194 research outputs found

    Critical Race Theory: An Empirical Investigation of its Benefits

    Get PDF
    Within the last decade, discussions regarding the implementation of critical race theory in education have gained significant controversy among educators and politicians. Although empirical research on critical race theory is limited, conservative states continue to place bans on the teaching of critical race theory (CRT) in K-12 schools (Carter, 2021). The purpose of this study was to build empirical research on CRT, specifically examining whether a course utilizing a critical race curriculum is effective in reducing negative stereotype beliefs and improving attitudes toward critical race theory. Nineteen undergraduate students who were enrolled in the course, IES 102: The Social Construct of Difference, at Chapman University, were selected to participate in this study. Within the first two weeks of the course, students were recruited to participate in an online pre-test that assessed their beliefs in stereotypes and attitudes toward the concept of critical race theory. In the last four weeks of the course, students were recruited back to complete a similar post-test, assessing their beliefs in stereotypes and attitudes toward the concept of critical race theory again. There was no significant difference between participants’ belief in stereotypes and attitude toward critical race theory before and after exposure to a critical race curriculum. However, students who identify as more liberal had a more positive attitude to CRT, and students who identify within a minority community had fewer beliefs in negative stereotypes. These results are significant as it demonstrates that beliefs in stereotypes and support for a critical race curriculum are dependent on identity. Based on the significant results of this study, educators and advocates should focus on debunking the myths of critical race theory and spreading awareness on its true values and curriculum, especially towards conservative groups. Additionally, educators should utilize activities to build empathy and perspective-taking skills towards “outgroups” to improve intergroup relations

    Archaeology of Holocene hunter-gatherers at the sixth Nile cataract, central Sudan

    Get PDF
    Jebel Sabaloka at the Sixth Nile Cataract has been known for its strategic importance in late prehistoric stone tool production in central Sudan. Since 2009, archaeological exploration on the west bank of the Nile has revealed a hierarchized settlement structure, with 30 sites of early to mid-Holocene dating. The key findings derive from two principal sites – Sphinx and Fox Hill – that are situated on large granite outcrops and provide evidence of robust occupation by hunter-gatherers of the Early Khartoum Complex (Khartoum Mesolithic, ca. 8,500–5,000 BC). One of the most intriguing elements at these Early Khartoum settlements is the presence of large hunter gatherer burial grounds, which will enrich the discussions of the character, duration and structuring of these Mesolithic societies at both regional and supra-regional level

    Identification of a Photosystem II Phosphatase Involved in Light Acclimation in Arabidopsis

    Full text link
    Reversible protein phosphorylation plays a major role in the acclimation of the photosynthetic apparatus to changes in light. Two paralogous kinases phosphorylate subsets of thylakoid membrane proteins. STN7 phosphorylates LHCII, the light harvesting antenna of photosystem II (PSII), to balance the activity of the two photosystems through state transitions. STN8, which is mainly involved in phosphorylation of PSII core subunits, influences folding of the thylakoid membranes and repair of PSII after photo-damage. The rapid reversibility of these acclimatory responses requires the action of protein phosphatases. In a reverse genetic screen we have identified the chloroplast PP2C phosphatase, PBCP (PHOTOSYSTEM II CORE PHOSPHATASE), which is required for efficient de-phosphorylation of PSII proteins. Its targets, identified by immunoblotting and mass spectrometry, largely coincide with those of the kinase STN8. The recombinant phosphatase is active in vitro on a synthetic substrate or on isolated thylakoids. Thylakoid folding is affected in the absence of PBCP, while its over-expression alters the kinetics of state transitions. PBCP and STN8 form an antagonistic kinase and phosphatase pair whose substrate specificity and physiological functions are distinct from those of STN7 and the counteracting phosphatase PPH1 (TAP38), but their activities may overlap to some degree

    Spatio-temporal connectivity of the aquatic microbiome associated with cyanobacterial blooms along a Great Lake riverine-lacustrine continuum

    Get PDF
    Lake Erie is subject to recurring events of cyanobacterial harmful algal blooms (cHABs), but measures of nutrients and total phytoplankton biomass seem to be poor predictors of cHABs when taken individually. A more integrated approach at the watershed scale may improve our understanding of the conditions that lead to bloom formation, such as assessing the physico-chemical and biological factors that influence the lake microbial community, as well as identifying the linkages between Lake Erie and the surrounding watershed. Within the scope of the Government of Canada’s Genomics Research and Development Initiative (GRDI) Ecobiomics project, we used high-throughput sequencing of the 16S rRNA gene to characterize the spatio-temporal variability of the aquatic microbiome in the Thames River–Lake St. Clair-Detroit River–Lake Erie aquatic corridor. We found that the aquatic microbiome was structured along the flow path and influenced mainly by higher nutrient concentrations in the Thames River, and higher temperature and pH downstream in Lake St. Clair and Lake Erie. The same dominant bacterial phyla were detected along the water continuum, changing only in relative abundance. At finer taxonomical level, however, there was a clear shift in the cyanobacterial community, with Planktothrix dominating in the Thames River and Microcystis and Synechococcus in Lake St. Clair and Lake Erie. Mantel correlations highlighted the importance of geographic distance in shaping the microbial community structure. The fact that a high proportion of microbial sequences found in the Western Basin of Lake Erie were also identified in the Thames River, indicated a high degree of connectivity and dispersal within the system, where mass effect induced by passive transport play an important role in microbial community assembly. Nevertheless, some cyanobacterial amplicon sequence variants (ASVs) related to Microcystis, representing less than 0.1% of relative abundance in the upstream Thames River, became dominant in Lake St. Clair and Erie, suggesting selection of those ASVs based on the lake conditions. Their extremely low relative abundances in the Thames suggest additional sources are likely to contribute to the rapid development of summer and fall blooms in the Western Basin of Lake Erie. Collectively, these results, which can be applied to other watersheds, improve our understanding of the factors influencing aquatic microbial community assembly and provide new perspectives on how to better understand the occurrence of cHABs in Lake Erie and elsewhere

    Small Polarons in Transition Metal Oxides

    Full text link
    The formation of polarons is a pervasive phenomenon in transition metal oxide compounds, with a strong impact on the physical properties and functionalities of the hosting materials. In its original formulation the polaron problem considers a single charge carrier in a polar crystal interacting with its surrounding lattice. Depending on the spatial extension of the polaron quasiparticle, originating from the coupling between the excess charge and the phonon field, one speaks of small or large polarons. This chapter discusses the modeling of small polarons in real materials, with a particular focus on the archetypal polaron material TiO2. After an introductory part, surveying the fundamental theoretical and experimental aspects of the physics of polarons, the chapter examines how to model small polarons using first principles schemes in order to predict, understand and interpret a variety of polaron properties in bulk phases and surfaces. Following the spirit of this handbook, different types of computational procedures and prescriptions are presented with specific instructions on the setup required to model polaron effects.Comment: 36 pages, 12 figure

    The Temporal Structure of Vertical Arm Movements

    Get PDF
    The present study investigates how the CNS deals with the omnipresent force of gravity during arm motor planning. Previous studies have reported direction-dependent kinematic differences in the vertical plane; notably, acceleration duration was greater during a downward than an upward arm movement. Although the analysis of acceleration and deceleration phases has permitted to explore the integration of gravity force, further investigation is necessary to conclude whether feedforward or feedback control processes are at the origin of this incorporation. We considered that a more detailed analysis of the temporal features of vertical arm movements could provide additional information about gravity force integration into the motor planning. Eight subjects performed single joint vertical arm movements (45° rotation around the shoulder joint) in two opposite directions (upwards and downwards) and at three different speeds (slow, natural and fast). We calculated different parameters of hand acceleration profiles: movement duration (MD), duration to peak acceleration (D PA), duration from peak acceleration to peak velocity (D PA-PV), duration from peak velocity to peak deceleration (D PV-PD), duration from peak deceleration to the movement end (D PD-End), acceleration duration (AD), deceleration duration (DD), peak acceleration (PA), peak velocity (PV), and peak deceleration (PD). While movement durations and amplitudes were similar for upward and downward movements, the temporal structure of acceleration profiles differed between the two directions. More specifically, subjects performed upward movements faster than downward movements; these direction-dependent asymmetries appeared early in the movement (i.e., before PA) and lasted until the moment of PD. Additionally, PA and PV were greater for upward than downward movements. Movement speed also changed the temporal structure of acceleration profiles. The effect of speed and direction on the form of acceleration profiles is consistent with the premise that the CNS optimises motor commands with respect to both gravitational and inertial constraints
    • 

    corecore