81 research outputs found
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Investigating the role of virtual reality in geography via Google Expeditions
This workshop-session explored the use of Google Expeditions (GEs), virtual reality-based field trips, to support and encourage outdoor fieldwork and facilitate visualisation of processes and locations. Participants had the opportunity to trial GEs and were invited to discuss and evaluate the outcomes (particularly the educator’s perspective) of a project investigating the role of virtual reality in geography education.
We first showed several Expeditions to the educators, such as Rio de Janeiro and Sao Paulo or Borneo Rainforest: Plant Adaptations. We then invited participants to share their experience on teaching geography with a focus on inquiry-based learning.
We asked educators to discuss:
a) their inquiry-based learning (IBL) practices in geography lessons and how they would use virtual reality for IBL in lessons;
b) discuss their IBL practices before, during and after a field trip and how they would use virtual reality to practice IBL for fieldwork
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Role of smartphone-driven virtual reality field trips in inquiry-based learning
A Google Expedition (GE) is a Virtual Reality approach comprising of 360 degree photospheres of a location (e.g. a museum, or a city like Rio de Janeiro, an active volcano) along with the description of location, points of interest and suggested questions for discussion. Using a Tablet and via the GEs App, a teacher can guide students. Students experience the GE through the smartphones embedded within the VR viewers called Google cardboard.
Our research project’s objective is examine the potential role of Virtual Reality (VR) in science and geography in schools. In this research paper, we will discuss the results of our empirical investigations for one of the research questions: whether VR-based guided field trips via GEs can support self-directed inquiry-based learning (IBL).
Our investigations on IBL have involved: conducting Geography lessons using one or more GEs at KS3 and KS4 stages; analysis of the lesson-observations; and assessment of the nature of questions that are generated by the students during these lessons. The teachers reported that the students generate more questions (than usual) in lessons that involve GEs/VR. Also, the questions are high-order and have one of more of the following features: are analytical, enquire about impact, or are evaluative
Developments in Earth observation for the assessment and monitoring of inland, transitional, coastal and shelf-sea waters
The Earth's surface waters are a fundamental resource and encompass a broad range of ecosystems that are core to global biogeochemical cycling and food and energy production. Despite this, the Earth's surface waters are impacted by multiple natural and anthropogenic pressures and drivers of environmental change. The complex interaction between physical, chemical and biological processes in surface waters poses significant challenges for in situ monitoring and assessment and often limits our ability to adequately capture the dynamics of aquatic systems and our understanding of their status, functioning and response to pressures. Here we explore the opportunities that Earth observation (EO) has to offer to basin-scale monitoring of water quality over the surface water continuum comprising inland, transition and coastal water bodies, with a particular focus on the Danube and Black Sea region. This review summarises the technological advances in EO and the opportunities that the next generation satellites offer for water quality monitoring. We provide an overview of algorithms for the retrieval of water quality parameters and demonstrate how such models have been used for the assessment and monitoring of inland, transitional, coastal and shelf-sea systems. Further, we argue that very few studies have investigated the connectivity between these systems especially in large river-sea systems such as the Danube-Black Sea. Subsequently, we describe current capability in operational processing of archive and near real-time satellite data. We conclude that while the operational use of satellites for the assessment and monitoring of surface waters is still developing for inland and coastal waters and more work is required on the development and validation of remote sensing algorithms for these optically complex waters, the potential that these data streams offer for developing an improved, potentially paradigm-shifting understanding of physical and biogeochemical processes across large scale river-sea continuum including the Danube-Black Sea is considerable
Getting started with soil health testing in Missouri
"Recent public initiatives and USDA programs are putting a focus on producers to improve the health of their soils. Soil health is defined by the USDA-NRCS as "the continued capacity of the soil to function as a vital, living ecosystem that sustains plants, animals, and humans." Soil health encompasses the biological, physical, and chemical aspects of soil function. Improving soil health will lead to a more sustainable agricultural system by protecting the soil resource while maintaining productivity and reducing environmental degradation. Current practices that producers can implement to improve their soil health include reduced tillage or no-till, cover crops, intercropping, manuring and more diverse crop rotations. Integration of livestock with cropping systems, such as grazing cover crops, can also boost soil health. Improving soil health may take time and will need to be monitored following appropriate sampling and testing protocols."--First page.Written by Stacy Zuber (formerly of the Division of Food Systems and Bioengineering), Kristen Veum (USDA Agricultural Research Service), Rob Myers (Center for Regenerative Agriculture), Newell Kitchen (USDA Agricultural Research Service), Donna Brandt (Soil Health Assessment Center), Steve Anderson (School of Natural Resources), Jordon Wade (School of Natural Resources)New 11/2021Includes bibliographical reference
Nitrogen Fertilizer Guide for First-Year Small Grains Following Alfalfa
Nitrogen (N) fertilizer is one of the most expensive crop inputs. It is an essential nutrient for most crops and often increases yield more than any other nutrient. Small grains are no exception. Alfalfa is the dominant crop in Utah in terms of area and gross sales, and as a nitrogen-fixing legume, it does not require nitrogen fertilizer. When terminated, alfalfa usually leaves a lot of nitrogen in the soil for subsequent crops. The amount of nitrogen that it supplies to following crops has been termed the “alfalfa N credit.” In many cases, this credit can be up to 300 lbs. N/acre for the two crops following alfalfa. This fact sheet addresses the nitrogen fertilizer needs of small grains grown for forage and for grain and corresponding economics
Pre-analytical practices for routine coagulation tests in European laboratories. A collaborative study from the European Organisation for External Quality Assurance Providers in Laboratory Medicine (EQALM)
Background: Correct handling and storage of blood samples for coagulation tests are important to assure correct diagnosis and monitoring. The aim of this study was to assess the pre-analytical practices for routine coagulation testing in European laboratories. Methods: In 2013–2014, European laboratories were invited to fill in a questionnaire addressing pre-analytical requirements regarding tube fill volume, citrate concentration, sample stability, centrifugation and storage conditions for routine coagulation testing (activated partial thromboplastin time [APTT], prothrombin time in seconds [PT-sec] and as international normalised ratio [PT-INR] and fibrinogen). Results: A total of 662 laboratories from 28 different countries responded. The recommended 3.2% (105–109 mmol/L) citrate tubes are used by 74% of the laboratories. Tube fill volumes ≥90% were required by 73%–76% of the laboratories, depending upon the coagulation test and tube size. The variation in centrifugation force and duration was large (median 2500 g [10- and 90-percentiles 1500 and 4000] and 10 min [5 and 15], respectively). Large variations were also seen in the accepted storage time for different tests and sample materials, for example, for citrated blood at room temperature the accepted storage time ranged from 0.5–72 h and 0.5–189 h for PT-INR and fibrinogen, respectively. If the storage time or the tube fill requirements are not fulfilled, 72% and 84% of the respondents, respectively, would reject the samples. Conclusions: There was a large variation in pre-analytical practices for routine coagulation testing in European laboratories, especially for centrifugation conditions and storage time requirements.publishedVersio
Reference materials (RMs) for analysis of the human factor II (prothrombin) gene G20210A mutation
The Scientific Committee of Molecular Biology Techniques (C-MbT) in Clinical Chemistry of the IFCC has initiated a joint project in co-operation with the European Commission, Joint Research Centre, Institute of Reference Materials and Measurements to develop and produce plasmid-type reference materials (RMs), for the analysis of the human prothrombin gene G20210A mutation. Although DNA tests have a high impact on clinical decision-making and the number of tests performed in diagnostic laboratories is high, issues of quality and quality assurance exist, and currently only a few RMs for clinical genetic testing are available. A gene fragment chosen was produced that spans all primer annealing sites published to date. Both the wild-type and mutant alleles of this gene fragment were cloned into a pUC18 plasmid and two plasmid RMs were produced. In addition, a mixture of both plasmids was produced to mimic the heterozygous genotype. The present study describes the performance of these reference materials in a commutability study, in which they were tested by nine different methods in 13 expert laboratories.. This series of plasmid RMs are, to the best of our knowledge, the first plasmid-type clinical genetic RMs introduced worldwide
Performance of factor IX extended half-life product measurements in external quality control assessment programs
Background: Patients with hemophilia B are increasingly treated with extended half-life (EHL) factor IX (FIX) concentrates. For the laboratory, introduction of these EHL concentrates presents a major challenge. To understand the variation in FIX activity levels, all available diagnostic assays need to be directly compared. Methods: The ECAT, UKNEQAS, and RCPAQAP have collaboratively performed a global survey to evaluate the quality of FIX measurements using FIX deficient plasma samples spiked with recombinant FIX (rFIX), rFIXFP, rFIXFc, and N9-GP to levels at typical FIX trough (6Â IU/dL) and peak levels (60Â IU/dL). Participants were asked to use their routine protocols, using one-stage assays (OSA) or chromogenic assays (CA). Results: In samples spiked with 6Â IU/dL product, median (25%-75% range) FIX activity levels (OSA), were 8.0Â IU/dL (7.0-9.2) for rFIX, 6.0Â IU/dL (4.0-7.1) for rFIXFP, 6.6Â IU/dL (5.5-8.0) for rFIXFc, and 4.9Â IU/dL (3.5-8.4) for N9-GP. In samples spiked with 60Â IU/dL, FIX activity levels measured (using OSA) was 63.0Â IU/dL (59.9-67.0) for rFIX, 42.5Â IU/dL (28.2-47.0) for rFIXFP, 50.0Â IU/dL (45.0-55.0) for rFIXFc, and 34.0Â IU/dL (24.8-67.5) for N9-GP. Considerable differences were observed between reagents for all samples. With CA, there was also quite some variation, but no differences between reagents. Conclusion: Large variation is observed in the measurement of FIX activity levels after administration of rFIX and EHL FIX products. For N9-GP, most silica-based assays show especially high levels. It is essential to standardize and improve reliability of measurements of these concentrates as diagnosis and treatment monitoring is based on these results
Reference materials (RMs) for analysis of the human factor II (prothrombin) gene G20210A mutation
The Scientific Committee of Molecular Biology Techniques (C-MBT) in Clinical Chemistry of the IFCC has initiated a joint project in co-operation with the European Commission, Joint Research Centre, Institute of Reference Materials and Measurements to develop and produce plasmid-type reference materials (RMs) for the analysis of the human prothrombin gene G20210A mutation. Although DNA tests have a high impact on clinical decision-making and the number of tests performed in diagnostic laboratories is high, issues of quality and quality assurance exist, and currently only a few RMs for clinical genetic testing are available. A gene fragment chosen was produced that spans all primer annealing sites published to date. Both the wild-type and mutant alleles of this gene fragment were cloned into a pUC18 plasmid and two plasmid RMs were produced. In addition, a mixture of both plasmids was produced to mimic the heterozygous genotype. The present study describes the performance of these reference materials in a commutability study, in which they were tested by nine different methods in 13 expert laboratories. This series of plasmid RMs are, to the best of our knowledge, the first plasmid-type clinical genetic RMs introduced worldwid
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