POST-PROJECT ASSESSMENT OF PIT LATRINES IN RURAL PANAMA

In Panama, one of the Environmental Health (EH) Sector’s primary goals is to improve the health of rural Panamanians by helping them to adopt behaviors and practices that improve access to and use of sanitation systems. In complying with this goal, the EH sector has used participatory development models to improve hygiene and increase access to latrines through volunteer managed latrine construction projects. Unfortunately, there is little understanding of the long term sustainability of these interventions after the volunteers have completed their service. With the Peace Corps adapting their Monitoring, Reporting, and Evaluation procedures, it is appropriate to evaluate the sustainability of sanitation interventions offering recommendations for the adaptions of the EH training program, project management, and evaluation procedures. Recognizing the need for evaluation of past latrine projects, the author performed a post project assessment of 19 pit latrine projects using participatory analysis methodologies. First, the author reviewed volunteers’ perspectives of pit latrine projects in a survey. Then, for comparison, the author performed a survey of latrine projects using a benchmarking scoring system to rate solid waste management, drainage, latrine siting, latrine condition, and hygiene. It was observed that the Sanitation WASH matrix created by the author was an effective tool for evaluating the efficacy of sanitation interventions. Overall more than 75%, of latrines constructed were in use. However, there were some areas where improvements could be made for both latrine construction and health and hygiene. The latrines scored poorly on the indicators related to the privacy structure and seat covers. Interestingly those are the two items least likely to be included in project subsidies. Furthermore, scores for hygiene-related indicators were low; particularly those related to hand washing and cleanliness of the kitchen, indicating potential for improvement in hygiene education. Based on these outcomes, the EH sector should consider including subsidies and standardized designs for privacy structures and seat covers for latrines. In addition, the universal adoption of contracts and/or deposits for project beneficiaries is expected to improve the completion of latrines. In order to address the low scores in the health and hygiene indicators, the EH sector should adapt volunteer training, in addition to standardizing health and hygiene intervention procedures. In doing so, the sector should mimic the Community Health Club model that has shown success in improving health and hygiene indicators, as well as use a training session plan format similar to those in the Water Committee Seminar manual. Finally, the sector should have an experienced volunteer dedicated to program oversight and post-project monitoring and evaluation.

A comparison of worker risk of injury while working on fully automated side loaders and other residential collection trucks at a large solid waste collection company

The study aim was to determine whether using automated side loader (ASL) trucks in higher proportions compared to other types of trucks for residential waste collection results in lower injury rates (from all causes). The primary hypothesis was that the risk of injury to workers was lower for those who work with ASL trucks than for workers who work with other types of trucks used in residential waste collection. To test this hypothesis, data were collected from one of the nation’s largest companies in the solid waste management industry. Different local operating units (i.e. facilities) in the company used different types of trucks to varying degrees, which created a special opportunity to examine refuse collection injuries and illnesses and the risk reduction potential of ASL trucks.^ The study design was ecological and analyzed end-of-year data provided by the company for calendar year 2007. During 2007, there were a total of 345 facilities which provided residential services. Each facility represented one observation.^ The dependent variable – injury and illness rate, was defined as a facility’s total case incidence rate (TCIR) recorded in accordance with federal OSHA requirements for the year 2007. The TCIR is the rate of total recordable injury and illness cases per 100 full-time workers. The independent variable, percent of ASL trucks, was calculated by dividing the number of ASL trucks by the total number of residential trucks at each facility.^ Multiple linear regression models were estimated for the impact of the percent of ASL trucks on TCIR per facility. Adjusted analyses included three covariates: median number of hours worked per week for residential workers; median number of months of work experience for residential workers; and median age of residential workers. All analyses were performed with the statistical software, Stata IC (version 11.0).^ The analyses included three approaches to classifying exposure, percent of ASL trucks. The first approach included two levels of exposure: (1) 0% and (2) >0 - <100%. The second approach included three levels of exposure: (1) 0%, (2) ≥ 1 - < 100%, and (3) 100%. The third approach included six levels of exposure to improve detection of a dose-response relationship: (1) 0%, (2) 1 to <25%, (3) 25 to <50%, (4) 50 to <75%, (5) 75 to <100%, and (6) 100%. None of the relationships between injury and illness rate and percent ASL trucks exposure levels was statistically significant (i.e., p<0.05), even after adjustment for all three covariates.^ In summary, the present study shows that there is some risk reduction impact of ASL trucks but not statistically significant. The covariates demonstrated a varied yet more modest impact on the injury and illness rate but again, none of the relationships between injury and illness rate and the covariates were statistically significant (i.e., p<0.05). However, as an ecological study, the present study also has the limitations inherent in such designs and warrants replication in an individual level cohort design. Any stronger conclusions are not suggested.^

The new challenges of end-of-life tyres management systems: a Spanish case study

Directive 2008/98/EC released by the European Union represents a significant step forward in all relevant aspects of waste management. Under the already established, extended produced responsibility (EPR) principle, new policies have been enunciated to continuously achieve better overall environmental performance of key products throughout their life phases. This paper discusses how the directive is being articulated in Spain by the main integrated management system (IMS) for end-of-life (EOL) tyres since its creation in 2006. Focusing on the IMS technological, economic and legal aspects, the study provides a global perspective and evaluation of how the IMS is facing the current issues to resolve, the new challenges that have appeared and the management vision for the coming years.

The potential of organic fertilizers and water management to reduce N2O emissions in Mediterranean climate cropping systems. A review.

Environmental problems related to the use of synthetic fertilizers and to organic waste management have led to increased interest in the use of organic materials as an alternative source of nutrients for crops, but this is also associated with N2O emissions. There has been an increasing amount of research into the effects of using different types of fertilization on N2O emissions under Mediterranean climatic conditions, but the findings have sometimes been rather contradictory. Available information also suggests that water management could exert a high influence on N2O emissions. In this context, we have reviewed the current scientific knowledge, including an analysis of the effect of fertilizer type and water management on direct N2O emissions. A meta-analysis of compliant reviewed experiments revealed significantly lower N2O emissions for organic as opposed to synthetic fertilizers (23% reduction). When organic materials were segregated in solid and liquid, only solid organic fertilizer emissions were significantly lower than those of synthetic fertilizers (28% reduction in cumulative emissions). The EF is similar to the IPCC factor in conventionally irrigated systems (0.98% N2O-N N applied−1), but one order of magnitude lower in rainfed systems (0.08%). Drip irrigation produces intermediate emission levels (0.66%). Differences are driven by Mediterranean agro-climatic characteristics, which include low soil organic matter (SOM) content and a distinctive rainfall and temperature pattern. Interactions between environmental and management factors and the microbial processes involved in N2O emissions are discussed in detail. Indirect emissions have not been fully accounted for, but when organic fertilizers are applied at similar N rates to synthetic fertilizers, they generally make smaller contributions to the leached NO3− pool. The most promising practices for reducing N2O through organic fertilization include: (i) minimizing water applications; (ii) minimizing bare soil; (iii) improving waste management; and (iv) tightening N cycling through N immobilization. The mitigation potential may be limited by: (i) residual effect; (ii) the long-term effects of fertilizers on SOM; (iii) lower yield-scaled performance; and (iv) total N availability from organic sources. Knowledge gaps identified in the review included: (i) insufficient sampling periods; (ii) high background emissions; (iii) the need to provide N2O EF and yield-scaled EF; (iv) the need for more research on specific cropping systems; and (v) the need for full GHG balances. In conclusion, the available information suggests a potential of organic fertilizers and water-saving practices to mitigate N2O emissions under Mediterranean climatic conditions, although further research is needed before it can be regarded as fully proven, understood and developed.

Assessing construction and demolition waste on masonry works to avoid future generation

The difficulty of dealing with construction and demolition waste (CDW) on construction sites is not new and continues to be a significant environmental problem. Currently the CDW collection system in Spain is done in a decentralized manner by each sub-contracted company, being necessary to implement effective waste management measures ensuring a correct management and minimization. During the last years several measures have been launched in order to improve and encourage the reuse and recycling of CDW. A widespread solution for CDW recovery is using them as a landscaping aggregate or for road bases and sub-bases. However, measures encouraging onsite prevention still need to be enhanced. This paper studies the major work stage generating CDW and analyses the categories of CDW produced during its execution. For this, several real building sites have been analysed in order to quantify the estimation of CDW generated. Results of this study show that a significant contributor to the CDW generation on building construction sites in Spain are the masonry works. Finally, a Best Practices Manual (BPM) is proposed containing several strategies on masonry works aimed not only at CDW prevention, but also at improving their management and minimization. The use of this BPM together with the Study and Plan of CDW management --required by law--, promotes the environmental management of the company, favouring the cohesion of the construction process organization at all stages giving rise to establishing responsibilities in the field of waste and providing a greater control over the process. Keywords: construction and demolition waste, management, masonry works, good practice measures, prevention.

Implantación de un sistema de depósito, devolución y retorno en el mercado retail español

“Quien contamina, paga“, con esta premisa surgió la idea de este Trabajo Fin de Máster, en adelante TFM, cuyo objetivo era identificar medidas alternativas reales para una optimización del proceso actual de gestión de residuos sólidos urbanos ante una sociedad cada vez más superpoblada y con mayores ratios de consumo. Cada español genera anualmente un volumen de 485 Kg de residuos, de los cuales únicamente el 33 % son reciclados y pueden volver a un flujo normal de uso, especialmente preocupante durante los últimos años es el auge de los productos envasados, tanto de bebidas como de alimentos , cuya utilización se ha duplicado en la última década. La motivación de este trabajo Fin de Máster ha sido la de poner de manifiesto que la sostenibilidad con el medioambiente puede ir de la mano de la rentabilidad y del progreso. Durante este TFM se ha estudiado y analizado la viabilidad económica de implantación de un nuevo modelo de depósito, devolución y retorno en el mercado retail español y como con la adopción de este nuevo sistema se pueden lograr beneficios tanto para el propio minorista, como para el medio ambiente con ratios de reciclado superiores al 98%. La preocupación por el medio ambiente empieza a ser una constante entre los consumidores españoles y dicha preocupación comienza a ser influenciadora en las decisiones de compra (productos eco, sostenibilidad…). Nuestra propuesta consiste en dotar a los principales distribuidores del sector retail español de un sistema de depósito, devolución y retorno para envases de bebidas capaz de generar diferenciación, innovación y rentabilidad frente a la competencia. Dicho sistema consiste en pagar un depósito por cada envase de bebida que se adquiera y su correspondiente devolución en la siguiente compra, una vez que se devuelva vacío al establecimiento. Para ello se ha analizado el sector de la distribución en España, especialmente la distribución de bebidas. Se trata de un sector muy competitivo, que presenta varios formatos en función del tamaño del establecimiento (Hipermercados, Supermercados, tiendas tradicionales). Las principales empresas distribuidoras (Carrefour, Mercadona, Alcampo, Eroski, DIA) se encuentran en procesos de cambios estratégicos para lograr atraer a más consumidores hacia sus tiendas, por lo que nuestra propuesta podrá añadir valor a la hora de influenciar en la decisión del lugar de compra. En nuestro caso, nos dirigiremos principalmente a las grandes empresas distribuidoras, Hipermercados de más de 2.500 m2 ,que cuentan con más de 500 puntos de venta y distribución donde existe la posibilidad real de implantar un SDDR. Además se ha realizado un estudio de mercado sobre la influencia de dicho sistema en el consumidor final, donde se ha detectado dos segmentos principales cuya decisión de compra se vería muy influenciada por la implantación de un SDDR, un segmento Sénior, entre 45-54 años, preocupados por el medio ambiente y con poder adquisitivo suficiente como para que el pago del depósito no sea bloqueante, y un segmento Junior, entre 18-24 años, también muy concienciado el medio ambiente, de capacidad económica menor pero qué influye en la decisión de compra de sus progenitores. Para llevar a cabo este plan de negocio será necesario una inversión inicial de 57.000 €, con unas expectativas de recuperación de dicha inversión en el primer año y una TIR del 56%, presentando un VAN de 127.961 € para los 7 años de vida del proyecto. Para dar a conocer a los clientes del Hipermercado los beneficios de utilizar un sistema SDDR, se realizarán campañas de marketing a través de diferentes canales, promociones de apertura, acciones de marketing exteriores y planes de fidelización. La organización e implantación en el Hipermercado será muy sencilla con roles claramente diferenciados, únicamente involucraría a unos 9 recursos definidos y en aproximadamente 3 meses desde el inicio del proyecto ya se podría ofertar dicho servicio a los clientes del Hipermercado. Además se han analizado los principales riesgos a los que se enfrentaría el negocio, ponderándose en una matriz impacto-probabilidad. Se han establecido medidas correctoras en el caso que dicho riesgo aflore. Habrá que tener especialmente precaución con la pérdida de ventas durante el arranque del negocio en el caso que esto ocurra, por lo que se deberá controlar el gasto, fomentar la captación de clientes y mantener un fondo de maniobra lo suficientemente elevado como para absorber dicho riesgo.---ABSTRACT---“Polluters pay”, with this premise this TFM aimed at identifying real alternative measures for optimization of the current process of solid waste management in a crowded society and with greater consumption ratios. Spaniards generates an annual volume of 485 kg of waste; only 33 % are recycled and can return to a normal flow. Specially concern is the increased of packaged product in recent years, mainly drink and food, their use has been duplicated in the last decade. The motivation for this Thesis was to highlight that sustainability, profitability and progress can go together. During this TFM has been studied and analyzed the economic feasibility of implementing a new model of deposit , refund and return in the Spanish retail market and as with the adoption of this new system can achieve benefits for the retailer itself therefore to the environment with ratios above 98% recycled. Concern for the environment is becoming a constant among Spanish consumers , and this concern is becoming influencer in purchasing decisions ( eco, sustainability ... ) . Our proposal is to provide the main distributors of the Spanish retail sector a system of deposit, refund and return for beverage containers capable of generating differentiation, innovation and profitability over the competition. This system is to pay a deposit for each beverage container they purchase and their corresponding return in the next purchase, once they return empty to the establishment. For this we have analyzed the distribution sector in Spain, especially the distribution of beverages. This is a highly competitive industry, which features various formats depending on the size of establishments (hypermarkets, supermarkets, traditional shops). The main distribution companies (Carrefour, Mercadona, Alcampo, Eroski, DIA) are in the process of strategic changes in order to attract more consumers to their stores, so that our approach can add value in influencing the decision of place shopping. In our case, we will go mainly to large distributors, Hypermarkets of over 2,500 m2, which have more than 500 outlets and distribution where there is a real possibility of implementing a SDDR. It has also conducted a market study on the influence of that system on the final consumer, which has detected two main segments whose purchasing decisions would be greatly influenced by the introduction of a SDDR, a Senior segment, 45-54 years concerned about the environment and purchasing power enough that the deposit is not blocking, and a Junior Segment, aged 18-24, also concern with environment, lower economic capacity but what influences the decision purchase of their parents). To carry out this business plan will require an initial investment of 57,000 €, with expectations of recovery of such investment in the first year and an IRR of 56%, with an NPV of € 127,961 for the 7 years of the project . To publicize hypermarket customers the benefits of using a SDDR system, marketing campaigns conducted through different channels, opening promotions, marketing activities and external loyalty schemes. The organization and implementation in the Hypermarket is easy with distinct roles, involve only about 9 resourced and in about 3 months from the start of the project and could offer this service to customers in the hypermarket. We have also analyzed the main risks and established corrective measures to surface that risk . We should take caution with lost sales during startup of the business, such as control spending, customer retention and maintaining enough working capital.

Factors impacting the market share of Construction and Demolition (C&D) Waste recycling solutions

Current EU Directives force the Member States to assure by 2020 that 70% of the Construction and Demolition (C&D) waste is recovered instead of landfilled. While some countries have largely achieved this target, others still have a long way to go. For better understanding the differences arising from local disparities, six factors related to technical, economic, legislative and environmental aspects have been identified as crucial influences in the market share of C&D waste recycling solutions. These factors are able to identify the causes that limit the recycling rate of a certain region. Moreover, progress towards an efficient waste management can vary through the improvement of a single factor. This study provides the background for further fine-tuning the factors and their combination into a mathematical model for assessing the market share of C&D recycling solutions.

Los paisajes del desecho: reactivación de los lugares del deterioro

Actualmente en nuestro planeta producimos 1.300 millones de toneladas de residuos urbanos al año. Si los extendemos sobre la superficie de un cuadrado de lado 100 m (una hectárea) alcanzarían una altura de 146 km. ¿Cuál es el origen de nuestros residuos? ¿A dónde va esta basura? ¿Cómo nos afecta? ¿Tiene alguna utilidad? Se trata de un problema antiguo que, en los últimos tiempos, ha adquirido una nueva dimensión por el tipo y la cantidad de residuos generados. Las primeras preocupaciones de la ciudad por ordenar estos problemas dieron lugar al establecimiento de espacios o lugares específicos para la acumulación de los residuos urbanos: los vertederos. Los desechos hoy se generan más rápidamente que los medios disponibles para reciclarlos o tratarlos. Los vertederos de residuos urbanos son y seguirán siendo, a corto y medio plazo, soluciones válidas por ser un método de gestión relativamente barato, sobre todo en los países en vías de desarrollo. Como consecuencia y necesidad de lo anterior, se plantea demostrar que la recuperación y la transformación de estos vertederos de residuos urbanos (lugares del deterioro), una vez abandonados, es posible y que además pueden dar lugar a nuevos espacios públicos estratégicos de la ciudad contemporánea. Son espacios de oportunidad, vacíos monumentales producto de una reactivación arquitectónica y paisajística realizada a partir de complejos procesos de ingeniería medioambiental. Pero las soluciones aplicadas a los vertederos de residuos urbanos desde mediados del siglo XX se han realizado exclusivamente desde la ingeniería para tratar de resolver cuestiones técnicas, un modelo agotado que ya no puede gestionar la magnitud que este problema ha alcanzado, haciéndose necesaria e inevitable la participación de la arquitectura para abrir nuevas líneas de investigación y de acción. En estos primeros compases del siglo XXI existe una “nueva” preocupación, un “nuevo” interés en los paradigmas de lo ecológico y de la sostenibilidad, también un interés filosófico (que igualmente otorga un nuevo valor al residuo como recurso), que dirigen su mirada hacia un concepto de paisaje abierto y diferente a modelos anteriores más estáticos, recuperando como punto de partida el ideal pintoresco. El landscape urbanism se consolida como una disciplina capaz de dar respuesta a lo natural y artificial simultáneamente, que sustituye a las herramientas tradicionales de la arquitectura para solucionar los problemas de la ciudad contemporánea, incorporando las infraestructuras de gran escala, como un vertedero de residuos urbanos, y los paisajes públicos que generan como el verdadero mecanismo de organización del urbanismo de hoy. No se trata solo de un modelo formal sino, lo que es más importante: de un modelo de procesos. Esta nueva preocupación permite abordar la cuestión del paisaje de manera amplia, sin restricciones, con un alto grado de flexibilidad en las nuevas propuestas que surgen como consecuencia de estos conceptos, si bien los esfuerzos, hasta la fecha, parecen haberse dirigido más hacia el fenómeno de lo estético, quedando todavía por explorar las consecuencias políticas, sociales, económicas y energéticas derivadas de los residuos. También las arquitectónicas. El proyecto del landscape urbanism se ocupa de la superficie horizontal, del plano del suelo. Desde siempre, la preparación de este plano para desarrollar cualquier actividad humana ha sido un gesto fundacional, un gesto propio necesario de toda arquitectura, que además ahora debe considerarlo como un medio o soporte biológicamente activo. En términos contemporáneos, el interés disciplinar radica en la continuidad y en la accesibilidad del suelo, diluyendo los límites; en que funcione a largo plazo, que se anticipe al cambio, a través de la flexibilidad y de la capacidad de negociación, y que sea público. La recuperación de un vertedero de residuos urbanos ofrece todas estas condiciones. Un breve recorrido por la historia revela los primeros ejemplos aislados de recuperación de estos lugares del deterioro, que han pasado por distintas fases en función de la cantidad y el tipo de los desechos producidos, evolucionando gracias a la tecnología y a una nueva mirada sobre el paisaje, hasta desarrollar una verdadera conciencia de lo ecológico (nacimiento de una ideología). El Monte Testaccio en Roma (siglos I-III d.C.) constituye un caso paradigmático y ejemplar de vertedero planificado a priori no solo como lugar en el que depositar los residuos, sino como lugar que será recuperado posteriormente y devuelto a la ciudad en forma de espacio público. Una topografía de desechos generada por acumulación, organizada y planificada durante tres siglos, que nos hace reflexionar sobre los temas de producción, consumo y proyecto arquitectónico. El Monte Testaccio revela una fuente de inspiración, un arquetipo de gestión sostenible de los recursos y del territorio. A través de la experiencia en la recuperación y transformación en espacios públicos de casos contemporáneos, como el antiguo vertedero de Valdemingómez en Madrid o el de El Garraf en Barcelona, se han analizado las técnicas y las soluciones empleadas para establecer nuevas herramientas de proyecto planteadas en clave de futuro, que revelan la importancia de los procesos frente a la forma, en los cuales intervienen muchos factores (tanto naturales como artificiales), entre ellos la vida y el tiempo de la materia viva acumulada. Son lugares para nuevas oportunidades y ejemplos de una nueva relación con la naturaleza. La reactivación de los vertederos de residuos, a través del proyecto, nos propone una nueva topografía construida en el tiempo, el suelo como soporte, como punto de encuentro de la naturaleza y los sistemas tecnológicos de la ciudad que posibilitan nuevos modos de vida y nuevas actividades. Los vertederos de residuos son inmensas topografías naturales surgidas de procesos artificiales, atalayas desde las que divisar un nuevo horizonte, un nuevo mundo, un nuevo futuro donde sea posible lograr la reversibilidad de nuestros actos del deterioro. Pero la voluntad de estas recuperaciones y transformaciones no consiste exclusivamente en su reintegración al paisaje, sino que han servido como muestra de las nuevas actitudes que la sociedad ha de emprender en relación a los temas medio ambientales. ABSTRACT Here on our planet we currently produce 1.3 billion tonnes of urban waste per year. If we were to spread this over a surface of 100m2 (one hectare), it would reach a height of 146km. What is the origin of this waste? Where does our refuse go? How does it affect us? Does it have any uses? We are dealing with an old problem which, in recent times, has taken on a new dimension due to the type of waste and the amount generated. Cities’ first concerns in resolving these problems gave rise to the establishment of areas or specific places for the accumulation of urban waste: landfills. These days, waste is generated more quickly than the available resources can recycle or process it. Urban waste landfills are and will continue to be, in the short and mid-term, valid solutions, given that they constitute a relatively cheap method for waste management, especially in developing countries. Consequently and necessarily, we plan to demonstrate that it is possible to recover and transform these urban waste landfills (areas of deterioration) once they have been abandoned and that they can give rise to new strategic public areas in contemporary cities. They are areas of opportunity, monumental vacancies produced by an architectural reactivation of the landscape, which is achieved using complex processes of environmental engineering. But the solutions applied to urban waste landfills throughout the 20th century have used engineering exclusively in the attempt to resolve the technical aspects. This is a worn-out model which can no longer handle the magnitude which the problem has attained and therefore, there is an inevitable need for the participation of architecture, which can open new lines of research and action. In these first steps into the 21st century, there is a “new” concern, a “new” interest in the paradigms of environmentalism and sustainability. There is also a philosophical interest (which assigns the new value of ‘resource’ to waste) and all is aimed towards the concept of an open landscape, unlike the previous, more static models, and the intention is to recover picturesque ideals as the starting point. Landscape urbanism has been established as a discipline capable of simultaneously responding to the natural and the artificial, replacing the traditional tools of architecture in order to resolve contemporary cities’ problems. It incorporates large scale infrastructures, such as urban waste landfills, and public landscapes which are generated as the true organisational mechanism of modern day urbanism. It is not merely a formal model, it is more important than that: it is a model of processes. This new concern allows us to address the matter of landscape in a broad way, without restrictions, and with a great degree of flexibility in the new proposals which come about as a consequence of these concepts. However, efforts to date seem to have been more directed at aesthetic aspects and we have yet to explore the political, social, economic and energetic consequences derived from waste – nor have we delved into the architectural consequences. The landscape urbanism project is involved with the horizontal surface, the ground plane. Traditionally, the preparation of this plane for the development of any human activity has been a foundational act, a necessary act of all architecture, but now this plane must be considered as a biologically active medium or support. In contemporary terms, the discipline’s interest lies in the continuity and accessibility of the land, diffusing the limits; in long term functionality; in the anticipation of change, via flexibility and the ability to negotiate; and in it being a public space. The recovery of an urban waste landfill offers all of these conditions. A brief look through history reveals the first isolated examples of recovery of these spaces of deterioration. They have gone through various phases based on the quantity and type of waste produced, they have evolved thanks to technology and a new outlook on the landscape, and a real environmental awareness has been developed (the birth of an ideology). Monte Testaccio in Rome (1st to 3rd Century AD) constitutes a paradigmatic and exemplary case of a landfill that was planned a priori not only as a place to deposit waste but also as a place that would be subsequently recovered and given back to the city in the form of a public space. This spoil mound, generated by organised and planned accumulation over three centuries, makes us reflect on the themes of production, consumption and architectural planning. Monte Testaccio reveals a source of inspiration, an archetype of the sustainable management of resources and land. Using our experience of contemporary cases of land recovery and its transformation into public spaces, such as the former Valdemingómez landfill in Madrid or the Garraf in Barcelona, we analysed the techniques and solutions used in order to establish new project tools. These are proposed with an eye on the future, seeing as they reveal the importance of the processes over the form and involve many factors (both natural and artificial), including the life and age of the accumulated living matter. They are places for new opportunities and examples of our new relationship with nature. The reactivation of landfills, via this project, is a proposal for a new topography built within time, using the ground as the support, as the meeting point between nature and the technological systems of the city which make it possible for new ways of life and new activities to come about. Landfills are immense natural topographical areas produced by artificial processes, watchtowers from which to discern a new horizon, a new world, a new future in which it will be possible to reverse our acts of deterioration. But the intention behind these recoveries and transformations does not only hope for landscape reintegration but it also hopes that they will also serve as a sign of the new attitudes that must be adopted by society with regard to environmental matters.

The impact of soil salinity on the yield, composition and physiology of the bioenergy grass Miscanthus × giganteus

Funded by OPTIMA Biotechnology & Biological Sciences Research Council (BBSRC) Institute Strategic Programme Energy Grasses & Biorefining. Grant Number: BBS/E/W/10963A01 Defra GIANT LINK

Synergies and trade-offs between renewable energy expansion and biodiversity conservation - a cross-national multifactor analysis

Peer reviewed

Estratégias para operacionalização da logística reversa de medicamentos

O descarte de medicamentos envolve dois fluxos: o fluxo institucional, dos resíduos de fármacos, classificados como resíduos de serviços de saúde, utilizados na indústria e nas instituições de saúde; e o fluxo domiciliar, dos medicamentos vencidos/em desuso em poder da população. O descarte dos resíduos de medicamentos de origem domiciliar pode ser promovido pela logística reversa, onde este tipo de resíduo é devolvido ao setor empresarial para destinação final ambientalmente segura. O objetivo deste estudo foi identificar as estratégias mais viáveis para operacionalização da logística reversa de medicamentos. Trata-se de uma pesquisa exploratória, descritiva, com abordagem quantitativa. As estratégias foram avaliadas junto a atores da cadeia de valor farmacêutica: representantes do poder público, da indústria e distribuição farmacêutica, e consumidores/potenciais consumidores de medicamentos. Foram elaborados três questionários de avaliação de estratégias segundo seis critérios: mediação (articulação entre atores da cadeia produtiva farmacêutica por meio de políticas públicas); fiscalização (das ações); complexidade (de implantação e operacionalização); custos (de implantação e manutenção); adesão (potencialidade de ser inserida no cotidiano da população) e abrangência (potencialidade de alcançar a população). As estratégias foram hierarquizadas em ordem decrescente de viabilidade: rientações à população por profissionais de saúde, farmácias e internet, sinalização de informações nas embalagens e bulas de medicamentos, campanhas publicitárias e de educação ambiental e a disponibilização de postos de entrega voluntária. Os resultados poderão contribuir para a operacionalização de um sistema de logística reversa de medicamentos, considerando todos os atores envolvidos e buscando conciliar suas necessidades, possibilidades, limitações e interesses

Gerenciamento de resíduos sólidos municipais e os sistemas complexos: a busca da sustentabilidade e a proposta de cobrança da coleta em Santo André-SP

O gerenciamento de resíduos sólidos municipais não vem contemplando adequadamente a multidimensionalidade da realidade urbana num mundo globalizado e pouco tem auxiliado na necessária transformação dos padrões de consumo nas comunidades locais. Face a incerteza inerente dos sistemas sociais, a complexidade vem sendo, progressivamente, reconhecida como a expressão paradigmática dessa realidade. Neste trabalho, desenvolve-se o conceito de sistema de resíduos sólidos sob a perspectiva de um sistema complexo, assim como caracteriza-se a dinâmica das suas interações. A partir dessa concepção teórica, discute-se a busca da sustentabilidade por meio do gerenciamento de resíduos e as formas de complexificar a sua metodologia de atuação, na qual a cobrança da coleta de resíduos domiciliares é identificada como um importante instrumento neste processo. Propõe-se um modelo de cobrança desses serviços cuja viabilidade é verificada na simulação feita para o município de Santo André-SP. Levanta-se, ainda, dados sobre as formas de cobrança existentes em diversos municípios e a situação dos serviços de limpeza urbana no Brasil. Conclui-se que o gerenciamento de resíduos sólidos deve ser executado no âmbito de uma política pública local para o setor e que o modelo de cobrança proposto tem maior aplicabilidade em cidades de médio a grande porte.

A Community Analysis of the Implementation for Household Curbside Recycling Programs: A Diversionary Method to Control Municipal Solid Waste

The Municipality of Anchorage (MOA) is required to better manage, operate and control municipal solid waste (MSW) after the Anchorage Assembly instituted a Zero Waste Policy. Two household curbside recycling programs (CRPs), pay-as-you-throw (PAYT) and single-stream, were compared and evaluated to determine an optimal municipal solid waste diversion method for households within the MOA. The analyses find: (1) a CRP must be designed from comprehensive analysis, models and data correlation that combine demographic and psychographic variables; and (2) CRPs can be easily adjusted towards community-specific goals using technology, such as Geographic Information System (GIS) and Radio Frequency Identification (RFID). Combining resources of policy-makers, businesses, and other viable actors are necessary components to produce a sustainable, economically viable curbside recycling program.