Review of Theatre of the Oppressed - Roots & Wings: A Theory of Praxis

Theatre of the Oppressed - Roots & Wings: A Theory of Praxis by Barbara Santos is a necessary, previously unwritten, ontology of Theatre of the Oppressed with a feminist twist. It is a gift and a fantastic resource

Joker Exchange Online - Meeting The Risks and Opportunities of the COVID-19 Crisis

In this article, we narrate and analyse patterns of engagement and harvest key learning from the Joker Exchange Online (JEO) events on 11th April and May 2nd. We map the impact of these online events to inform future events as an effective collective response/strategy to global challenges. At the same time, we are Theatre of the Oppressed practitioners who attended/presented in the JEO, and this informs our research and engaged interest in theatre and community work on the margins of theatre, activism, and social change. The article has three parts: the first part look at the “triggers” for the Joker Exchange Online and its aims; the second part reports and analyses testimonies from JEO participants; the third part outlines key learnings, suggestions, and considerations for similar future global online events. Appendices show a full schedule of sessions, a list of videos made at JEO, and share testimonials

Geographic variation in flower color patterns within Calceolaria uniflora Lam. in Southern Patagonia

Infraspecific variation in flower colors was evaluated in 26 populations of Calceolaria uniflora Lam. in Southern Patagonia, Argentina. Computerized analysis of high-resolution photo-images was used to estimate the proportions of red, orange and yellow in surfaces of two corolla parts, “instep” and “throat”, in field samples of 20–35 flowers per population. The between-populations component accounted for 48% of variance for instep colors and 24% for throat colors. Geographic differentiation was found between populations with a uniform red instep in the Andes in the west, and populations with a maculate yellow-and-red instep in the Magellanic steppe to the east. Mixed populations occurred in a transition zone. Throat colors showed a different, north-south geographic trend. Based on color pattern and distribution, two subspecies may be differentiated within C. uniflora. Their overall geographic distribution is related to climate and vegetation, but their detailed distribution is better explained by isolation by distance and barriers to gene flow.Fil: Mascó, Mercedes. Universidad Nacional de la Patagonia Austral; ArgentinaFil: Noy-Meir, I.. Hebrew University of Jerusalem. Faculty of Agricultural Food and Environmental Quality Sciences. Institute of Plant Sciences; IsraelFil: Sersic, Alicia Noemi. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Córdoba. Instituto Multidisciplinario de Biología Vegetal. Universidad Nacional de Córdoba. Facultad de Ciencias Exactas Físicas y Naturales. Instituto Multidisciplinario de Biología Vegetal; Argentin

Assessing desertification risk using system stability condition analysis

This paper describes a procedure for evaluating the desertification risk in threatened areas. The procedure is based on an eight-equation dynamic model of a generic human–resource system that can be applied to different desertification syndromes. For each application, interest focuses on finding all the possible long-term final states of the system and on defining the conditions that mark out sustainability and long-term desertification by means of unambiguous specific parameter relations. The procedure is applied to three typified cases in Spain: (A) rainfed crops in areas with high soil erosion risk; (B) irrigated intensive agricultural systems; and (C) commercial rangelands. Results show that, in case A, high profit scenarios are responsible for the final extension of desertification but do not determine the specific threshold between sustainability and desertification. They do, however, in cases B and C

Assessing desertification risk using system stability condition analysis

This paper describes a procedure for evaluating the desertification risk in threatened areas. The procedure is based on an eight-equation dynamic model of a generic human–resource system that can be applied to different desertification syndromes. For each application, interest focuses on finding all the possible long-term final states of the system and on defining the conditions that mark out sustainability and long-term desertification by means of unambiguous specific parameter relations. The procedure is applied to three typified cases in Spain: (A) rainfed crops in areas with high soil erosion risk; (B) irrigated intensive agricultural systems; and (C) commercial rangelands. Results show that, in case A, high profit scenarios are responsible for the final extension of desertification but do not determine the specific threshold between sustainability and desertification. They do, however, in cases B and C

Desarrollo de metodologias de propagación y cultivo de plantas nativas de Córdoba con potencialornamental. Development of propagation and cultivation methodologies of native plants of Córdoba withornamental potential.

El problema: La flora nativa de Córdoba, actualmente amenazada, es rica en especies con potencial ornamental que todavía no se cultivan. El uso de estas plantas está limitado por la escasez de material biológico, la falta de conocimientos de su propagación y su insuficiente valoración pública. Hipótesis: La propagación y el cultivo de una amplia gama de plantas nativas cordobesas con potencial ornamental son técnicamente factibles y tienen potencial productivo y económico. Objetivo: Promover el uso de especies nativas ornamentales en la provincia de Córdoba. Objetivos específicos: 1. Desarrollar metodologías de propagación y cultivo de especies nativas con potencial ornamental; 2. Transferir estas metodologías a viveros privados y públicos; 3. Difundir los conocimientos obtenidos a instituciones educativas. Métodos: 1- Colección: Se realizarán viajes de campo para obtener semillas o esquejes de al menos 6 especies nativas seleccionadas. Las semillas se limpiarán y se conservarán en frío. 2- Propagación: En la primavera se sembrarán 100 semillas por especie, accesión y tratamiento; se registrará porcentaje y tiempo de germinación. Los plantines se trasplantarán a almácigos, se registrará supervivencia y crecimiento. Para la propagación vegetativa, se trasplantarán esquejes de estolones directamente a macetas. 3- Trasplante: En verano, los plantines se trasplantarán a macetas grandes; se registrará supervivencia y crecimiento durante un año. 4- Documentación: Se elaborarán protocolos de las metodologías adecuadas para la propagación de las especies, usos ornamentales y características relevantes. 5- Transferencia: Los protocolos, muestras de semillas y de plantas, se transferirán a dos viveros que se comprometan a continuar con el cultivo de las especies. 6- Difusión: Se realizarán cursos, talleres, charlas y pasantías para dar a conocer la propagación de plantas nativas en instituciones educativas, desde la primaria hasta la universidad. Resultados y productos esperados: 1- Protocolos de propagación de al menos 6 especies nativas ornamentales y su transferencia a viveros, como base de una actividad productiva novedosa. 2- Un aporte a la conservación ex situ y el uso sostenible de la flora nativa. 3- Una mayor valoración de esta en la comunidad educativa. Importancia: 1- Desarrollo de la producción de plantas nativas con valor ornamental, como una alternativa económica. 2- Conservación ex situ y uso sostenible de la flora nativa. 3- Difusión del conocimiento del valor ornamental de las nativas. 4. Información científica de la biología y ecología de especies nativas. Pertinencia: Productos (ver Resultados). El impacto inmediato esperado es un aumento en la propagación, la producción, la demanda, la comercialización y el uso de plantas ornamentales nativas. Se espera también la generación de nuevos conocimientos y el estímulo de líneas de investigación biológicas y agronómicas

How does genetic diversity change towards the range periphery? An empirical and theoretical test

Question: How does genetic diversity change as one moves along a species' range, towards the periphery? Previous work shows contradictory evidence for an increase, decrease or no clear trend along the range

Is extensive livestock production compatible with biodiversity and soil conservation?

El efecto de la ganadería comercial sobre la conservación de la biodiversidad y de los suelos es difícil de evaluar debido a la falta de relictos sin ganado, a la heterogeneidad del paisaje y a la complejidad de las respuestas. Para describir en qué condiciones la ganadería comercial resulta compatible con la conservación de la biodiversidad y de los suelos, analizamos a distintas escalas los modelos y la información existentes. Concluimos que en sistemas que evolucionaron con altas presiones de herbívoros, ya sean domésticos o silvestres, la ganadería a cargas comerciales puede ser compatible con la conservación, y aun necesaria. Sin embargo, mientras que la biodiversidad se maximiza con una presión de herbivoría heterogénea dentro de cada uno de los diferentes ambientes que componen el paisaje, la producción ganadera tiende a optimizarse con una presión homogénea. Por ello, aún en sistemas que evolucionaron con alta presión de herbivoría, la compatibilidad con la conservación exige una cierta heterogeneidad de la presión, lo que puede disminuir la producción con respecto a la máxima posible. En sistemas que evolucionaron con baja presión de herbívoría es menos probable que la ganadería comercial resulte compatible con la conservación de la biodiversidad y de los suelos.The effect of commercial livestock production on biodiversity and soil conservation is difficult to evaluate due to the lack of relicts without livestock, landscape heterogeneity and the complexity of responses. We analyzed the available information and models, integrating different scales, to describe in what conditions commercial livestock production results compatible with biodiversity and soil conservation. We conclude that in systems that evolved with heavy pressure of either wild or domestic herbivores, commercial livestock production is compatible with conservation, and may even be necessary. However, biodiversity is maximized with a heterogeneous herbivore pressure within each of the habitats that constitute the landscape, while livestock production tends to be optimized with a homogeneous pressure. Thus, even in systems that evolved with heavy herbivore pressure, compatibility with conservation requires certain heterogeneity of herbivore pressure, which may decrease production relative to the potential maximum. In systems which evolved with light herbivore pressure, commercial livestock production is less likely to be compatible with biodiversity and soil conservation

Spatio-temporal stochastic resonance induces patterns in wetland vegetation dynamics

Water availability is a major environmental driver affecting riparian and wetland vegetation. The interaction between water table fluctuations and vegetation in a stochastic environment contributes to the complexity of the dynamics of these ecosystems. We investigate the possible emergence of spatial patterns induced by spatio-temporal stochastic resonance in a simple model of groundwater-dependent ecosystems. These spatio-temporal dynamics are driven by the combined effect of three components: (i) an additive white Gaussian noise, accounting for external random disturbances such as fires or fluctuations in rain water availability, (ii) a weak periodic modulation in time, describing hydrological drivers such as seasonal fluctuations of water table depth, and (iii) a spatial coupling term, which takes into account the ability of vegetation to spread and colonize other parts of the landscape. A suitable cooperation between these three terms is able to give rise to ordered structures which show spatial and temporal coherence, and are statistically steady in time.Comment: 9 pages, 7 figure

An Evaluation of the Calibrated Weight-Estimate Method for Measuring Production in Annual Vegetation

A double sampling technique, of visual weight estimates calibrated by harvesting, was applied to the measurement of biomass and production curves in grazed and ungrazed semiarid annual grassland. Good levels of accuracy can be achieved in such vegetation with a time expenditure significantly lower than by harvesting only. Some methodological problems were encountered and solved by modifications of the method. In some conditions the method can be used for estimating animal intake.This material was digitized as part of a cooperative project between the Society for Range Management and the University of Arizona Libraries.The Journal of Range Management archives are made available by the Society for Range Management and the University of Arizona Libraries. Contact [email protected] for further information.Migrated from OJS platform August 202