Shattered Vision: Disenchantment of Couplehood Among Female Survivors of Violence in the Shadow of their Family-of-Origin Experiences

Abstract This article describes and analyzes the relationship disenchantment of couplehood among female survivors of violence and their family-of-origin experiences of abuse. Twenty Israeli women who were survivors of violence participated in this qualitative research. Each woman underwent three indepth interviews, two for data collection and one for validating the themes emerging from content analysis. Data analysis revealed that female survivors of violence aim to overcome the distress and pain of emotional and physical violence experienced in their family of origin, by constructing a couplehood vision imbued with a feeling of power, meaning, hope, and freedom. Partner violence shattered the women's vision of couplehood, leading to crisis, disillusionment, and disenchantment in their marital relationships

The Powerful Potential of Relationships and Community Writing

The following essay is a collective reflection in which the authors revisit the themes they raise in the edited volume Unsustainable, ask new questions, and suggest, again, that long-term sustainability might not be the most appropriate goal for every university-community partnership. Still, relationships, with all their variability, remain the lifeblood of community writing work. Just as the Conference on Community Writing (CCW) was a welcome opportunity to reconnect with old friends and learn new names, our programs are built on the strength of the relationships we build in the community and on our campuses

Story to Action: A Conversation about Literacy and Organizing

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Evaluation of radiation scheme performance within chemistry climate models

This paper evaluates global mean radiatively important properties of chemistry climate models (CCMs). We evaluate stratospheric temperatures and their 1980-2000 trends, January clear sky irradiances, heating rates, and greenhouse gas radiative forcings from an offline comparison of CCM radiation codes with line-by-line models, and CCMs' representation of the solar cycle. CCM global mean temperatures and their change can give an indication of errors in radiative transfer codes and/or atmospheric composition. Biases in the global temperature climatology are generally small, although five out of 18 CCMs show biases in their climatology that likely indicate problems with their radiative transfer codes. Temperature trends also generally agree well with observations, although one model shows significant discrepancies that appear to be due to radiation errors. Heating rates and estimated temperature changes from CO2, ozone, and water vapor changes are generally well modeled. Other gases (N2O, CH4, and CFCs) have only played a minor role in stratospheric temperature change, but their heating rates have large fractional errors in many models. Models that do not account for variations in the spectrum of solar irradiance cannot properly simulate solar-induced variations in stratospheric temperature. The combined long-lived greenhouse gas global annual mean instantaneous net radiative forcing at the tropopause is within 30% of line-by-line models for all CCM radiation codes tested. Problems remain in simulating radiative forcing for stratospheric water vapor and ozone changes with errors between 3% and 200% compared to line by line models. The paper makes recommendations for CCM radiation code developers and future intercomparisons