Efecto del manejo sobre la diversidad de árboles en vegetación secundaria en la Reserva de la Biosfera de Calakmul, Campeche, México / Effect of management on tree diversity in secondary vegetation in the Biosphere Reserve of Calakmul, Campeche, Mexico

ResumenEl bosque tropical seco (BTS) de la Península de Yucatán ha sido manejado por siglos, pero la relación del efecto del manejo sobre la diversidad de árboles no ha sido completamente entendida. El objetivo de este estudio fue evaluar el efecto del manejo forestal (aclareos, aprovechamiento y enriquecimiento de especies) en la estructura de la vegetación secundaria derivada de bosques tropicales secos, en dos comunidades en Calakmul, Campeche, Sureste de México. Se analizaron cambios en la composición, riqueza de especies, diversidad de especies y estructura en vegetación secundaria sujetas a los siguientes tipos de manejo: 1) vegetación secundaria con manejo apícola (MA), 2) vegetación secundaria con manejo forestal (MF), 3) vegetación secundaria sin manejo (SM) y bosque tropical seco (BTS). La composición de especies fue similar entre vegetación secundaria manejada y no manejada. Por otro lado, entre vegetación secundaria manejada y el BTS hubo diferencias en la composición de especies. La riqueza de especies no fue diferente entre todas las condiciones. La MA mostró la más baja diversidad de especies y presentó la mayor densidad promedio (5 413 ± 770.26 ind./ha). La MF tuvo la menor densidad promedio (3 289 ± 1 183.60 ind./ ha). El BTS mostró la mayor área basal promedio (24.89 ± 1.56 m2/ha) respecto a las demás condiciones. Se concluye que es necesario mantener el monitoreo de las áreas manejadas, para detectar efectos del manejo que pueden ser adversos o favorables para la conservación de la diversidad florística de los BTS.

Abstract:The tropical dry forest (BTS) of Yucatan Peninsula has been managed for centuries, but the relationship between these management efforts and their effects on trees diversity has not been fully understood. The aim of this study was to evaluate the effect of forest management (thinning, harvesting and enrichment of species), in the structure of secondary vegetation derived from dry tropical forests, in two communities in Calakmul, Campeche, Southeast Mexico. We analyzed changes in the composition, species richness, species diversity, and structure in secondary vegetation subject to following types of management: (1) secondary vegetation with beekeeping management (MA), secondary vegetation with forest management (MF), natural secondary vegetation (SM) and tropical dry forest (BTS). The species composition was similar between secondary vegetation managed and unmanaged. On the other hand, between managed secondary vegetation and BTS there were differences in species composition. Species richness was not different between all conditions. MA showed the lowest species diversity and presented higher average density (5 413±770.26 ind.ha-1).MF had lowest average density (3 289 ± 1 183.60 ind.ha-1). BTS showed the highest average basal area (24.89 ± 1.56 m2.ha-1) regarding the other conditions. We concluded that is necessary to keep monitoring the managed areas to detect effects of management that may be adverse or favorable to conservation of floristic diversity of BTS. Rev. Biol. Trop. 65 (1): 41-53. Epub 2017 March 01.

Co-creación como metodología para la apropiación social de la ciencia y la tecnología (ASCYT) del recurso agua. Caso Urabá-Antioqueño- Colombia / Co-creation as a methodology for the social appropriation of science and technology (ascyt) of the water resource. A Urabá, Antioquia (Colombia) case

Este artículo, comparte el abordaje metodológico desarrollado por el programa “Experiencias Pedagógicas Itinerantes Museo del Agua EPM” apoyado por Colciencias y desarrollado por la Fundación Empresas Públicas de Medellín (EPM) y la Universidad EAFIT en Colombia, el cual implementó una estrategia de participación comunitaria centrada en procesos de co-creación, para llevar a comunidades alejadas del territorio antioqueño, opciones paradesarrollar procesos de conocimiento, comprensión y relacionamiento con el recurso agua, basados en información científica y experiencias del Museo del Agua EPM en Colombia.

This article shares the methodological approach developed by the program “Experiences Teaching Travelling Public Enterprises of Medellin Water Museum” supported by Colciencias and developed by the Public Enterprises of Medellin (EPM) Foundation and EAFIT University in Colombia, which implemented a strategy of focusing on processes of cocreation community participation, in order to take distant communities from the Antioquia territory, options to develop processes of knowledge, understanding, and relationship withwater resource, based on scientific information and experiences of the Public Enterprises of Medellin Water Museum in Colombia.

Energy interventions that facilitate sustainable development and impact health: an overview of systematic reviews / Intervenciones en materia de energía que facilitan el desarrollo sostenible y tienen un impacto positivo en la salud: visión panorámica de revisiones sistemáticas

ABSTRACT Objective To inform policy by providing an overview of systematic reviews on interventions that facilitate sustainable energy use and have a positive impact on health. Methods Systematic review methods were used to synthesize evidence from multiple systematic reviews and economic evaluations through a comprehensive search of 13 databases and nine websites based on a pre-defined protocol, including clear inclusion criteria. Both grey and peer-reviewed literature published in English, Spanish, and Portuguese during the 17 years from January 1997 – January 2014 was included. To classify as “sustainable,” interventions needed to aim to positively impact at least two dimensions of the integrated framework for sustainable development and include measures of health impact. Results Five systematic reviews and one economic evaluation met the inclusion criteria. The most promising interventions that impacted health were electricity for lighting and other uses (developing countries); improved stoves for cooking and health and/or cleaner fuels for cooking (developing countries); and household energy efficiency measures (developed countries). These interventions also had potential environmental and economic impacts. Their cost-effectiveness is not known, nor is their impact on health inequalities. Conclusions What is needed now is careful implementation of interventions where the impacts are likely to be positive but their implementation needs to be rigorously evaluated, including possible adverse impacts. Care needs to be taken not to exacerbate health inequalities and to consider context, human behavior and cultural factors so that the potential health benefits are realized in real-life implementation. Possible impact on health inequalities needs to be considered and measured in future primary studies and systematic reviews.

RESUMEN Objetivo Fundamentar la política con una visión panorámica de las revisiones sistemáticas de intervenciones que facilitan el uso de energía sostenible y tienen un impacto positivo en la salud. Métodos Se usaron métodos de revisión sistemática para sintetizar los datos probatorios de múltiples revisiones sistemáticas y evaluaciones económicas mediante una amplia búsqueda en 13 bases de datos y nueve sitios web, sobre la base de un protocolo predefinido, que incluyó criterios de inclusión claros. Se incluyó tanto la bibliografía “gris” como la arbitrada, publicada en inglés, español y portugués durante 17 años, de enero de 1997 a enero del 2014. Para ser consideradas “sostenibles,” las intervenciones debían estar orientadas a lograr una repercusión positiva en al menos dos dimensiones del marco integrado para el desarrollo sostenible e incluir mediciones de la repercusión en la salud. Resultados Cinco revisiones sistemáticas y una evaluación económica cumplieron los criterios de inclusión. Las intervenciones más prometedoras en cuanto al impacto en la salud en esta visión panorámica fueron: la introducción de la electricidad para alumbrado y otros usos (países en desarrollo); las cocinas o estufas mejoradas más saludables o los combustibles más limpios para cocinar (países en desarrollo), y las medidas de eficiencia energética en los hogares (países desarrollados). Estas intervenciones también pueden tener repercusiones ambientales y económicas. No se conoce su costoeficacia ni su efecto en las desigualdades en la salud. Conclusiones Hoy es necesaria la ejecución cuidadosa de las intervenciones cuya repercusión pueda ser positiva pero cuya ejecución debe ser rigurosamente evaluada, incluidas las posibles repercusiones adversas. Se debe tener cuidado de no exacerbar las desigualdades en la salud y tomar en cuenta el contexto, el comportamiento humano y los factores culturales, de modo que los posibles beneficios para la salud se concreten en la ejecución en la vida real. En los futuros estudios primarios y revisiones sistemáticas se deben considerar y cuantificar las desigualdades en la salud.

Water consumption management and its role on energy saving, case study of Tehran, Iran

Due to shortage of precipitation and the spatial and periodical disparity of rainfalls, Iran is counted among the arid and semi-arid countries of the world, and therefore the water utilities have put the control of consumption and efficient use of water high on their priorities. Water consumption management is considered as a field of energy management, and the impacts of effective measure related to water consumption pattern and its optimization on reducing demands are quite clear. Therefore one of the main objectives of consumption management policies is to optimize energy and reducing the costs of energy needed to supply potable water from production sources. To have a relative estimate of the amount of energy reduced as a consequence of consumption management the outcomes of a case study undertaken in a region of Tehran were used. In this study, the application of consumption management measures yielded in a 19% reduction in water consumption. This amount of reduction limits requirements from production sources such as wells and treatment plants and its direct impact is to reduce the required energy and the costs of water supply

Thermal energy utilization analysis and energy conservation measures of fluidized bed dryer / 中国中药杂志

<p><b>OBJECTIVE</b>To propose measures for enhancing thermal energy utilization by analyzing drying process and operation principle of fluidized bed dryers,in order to guide optimization and upgrade of fluidized bed drying equipment.</p><p><b>METHOD</b>Through a systematic analysis on drying process and operation principle of fluidized beds,the energy conservation law was adopted to calculate thermal energy of dryers. The thermal energy of fluidized bed dryers is mainly used to make up for thermal consumption of water evaporation (Qw), hot air from outlet equipment (Qe), thermal consumption for heating and drying wet materials (Qm) and heat dissipation to surroundings through hot air pipelines and cyclone separators.</p><p><b>RESULT</b>Effective measures and major approaches to enhance thermal energy utilization of fluidized bed dryers were to reduce exhaust gas out by the loss of heat Qe, recycle dryer export air quantity of heat, preserve heat for dry towers, hot air pipes and cyclone separators, dehumidify clean air in inlets and reasonably control drying time and air temperature.</p><p><b>CONCLUSION</b>Such technical parameters such air supply rate, air inlet temperature and humidity, material temperature and outlet temperature and humidity are set and controlled to effectively save energy during the drying process and reduce the production cost.</p>

Preface for special issue on bioenergy / 生物工程学报

More and more attentions have been being paid to seeking alternatives for fossil fuels. Bioenergy, as a renewable energy, is one of the best solutions. Bioenergy has been developed rapidly in China, which became the third largest producer and consumer of fuel ethanol. In order to promote the research of bioenergy technology in China, this special issue includes latest reports and articles on the fields of bioethanol, biodiesel, microbial lipid and biofuel system analysis.

Model-based biofuels system analysis: a review / 生物工程学报

Model-based system analysis is an important tool for evaluating the potential and impacts of biofuels, and for drafting biofuels technology roadmaps and targets. The broad reach of the biofuels supply chain requires that biofuels system analyses span a range of disciplines, including agriculture/forestry, energy, economics, and the environment. Here we reviewed various models developed for or applied to modeling biofuels, and presented a critical analysis of Agriculture/Forestry System Models, Energy System Models, Integrated Assessment Models, Micro-level Cost, Energy and Emission Calculation Models, and Specific Macro-level Biofuel Models. We focused on the models' strengths, weaknesses, and applicability, facilitating the selection of a suitable type of model for specific issues. Such an analysis was a prerequisite for future biofuels system modeling, and represented a valuable resource for researchers and policy makers.

Preface for special issue on biofuels and bioenergy / 生物工程学报

Biofuels and bioenergy not only benefit independence of energy supply, but also mitigate CO2 emissions. This special issue includes review reports and research articles involving various biofuels and bioenergy products and systems such as fuel ethanol, biodiesel, biogas, biohydrogen, microbial fuel cells and microbial electrolysis cells. Both fundamental research and technology development are highlighted. And in the meantime, challenges for large scale production and application of biofuels and bioenergy are discussed. Taking advantages of modern biotechnology advances, solutions to address these challenges are envisioned.

Fuel ethanol production from cassava feedstock / 生物工程学报

The regions suitable for growing cassava include five provinces in Southern China, with Guangxi alone accounting for over 65% of the total cassava production in the country. In this article, the state-of-the-art development of fuel ethanol production from cassava in China is illustrated by the construction of the cassava fuel ethanol plant with its annual production capacity of 200 000 metric tons. And in the meantime, problems and challenges encountered in the development of China's cassava fuel ethanol are highlighted and the strategies to address them are proposed.

Strategies for research and development and commercial production of microalgae bioenergy / 生物工程学报

With the dwindling of fossil fuels supply and the urgent need for the development of low-carbon economy, microalgae bioenergy, both renewable and environmentally friendly, has become one of the worldwide focuses. Given its benefit to the security of national energy supply, microalgae energy is particularly significant for China, with more than 50% crude oil imported and limited arable land for grain and edible oil production. In this article, both the advantages of microalgae bioenergy and the challenges of its development are addressed, which involves fundamental research and technology development as well as commercial production. Furthermore, strategies are proposed for China's microalgae bioenergy development, and its prospects are projected.

Reduction of environmental pollution through optimization of energy use in cement industries

Industrial development has lead to higher energy consumption, emission of greenhouse gases, as well as air pollutants. Cement factories play an important role in over all greenhouse emissions. This study aims to investigate the role of Iranian cement industries and their contribution of greenhouse gases contribution. The measured emission factors for oil and fuel gas shows that carbon dioxide contribution from fuel oil based cement industries is almost 2.7 times higher than gas based cement factories. The strength, weakness, opportunity and threat technique analysis showed that the best strategy to combat greenhouse gases from Iranian cement factory is to implement energy efficiency measures. Further, strategic position and action evaluation matrix analysis indicates that Iranian cement industries fall within invasive category. Therefore, exploitation of opportunities must carefully be used. One of these opportunities is the utilization of financial assistance provided by clean development mechanism. The results show that replacement of ball mills with vertical roller mill can reduce the electricity consumption from 44.6 to 28 kWh/ton. As a result of such substitution about 720 million kWh/y of electricity would be saved [almost a power plant of 125 MW capacities]. Though implementation of new mills may not be economic for the cement industries' owner, but the overall gain for the government of Iran will be about US$ 304 million. If the duration of such efficiency measure is considered as about 12 y, then the overall CO2 reduction/phase-out would be around 4.3 million tons

Energy efficiency and environmental impact of biogas utilization in landfills

This study investigates the utilization of landfill biogas as a fuel for electrical power generation. Landfills can be regarded as conversion biogas plants to electricity, not only covering internal consumptions of the facility but contributing in the power grid as well. A landfill gas plant consists of a recovery and a production system. The recovery of landfill gas is an area of vital interest since it combines both alternative energy production and reduction of environmental impact through reduction of methane and carbon dioxide, two of the main greenhouse gases emissions. This study follows two main objectives. First, to determine whether active extraction of landfill gas in the examined municipal solid waste sites would produce adequate electric power for utilisation and grid connection and second, to estimate the reduction of sequential greenhouse gases emissions. However, in order to optimize the designing of a plant fed by biogas, it is necessary to quantify biogas production over several years. The investigation results of energy efficiency and environmental impact of biogas utilization in landfills are considering satisfactory enough both in electric energy production and in contribution to greenhouse gases mitigation

[Quantity and quality analysis of Malayer municipal solid wastes from Autumn 2006 until Summer 2007]

Municipal Solid Waste [MSW] management and planning without adequate and reliable data about its physical components and generation rate are not obtainable. Because of MSW collection and landfilling expenses, in last decades, reuse and recycle of its components as an environmental object have been considered. In this research, in order to determine the possibility of source recycling application in Malayer and physical composition of MSW, samples were taken by Truck-Load method and cluster random sampling from autumn 2006 until summer 2007 and analyzed for physical components percents. The obtained data were analyzed by One-Way ANOVA and Tuky statistical test. Also, public partnership was investigated. Public opinion deliberation was accomplished by dividing the city into several clusters. Questionnaires were filled by oral interview conversation. The results showed that average daily generation rate was 138 Tons and 0.88 Kg per person per day. The average percent of recyclable materials was about 11% of total daily generated wastes. Also 99% of residents had positive response to source recycling plans. In general, by planning of enforceable reuse and recycling programmes, could avoid of 15 Tons of recyclable materials burial and save 19 millions Rials each day

Application of an environmentally optimum cooling water system design in water and energy conservation

Recirculating cooling water systems are consist of a cooling tower and heat-exchanger network which conventionally have a parallel configuration. However, reuse of water between different cooling duties enables cooling water networks to be designed with series arrangements. This will results in performance improvement and increased cooling tower capacity. Research on recirculating cooling water systems has mostly focused on the individual components. However, a particular design method represented by Kim and Smith accounts for the whole system interactions. In this study, the Kim and Smith design method is expanded and a comprehensive simulation model of recirculating cooling system was developed to account for the interaction between the cooling tower performance and the heat-exchanger network configuration. Regarding this model and considering cycle water quality through introducing ozone treatment technology, a modern methodology of recirculating cooling water system design was established and developed. This technique, called the integrated ozone treatment cooling system design, is a superior designed tool based on pinch analysis and mathematical programing. It also ensures maximum water and energy conservation, minimum cost and environmental impacts. Related coding in MATLAB version 7.3 was used for the illustrative example to get optimal values in cooling water design method computations. The result of the recently introduced design methodology was compared with the Kim and Smith design method

Uso racional: a fonte energética oculta / Rational usage: the hidden energy source

Os sistemas energéticos modernos são complexas redes de exploração de recursos naturais, com sucessivos processos de conversão e transporte de energia e um elevado nível de perdas, cuja redução constitui uma fonte virtual de energia, que deve ser mais bem explorada, com vantagens econômicas e ambientais. Nestas notas se revisam os conceitos de perdas em sistemas energéticos e a evolução do marco institucional brasileiro para fomento do uso racional de energia, apresentando-se as perspectivas para a redução dos desperdícios de energia em alguns usos finais: refrigeração doméstica, aquecimento de água residencial, veículos leves e cogeração. São apresentados os potenciais totais estimados de economia de energia elétrica e combustíveis, desagregados por setores de consumo.

Modern energy systems are complex exploitation networks of natural resources with successive conversion and energy transportation processes and a high level of losses. These losses constitute a virtual energy source that must be better exploited in order to provide economic and environmental advantages. Here, the concept of energy system loss and the evolution of Brazilian institutional framework to enhance the promotion of a rational use of energy will be presented, as well as the perspectives to reduce energy waste in end uses: domestic refrigeration, residential water heat, light vehicles and cogeneration. The estimated total capacities of electric energy and fuel economy (by consuming sectors) are also presented.

O uso energético da madeira / Wood as energy

Uma importante retomada de crescimento, observada nos últimos dez anos, vem tomando conta da tendência de declínio do consumo de madeira para energia no Brasil, iniciada na metade do século passado. Diante desse fato, o uso energético continua representando o maior consumo de madeira para um fim específico no país, atingindo 61 por cento do volume total. Em que pese tal aspecto, há ainda muito a ser conquistado, quanto à definição e à implantação de ações pragmáticas, para a real valorização desse uso no país. Neste trabalho são debatidos os aspectos quantitativos relacionado a tal aplicação, seu espaço estratégico e as demandas de definições e de ações a ela relacionadas. É ainda mostrado que antigas necessidades ainda não foram devidamente contempladas, no sentido da consolidação dessa importante e fundamental forma de aplicação da madeira, considerando-se os dias atuais, em que a utilização de fontes fósseis de energia está sendo fortemente questionada.

In the last ten years, an important restoration of wood consumption for energy production purposes in Brazil has been taking place, going against a decline tendency initiated in the mid 1900s. For that reason, energy production still represents the greatest demand of wood for a determined application: 61 percent of the total volume. However, there is still a lot to conquer in the definition and implantation of pragmatic actions for the valorization of this practice in the country. In this paper, quantitative aspects of this application will be discussed, as well as its strategic scope and the request for the definition of actions and plans. Long-felt needs for the consolidation of this important and fundamental application of wood that havenÆt been fulfilled are also pointed out, considering the current debate in which the use of fossil energy sources is being challenged.

Health, environmental, and economic costs from the use of a stabilized diesel/ethanol mixture in the city of São Paulo, Brazil

In Greater Metropolitan São Paulo, Brazil, fossil fuel combustion in the transportation system is a major cause of outdoor air pollution. Air quality improvement requires additional policies and technological upgrades in fuels and vehicle engines. The current study thus simulated the environmental and social impacts resulting from the use of a stabilized diesel/ethanol mixture in the bus and truck fleet in Greater Metropolitan São Paulo. The evaluation showed reductions in air pollutants, mainly PM10, which would help avert a number of disease events and deaths, as estimated through dose-response functions of epidemiological studies on respiratory and cardiovascular diseases. Valuation of the impacts using an environmental cost-benefit analysis considered operational installation, job generation, potential carbon credits, and health costs, with an overall positive balance of US$ 2.851 million. Adding the estimated qualitative benefits to the quantitative ones, the project's benefits far outweigh the measured costs. Greater Metropolitan São Paulo would benefit from any form of biodiesel use, producing environmental, health and socioeconomic gains, the three pillars of sustainability.

A poluição atmosférica na Região Metropolitana de São Paulo, Brasil, é devida principalmente à queima de combustíveis fósseis utilizados no sistema de transportes. A fim de melhorar a qualidade do ar, são necessárias políticas e melhorias tecnológicas em combustíveis e motores veiculares. Neste sentido, foi realizada uma avaliação dos impactos ambientais e sociais da mistura estabilizada do uso de diesel/etanol na frota de ônibus e caminhões na Região Metropolitana de São Paulo. Essa avaliação mostrou reduções nos poluentes atmosféricos, especialmente o MP10, o que contribuiu para um número de eventos de morbidade e mortalidade evitáveis estimados por meio de funções dose-resposta de estudos epidemiológicos em termos de doenças respiratórias e cardiovasculares. A valoração dos impactos representada através de uma análise custo-benefício ambiental resultou positiva em US$ 2,851 milhões. Adicionando-se a essa quantia os benefícios estimados em termos qualitativos, pode-se concluir que os benefícios sócio-econômicos do projeto superam os custos mensurados. A Região Metropolitana de São Paulo se beneficiará de qualquer tipo de biodiesel produzindo ganhos em termos ambientais, de saúde e de inclusão sócio-econômica, os três pilares da sustentabilidade.

Municipal solid waste and recovery potential: Bangladesh perspective

A total of 7690 tons of municipal solid waste generated daily at the six major cities of Bangladesh, namely, Dhaka, Chittagong, Khulna, Rajshahi, Barisal and Sylhet, as estimated in 2005. Sampling was done at different waste generation sources such as residential, commercial, institutional and open areas, in different seasons. The composition of the entire waste stream was about 74.4% organic matter, 9.1% paper, 3.5% plastic, 1.9% textile and wood, 0.8% leather and rubber, 1.5% metal, 0.8% glass and 8% other waste. The per capita generation of municipal solid waste was ranged from 0.325 to 0.485 kg/cap/day while the average rate was 0.387 kg/cap/day as measured in the six major cities. The potential for waste recovery and reduction based on the waste characteristics are evaluated and it is predicted that 21.64 million US$/yr can be earned from recycling and composting of municipal solid waste

Rectangular tank surface aerators: scale up criteria and energy conservation

Surface aeration experiments were conducted in two types of rectangular tanks of aspect ratios i.e., length to width ratio [L/W] of 1.5 and 2 and developed simulation equations to correlate the oxygen transfer coefficient, k and power number, P0 with a parameter governing theoretical power per unit volume X. The parameter X is defined as equal to F4/3R1/3, where F and R are impellers' Froude and Reynolds numbers respectively]. Results have shown that the P0 can not be simulated singularly with either Reynolds number, R or Froude number, F, which results in scale-effects; there appears to be a need to incorporate the effects of both F and R. It was found that P0 is uniquely related to X for rectangular aeration tanks of both aspect ratios, however, such relationships are different depending upon the aspect ratios. It has been demonstrated that energy can be saved substantially if the aeration tanks are run at relatively higher input powers. It is also demonstrated that smaller sized tanks are more energy conservative and economical when compared to big sized tanks, while aerating the same volume of water, and at the same time by maintaining a constant input power in all the tanks irrespective of their size