Project description:Length-of-Day (LOD) measurements represent variations in the angular momentum of the solid Earth (crust and mantle). There is a known ~6-year LOD signal suspected to be due to core-mantle coupling. If it is, then the core flow associated with the 6-year LOD signal may also deform the mantle, causing a 6-year signal in the deformation of the Earth's surface. Stacking of Global Positioning System (GPS) data is found to contain a ~6-year radial deformation signal. We inverted the deformation signal for the outer core's flow and equivalent angular momentum changes, finding good agreement with the LOD signal in some cases. These results support the idea of subdecadal core-mantle coupling, but are not robust. Interpretation of the results must also take into account methodological limitations. Gravitational field changes resulting from solid Earth deformation were also computed and found to be smaller than the errors in the currently available data.

Project description:How were cities distributed globally in the past? How many people lived in these cities? How did cities influence their local and regional environments? In order to understand the current era of urbanization, we must understand long-term historical urbanization trends and patterns. However, to date there is no comprehensive record of spatially explicit, historic, city-level population data at the global scale. Here, we developed the first spatially explicit dataset of urban settlements from 3700 BC to AD 2000, by digitizing, transcribing, and geocoding historical, archaeological, and census-based urban population data previously published in tabular form by Chandler and Modelski. The dataset creation process also required data cleaning and harmonization procedures to make the data internally consistent. Additionally, we created a reliability ranking for each geocoded location to assess the geographic uncertainty of each data point. The dataset provides the first spatially explicit archive of the location and size of urban populations over the last 6,000 years and can contribute to an improved understanding of contemporary and historical urbanization trends.

Project description:Stable isotope analysis is routinely used in archaeology to answer questions related to past diets. As the technique matures, data from archaeological sites have been generated at an exponential rate over the past several decades, thus provided an invaluable opportunity to examine past dietary practices and subsistence economies in much larger geographical and temporal settings. In Asia, a significant proportion of isotopic data is published in non-English journals or in grey literature, therefore remains largely inaccessible to general researchers. In order to provide easier access to these data, and to encourage future large-scale meta-data analyses in Asia, this collection presents the most comprehensive set of collagen stable isotope data of carbon, nitrogen, and sulfur from East and Northeast Asia (29-51˚N, 96-136˚ E) to date, including sites located within the modern territories of the People's Republic of China, Mongolia, the Russian Federation, and the Republic of Korea. Using academic search engines such as Google Scholar, the Chinese National Knowledge Infrastructure (CNKI), and ScienceON, a total of 3,304 previously published archaeological human and faunal stable isotope data from 136 archaeological sites in East and Northeast Asia, spanning over a period of 8,000 years (c. 7000 BC to AD 1000) are collected. The collated data are deposited on the open-access platform IsoArcH (https://isoarch.eu/) for any interested parties to use.

Project description:BackgroundErythrocyte sedimentation rate (ESR) is a new reporting parameter of the BC-720 auto hematology analyzer; however, no biological reference interval for healthy adults has been established for this parameter.MethodsOutpatients or hospitalized patients with ESR test orders were selected. The ESR was measured by the standard method of ESR (Westergren) recommended by the International Council for Standardization in Hematology (ICSH), the BC-720 hematology analyzer, and the LBY-XC40B auto ESR analyzer. The data were statistically analyzed and compared among different methods. The repeatability and carryover rate (CR) of the BC-720 were assessed in randomly selected samples for each range segment. Blood Samples from three hospitals in China were collected, and the reference interval of the BC-720 ESR was determined.ResultsThe ESR results measured by the BC-720 correlated well with the Westergren method (r=0.957, y = 0.359 + 1.016x), and there was no significant difference between these two methods (P>0.05). The correlation between LBY-XC40B auto ESR analyzer and Westergren was y = 1 + 1.25x and r=0.856. The BC-720 ESR has good repeatability [standard deviation (SD) ≤1 mm/h, coefficient of variation (CV) ≤5%], and the CR was less than 1%. The 95th percentile of the biological reference interval for BC-720 ESR is 15 mm/h for men and 24 mm/h for women.ConclusionsThe Mindray BC-720 ESR showed high accuracy and good repeatability, which provided a faster, safer, and more reliable method to measure ESR. The reference intervals for BC-720 ESR could guide better clinical decisions for the laboratories utilizing this new method.

Project description:The purpose of this study was to develop and evaluate a noninvasive method to assess rotation time in modern commercial computed tomography (CT) systems. The rotation time was measured at a selected nominal rotation time (400 ms) utilizing two types of solid-state detectors: the RTI's CT Dose Profiler (CTDP) and Unfors' Xi (Xi) probes. Either CTDP or Xi was positioned on the inner cover of the gantry and a sheet of lead (1 mm thick) placed on top of the detector. Since a pair of two successive peaks is used to determine the gantry rotation time, by necessity the helical scan must be employed. Upon completion of the data acquisition, these peak times were determined with the dedicated software to obtain rotation time. The average rotation time obtained with CTDP and Xi operated under the dedicated software was found to be 400.6 and 400.5 ms, respectively. The detector for this measurement need not be specifically designed for CT dosimetry. The measurements of CT scanner rotation time can be accomplished with a radiation probe designed for the CT application or a conventional radiation probe designed for radiography and fluoroscopy applications. It is also noteworthy to point out that the measurement results are in good agreement between the two radiation detector systems. Finally, clinical medical physicists should be aware of the accuracy and precision of gantry rotation time, and take into consideration for QA where and when applicable.

Project description:We conducted a meta-analysis of published carbon and nitrogen isotope data from archaeological human skeletal remains (n = 2448) from 128 sites cross China in order to investigate broad spatial and temporal patterns in the formation of staple cuisines. Between 6000-5000 cal BC we found evidence for an already distinct north versus south divide in the use of main crop staples (namely millet vs. a broad spectrum of C3 plant based diet including rice) that became more pronounced between 5000-2000 cal BC. We infer that this pattern can be understood as a difference in the spectrum of subsistence activities employed in the Loess Plateau and the Yangtze-Huai regions, which can be partly explained by differences in environmental conditions. We argue that regional differentiation in dietary tradition are not driven by differences in the conventional "stages" of shifting modes of subsistence (hunting-foraging-pastoralism-farming), but rather by myriad subsistence choices that combined and discarded modes in a number of innovative ways over thousands of years. The introduction of wheat and barley from southwestern Asia after 2000 cal BC resulted in the development of an additional east to west gradient in the degree of incorporation of the different staple products into human diets. Wheat and barley were rapidly adopted as staple foods in the Continental Interior contra the very gradual pace of adoption of these western crops in the Loess Plateau. While environmental and social factors likely contributed to their slow adoption, we explored local cooking practice as a third explanation; wheat and barley may have been more readily folded into grinding-and-baking cooking traditions than into steaming-and-boiling traditions. Changes in these culinary practices may have begun in the female sector of society.

Project description:In 2002, Munk defined an important enigma of 20th century global mean sea-level (GMSL) rise that has yet to be resolved. First, he listed three canonical observations related to Earth's rotation [(i) the slowing of Earth's rotation rate over the last three millennia inferred from ancient eclipse observations, and changes in the (ii) amplitude and (iii) orientation of Earth's rotation vector over the last century estimated from geodetic and astronomic measurements] and argued that they could all be fit by a model of ongoing glacial isostatic adjustment (GIA) associated with the last ice age. Second, he demonstrated that prevailing estimates of the 20th century GMSL rise (~1.5 to 2.0 mm/year), after correction for the maximum signal from ocean thermal expansion, implied mass flux from ice sheets and glaciers at a level that would grossly misfit the residual GIA-corrected observations of Earth's rotation. We demonstrate that the combination of lower estimates of the 20th century GMSL rise (up to 1990) improved modeling of the GIA process and that the correction of the eclipse record for a signal due to angular momentum exchange between the fluid outer core and the mantle reconciles all three Earth rotation observations. This resolution adds confidence to recent estimates of individual contributions to 20th century sea-level change and to projections of GMSL rise to the end of the 21st century based on them.

Project description:The 1KITE project: evolution of insects

Project description:The 1KITE project: evolution of insects

Project description:The 1KITE project: evolution of insects