The composite first person narrative: Texture, structure, and meaning in writing phenomenological descriptions

This paper illustrates the use of composite first person narrative interpretive methods, as described by Todres, across a range of phenomena. This methodology introduces texture into the presently understood structures of phenomena and thereby creates new understandings of the phenomenon, bringing about a form of understanding that is relationally alive that contributes to improved caring practices. The method is influenced by the work of Gendlin, Heidegger, van Manen, Gadamer, and Merleau-Ponty. The method's applicability to different research topics is demonstrated through the composite narratives of nursing students learning nursing practice in an accelerated and condensed program, obese female adolescents attempting weight control, chronically ill male parolees, and midlife women experiencing distress during menopause. Within current research, these four phenomena have been predominantly described and understood through quantified articulations that give the reader a structural understanding of the phenomena, but the more embodied or “contextual” human qualities of the phenomena are often not visible. The “what is it like” or the “unsaid” aspects of such human phenomena are not clear to the reader when proxies are used to “account for” a variety of situated conditions. This novel method is employed to re-present narrative data and findings from research through first person accounts that blend the voices of the participants with those of the researcher, emphasizing the connectedness, the “we” among all participants, researchers, and listeners. These re-presentations allow readers to develop more embodied understandings of both the texture and structure of each of the phenomena and illustrate the use of the composite account as a way for researchers to better understand and convey the wholeness of the experience of any phenomenon under inquiry

Water levels and soil mulches in relation to strawberry diseases an yield in a greenhouse Irrigação e cobertura do solo em relação à sanidade e produtividade do morangueiro sob estufa

The occurrence of diseases and its influence on strawberry yield in a greenhouse as well as its association with water management are still not well known. So, the aim of this work was to evaluate the effect of different water levels and soil mulches on strawberry plant health and yield in a greenhouse. The experiment was carried out at Atibaia, State of São Paulo, Brazil, from April to December 1995. The experimental design was a 2 &times; 3 factorial, in randomized blocks, with five replications, and consisted of two soil mulches and three water levels. The soil mulches consisted of clear or black plastic. Trickle irrigation was applied whenever the soil water potential reached -10, -35 and -70 kPa at a depth of ten centimeters. Cultivar Campinas IAC 2712 was used. Plants grown at a soil water potential of -10 and -35 kPa, with clear plastic mulch provided the best yields. A linear function fitted well considering total yield data and irrigation depths. The equation was y = -233.54 + 1.56x (R² = 0.78). The irrigation level of -70 kPa and the use of black plastic favored a greater incidence of soil-borne diseases late in the harvest season.<br>A influência de doenças na produtividade do morangueiro cultivado em estufa, bem como sua associação com o manejo da irrigação é pouco conhecida. Desta forma, o presente trabalho teve por objetivo avaliar o efeito de diferentes níveis de água e coberturas do solo na sanidade e produtividade do morangueiro, sob ambiente protegido. O experimento foi realizado em Atibaia, estado de São Paulo, Brasil, de abril a dezembro de 1995. O delineamento utilizado foi o fatorial 2 &times; 3, em blocos ao acaso, com cinco repetições, sendo estudados duas coberturas do solo (plástico transparente e preto) e três níveis de água. A irrigação, por gotejamento, foi aplicada quando o potencial de água no solo alcançava -10, -35 e -70 kPa à profundidade de dez centímetros. A cultivar utilizada foi a Campinas IAC 2712. As plantas cultivadas nos potenciais de água de -10 e -35 kPa ou com o plástico transparente apresentaram as melhores produtividades. A equação estimada foi y = -233,54 + 1,56x (R² = 0,78). A irrigação a -70 kPa e o plástico preto favoreceram a maior incidência de patógenos do sistema radicular no período de outubro a dezembro