The Effects of Social Media Use on the Perceptions of Mental Illness Among College Students

This study examined individuals’ use of and perceptions of social media networking sites (i.e. Facebook and Twitter) on their perceptions of mental illness. Previous studies have consistently found that media, by means of TV shows, movies, and news reports, depict distorted views of the mentally ill. Previous studies have also consistently found that these media depictions are related to increased stigma of mental illness and the mentally ill. This current study goes a step further by examining the role of social media networking sites on individual’s perceptions, since they are newer and more widely used forms of social media today. This study aimed to answer the research question, “does the use of social media networking sites, and the negative posts on them, perpetuate the stigma of mental illness?” Data was collected using a survey asking participants about their social media use, perceptions of, and attitudes about mental illness, as well as posts they have seen on social media about mental illness. Participants were 183 undergraduate college students at Butler University. The majority of the sample were female, upper-class, Liberal Arts and Sciences students. Using regression analyses, the results of this study showed no significant relationship between social media and mental illness perceptions as hypothesized. Social media use was found to be positively correlated with social media views, and additional analyses indicated that the more one uses social media, the more often they see posts regarding mental illness, as well as see posts involving mass shootings. Gender was found to have a significant relationship with mental illness perceptions. This finding indicated that males, on average, reported higher scores on the mental illness perceptions index, indicating that they hold more stigmatizing views of mental illness in comparison to females

Reflections on R.E.S.P.E.C.T. Internship

This thesis provides a personal reflection on an internship with the R.E.S.P.E.C.T. Organization through S.T.A.R. Central at the University of Arkansas. An evaluation of the experience was conducted by providing strengths and weaknesses as an intern, positive and negative aspects of the internship, an objective analysis, connection to nursing, and impact on future career. The focus of this honors project was providing education to peers on sexual assault topics, including consent, rape culture, and bystander intervention. Overall, the internship proved to be a positive learning opportunity that allowed for the development of improved communication skills, gaining of knowledge and passion for sexual assault topics, and positively impacting the University of Arkansas campus community

A new record of fossil wood of Vochysiaceae from the Upper Pleistocene (Arroyo Feliciano Formation), Argentina, South America

A new species of Qualeoxylon Suguio & Mussa is described from the Late Pleistocene Arroyo Feliciano Formation of the Gualeguay Basin on eastern Argentina. It is the second record of this genus in South America and was previously only known from Late Eocene to Early Miocene (late Pleistocene for some authors) on the Itaquaquecetuba Formation, São Paulo, Brazil. This new fossil species was recovered in the Consorcio Paso Sociedad fossil locality (Federal, Entre Ríos, Argentina). Wood anatomical features suggest a close relationship with Vochysiaceae and is an affi nity with the extant genus Qualea. This fossil wood is consistent with the warm and humid climate inferred for this region during the upper Pleistocene. The discovery of Qualeoxylon in Arroyo Feliciano Formation supports the hypothesis that the Vochysiaceae was more widespread in the past than today.Uma nova espécie de Qualeoxylon Suguio & Mussa é descrita para a Formação Arroyo Feliciano Bacia Gualeguay, Pleistoceno fi nal no leste da Argentina. É o segundo registro desse gênero na América do Sul, até agora só conhecido para o Eoceno Superior a Mioceno Inferior (Pleistoceno Superior para alguns autores) da Formação Itaquaquecetuba, São Paulo, Brasil. O espécime aqui estudado foi coletado na localidade fossilífera Consorcio Paso Sociedad (Federal, Entre Ríos, Argentina). As características anatômicas da madeira sugerem uma relação com a família Vochysiaceae e uma afi nidade com o atual gênero Qualea. Esta madeira fóssil condiz com o clima quente e úmido inferido para esta região durante o Pleistoceno fi nal. A descoberta de Qualeoxylon na Formação Arroyo Feliciano apoia a ideia de que a família Vochysiaceae foi mais amplamente distribuída no passado que nos dias atuais.Fil: Moya, Eliana Vanesa. Provincia de Entre Ríos. Centro de Investigaciones Científicas y Transferencia de Tecnología a la Producción. Universidad Autónoma de Entre Ríos. Centro de Investigaciones Científicas y Transferencia de Tecnología a la Producción. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Santa Fe. Centro de Investigaciones Científicas y Transferencia de Tecnología a la Producción; ArgentinaFil: Brea, Mariana. Provincia de Entre Ríos. Centro de Investigaciones Científicas y Transferencia de Tecnología a la Producción. Universidad Autónoma de Entre Ríos. Centro de Investigaciones Científicas y Transferencia de Tecnología a la Producción. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Santa Fe. Centro de Investigaciones Científicas y Transferencia de Tecnología a la Producción; Argentin

Microlobiusxylon paranaensis gen. et sp. nov. (fabaceae, mimosoideae) from the pliocene-pleistocene of ituzaingó formation, paraná basin, Argentina

A fossil wood with Fabaceae affinity from the Pliocene-Pleistocene sediments of Ituzaingó Formation is described. The silicified wood was collected at the Toma Vieja fossil locality, Paraná Basin, Argentina. The relationship and comparison with the nearest living relatives (NLRs) are discussed. Wood anatomical characters suggest an affinity with the genus Microlobius C. Presl. In South America, the genus Microlobius occurs in Brazil, Bolivia (Santa Cruz), Argentina (Chaco and Formosa) and Paraguay and is an important extant element of the Paraguay-Paraná system. The presence of this fossil in the Ituzaingó Formation supports the idea that the morphogenus Microlobiusxylon might have been an important component of seasonally dry tropical forests (SDTFs) during the Pliocene-Pleistocene. Today, this forest type has a relict distribution, occurring in isolated localities in the north of Argentina, southeast of Bolivia and Brazil, but in the past were more widespread to the east and south in South America. The presence of Microlobiusxylon paranaensis gen. et sp. nov. would indicate a temperate-warm climate during the Pliocene-Pleistocene.É descrita uma madeira fóssil afim à família Fabaceae em sedimentitos plio-pleistocênicos da Formação Ituzaingó. A madeira silicificada foi coletada na localidade fossilífera Toma Vieja (Paraná, Argentina). O lenho fóssil foi comparado com seu parente atual mais próximo. Sua estrutura anatômica sugere afinidade com o gênero Microlobius C. Presl. Na América do Sul, o gênero Microlobius aparece no Brasil, Bolívia (Santa Cruz), Argentina (Chaco e Formosa) e Paraguai, e é um gênero importante do sistema Paraguai-Paraná. A presença deste fóssil na Formação Ituzaingó avaliza a ideia de que o morfogênero Microlobiusxylon foi um membro importante das florestas tropicais sazonais (SDTFs) durante o Plio-Pleistoceno. Estas florestas são relictos em localidades isoladas no norte da Argentina e no sudeste da Bolívia e do Brasil, mas no passado estendeu-se mais para o leste e o sul da América do Sul. Microlobiusxylon paranaensis gen. et sp. nov.sugere a vigência de um clima temperado-cálido ao longo do Plio-Pleistoceno.Fil: Franco, María Jimena. Provincia de Entre Ríos. Centro de Investigaciones Científicas y Transferencia de Tecnología a la Producción. Universidad Autónoma de Entre Ríos. Centro de Investigaciones Científicas y Transferencia de Tecnología a la Producción. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Santa Fe. Centro de Investigaciones Científicas y Transferencia de Tecnología a la Producción; ArgentinaFil: Brea, Mariana. Provincia de Entre Ríos. Centro de Investigaciones Científicas y Transferencia de Tecnología a la Producción. Universidad Autónoma de Entre Ríos. Centro de Investigaciones Científicas y Transferencia de Tecnología a la Producción. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Santa Fe. Centro de Investigaciones Científicas y Transferencia de Tecnología a la Producción; Argentin

Biologically plausible deep learning -- but how far can we go with shallow networks?

Training deep neural networks with the error backpropagation algorithm is considered implausible from a biological perspective. Numerous recent publications suggest elaborate models for biologically plausible variants of deep learning, typically defining success as reaching around 98% test accuracy on the MNIST data set. Here, we investigate how far we can go on digit (MNIST) and object (CIFAR10) classification with biologically plausible, local learning rules in a network with one hidden layer and a single readout layer. The hidden layer weights are either fixed (random or random Gabor filters) or trained with unsupervised methods (PCA, ICA or Sparse Coding) that can be implemented by local learning rules. The readout layer is trained with a supervised, local learning rule. We first implement these models with rate neurons. This comparison reveals, first, that unsupervised learning does not lead to better performance than fixed random projections or Gabor filters for large hidden layers. Second, networks with localized receptive fields perform significantly better than networks with all-to-all connectivity and can reach backpropagation performance on MNIST. We then implement two of the networks - fixed, localized, random & random Gabor filters in the hidden layer - with spiking leaky integrate-and-fire neurons and spike timing dependent plasticity to train the readout layer. These spiking models achieve > 98.2% test accuracy on MNIST, which is close to the performance of rate networks with one hidden layer trained with backpropagation. The performance of our shallow network models is comparable to most current biologically plausible models of deep learning. Furthermore, our results with a shallow spiking network provide an important reference and suggest the use of datasets other than MNIST for testing the performance of future models of biologically plausible deep learning.Comment: 14 pages, 4 figure

Continual reproduction of self-assembling oligotriazole peptide nanomaterials.

Autocatalytic chemical reactions, whereby a molecule is able to catalyze its own formation from a set of precursors, mimic nature's ability to generate identical copies of relevant biomolecules, and are thought to have been crucial for the origin of life. While several molecular autocatalysts have been previously reported, coupling autocatalytic behavior to macromolecular self-assembly has been challenging. Here, we report a non-enzymatic and chemoselective methodology capable of autocatalytically producing triskelion peptides that self-associate into spherical bioinspired nanostructures. Serial transfer experiments demonstrate that oligotriazole autocatalysis successfully leads to continual self-assembly of three-dimensional nanospheres. Triskelion-based spherical architectures offer an opportunity to organize biomolecules and chemical reactions in unique, nanoscale compartments. The use of peptide-based autocatalysts that are capable of self-assembly represents a promising method for the development of self-synthesizing biomaterials, and may shed light on understanding life's chemical origins.Molecules that act as both autocatalysts and material precursors offer exciting prospects for self-synthesizing materials. Here, the authors design a triazole peptide that self-replicates and then self-assembles into nanostructures, coupling autocatalytic and assembly pathways to realize a reproducing supramolecular system