Pressure buildup during CO2 injection in brine aquifers using the Forchheimer equation

If geo-sequestration of CO2 is to be employed as a key emissions reduction method in the global effort to mitigate climate change, simple yet robust screening of the risks of disposal in brine aquifers will be needed. There has been significant development of simple analytical and semi-analytical techniques to support screening analysis and performance assessment for potential carbon sequestration sites. These techniques have generally been used to estimate the size of CO2 plumes for the purpose of leakage rate estimation. A common assumption has been that both the fluids and the geological formation are incompressible. Consequently, calculation of pressure distribution requires the specification of an arbitrary radius of influence. In this talk, a new similarity solution is derived using the method of matched asymptotic expansions. By allowing for slight compressibility in the fluids and formation, the solution improves on previous work by not requiring the specification of an arbitrary radius of influence. A large-time approximation of the solution is then extended to account for non-Darcy inertial effects using the Forchheimer equation. Both solutions are verified by comparison with finite difference solutions. The results show that inertial losses will often be comparable, and sometimes greater than, the viscous Darcy-like losses associated with the brine displacement, although this is strongly dependent on formation porosity and permeability

Factors Predisposing to Urolithiasis in Feedlot Cattle

The formation of stony precipitates anywhere in the urinary passages is called urolithiasis. The stone is called a urolith or urinary calculus. Urolithiasis is an important disease of castrated male ruminants because of the common occurrence of urethral obstruction

Powdery mildew of apples : results of recent spray trials

Powdery mildew of apples is found in orchard districts throughout the South-West. recent years a rapid build-up of the disease has occurred in some plantings as a result of changes in orchard practice. Satisfactory control can be achieved by pruning out infected shoots and spraying with Karathane or Morocid

Rust of stone fruit : results of some recent spray trials

RUST is caused by the fungus Tranzchelia discolor which attacks almonds, nectarines, peaches and, less commonly, apricots and plums in Western Australia. Rust disease occurs in stone fruit orchards throughout the State and in some seasons causes premature leaf fall. In unsprayed canning peach orchards growers have suffered considerable losses as a result of infected fruit being rejected for processing. In recent spray trials satisfactory control has been achieved with the fungicides Delan, thiram and zineb

Plant diseases : pear scab : control by fungicidal sprays

Scab is an important fungal disease of pears in Western Australia. Serious fruit losses occur in orchards where spraying is neglected, poorly timed or inefficiently carried out. A full spray schedule, using a proven fungicide, must be adopted from spur burst onwards to ensure protection of fruit and foliage

SERS Microsensors for the Study of pH Regulation in Cystic Fibrosis Patient-Derived Airway Cultures

Acidification of the airway surface liquid in the respiratory system could play a role in the pathology of Cystic Fibrosis, but its low volume and proximity to the airway epithelium make it a challenging biological environment in which to noninvasively collect pH measurements. To address this challenge, we explored surface enhanced Raman scattering microsensors (SERS-MS), with a 4-mercaptobenzoic acid (MBA) pH reporter molecule, as pH sensors for the airway surface liquid of patient-derived in vitro models of the human airway. Using air–liquid interface (ALI) cultures to model the respiratory epithelium, we show that SERS-MS facilitates the optical measurement of trans-epithelial pH gradients between the airway surface liquid and the basolateral culture medium. SERS-MS also enabled the successful quantification of pH changes in the airway surface liquid following stimulation of the Cystic Fibrosis transmembrane conductance regulator (CFTR, the apical ion channel that is dysfunctional in Cystic Fibrosis airways). Finally, the influence of CFTR mutations on baseline airway surface liquid pH was explored by using SERS-MS to measure the pH in ALIs grown from Cystic Fibrosis and non-Cystic Fibrosis donors

Genome-wide mapping of 5-hydroxymethyluracil in the eukaryote parasite Leishmania.

BACKGROUND: 5-Hydroxymethyluracil (5hmU) is a thymine base modification found in the genomes of a diverse range of organisms. To explore the functional importance of 5hmU, we develop a method for the genome-wide mapping of 5hmU-modified loci based on a chemical tagging strategy for the hydroxymethyl group. RESULTS: We apply the method to generate genome-wide maps of 5hmU in the parasitic protozoan Leishmania sp. In this genus, another thymine modification, 5-(β-glucopyranosyl) hydroxymethyluracil (base J), plays a key role during transcription. To elucidate the relationship between 5hmU and base J, we also map base J loci by introducing a chemical tagging strategy for the glucopyranoside residue. Observed 5hmU peaks are highly consistent among technical replicates, confirming the robustness of the method. 5hmU is enriched in strand switch regions, telomeric regions, and intergenic regions. Over 90% of 5hmU-enriched loci overlapped with base J-enriched loci, which occurs mostly within strand switch regions. We also identify loci comprising 5hmU but not base J, which are enriched with motifs consisting of a stretch of thymine bases. CONCLUSIONS: By chemically detecting 5hmU we present a method to provide a genome-wide map of this modification, which will help address the emerging interest in the role of 5hmU. This method will also be applicable to other organisms bearing 5hmU.FK is supported by the Wellcome Trust, DB is supported by the Herchel Smith Fund, REH is supported by the University of Cambridge and the Herchel Smith Fund, GRM was supported by Trinity College and the Herchel Smith fund, PVD is supported by Marie Curie fellowship and the Wellcome Trust. The Balasubramanian group is core-funded by a Wellcome Trust Senior Investigator Award (099232/Z/12/Z) and Cancer Research UK(C14303/A17197)

Cell-Free DNA Screening: Complexities and Challenges of Clinical Implementation

Screening for fetal aneuploidy in pregnant women using cell-free DNA has increased dramatically since the technology became commercially available in 2011. Since that time, numerous trials have demonstrated high sensitivity and specificity to screen for common aneuploidies in high-risk populations. Studies assessing the performance of these tests in low-risk populations have also demonstrated improved detection rates compared with traditional, serum-based screening strategies. Concurrent with the increased use of this technology has been a decrease in invasive procedures (amniocentesis and chorionic villus sampling). As the technology becomes more widely understood, available, and utilized, challenges regarding its clinical implementation have become apparent. Some of these challenges include test failures, false-positive and false-negative results, limitations in positive predictive value in low-prevalence populations, and potential maternal health implications of abnormal results. In addition, commercial laboratories are expanding screening beyond common aneuploidies to include microdeletion screening and whole genome screening. This review article is intended to provide the practicing obstetrician with a summary of the complexities of cell-free DNA screening and the challenges of implementing it in the clinical setting