Organic nitrogen in PM2.5 aerosol at a forest site in the Southeast US

There is growing evidence that organo-nitrogen compounds may constitute a significant fraction of the aerosol nitrogen (N) budget. However, very little is known about the abundance and origin of this aerosol fraction. In this study, the concentration of organic nitrogen (ON) and major inorganic ions in PM2.5 aerosol were measured at the Duke Forest Research Facility near Chapel Hill, NC, during January and June of 2007. A novel on-line instrument was used, which is based on the Steam Jet Aerosol Collector (SJAC) coupled to an on-line total carbon/total nitrogen analyzer and two on-line ion chromatographs. The concentration of ON was determined by tracking the difference in concentrations of total nitrogen and of inorganic nitrogen (determined as the sum of N-ammonium and N-nitrate). The time resolution of the instrument was 30 min with a detection limit for major aerosol components of ∼0.1 mu;gm-3. Nitrogen in organic compounds contributed ∼33% on average to the total nitrogen concentration in PM2.5, illustrating the importance of this aerosol component. Absolute concentrations of ON, however, were relatively low (lt;1.0 mu;gm-3) with an average of 0.16 mu;gm-3. The absolute and relative contribution of ON to the total aerosol nitrogen budget was practically the same in January and June. In January, the concentration of ON tended to be higher during the night and early morning, while in June it tended to be higher during the late afternoon and evening. Back-trajectories and correlation with wind direction indicate that higher concentrations of ON occur in air masses originating over the continental US, while marine air masses are characterized by lower ON concentrations. The data presented in this study suggests that ON has a variety of sources, which are very difficult to quantify without information on chemical composition of this important aerosol fraction.

The environmental justice dimensions of climate change

Nations around the world are considering strategies to mitigate the severe impacts of climate change predicted to occur in the twenty-first century. Many countries, however, lack the wealth, technology, and government institutions to effectively cope with climate change. This study investigates the varying degrees to which developing and developed nations will be exposed to changes in three key variables: temperature, precipitation, and runoff. We use Geographic Information Systems (GIS) analysis to compare current and future climate model predictions on a country level. We then compare our calculations of climate change exposure for each nation to several metrics of political and economic well-being. Our results indicate that the impacts of changes in precipitation and runoff are distributed relatively equally between developed and developing nations. In contrast, we confirm research suggesting that developing nations will be affected far more severely by changes in temperature than developed nations. Our results also suggest that this unequal impact will persist throughout the twenty-first century. Our analysis further indicates that the most significant temperature changes will occur in politically unstable countries, creating an additional motivation for developed countries to actively engage with developing nations on climate mitigation strategies. © 2011, Mary Ann Liebert, Inc.

Using decision analysis to improve malaria control policy making.

Malaria and other vector-borne diseases represent a significant and growing burden in many tropical countries. Successfully addressing these threats will require policies that expand access to and use of existing control methods, such as insecticide-treated bed nets (ITNs) and artemesinin combination therapies (ACTs) for malaria, while weighing the costs and benefits of alternative approaches over time. This paper argues that decision analysis provides a valuable framework for formulating such policies and combating the emergence and re-emergence of malaria and other diseases. We outline five challenges that policy makers and practitioners face in the struggle against malaria, and demonstrate how decision analysis can help to address and overcome these challenges. A prototype decision analysis framework for malaria control in Tanzania is presented, highlighting the key components that a decision support tool should include. Developing and applying such a framework can promote stronger and more effective linkages between research and policy, ultimately helping to reduce the burden of malaria and other vector-borne diseases.

Factors influencing malaria control policy-making in Kenya, Uganda and Tanzania.

BACKGROUND: Policy decisions for malaria control are often difficult to make as decision-makers have to carefully consider an array of options and respond to the needs of a large number of stakeholders. This study assessed the factors and specific objectives that influence malaria control policy decisions, as a crucial first step towards developing an inclusive malaria decision analysis support tool (MDAST). METHODS: Country-specific stakeholder engagement activities using structured questionnaires were carried out in Kenya, Uganda and Tanzania. The survey respondents were drawn from a non-random purposeful sample of stakeholders, targeting individuals in ministries and non-governmental organizations whose policy decisions and actions are likely to have an impact on the status of malaria. Summary statistics across the three countries are presented in aggregate. RESULTS: Important findings aggregated across countries included a belief that donor preferences and agendas were exerting too much influence on malaria policies in the countries. Respondents on average also thought that some relevant objectives such as engaging members of parliament by the agency responsible for malaria control in a particular country were not being given enough consideration in malaria decision-making. Factors found to influence decisions regarding specific malaria control strategies included donor agendas, costs, effectiveness of interventions, health and environmental impacts, compliance and/acceptance, financial sustainability, and vector resistance to insecticides. CONCLUSION: Malaria control decision-makers in Kenya, Uganda and Tanzania take into account health and environmental impacts as well as cost implications of different intervention strategies. Further engagement of government legislators and other policy makers is needed in order to increase funding from domestic sources, reduce donor dependence, sustain interventions and consolidate current gains in malaria.

Later Life Consequences of Developmental Mitochondrial DNA Damage in C. elegans

Mitochondria are responsible for producing the vast majority of cellular ATP, and are therefore critical to organismal health [1]. They contain thir own genomes (mtDNA) which encode 13 proteins that are all subunits of the mitochondrial respiratory chain (MRC) and are essential for oxidative phosphorylation [2]. mtDNA is present in multiple copies per cell, usually between 103 and 104 , though this number is reduced during certain developmental stages [3, 4]. The health of the mitochondrial genome is also important to the health of the organism, as mutations in mtDNA lead to human diseases that collectively affect approximately 1 in 4000 people [5, 6]. mtDNA is more susceptible than nuclear DNA (nucDNA) to damage by many environmental pollutants, for reasons including the absence of Nucleotide Excision Repair (NER) in the mitochondria [7]. NER is a highly functionally conserved DNA repair pathway that removes bulky, helix distorting lesions such as those caused by ultraviolet C (UVC) radiation and also many environmental toxicants, including benzo[a]pyrene (BaP) [8]. While these lesions cannot be repaired, they are slowly removed through a process that involves mitochondrial dynamics and autophagy [9, 10]. However, when present during development in C. elegans, this damage reduces mtDNA copy number and ATP levels [11]. We hypothesize that this damage, when present during development, will result in mitochondrial dysfunction and increase the potential for adverse outcomes later in life.

To test this hypothesis, 1st larval stage (L1) C. elegans are exposed to 3 doses of 7.5J/m2 ultraviolet C radiation 24 hours apart, leading to the accumulation of mtDNA damage [9, 11]. After exposure, many mitochondrial endpoints are assessed at multiple time points later in life. mtDNA and nucDNA damage levels and genome copy numbers are measured via QPCR and real-time PCR , respectively, every 2 day for 10 days. Steady state ATP levels are measured via luciferase expressing reporter strains and traditional ATP extraction methods. Oxygen consumption is measured using a Seahorse XFe24 extra cellular flux analyzer. Gene expression changes are measured via real time PCR and targeted metabolomics via LC-MS are used to investigate changes in organic acid, amino acid and acyl-carnitine levels. Lastly, nematode developmental delay is assessed as growth, and measured via imaging and COPAS biosort.

I have found that despite being removed, UVC induced mtDNA damage during development leads to persistent deficits in energy production later in life. mtDNA copy number is permanently reduced, as are ATP levels, though oxygen consumption is increased, indicating inefficient or uncoupled respiration. Metabolomic data and mutant sensitivity indicate a role for NADPH and oxidative stress in these results, and exposed nematodes are more sensitive to the mitochondrial poison rotenone later in life. These results fit with the developmental origin of health and disease hypothesis, and show the potential for environmental exposures to have lasting effects on mitochondrial function.

Lastly, we are currently working to investigate the potential for irreparable mtDNA lesions to drive mutagenesis in mtDNA. Mutations in mtDNA lead to a wide range of diseases, yet we currently do not understand the environmental component of what causes them. In vitro evidence suggests that UVC induced thymine dimers can be mutagenic [12]. We are using duplex sequencing of C. elegans mtDNA to determine mutation rates in nematodes exposed to our serial UVC protocol. Furthermore, by including mutant strains deficient in mitochondrial fission and mitophagy, we hope to determine if deficiencies in these processes will further increase mtDNA mutation rates, as they are implicated in human diseases.

Impacto del marco institucional en el cambio de paradigma en el sector alpaquero : el caso de los productores alpaqueros del Distrito Corani, Región Puno, Perú

En los últimos años la demanda mundial de fibra de alpaca ha experimentado un gran crecimiento debido a que es considerada una de las fibras más lujosas y finas del mundo, no sólo por sus atributos físicos sino porque es escasa en el mercado, haciéndola más exclusiva. Las ventajas comparativas en el Perú, han permitido que nuestro país ostente el 86,9 por ciento de la producción ganadera mundial de alpacas; sin embargo el sistema de agronegocios de la fibra de alpaca se ha caracterizado durante años por un alto nivel de intermediación en la comercialización y limitada capacidad de negociación de los criadores de alpacas, altos costos de transacción e información asimétrica. Históricamente la fibra de alpaca en el Perú se ha comercializado como un commodity, la estructura de gobernanza entre criadores de alpaca y compradores era el mercado spot. En este sentido, el objetivo de este trabajo fue caracterizar las innovaciones organizacionales y tecnológicas adoptadas por los pequeños y medianos productores alpaqueros del distrito de Corani ante el impulso del ambiente institucional, a fin de poder describir las mejoras en el subsistema estrictamente coordinado (SSEC). La metodología de trabajo utilizada fue la epistemología fenomenológica combinada con un análisis estructural discreto con énfasis en las innovaciones. Para ello se realizó un análisis a nivel institucional, organizacional y tecnológico del subsistema de la Región Puno y del caso de los productores alpaqueros del distrito de Corani, que a través de su forma asociativa lograron una coordinación horizontal y a la vez vertical mediante los representantes de su Comité de Acopio, logrando adaptarse y cambiar el paradigma tradicional, y de esta forma tomar un rol más activo y colectivo en el acopio, clasificación, proceso y comercialización de la fibra de alpaca con valor agregado. Los resultados obtenidos muestran que se rompió el path dependecy trabajando de forma colectiva apoyados en organizaciones públicas y privadas del sector, adquirieron mayores niveles de coordinación para gobernar el intercambio de una manera eficiente y reducir los costos de transacción. La finalidad de este estudio es obtener las herramientas necesarias y promover la acción colectiva y la coordinación de otras organizaciones de productores del subsistema de fibra de alpaca de la Región de Puno.

Factores que limitan la inserción de las flores peruanas en los mercados de exportación

El valor de las exportaciones peruanas de flores-entre 2004 y 2013-crecieron un 61 por ciento, alcanzando los 9.798.552 millones de dólares. Sin embargo, Perú escasamente participa con el 0,12 por ciento del total de las exportaciones mundiales de flores, ubicándose en la posición 35 dentro del ranking de países exportadores. Y la la tasa acumulada de participación en el mercado fue de tan sólo 0,241 por ciento. Por ende, el objetivo general de esta investigación fue identificar y describir los factores que limitan la inserción de las flores peruanas en los mercados de exportación para poder aprovechar las oportunidades que brindan los mercados internacionales. La metodología empleada para este estudio fue descriptiva, cuantitativa y cualitativa, apoyada en información secundaria y analizada a través del Índice de Ventajas Comparativas Reveladas, Diamante de Porter y la matriz FODA. En la descripción del ambiente competitivo se determinó que Perú concentra el 99,18 por ciento de sus exportaciones en el grupo de las Hydrangeas, Gypsophila, Alstroemeria, etc., al tener un mayor precio que el resto de variedades. El análisis de la posición competitiva del sector florícola nacional señaló que el Índice de Ventajas Comparativas promedio de Perú es 0,53, no revelándose ventajas comparativas. Además, el sector sostiene su ventaja competitiva basada principalmente en factores básicos (excelentes condiciones agroclimáticas, disponibilidad de superficie agrícola y abundante mano de obra), pero no ha desarrollado los avanzados y especializados (poca inversión en I+D, reducida producción científica, productores agrícolas sin capacitación y asistencia técnica), lo cual no asegura su sustentabilidad a largo plazo. Asimismo, la rivalidad interna de las empresas exportadoras peruanos no viene aportando ventajas al sector ante la ausencia de presión interna para la innovación. El sector florícola peruano cuenta con oportunidades para apalancar su crecimiento, tales como los acuerdos comerciales y excelentes condiciones agroclimáticas. Sus fortalezas son mínimas, destacándose la disponibilidad de mano de obra semicalificada. Además, no es lo suficientemente fuerte para escapar de las amenazas, como la aparición de nuevos competidores. Y sus principales debilidades son la falta de innovación y adaptación a las perturbaciones.

El geoplano: una alternativa para mejorarla enseñanza de la geometría

El propósito de este trabajo es presentar una investigación de campo de tipo descriptiva en donde el empleo del geoplano como recurso didáctico contribuyó de manera positiva en la comprensión de objetos geométricos estudiados en la clase matemática. Teniendo que una de las tareas del profesor de matemáticas es conseguir que sus estudiantes comprendan los diversos conceptos que están en juego, no de una forma mecánica, sino que puedan operar con ellos en diversos contextos. (Serrazina y Matos, 1968). La intención de este modesto trabajo es ayudar a los docentes en servicio a la hora de escoger recursos didácticos y elaborar actividades que favorezcan la comprensión en los estudiantes. Este trabajo se efectúo a la luz de los niveles de Van Hiele. Se realizó en un Liceo ubicado en el Municipio Zamora del Estado Miranda con estudiantes pertenecientes a primer año de educación media general, durante el período académico 2010-2011. Se obtuvo que la mayoría de los estudiantes se ubican en el nivel de análisis del modelo antes nombrado.

Las prácticas de modelación de los estudiantes ante la problemática de la contaminación del río de la sabana

En este artículo la problemática que abordamos es la que surge de la desvinculación de los contextos escolares y el entorno social, nuestra intención es investigar las prácticas de modelación que los estudiantes de nivel medio con bachillerato técnico clínico y estudiantes de nivel superior de la carrera de ingeniería bioquímica, ejercen al investigar un problema social: la contaminación del río de la sabana. Hacemos énfasis en observar cómo aprenden los estudiantes y las prácticas que ejercen al investigar una problemática social.

Assessment of microInductors for DC-DC converters

There are increasing demands on the power density and efficiency of DC-DC power converters due to the soaring functionality and operational longevity required for today's electronic products. In addition, DC-DC converters are required to operate at new elevated frequencies in the MHz frequency regime. Typical ferrite cores, whose useable flux density falls drastically at these frequencies, have to be replaced and a method of producing compact component windings developed. In this study, two types of microinductors, pot-core and solenoid, for DC-DC converter applications have been analyzed for their performance in the MHz frequency range. The inductors were manufactured using an adapted UV-LIGA process and included electrodeposited nickel-iron and the commercial alloy Vitrovac 6025 as core materials. Using a vibrating sample magnetometer (VSM) and a Hewlett Packard 4192A LF- impedance analyzer, the inductor characteristics such as power density, efficiency, inductance and Q-factor were recorded. Experimental, finite element and analytical results were used to assess the suitability of the magnetic materials and component geometries for low MHz operation.

Shear strength analysis of ball grid array (BGA) solder interfaces

Ball shear test is the most common test method used to assess the reliability of bond strength for ball grid array (BGA) packages. In this work, a combined experimental and numerical study was carried out to realize of BGA solder interface strength. Solder mask defined bond pads on the BGA substrate were used for BGA ball bonding. Different bond pad metallizations and solder alloys were used. Solid state aging at 150degC up to 1000 h has been carried out to change the interfacial microstructure. Cross-sectional studies of the solder-to-bond pad interfaces was conducted by scanning electron microscopy (SEM) equipped with an energy dispersive X-ray (EDX) analyzer to investigate the interfacial reaction phenomena. Ball shear tests have been carried out to obtain the mechanical strength of the solder joints and to correlate shear behaviour with the interfacial reaction products. An attempt has been taken to realize experimental findings by Finite Element Analysis (FEA). It was found that intermetallic compound (IMC) formation at the solder interface plays an important role in the BGA solder bond strength. By changing the morphology and the microchemistry of IMCs, the fracture propagation path could be changed and hence, reliability could be improved

Caking strength of granulated clay under frozen conditions

Transport of particulate clay occurs during some extremely cold weather conditions typically in the winter in the far North area. During the transport and temporary storage time, the clay may cake inside a rail or road wagon or in a silo, and consequently be difficult to be discharged from the containers. This paper studied caking strength of a granulated clay powder with a certain water moisture content of 18% for influences of temperature, packing stress and freezing time. The temperature tested was -5 oC, -10 oC and -20 oC. Because the clay powder may be packed at different bed depth, the study was undertaken across the packing stress range at 8.3 kPa (1 m bed depth), 25.0 kPa (3 m) and 75.0 kPa (9 m). Freezing time varied between 4 hours (transport) and 18 hours (overnight). During the tests, failure of caked materials was measured using a QTS texture analyzer and the caking strength of frozen samples was calculated. Influences on freeze caking of granular clay in storage or transport are discussed briefly. Some conclusions are made at the end of the paper,including recommendations for practical methods for mitigating these problems.

An overview of Calanus helgolandicus ecology in European waters

We review current knowledge and understanding of the biology and ecology of the calanoid copepod Calanus helgolandicus in European waters, as well as provide a collaborative synthesis of data from 18 laboratories and 26 sampling stations in areas distributed from the northern North Sea to the Aegean and Levantine Seas. This network of zooplankton time-series stations has enabled us to collect and synthesise seasonal and multi-annual data on abundance, body size, fecundity, hatching success and vertical distribution of C. helgolandicus. An aim was to enable comparison with its congener Calanus finmarchicus, which has been studied intensively as a key component of European and north east Atlantic marine ecosystems. C. finmarchicus is known to over-winter at depth, whereas the life-cycle of C. helgolandicus is less well understood. Overwintering populations of C. helgolandicus have been observed off the Atlantic coast between 400 and 800 m, while in the Mediterranean there is evidence of significant deep-water populations at depths as great as 4200 m. The biogeographical distribution of C. helgolandicus in European coastal waters covers a wide range of habitats, from open ocean to coastal environments, and its contribution to mesozooplankton biomass ranges from 6% to 93%. Highest abundances were recorded in the Adriatic and off the west coast of Spain. C. helgolandicus is generally found in 9-20 C water, with maximum abundances from 13-17 C. In contrast, C. finmarchicus is found in cooler water between 0 and 15 C, with peak abundances from 0 to 9 C. As water has warmed in the North Atlantic over recent decades, the range of C. helgolandicus and its abundance on the fringes of its expanding range have increased. This review will facilitate development of population models of C. helgolandicus. This will not only help answer remaining questions but will improve our ability to forecast future changes, in response to a warming climate, in the abundance and distribution of this important species.