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  • image/svg+xml art designer at PLoS, modified by Wikipedia users Nina, Beao, JakobVoss, and AnonMoos Open Access logo, converted into svg, designed by PLoS. This version with transparent background. http://commons.wikimedia.org/wiki/File:Open_Access_logo_PLoS_white.svg art designer at PLoS, modified by Wikipedia users Nina, Beao, JakobVoss, and AnonMoos http://www.plos.org/
    Authors: Joel W. Martin; George E. Davis;

    [Using a database that includes nearly half (46%) of the estimated 68,000 described species of extant crustaceans, as well as the names of the authors who described each species and the date of description, we plotted the number of species described vs. year of description to examine rates of, and trends in, crustacean species descriptions over time. Plots were generated for all crustaceans and for selected major taxonomic "subgroups" (currently recognized classes and selected subclasses). The cumulative number of species plotted over time for all crustaceans (pooled) showed no sign of flattening over time; no asymptote was apparent. The same pattern was seen in all subgroups examined (Branchiopoda, Maxillopoda, Copepoda, Malacostraca, Peracarida, Decapoda, and Brachyura). Given that the asymptotes from such analyses have been used to predict species richness in a taxon, our data show that currently there is no reliable way to estimate the number of still-undescribed species of crustaceans through extrapolation. The current estimate of approximately 68,000 described species (Martin & Davis, 2001; Brusca & Brusca, 2003) may represent only half, or far fewer, of the actual number of extant crustacean species. No apparent decrease in the overall rate of discovery (approximated by the rate of subsequent taxonomic description) has been observed since the first crustacean species (in our database) were described in the mid-1700s. Over time, the rate of discovery of some smaller taxa, e.g., copepods, did not differ appreciably from the rate of discovery of larger taxa, e.g., brachyuran crabs, based on best-fit regression lines. Although the rates of species accumulations have differed between groups (4.6 species per year for branchiopods vs. 82.6 species per year for peracarids), the pace appears steady within groups. The taxonomic contributions of notable workers and their published monographs are highlighted and discussed. En utilisant une base de donnees qui inclut presque la moitie (46%) des quelque 68 000 especes decrites de crustaces actuels, ainsi que le nom des auteurs qui ont decrit chaque espece et la date de leur description, nous avons rapporte le nombre d'especes decrites a l'annee de description afin d'examiner les taux des descriptions d'especes de crustaces par rapport au temps et leurs tendances. Des coordonnees ont ete etablies pour tous les crustaces et pour quelques sous-groupes taxonomiques majeurs choisis (comme classes et certaines sous-classes reconnues). Le nombre cumule des especes ainsi rapportee par rapport au temps pour tous les crustaces ne montre pas de signe de baisse avec le temps, aucune asymptote n'est apparente. Le meme schema a ete observe dans tous les sousgroupes examines (Branchiopoda, Maxillopoda, Copepoda, Malacostraca, Peracarida, Decapoda et Brachyura). Etant donne que les asymptotes de telles analyses ont ete utilisees pour predire la richesse specifique d'un taxon, nos donnees montrent qu'actuellement, il n'y a pas de moyen fiable d'estimer le nombre d'especes de crustaces encore non-decrits par une extrapolation. L'estimation presente d'approximativement 68 000 especes decrites (Martin & Davis, 2001; Brusca & Brusca, 2003) pourrait representer seulement la moitie, ou beaucoup moins, du nombre actuel d'especes de crustaces vivants. Aucune diminution apparente du taux de decouverte (voisin du taux de description taxonomique) n'a ete observee depuis que les premieres especes de crustaces (dans notre base de donnees) ont ete decrites au milieu des annees 1700. Au cours du temps, le taux de decouverte des taxons les plus petits, comme les copepodes, n'a pas differe notablement du taux de decouverte des taxons de plus grande taille, comme les crabes brachyoures, d'apres les droites de regression les mieux ajustees. Bien que les taux cumules d'especes soient differents suivant les groupes (4,6 especes par an pour les branchiopodes contre 82,6 especes par an pour les peracarides), le rythme apparait constant a l'interieur des groupes. Les contributions taxonomiques d'auteurs eminents et les monographies qu'ils ont publiees sont citees et discutees., Using a database that includes nearly half (46%) of the estimated 68,000 described species of extant crustaceans, as well as the names of the authors who described each species and the date of description, we plotted the number of species described vs. year of description to examine rates of, and trends in, crustacean species descriptions over time. Plots were generated for all crustaceans and for selected major taxonomic "subgroups" (currently recognized classes and selected subclasses). The cumulative number of species plotted over time for all crustaceans (pooled) showed no sign of flattening over time; no asymptote was apparent. The same pattern was seen in all subgroups examined (Branchiopoda, Maxillopoda, Copepoda, Malacostraca, Peracarida, Decapoda, and Brachyura). Given that the asymptotes from such analyses have been used to predict species richness in a taxon, our data show that currently there is no reliable way to estimate the number of still-undescribed species of crustaceans through extrapolation. The current estimate of approximately 68,000 described species (Martin & Davis, 2001; Brusca & Brusca, 2003) may represent only half, or far fewer, of the actual number of extant crustacean species. No apparent decrease in the overall rate of discovery (approximated by the rate of subsequent taxonomic description) has been observed since the first crustacean species (in our database) were described in the mid-1700s. Over time, the rate of discovery of some smaller taxa, e.g., copepods, did not differ appreciably from the rate of discovery of larger taxa, e.g., brachyuran crabs, based on best-fit regression lines. Although the rates of species accumulations have differed between groups (4.6 species per year for branchiopods vs. 82.6 species per year for peracarids), the pace appears steady within groups. The taxonomic contributions of notable workers and their published monographs are highlighted and discussed. En utilisant une base de donnees qui inclut presque la moitie (46%) des quelque 68 000 especes decrites de crustaces actuels, ainsi que le nom des auteurs qui ont decrit chaque espece et la date de leur description, nous avons rapporte le nombre d'especes decrites a l'annee de description afin d'examiner les taux des descriptions d'especes de crustaces par rapport au temps et leurs tendances. Des coordonnees ont ete etablies pour tous les crustaces et pour quelques sous-groupes taxonomiques majeurs choisis (comme classes et certaines sous-classes reconnues). Le nombre cumule des especes ainsi rapportee par rapport au temps pour tous les crustaces ne montre pas de signe de baisse avec le temps, aucune asymptote n'est apparente. Le meme schema a ete observe dans tous les sousgroupes examines (Branchiopoda, Maxillopoda, Copepoda, Malacostraca, Peracarida, Decapoda et Brachyura). Etant donne que les asymptotes de telles analyses ont ete utilisees pour predire la richesse specifique d'un taxon, nos donnees montrent qu'actuellement, il n'y a pas de moyen fiable d'estimer le nombre d'especes de crustaces encore non-decrits par une extrapolation. L'estimation presente d'approximativement 68 000 especes decrites (Martin & Davis, 2001; Brusca & Brusca, 2003) pourrait representer seulement la moitie, ou beaucoup moins, du nombre actuel d'especes de crustaces vivants. Aucune diminution apparente du taux de decouverte (voisin du taux de description taxonomique) n'a ete observee depuis que les premieres especes de crustaces (dans notre base de donnees) ont ete decrites au milieu des annees 1700. Au cours du temps, le taux de decouverte des taxons les plus petits, comme les copepodes, n'a pas differe notablement du taux de decouverte des taxons de plus grande taille, comme les crabes brachyoures, d'apres les droites de regression les mieux ajustees. Bien que les taux cumules d'especes soient differents suivant les groupes (4,6 especes par an pour les branchiopodes contre 82,6 especes par an pour les peracarides), le rythme apparait constant a l'interieur des groupes. Les contributions taxonomiques d'auteurs eminents et les monographies qu'ils ont publiees sont citees et discutees.]

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    Authors: Joshua Friell; Chase M. Straw;

    AbstractSpatiotemporal data and analyses are gaining traction in the turfgrass industry as valuable tools to enable data‐driven management practices, but to date there has been minimal research in practical settings. The objective of this work was to quantify relationships between soil volumetric water content (VWC), proximal normalized difference vegetation index (NDVI), and several aerial measurements (visible, NDVI, and thermal infrared) collected in a real‐world application at field scale during a dry down. Data collection surveys were conducted in 2020 the morning of 25 Feb, afternoon of 25 Feb, and morning of 27 February on three golf course fairways in CA, USA. The first survey was initiated following an irrigation event, and then no additional irrigation or rainfall occurred prior to the second and third surveys. Ground‐based data were collected using the Precision Sense 6000™ (The Toro Company, Bloomington, MN) and aerial data were collected using an unmanned aerial vehicle (GreenSight Inc., Boston, MA). Data were appropriately georeferenced and analyzed to determine correlation between VWC and proximal NDVI, proximal and aerial NDVI, and VWC and aerial measurements. A significant, weak correlation (r = –0.21, p < .05) was found between VWC and proximal NDVI measurements, but only for the first survey immediately following the irrigation event. Significant, moderate to strong correlations were found between proximal and aerial NDVI during all three surveys (r = 0.63, p < .001; r = 0.64, p < .001; r = 0.85, p < .001), respectively]. Volumetric water content was significantly correlated with aerial NDVI measurements (r = –0.26, p < .001) but the relationship was weak and only existed for the first survey following the irrigation event. This study demonstrates the complexity of scaling remote sensing technologies from small plots to real‐world applications and identifies several barriers to providing quantitatively predictive and actionable data to turfgrass managers.

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    Article . 2021 . Peer-reviewed
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    Authors: Leah, Kulp; Aleksandra, Sarcevic; Megan, Cheng; Yinan, Zheng; +1 Authors

    This mixed-methods study examines the effects of a tablet-based checklist system on team performance during a dynamic and safety-critical process of trauma resuscitation. We compared team performance from 47 resuscitations that used a paper checklist to that from 47 cases with a digital checklist to determine if digitizing a checklist led to improvements in task completion rates and in how fast the tasks were initiated for 18 most critical assessment and treatment tasks. We also compared if the checklist compliance increased with the digital design. We found that using the digital checklist led to more frequent completions of the initial airway assessment task but fewer completions of ear and lower extremities exams. We did not observe any significant differences in time to task performance, but found increased compliance with the checklist. Although improvements in team performance with the digital checklist were minor, our findings are important because they showed no adverse effects as a result of the digital checklist introduction. We conclude by discussing the takeaways and implications of these results for effective digitization of medical work.

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    Europe PubMed Central
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    https://doi.org/10.1145/329060...
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      Europe PubMed Central
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      https://doi.org/10.1145/329060...
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    Authors: Kritika Kothari; Srinivasulu Ale; James P. Bordovsky; Dana O. Porter; +2 Authors

    Abstract Adaptation measures are required to enhance climate change resilience of agricultural systems and reduce risks associated with climate change at both regional and global scales. The Texas High Plains is a semi-arid region that faces major challenges from climate change risks and dwindling groundwater supply from the exhaustible Ogallala Aquifer for sustaining irrigated agriculture. The overall goal of this study was to assess the impacts of climate change on yield and water use of grain sorghum and identify optimum climate change adaptation strategies for three study sites in the Texas High Plains. Future climate data projected by nine Global Circulation Models (GCMs) under two Representative Concentration Pathways (RCPs) of greenhouse gas emissions (RCPs 4.5 and 8.5) were used as input for the DSSAT CSM-CERES-Sorghum model. The climate change adaptation strategies were designed by modifying crop genotype parameters to incorporate drought tolerance, heat tolerance, high yield potential, and long maturity traits. Irrigated and dryland grain sorghum yield and irrigation water use were projected to decrease at varying percentages at the study sites in the future. On an average (of 9 GCMs), irrigated grain sorghum yield is expected to decrease by 5–13 % and 16–27 % by mid-century (2036–2065) and late-century (2066–2095), respectively under RCP 8.5 compared to the baseline (1976–2005). The irrigation water use is expected to decrease by 7–9% and 14–16 % by the mid-century and late-century, respectively. Among the adaptation strategies, an ideotype with high yield potential trait (10 % higher partitioning to the panicle, radiation use efficiency, and relative leaf size than the reference cultivar) resulted in maximum grain sorghum yield gains in the future under both irrigated (6.9 %–17.1 %) and dryland (7.5 %–17.1 %) conditions, when compared to the reference cultivar. Enhancing drought tolerance by increasing root density at different soil depths also resulted in a significantly higher irrigated grain sorghum yield than the reference cultivar. A longer maturity cultivar will likely increase irrigation water use and, therefore, is not recommended for water limited conditions.

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    European Journal of Agronomy
    Article . 2020 . Peer-reviewed
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      European Journal of Agronomy
      Article . 2020 . Peer-reviewed
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    Authors: Bromley, Peter T.; Starr, James; Sims, Jared; Coffman, David;

    Drawing from forestry and wildlife research results, this publication explains the interaction of Virginia wildlife with its forests. It outlines forest management practices that support wildlife and give tips for management of specific species.

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    Authors: Qiang Ji; Si-Chee Tsay;

    A new method for improving the ground‐based pyranometer measurements of solar irradiance has been employed during the East Asian Study of Tropospheric Aerosols and Impact on Regional Climate field experiment, Asian Monsoon Year in China in 2008. Depending on the temperature difference between its detector and domes, a pyranometer's thermal dome effect (TDE) can vary from a few W m−2 at night to over tens of W m−2 during daytime. Yet in traditional calibration procedures only a single calibration constant is determined, and consequently TDE is misrepresented. None of the methods that have been documented in the literature can capture TDE nonintrusively using the same instrument. For example, although adding a temperature sensor to the detector assembly is straightforward, attaching any sensor on a dome is intrusive and will affect its overall optical and physical properties. Furthermore, in response to the solar elevation and atmospheric variables, the dome temperature distribution is both dynamic and uneven, which makes it exceedingly difficult for locating a representative point on the dome for measuring TDE. However, the effective‐dome‐temperature is proportional to the pressure of the air trapped between the outer and the inner domes; therefore with a minor modification to a pyranometer, we can utilize the ideal gas law to gauge TDE without affecting the domes. Pyranometers can become climate‐quality instruments once their TDE are nonintrusively determined.

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    Journal of Geophysical Research Atmospheres
    Article . 2010 . Peer-reviewed
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      Journal of Geophysical Research Atmospheres
      Article . 2010 . Peer-reviewed
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    Authors: Caley K. Gasch; David J. Brown; Erin S. Brooks; Matt A. Yourek; +3 Authors

    Individual laboratory calibration of many soil water content sensors is unpractical.We applied sensor-specific calibrations based on soil properties at insertion sites.This method is a retroactive approach for acquired sensor data.Produced accurate sensor values in a network installed across diverse soil profiles. Soil moisture sensors are increasingly deployed in sensor networks for both agronomic research and precision agriculture. Soil-specific calibration improves the accuracy of soil water content sensors, but laboratory calibration of individual sensors is not practical for networks installed across heterogeneous settings. Using daily water content readings collected from a sensor network (42 locations5 depths=210 sensors) installed at the Cook Agronomy Farm (CAF) near Pullman, Washington, we developed an automated calibration approach that can be applied to individual sensors after installation. As a first step, we converted sensor-based estimates of apparent dielectric permittivity to volumetric water content using three different calibration equations (Topp equation, CAF laboratory calibration, and the complex refractive index model, or CRIM). In a second, re-calibration step, we used two pedotransfer functions based upon particle size fractions and/or bulk density to estimate water content at wilting point, field capacity, and saturation at each sensor insertion point. Using an automated routine, we extracted the same three reference points, when present, from each sensors record, and then bias-corrected and re-scaled the sensor data to match the estimated reference points. Based on validation with field-collected cores, the Topp equation provided the most accurate calibration with an RMSE of 0.074m3m3, but automated re-calibration with a local pedotransfer function outperformed any of the calibrations alone, yielding a network-wide RMSE of 0.055m3m3. The initial calibration equation used in the first step was irrelevant when the re-calibration was applied. After correcting for the reference core measurement error of 0.026m3m3 used for calibration and validation, the error of the sensors alone (RMSEadj) was computed as 0.049m3m3. Sixty-five percent of individual sensors exhibited re-calibration errors less than or equal to the network RMSEadj. The incorporation of soil physical information at sensor installation sites, applied retroactively via an automated routine to in situ soil water content sensors, substantially improved network sensor accuracy.

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    Computers and Electronics in Agriculture
    Article
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    Computers and Electronics in Agriculture
    Article . 2017 . Peer-reviewed
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      Computers and Electronics in Agriculture
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      Computers and Electronics in Agriculture
      Article . 2017 . Peer-reviewed
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    Authors: Bosilj, Petra; Duckett, Tom; Cielniak, Grzegorz;

    Discriminating value crops from weeds is an important task in precision agriculture. In this paper, we propose a novel image processing pipeline based on attribute morphology for both the segmentation and classification tasks. The commonly used approaches for vegetation segmentation often rely on thresholding techniques which reach their decisions globally. By contrast, the proposed method works with connected components obtained by image threshold decomposition, which are naturally nested in a hierarchical structure called the max-tree, and various attributes calculated from these regions. Image segmentation is performed by attribute filtering, preserving or discarding the regions based on their attribute value and allowing for the decision to be reached locally. This segmentation method naturally selects a collection of foreground regions rather than pixels, and the same data structure used for segmentation can be further reused to provide the features for classification, which is realised in our experiments by a support vector machine (SVM). We apply our methods to normalised difference vegetation index (NDVI) images, and demonstrate the performance of the pipeline on a dataset collected by the authors in an onion field, as well as a publicly available dataset for sugar beets. The results show that the proposed segmentation approach can segment the fine details of plant regions locally, in contrast to the state-of-the-art thresholding methods, while providing discriminative features which enable efficient and competitive classification rates for crop/weed discrimination. Highlights • Segmentation and classification pipeline fully relying on attribute morphology. • Strong locality of the approach avoids resulting foreground noise. • Segmentation outputs regions directly, avoiding the component labelling step. • Max-tree structure enables feature calculation during segmentation. • Competitive classification of plant regions into crop/weed for varying plant types.

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    Europe PubMed Central
    Article . 2018
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    Computers in Industry
    Article . 2018 . Peer-reviewed
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      Europe PubMed Central
      Article . 2018
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      Computers in Industry
      Article . 2018 . Peer-reviewed
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    Authors: Acker, J. G.; Suhung Shen,; Leptoukh, G.; Serafino, G.; +2 Authors

    The Sea-viewing Wide Field-of View Sensor (SeaWiFS) Mission has initiated a new era of ocean color remote sensing and has established performance benchmarks that will be emulated by subsequent missions. An integral element of the SeaWiFS mission is the data component, performed by the Goddard Earth Sciences Distributed Active Archive Center (GES DAAC), NASA Goddard Space Flight Center, Greenbelt, MD. Since the beginning of data distribution in September 1997, the GES DAAC has managed the data archive and improved data distribution capability. SeaWiFS data products are archived in a primary, secondary, and tertiary archive structure, ensuring data preservation. Data distribution utilizes a World Wide Web (WWW)-based ordering interface, allowing distribution either electronically or on magnetic tape media. Automatic data subscriptions, supplying user-tailored data product selections, have yielded a high archive-to-distribution ratio. System improvements have increased efficiency and redundancy. The user interface has added features designed to facilitate data access and data usage, enhanced by WWW information resources and comprehensive online dataset documentation. As SeaWiFS enters the latter half of its five-year mission, a system performance assessment provides useful information for other Earth remote sensing missions and allows consideration of future usage objectives for the SeaWiFS data archive.

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    Authors: Aksel Andreas Transeth; Remco I. Leine; Christoph Glocker; Kristin Y. Pettersen; +1 Authors

    Snakes utilize irregularities in the terrain, such as rocks and vegetation, for faster and more efficient locomotion. This motivates the development of snake robots that actively use the terrain for locomotion, i.e., obstacle-aided locomotion. In order to accurately model and understand this phenomenon, this paper presents a novel nonsmooth (hybrid) mathematical model for wheel-less snake robots, which allows the snake robot to push against external obstacles apart from a flat ground. The framework of nonsmooth dynamics and convex analysis allows us to systematically and accurately incorporate both unilateral contact forces (from the obstacles) and isotropic friction forces based on Coulomb's law using set-valued force laws. The mathematical model is verified through experiments. In particular, a back-to-back comparison between numerical simulations and experimental results is presented. It is, furthermore, shown that the snake robot is able to move forward faster and more robustly by exploiting obstacles. Snake Robot Obstacle-Aided Locomotion: Modeling, Simulations, and Experiements

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    IEEE Transactions on Robotics
    Article . 2008 . Peer-reviewed
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      IEEE Transactions on Robotics
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    Authors: Joel W. Martin; George E. Davis;

    [Using a database that includes nearly half (46%) of the estimated 68,000 described species of extant crustaceans, as well as the names of the authors who described each species and the date of description, we plotted the number of species described vs. year of description to examine rates of, and trends in, crustacean species descriptions over time. Plots were generated for all crustaceans and for selected major taxonomic "subgroups" (currently recognized classes and selected subclasses). The cumulative number of species plotted over time for all crustaceans (pooled) showed no sign of flattening over time; no asymptote was apparent. The same pattern was seen in all subgroups examined (Branchiopoda, Maxillopoda, Copepoda, Malacostraca, Peracarida, Decapoda, and Brachyura). Given that the asymptotes from such analyses have been used to predict species richness in a taxon, our data show that currently there is no reliable way to estimate the number of still-undescribed species of crustaceans through extrapolation. The current estimate of approximately 68,000 described species (Martin & Davis, 2001; Brusca & Brusca, 2003) may represent only half, or far fewer, of the actual number of extant crustacean species. No apparent decrease in the overall rate of discovery (approximated by the rate of subsequent taxonomic description) has been observed since the first crustacean species (in our database) were described in the mid-1700s. Over time, the rate of discovery of some smaller taxa, e.g., copepods, did not differ appreciably from the rate of discovery of larger taxa, e.g., brachyuran crabs, based on best-fit regression lines. Although the rates of species accumulations have differed between groups (4.6 species per year for branchiopods vs. 82.6 species per year for peracarids), the pace appears steady within groups. The taxonomic contributions of notable workers and their published monographs are highlighted and discussed. En utilisant une base de donnees qui inclut presque la moitie (46%) des quelque 68 000 especes decrites de crustaces actuels, ainsi que le nom des auteurs qui ont decrit chaque espece et la date de leur description, nous avons rapporte le nombre d'especes decrites a l'annee de description afin d'examiner les taux des descriptions d'especes de crustaces par rapport au temps et leurs tendances. Des coordonnees ont ete etablies pour tous les crustaces et pour quelques sous-groupes taxonomiques majeurs choisis (comme classes et certaines sous-classes reconnues). Le nombre cumule des especes ainsi rapportee par rapport au temps pour tous les crustaces ne montre pas de signe de baisse avec le temps, aucune asymptote n'est apparente. Le meme schema a ete observe dans tous les sousgroupes examines (Branchiopoda, Maxillopoda, Copepoda, Malacostraca, Peracarida, Decapoda et Brachyura). Etant donne que les asymptotes de telles analyses ont ete utilisees pour predire la richesse specifique d'un taxon, nos donnees montrent qu'actuellement, il n'y a pas de moyen fiable d'estimer le nombre d'especes de crustaces encore non-decrits par une extrapolation. L'estimation presente d'approximativement 68 000 especes decrites (Martin & Davis, 2001; Brusca & Brusca, 2003) pourrait representer seulement la moitie, ou beaucoup moins, du nombre actuel d'especes de crustaces vivants. Aucune diminution apparente du taux de decouverte (voisin du taux de description taxonomique) n'a ete observee depuis que les premieres especes de crustaces (dans notre base de donnees) ont ete decrites au milieu des annees 1700. Au cours du temps, le taux de decouverte des taxons les plus petits, comme les copepodes, n'a pas differe notablement du taux de decouverte des taxons de plus grande taille, comme les crabes brachyoures, d'apres les droites de regression les mieux ajustees. Bien que les taux cumules d'especes soient differents suivant les groupes (4,6 especes par an pour les branchiopodes contre 82,6 especes par an pour les peracarides), le rythme apparait constant a l'interieur des groupes. Les contributions taxonomiques d'auteurs eminents et les monographies qu'ils ont publiees sont citees et discutees., Using a database that includes nearly half (46%) of the estimated 68,000 described species of extant crustaceans, as well as the names of the authors who described each species and the date of description, we plotted the number of species described vs. year of description to examine rates of, and trends in, crustacean species descriptions over time. Plots were generated for all crustaceans and for selected major taxonomic "subgroups" (currently recognized classes and selected subclasses). The cumulative number of species plotted over time for all crustaceans (pooled) showed no sign of flattening over time; no asymptote was apparent. The same pattern was seen in all subgroups examined (Branchiopoda, Maxillopoda, Copepoda, Malacostraca, Peracarida, Decapoda, and Brachyura). Given that the asymptotes from such analyses have been used to predict species richness in a taxon, our data show that currently there is no reliable way to estimate the number of still-undescribed species of crustaceans through extrapolation. The current estimate of approximately 68,000 described species (Martin & Davis, 2001; Brusca & Brusca, 2003) may represent only half, or far fewer, of the actual number of extant crustacean species. No apparent decrease in the overall rate of discovery (approximated by the rate of subsequent taxonomic description) has been observed since the first crustacean species (in our database) were described in the mid-1700s. Over time, the rate of discovery of some smaller taxa, e.g., copepods, did not differ appreciably from the rate of discovery of larger taxa, e.g., brachyuran crabs, based on best-fit regression lines. Although the rates of species accumulations have differed between groups (4.6 species per year for branchiopods vs. 82.6 species per year for peracarids), the pace appears steady within groups. The taxonomic contributions of notable workers and their published monographs are highlighted and discussed. En utilisant une base de donnees qui inclut presque la moitie (46%) des quelque 68 000 especes decrites de crustaces actuels, ainsi que le nom des auteurs qui ont decrit chaque espece et la date de leur description, nous avons rapporte le nombre d'especes decrites a l'annee de description afin d'examiner les taux des descriptions d'especes de crustaces par rapport au temps et leurs tendances. Des coordonnees ont ete etablies pour tous les crustaces et pour quelques sous-groupes taxonomiques majeurs choisis (comme classes et certaines sous-classes reconnues). Le nombre cumule des especes ainsi rapportee par rapport au temps pour tous les crustaces ne montre pas de signe de baisse avec le temps, aucune asymptote n'est apparente. Le meme schema a ete observe dans tous les sousgroupes examines (Branchiopoda, Maxillopoda, Copepoda, Malacostraca, Peracarida, Decapoda et Brachyura). Etant donne que les asymptotes de telles analyses ont ete utilisees pour predire la richesse specifique d'un taxon, nos donnees montrent qu'actuellement, il n'y a pas de moyen fiable d'estimer le nombre d'especes de crustaces encore non-decrits par une extrapolation. L'estimation presente d'approximativement 68 000 especes decrites (Martin & Davis, 2001; Brusca & Brusca, 2003) pourrait representer seulement la moitie, ou beaucoup moins, du nombre actuel d'especes de crustaces vivants. Aucune diminution apparente du taux de decouverte (voisin du taux de description taxonomique) n'a ete observee depuis que les premieres especes de crustaces (dans notre base de donnees) ont ete decrites au milieu des annees 1700. Au cours du temps, le taux de decouverte des taxons les plus petits, comme les copepodes, n'a pas differe notablement du taux de decouverte des taxons de plus grande taille, comme les crabes brachyoures, d'apres les droites de regression les mieux ajustees. Bien que les taux cumules d'especes soient differents suivant les groupes (4,6 especes par an pour les branchiopodes contre 82,6 especes par an pour les peracarides), le rythme apparait constant a l'interieur des groupes. Les contributions taxonomiques d'auteurs eminents et les monographies qu'ils ont publiees sont citees et discutees.]

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    Crustaceana
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    Crustaceana
    Article . 2006 . Peer-reviewed
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      Crustaceana
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    Authors: Joshua Friell; Chase M. Straw;

    AbstractSpatiotemporal data and analyses are gaining traction in the turfgrass industry as valuable tools to enable data‐driven management practices, but to date there has been minimal research in practical settings. The objective of this work was to quantify relationships between soil volumetric water content (VWC), proximal normalized difference vegetation index (NDVI), and several aerial measurements (visible, NDVI, and thermal infrared) collected in a real‐world application at field scale during a dry down. Data collection surveys were conducted in 2020 the morning of 25 Feb, afternoon of 25 Feb, and morning of 27 February on three golf course fairways in CA, USA. The first survey was initiated following an irrigation event, and then no additional irrigation or rainfall occurred prior to the second and third surveys. Ground‐based data were collected using the Precision Sense 6000™ (The Toro Company, Bloomington, MN) and aerial data were collected using an unmanned aerial vehicle (GreenSight Inc., Boston, MA). Data were appropriately georeferenced and analyzed to determine correlation between VWC and proximal NDVI, proximal and aerial NDVI, and VWC and aerial measurements. A significant, weak correlation (r = –0.21, p < .05) was found between VWC and proximal NDVI measurements, but only for the first survey immediately following the irrigation event. Significant, moderate to strong correlations were found between proximal and aerial NDVI during all three surveys (r = 0.63, p < .001; r = 0.64, p < .001; r = 0.85, p < .001), respectively]. Volumetric water content was significantly correlated with aerial NDVI measurements (r = –0.26, p < .001) but the relationship was weak and only existed for the first survey following the irrigation event. This study demonstrates the complexity of scaling remote sensing technologies from small plots to real‐world applications and identifies several barriers to providing quantitatively predictive and actionable data to turfgrass managers.

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    itsrj
    Article . 2021 . Peer-reviewed
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      itsrj
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    Authors: Leah, Kulp; Aleksandra, Sarcevic; Megan, Cheng; Yinan, Zheng; +1 Authors

    This mixed-methods study examines the effects of a tablet-based checklist system on team performance during a dynamic and safety-critical process of trauma resuscitation. We compared team performance from 47 resuscitations that used a paper checklist to that from 47 cases with a digital checklist to determine if digitizing a checklist led to improvements in task completion rates and in how fast the tasks were initiated for 18 most critical assessment and treatment tasks. We also compared if the checklist compliance increased with the digital design. We found that using the digital checklist led to more frequent completions of the initial airway assessment task but fewer completions of ear and lower extremities exams. We did not observe any significant differences in time to task performance, but found increased compliance with the checklist. Although improvements in team performance with the digital checklist were minor, our findings are important because they showed no adverse effects as a result of the digital checklist introduction. We conclude by discussing the takeaways and implications of these results for effective digitization of medical work.

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    https://doi.org/10.1145/329060...
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      https://doi.org/10.1145/329060...
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