Translational regulation contributes to the elevated CO2 response in two Solanum species.

Understanding the impact of elevated CO2 (eCO2 ) in global agriculture is important given climate change projections. Breeding climate-resilient crops depends on genetic variation within naturally varying populations. The effect of genetic variation in response to eCO2 is poorly understood, especially in crop species. We describe the different ways in which Solanum lycopersicum and its wild relative S. pennellii respond to eCO2 , from cell anatomy, to the transcriptome, and metabolome. We further validate the importance of translational regulation as a potential mechanism for plants to adaptively respond to rising levels of atmospheric CO2

Temporal variability and the relationship between benthic meiofaunal and microbial populations of a natural coastal petroleum seep

Previous studies of the Isla Vista petroleum seep in the Santa Barbara Channel found much higher abundances of macrofauna and concentrations of adenosine triphosphate (ATP) in sediments near petroleum seepage compared to those from nonseep areas. To further assess the possible effect of petroleum on organisms at the base of benthic food webs, population abundances of meiobenthos and their suspected microbial food (bacteria and diatoms) were measured biweekly for one year at three stations with differing petroleum exposure. Determinations of suspended particulate matter and the abundance and gut contents of juvenile fishes were also made at seep and nonseep stations. Nematodes and bacteria had higher abundances in areas of active petroleum seepage than in areas of moderate seepage (within 20 m) or no seepage (1.4 km away). Bacterial productivity (based on the frequency of dividing cells) was 340% greater in sediments from areas of active seepage compared to those from a nonseep station. Sediments within the seep, but away from active seepage, had rates of bacterial productivity 15 times greater than a nonseep comparison site. Densities of harpacticoid copepods and their probable principal food, diatoms, were not affected by petroleum seepage. Suspended organic matter caught in settling traps was not different between seep and nonseep stations. In addition, there was no evidence that predation pressure by juvenile fish on meiofauna was different between stations. The higher bacterial biomass and productivity in areas of petroleum seepage are consistent with the hypothesis that petroleum carbon is available for assimilation by sediment bacteria. The enhanced level of microbial carbon associated with the petroleum seep is available for consumption by benthic invertebrates and could explain the higher abundances of macrofauna and meiofauna found there

COVID-19 vaccines in patients with cancer:immunogenicity, efficacy and safety

Patients with cancer have a higher risk of severe coronavirus disease (COVID-19) and associated mortality than the general population. Owing to this increased risk, patients with cancer have been prioritized for COVID-19 vaccination globally, for both primary and booster vaccinations. However, given that these patients were not included in the pivotal clinical trials, considerable uncertainty remains regarding vaccine efficacy, and the extent of humoral and cellular immune responses in these patients, as well as the risks of vaccine-related adverse events. In this Review, we summarize the current knowledge generated in studies conducted since COVID-19 vaccines first became available. We also highlight critical points that might affect vaccine efficacy in patients with cancer in the future

Building a traceable climate model hierarchy with multi-level emulators

To study climate change on multi-millennial timescales or to explore a model’s parameter space, efficient models with simplified and parameterised processes are required. However, the reduction in explicitly modelled processes can lead to underestimation of some atmospheric responses that are essential to the understanding of the climate system. While more complex general circulations are available and capable of simulating a more realistic climate, they are too computationally intensive for these purposes. In this work, we propose a multi-level Gaussian emulation technique to efficiently estimate the outputs of steady-state simulations of an expensive atmospheric model in response to changes in boundary forcing. The link between a computationally expensive atmospheric model, PLASIM (Planet Simulator), and a cheaper model, EMBM (energy–moisture balance model), is established through the common boundary condition specified by an ocean model, allowing for information to be propagated from one to the other. This technique allows PLASIM emulators to be built at a low cost. The method is first demonstrated by emulating a scalar summary quantity, the global mean surface air temperature. It is then employed to emulate the dimensionally reduced 2-D surface air temperature field. Even though the two atmospheric models chosen are structurally unrelated, Gaussian process emulators of PLASIM atmospheric variables are successfully constructed using EMBM as a fast approximation. With the extra information gained from the cheap model, the multi-level emulator of PLASIM’s 2-D surface air temperature field is built using only one-third the amount of expensive data required by the normal single-level technique. The constructed emulator is shown to capture 93.2% of the variance across the validation ensemble, with the averaged RMSE of 1.33 °C. Using the method proposed, quantities from PLASIM can be constructed and used to study the effects introduced by PLASIM’s atmosphere

The State of Accreditation Readiness in Georgia: A Case Study

Background: Georgia’s public health districts first began exploring the idea of national public health accreditation in 2008 when Cobb & Douglas Public Health included accreditation in their strategic plan. In May 2015, Cobb & Douglas Public Health was the first Georgia public health district to achieve national accreditation status. This article discusses the current state of accreditation readiness in Georgia and explores strengths and barriers to accreditation. Methods: This study utilized a case study approach in order to examine PHAB accreditation efforts in Georgia within a reallife context. Data came from three sources: nine Accreditation Readiness Assessments, a PHAB Pre-Application Technical Assistance Survey, and state-wide Accreditation Readiness Survey. Results: The Accreditation Readiness Assessments resulted in several lessons learned about common strengths and barriers to accreditation. Strengths included a dedicated staff and supportive Boards of Health. Barriers included accreditation fees and a lack of personnel time. The PHAB Pre-application TA Survey revealed that the majority of those surveyed would recommend TA to other agencies pursuing PHAB accreditation (91%). The Accreditation Readiness Survey revealed that 14 of 18 GA public health districts are either PHAB accredited (1 district), actively pursuing PHAB accreditation (2 districts), or planning to apply (11 districts). This includes 116 of the 159 Georgia counties (73%). Conclusions: The results of this case study show that 72% of Georgia’s public health districts are engaged in accreditationrelated activities. This includes activities such as accreditation readiness assessment, community health assessment, QI council and plan development, strategic planning, and policy review

Health Districts as Quality Improvement Collaboratives and Multi-Jurisdictional Entities

Research Objective: The Georgia Public Health PBRN assessed the utility of the Multi-county Health District as a structured Quality Improvement Collaborative (QIC), and as multi jurisdictional entities for purposes of meeting standards for accreditation by the Public Health Accreditation Board. Data Sets and Sources: Data were collected from online surveys followed up with phone interviews or paper surveys to maximize participation. A newly developed clinical care QIC instrument (Schouten et al, 2010) was modified to collect data with a revised focus on QICs for public health. We retained QI culture constructs in the instrument while shifting the focus from healthcare to public health essential services related to accreditation standards. Study Design: Data was collected from a purposeful sample of local public health key informants in Georgia who were identified by the District Directors’ office as local key informants. Invitations Key informants included county and district staff and county board of health members. Analysis: Psychometric testing of the QIC assessment instrument included tests for validity and reliability. Census-based and self-reported demographic characteristics were used to compare responses. Principal Findings: Strong consensus emerged across various constituencies that Districts were critical for local public health to provide essential services. Key opinion leaders from both the rural and non-rural counties agreed that the Districts were important. Conclusion: Regionalization using Georgia Districts has major potential for supporting QI and meeting quality assurance standards associated with accreditation. Implications for Field of PHSSR: Accreditation has the potential to substantially clarify and enhance the role of public health in the 21st century. But local public health agencies, based on small municipality or county populations, are unlikely to possess and sustain capacity to meet the challenges of comprehensive essential services. Regionalization of local public health capacity is a critical emerging issue with the launching of public health accreditation