within one kind of bacterium. There are also different opinions about when oxygenic photosynthesis arose, in conjunction with the Great Oxygenation Event, 2.3 billion years before the present, or more than a billion years before that. Cyanobacteria were the first organisms to carry out oxygenic photosynthesis. Some of them gave rise to chloroplasts, while others continued to evolve as independent organisms, and the review outlines both lines of evolution. At the end we consider the evolution of photosynthesis in relation to the evolution of our planet
The exponentiated Hencky strain energy in modelling tire derived material for moderately large deformations
This work presents a hyper-viscoelastic model based on the Hencky-logarithmic
strain tensor to model the response of a Tire Derived Material (TDM) undergoing
moderately large deformations. TDM is a composite made by cold forging a mix of
rubber fibers and grains, obtained by grinding scrap tires, and polyurethane
binder. The mechanical properties are highly influenced by the presence of
voids associated with the granular composition and low tensile strength due to
the weak connection at the grain-matrix interface. For these reasons, TDM use
is restricted to applications concerning a limited range of deformations.
Experimental tests show that a central feature of the response is connected to
highly nonlinear behavior of the material under volumetric deformation which
conventional hyperelastic models fail in predicting. The strain energy function
presented here is a variant of the exponentiated Hencky strain energy proposed
by Neff et al., which for moderate strains is as good as the quadratic Hencky
model and in the large strain region improves several important features from a
mathematical point of view. The proposed form of the exponentiated Hencky
energy possesses a set of parameters uniquely determined in the infinitesimal
strain regime and an orthogonal set of parameters to determine the nonlinear
response. The hyperelastic model is additionally incorporated in a finite
deformation viscoelasticity framework that accounts for the two main
dissipation mechanisms in TDMs, one at the microscale level and one at the
macroscale level. The model is capable of predicting different deformation
modes in a certain range of frequency and amplitude with a unique set of
parameters with most of them having a clear physical meaning. Moreover, by
comparing the predictions from the proposed constitutive model with
experimental data we conclude that the new constitutive model gives accurate
prediction
The performance of initial public offerings on the JSE
Includes abstract.Includes bibliographical references.This study examined the performance 60 initial public offerings listing on the JSE main board between 1 January 2000 and 31 December 2011. Significant underpricing of 10.1% and 8.5% was found to exist on the first day and during first week subsequent to the IPO. Underperformance of 14.17% was found using abnormal returns and 12.91% underperformance was found when holding period returns were calculated one year after the IPO
Adventures with Cyanobacteria: A Personal Perspective
Cyanobacteria, or the blue-green algae as they used to be called until 1974, are the oldest oxygenic photosynthesizers. We summarize here adventures with them since the early 1960s. This includes studies on light absorption by cyanobacteria, excitation energy transfer at room temperature down to liquid helium temperature, fluorescence (kinetics as well as spectra) and its relationship to photosynthesis, and afterglow (or thermoluminescence) from them. Further, we summarize experiments on their two-light reaction – two-pigment system, as well as the unique role of bicarbonate (hydrogen carbonate) on the electron-acceptor side of their photosystem II, PSII. This review, in addition, includes a discussion on the regulation of changes in phycobilins (mostly in PSII) and chlorophyll a (Chl a; mostly in photosystem I, PSI) under oscillating light, on the relationship of the slow fluorescence increase (the so-called S to M rise, especially in the presence of diuron) in minute time scale with the so-called state-changes, and on the possibility of limited oxygen evolution in mixotrophic PSI (minus) mutants, up to 30 min, in the presence of glucose. We end this review with a brief discussion on the position of cyanobacteria in the evolution of photosynthetic systems
Freedom of religion of children in private schools
This article argues against the interpretation that the right to establish private schools includes the right to require religious conformity from non-adherent learners by way of a waiver of their religious freedom. Despite the importance of respecting the rights of religious communities to protect and preserve their faith in private schools, it is submitted that this right cannot be exercised without regard for the religious freedom, dignity and best interests of non-adherent children. As a result, it is submitted that the waiver of the freedom of religion of non-adherent children is not consistent with the values which South African society reveres and, therefore, cannot be enforced. This article suggests that there is a way for the rights of private schools and the rights of the non-adherent child to co-exist in harmony through the application of the reasonable accommodation principle in private schools
Cation-induced changes in the circular dichroism spectrum of chloroplasts
Llimona Bruguera, Josep; Vilaseca, Josep (arquitecte)PrimerÃssim primer pla de: La Recompensa,
fris de l'Arc de Triomf, situat al Passeig
LluÃs Companys. Realitzat amb pedra artificial de ciment
portland.
Representa el repartiment de recompenses als participants a l'Exposició Universal de 1888
A micro-mechanically based continuum model for strain-induced crystallization in natural rubber
AbstractRecent experimental results show that strain-induced crystallization can substantially improve the crack growth resistance of natural rubber. While this might suggest superior designs of tires or other industrial applications where elastomers are used, a more thorough understanding of the underlying physics of strain-induced crystallization in natural rubber has to be developed before any design process can be started. The objective of this work is to develop a computationally-accessible micro-mechanically based continuum model, which is able to predict the macroscopic behavior of strain crystallizing natural rubber. While several researchers have developed micro-mechanical models of partially crystallized polymer chains, their results mainly give qualitative agreement with experimental data due to a lack of good micro–macro transition theories or the lack of computational power. However, recent developments in multiscale modeling in polymers give us new tools to continue this early work. To begin with, a micro-mechanical model of a constrained partially crystallized polymer chain with an extend-chain crystal is derived and connected to the macroscopic level using the non-affine micro-sphere model. Subsequently, a description of the crystallization kinetics is introduced using an evolution law based on the gradient of the macroscopic free energy function (chemical potential) and a simple threshold function. Finally a numerical implementation of the model is proposed and its predictive performance assessed using published data
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