Khanbager0372

INTRODUCTION Chest CT is thought to be sensitive but less specific in diagnosing the 2019 coronavirus disease (COVID-19). The diagnostic value of CT is unclear. We aimed to compare the performance of CT and initial RT-PCR for clinically suspected COVID-19 patients outside the epicentre-Wuhan, China. MATERIALS AND METHODS Patients clinically suspected of COVID-19 infection who underwent initial RT-PCR and chest CT at the same time were retrospectively enrolled. Two radiologists with specific training reviewed the CT images independently and final diagnoses of the presence or absence of COVID-19 was reached by consensus. With serial RT-PCR as reference standard, the performance of initial RT-PCR and chest CT was analysed. A strategy of combining initial RT-PCR and chest CT was analysed to study the additional benefit. RESULTS 82 patients admitted to hospital between Jan 10, 2020 to Feb 28, 2020 were enrolled. 34 COVID-19 and 48 non-COVID-19 patients were identified by serial RT-PCR. The sensitivity, specificity was 79% (27/34) and 100% (48/48) for initial RT-PCR and 77% (26/34) and 96% (46/48) for chest CT. The image readers had a good interobserver agreement with Cohen's kappa of 0.69. No statistical difference was found in the diagnostic performance between initial RT-PCR and chest CT. The comprehensive strategy had a higher sensitivity of 94% (32/34). CONCLUSIONS Initial RT-PCR and chest CT had comparable diagnostic performance in identification of suspected COVID-19 patients outside the epidemic center. To compensate potential risk of false-negative PCR, chest CT should be applied for clinically suspected patients with negative initial RT-PCR. Public and nonprofit organizations are at the forefront of water scarcity issues using nonformal educational programs to drive behavior change towards water conservation. The efficacy of educational endeavors hinge on designing and delivering programs with considerations of the factors that will change relevant decisions and behaviors among residential landscape water users. The purpose of this study was to explore the concept of wellness and well-being, and its relationship to engagement in water conservation behaviors. To guide this evaluation, we integrated the theory of planned behavior with relevant tenets of cognitive and social psychology and included the psycho-social constructs of stress, perceived happiness and well-being. We conducted correlational and regression analyses to assess potential relationships. Overall, the results of the study show that each of the three different psycho-social measures behave differently with regards to current and future residential landscape water conservation behaviors. The models show that perceptions of well-being is the more consistent predictor for both current and future behaviors. Perceived happiness only served as a significant predictor for current behaviors. Stress simply demonstrated correlational relationships with current and future behaviors, not serving as a significant predictor. We suggest exploring the possibility of pairing and embedding educational programs focused on personal and family well-being with educational programs focused on environmental behavior. When we consider water conservation behavior as a function of more than knowledge and motivation, we can broaden our understanding of this behavior as a socially embedded experience. Published by Elsevier Ltd.Biological invasions are one of the major threats to biodiversity at the global scale, causing numerous environmental impacts and having high direct and indirect costs associated with their management, control and eradication. In this work, we present a system-dynamic modelling approach for the biocontrol of the invasive plant species Alternanthera philoxeroides using its natural predator, Agasicles hygrophila, as a biocontrol agent. We have simulated different scenarios in the Finisterre region (Spain), where a single population of the invasive plant has been recently described. selleck inhibitor To assess the effectiveness of A. hygrophila as a biocontrol agent in the region, a population dynamic model was developed in order to include the life-cycle of both species, as well as the interaction among them. The results of the simulations indicate that the control of this new invasive plant is possible, as long as several releases of the biocontrol agent are made over time. The proposed model can support the control or even the eradication of the population of A. philoxeroides with a minimal impact on the environment. Additionally, the proposed framework also represents a versatile dynamic tool, adjustable to different local management specificities (objectives and parameters) and capable of responding under different contexts. Hence, this approach can be used to guide eradication efforts of new invasive species, to improve the applicability of early management measures as biocontrol, and to support decision-making by testing several alternative management scenarios. Macrophyte (Lemna minor) and microalgae (Chlorella vulgaris and Scenesdesmus quadricauda) were used for treating artificial wastewater mimicking recirculating soilless citrus nursery system discharge in the laboratory environment. L. minor gave a better dry biomass yield (0.059 ± 0.003 g/L/day) than C. vulgaris (0.033 ± 0.002 g/L/day) and S. quadricauda (0.039 ± 0.001 g/L/day). Furthermore, L. minor had a higher nutrient (total N and P) and soluble minerals (S, K, Ca, Mg, Zn, Cu, and Mn) removal capabilities than microalgae due to a more natural high growth rate in non-optimized culture conditions. Published by Elsevier Ltd.Soils contain one of the largest carbon (C) pools in the biosphere with the greatest potential of C sequestration to mitigate climate change impacts. The present study aimed at comparing C sequestration potential of various land use systems including forestlands, croplands, agroforests, and orchards in the arid region of Pakistan. Soil samples from the layers of 0-20, 20-40, 40-60, and 60-80 cm depths were collected and analysed for soil physico-chemical properties namely texture, pH, EC, NPK-soil, organic matter (SOM), and soil organic C (SOC). Additionally, the above and below ground plant biomass and C contents were estimated. Results revealed that the highest C sequestration potential (64.54 Mg ha-1) was in the above ground biomass of forest land and the lowest (33.50 Mg ha-1) in cropland. The below ground plant biomass at 0-20 cm soil depth was 14.09, 12.38, 11.78, 11.76, and 10.92 Mg ha-1 for forest land, mango orchards, agroforests, citrus orchards and cropland, respectively. The respective values in case of total C content were, 6.