Home About us Contact
|
Home About us Contact | ||
|
|
||
Greater Resolution (greater + resolution)
Selected AbstractsTesting a model for predicting the timing and location of shallow landslide initiation in soil-mantled landscapesEARTH SURFACE PROCESSES AND LANDFORMS, Issue 9 2003M. Casadei Abstract The growing availability of digital topographic data and the increased reliability of precipitation forecasts invite modelling efforts to predict the timing and location of shallow landslides in hilly and mountainous areas in order to reduce risk to an ever-expanding human population. Here, we exploit a rare data set to develop and test such a model. In a 1·7 km2 catchment a near-annual aerial photographic coverage records just three single storm events over a 45 year period that produced multiple landslides. Such data enable us to test model performance by running the entire rainfall time series and determine whether just those three storms are correctly detected. To do this, we link a dynamic and spatially distributed shallow subsurface runoff model (similar to TOPMODEL) to an in,nite slope model to predict the spatial distribution of shallow landsliding. The spatial distribution of soil depth, a strong control on local landsliding, is predicted from a process-based model. Because of its common availability, daily rainfall data were used to drive the model. Topographic data were derived from digitized 1 : 24 000 US Geological Survey contour maps. Analysis of the landslides shows that 97 occurred in 1955, 37 in 1982 and ,ve in 1998, although the heaviest rainfall was in 1982. Furthermore, intensity,duration analysis of available daily and hourly rainfall from the closest raingauges does not discriminate those three storms from others that did not generate failures. We explore the question of whether a mechanistic modelling approach is better able to identify landslide-producing storms. Landslide and soil production parameters were ,xed from studies elsewhere. Four hydrologic parameters characterizing the saturated hydraulic conductivity of the soil and underlying bedrock and its decline with depth were ,rst calibrated on the 1955 landslide record. Success was characterized as the most number of actual landslides predicted with the least amount of total area predicted to be unstable. Because landslide area was consistently overpredicted, a threshold catchment area of predicted slope instability was used to de,ne whether a rainstorm was a signi,cant landslide producer. Many combinations of the four hydrological parameters performed equally well for the 1955 event, but only one combination successfully identi,ed the 1982 storm as the only landslide-producing storm during the period 1980,86. Application of this parameter combination to the entire 45 year record successfully identi,ed the three events, but also predicted that two other landslide-producing events should have occurred. This performance is signi,cantly better than the empirical intensity,duration threshold approach, but requires considerable calibration effort. Overprediction of instability, both for storms that produced landslides and for non-producing storms, appears to arise from at least four causes: (1) coarse rainfall data time scale and inability to document short rainfall bursts and predict pressure wave response; (2) absence of local rainfall data; (3) legacy effect of previous landslides; and (4) inaccurate topographic and soil property data. Greater resolution of spatial and rainfall data, as well as topographic data, coupled with systematic documentation of landslides to create time series to test models, should lead to signi,cant improvements in shallow landslides forecasting. Copyright © 2003 John Wiley & Sons, Ltd. [source] An efficient protein preparation for proteomic analysis of developing cotton fibers by 2-DEELECTROPHORESIS, Issue 22 2006Yuan Yao Abstract Preparation of high-quality proteins from cotton fiber tissues is difficult due to high endogenous levels of polysaccharides, polyphenols, and other interfering compounds. To establish a routine procedure for the application of proteomic analysis to cotton fiber tissues, a new protocol for protein extraction was developed by optimizing a phenol extraction method combined with methanol/ammonium acetate precipitation. The protein extraction for 2-DE was remarkably improved by the combination of chemically and physically modified processes including polyvinylpolypyrrolidone (PVPP) addition, acetone cleaning, and SDS replacement. The protocol gave a higher protein yield and vastly greater resolution and spot intensity. The efficiency of this protocol and its feasibility in fiber proteomic study were demonstrated by comparison of the cotton fiber proteomes at two growth stages. Furthermore, ten protein spots changed significantly were identified by MS/tandem MS and their potential relationships to fiber development were discussed. To the best of our knowledge, this is the first time that a protocol for protein extraction from cotton fiber tissues appears to give satisfactory and reproductive 2-D protein profiles. The protocol is expected to accelerate the process of the proteomic study of cotton fibers and also to be applicable to other recalcitrant plant tissues. [source] Regional activation in the rat brain during visceral stimulation detected by c- fos expression and fMRINEUROGASTROENTEROLOGY & MOTILITY, Issue 4 2005J. Lazovic Abstract, Aim:, The aim of the study was to determine and compare the areas of brain activated in response to colorectal distention (CRD) using functional magnetic resonance imaging (fMRI) and c- fos protein expression. Methods:, For fMRI study (3.0 T magnet), anaesthetized rats underwent phasic CRD, synchronized with fMRI acquisition. Stimulation consisted of eight cycles of balloon deflation (90 s) and inflation (30 s), at 40, 60 or 80 mmHg of pressure. For c- fos study two sets of experiments were performed on anaesthetized rats: comparing (A) brain activation in rats with the inserted colorectal balloon (n = 5), to the rats without the balloon (n = 5); and (B) rats with inserted balloon (n = 10), to the rats with inserted and distended balloon (n = 10). The pressure of 80 mmHg was applied for 2 h of 30 s inflation and 90 s deflation, alternating cycles. Results:, Functional MRI revealed significant activation in the amygdala, hypothalamus, thalamus, cerebellum and hippocampus. Significant increase in c- fos expression was observed in amygdala and thalamus in the first set of experiments, and hypothalamus and parabrachial nuclei in the second. Conclusion:, The two methods are not interchangeable but appeared to be complementary: fMRI was more sensitive, whereas c- fos had much greater resolution. [source] Historiography and forensic analysis of the Fort King George "skull": Craniometric assessment using the specific population approachAMERICAN JOURNAL OF PHYSICAL ANTHROPOLOGY, Issue 2 2009Christopher M. Stojanowski Abstract In this article, we evaluate the association between the Fort King George "skull" and two Franciscans who were killed during a Guale revolt in 1597 and whose remains were never recovered (Pedro de Corpa and Francisco de Veráscola). The history and historiography of the revolt is summarized to generate a forensic profile for the individuals. The calvaria is described in terms of preservation, taphonomy, possible trauma, age, and sex. Because these factors are consistent with the individuals in question, population affinity is assessed using comparative craniometric analysis. In response to recent criticism of the typological nature of forensic population affinity assessment, we use a population specific approach, as advocated by Alice Brues (1992). Archaeological and historical data inform the occupation history of the site, and data from those specific populations are used in the comparative analysis. Results of linear discriminant function analysis indicate a low probability that the calvaria is a Guale (the precontact inhabitants of southeastern Georgia) or an individual of African descent. Comparison among European and Euro-American populations indicated poor discriminatory resolution; however, the closest match suggests a New World affinity rather than an Old World English, Scottish, or Iberian affinity for the specimen. Future analyses that will provide greater resolution about the identity of the calvaria are outlined. The case highlights the unique challenges of historical forensics cases relative to those of traditional jurisprudence, as well as the potential for using historiography to overcome those challenges in future analyses. Am J Phys Anthropol, 2009. © 2009 Wiley-Liss, Inc. [source] Positive versus negative face recognition decisions: confidence, accuracy, and response latencyAPPLIED COGNITIVE PSYCHOLOGY, Issue 1 2006Nathan Weber A large amount of eyewitness identification and face recognition research has investigated the confidence,accuracy (CA) relationship. One consistent finding is that positive recognition decisions (or choosers) demonstrate superior CA calibration to negative recognition decisions (or non-choosers). This experiment tested whether an explanation of this difference, based on the information available for confidence judgements, accounted for the pattern of CA calibration in positive and negative face recognition decisions. CA calibration for positive and negative decisions was compared for both item and associative recognition judgements. Significantly greater resolution was observed for positive decisions in both the item and associative conditions. Similarly, for both judgement types, positive decisions evidenced a stronger response latency,accuracy relationship than negative decisions. Implications for diagnosing the accuracy of eyewitness identification are discussed. Copyright © 2005 John Wiley & Sons, Ltd. [source] | ||||||||||