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VK: T20702 Traditionally, people have inhabited places with ready access to fresh water. Today, over 50% of the global population lives in urban areas, and water can be directed via tens of kilometres of pipelines. Still, however, a large part of the world's population is directly dependent on access to natural freshwater sources. So how are inhabited places related to the location of freshwater bodies today? We present a high-resolution global analysis of how close present-day populations live to surface freshwater. We aim to increase the understanding of the relationship between inhabited places, distance to surface freshwater bodies, and climatic characteristics in different climate zones and administrative regions. Our results show that over 50% of the world's population lives closer than 3 km to a surface freshwater body, and only 10% of the population lives further than 10 km away. There are, however, remarkable differences between administrative regions and climatic zones. Populations in Australia, Asia, and Europe live closest to water. Although populations in arid zones live furthest away from freshwater bodies in absolute terms, relatively speaking they live closest to water considering the limited number of freshwater bodies in those areas. Population distributions in arid zones show statistically significant relationships with a combination of climatic factors and distance to water, whilst in other zones there is no statistically significant relationship with distance to water. Global studies on development and climate adaptation can benefit from an improved understanding of these relationships between human populations and the distance to fresh water. Peer reviewed

AbstractBOLD fMRI is widely applied in human neuroscience but is limited in its spatial specificity due to a cortical‐depth‐dependent venous bias. This reduces its localization specificity with respect to neuronal responses, a disadvantage for neuroscientific research. Here, we modified a submillimeter BOLD protocol to selectively reduce venous and tissue signal and increase cerebral blood volume weighting through a pulsed saturation scheme (dubbed Arterial Blood Contrast) at 7 T. Adding Arterial Blood Contrast on top of the existing BOLD contrast modulated the intracortical contrast. Isolating the Arterial Blood Contrast showed a response free of pial‐surface bias. The results suggest that Arterial Blood Contrast can modulate the typical fMRI spatial specificity, with important applications in in‐vivo neuroscience.

Climate warming and related drivers of soil thermal change in the Arctic are expected to modify the distribution and dynamics of carbon contained in perennially frozen grounds. Thawing of permafrost in the Mackenzie Delta region of northwestern Canada, coupled with increases in river discharge and coastal erosion, trigger the release of terrestrial organic matter (OMt) from the largest Arctic drainage basin in North America into the Arctic Ocean. While this process is ongoing, well-established, and its rate is accelerating, the fate of the newly-mobilized organic matter, as it transits from the watershed through the delta and into the marine system, remains poorly understood. In the framework of the European Horizon 2020 Nunataryuk programme, and as part of the Work Package 4 (WP4) Coastal Waters theme, four field expeditions were conducted in the Mackenzie Delta region and southern Beaufort Sea from April to September 2019. The temporal sampling design allowed the survey of ambient conditions in the coastal waters under full ice cover prior to the spring freshet, during ice break-up in summer, as well as anterior to the freeze-up period in fall. To capture the fluvial-marine transition zone, and with distinct challenges related to shallow waters and changing seasonal and meteorological conditions, the field sampling was conducted in close partnership with members of the communities of Aklavik, Inuvik and Tuktoyaktuk, using several platforms: helicopters, snowmobiles and small boats. Water column profiles of physical and optical variables were measured in situ, while surface water, groundwater and sediment samples were collected and preserved for the determination of the composition and sources of OMt, including particulate and dissolved organic carbon (POC, DOC), and chromophoric dissolved organic matter (CDOM), as well as a suite of physical, chemical and biological variables. Here we present an overview of the standardized datasets, including hydrographic profiles, remote sensing reflectance, temperature and salinity, particle absorption, nutrients, dissolved organic carbon, particulate organic carbon, particulate organic nitrogen, colored dissolved organic matter absorption, fluorescent dissolved organic matter intensity, suspended particulate matter, total particulate carbon, total particulate nitrogen, stable water isotopes, radon in water, bacterial abundance, and a string of phytoplankton pigments including total chlorophyll. Datasets and related metadata can be found in Juhls et al. 2021. https://doi.pangaea.de/10.1594/PANGAEA.937587.

This article reflects on the thesis that new church formation (church planting) is “the most effective evangelistic strategy under heaven” (Peter Wagner). This thesis has achieved the status of doctrine among Evangelical Protestants. It has also found wide acceptance within many Dutch Protestant denominations, in particular the ones with an evangelical mind-set. It is widely believed that church planting is a major strategy for quantitative church growth, by attracting people without a Christian background (‘conversion growth’). These assumptions seem to be closely related to Religious Market Theory. Obviously, any proven strategy for quantitative church growth is highly relevant for the secular context of Western Europe. This article investigates whether these assumptions, of a strategy that originated in America, are justified with respect to the Dutch context. Research is presented, that was recently done in the Netherlands. Its results indicate that churches less than ten years old are, under certain conditions, more effective in reaching outsiders than older churches. Some explanations for this relative success are discussed. It appears that the three main factors for numerical success are: a demographically convenient location, entrepreneurial leadership in line with the ethos of the community, and a concentrated use of time, money and resources.

© 2018 Taylor & Francis Group, LLC Background: Non-binary gender measurement has grown out of a need for accurate representation in scholarship and public health services available to a diverse gender population. Aims: The Genderqueer Identity Scale (GQI) was developed to allow for a multidimensional assessment of genderqueer identity, including non-binary identity, socially constructed versus essentialist gender, theoretical awareness of gender concepts, and gender fluidity. The GQI was designed to assess gender identity across a full spectrum of gender, at any age after mid-adolescence, and at various stages of gender identity development, including prior to, during, and after a gender transition, where applicable. Two of the GQI subscales focus on intrapersonal processes, while two focus on interpersonal processes. Methods: The measure was piloted and refined across four distinct samples: a U.S. university based LGBT sample, consecutive clinical referrals at the Center of Expertise on Gender Dysphoria in Amsterdam, the Netherlands, a Dutch LGB community sample, and an online survey forum (LGBTQ). Results: The first exploratory factor analysis identified minor potential adjustments, which were refined and retested. Researchers evaluated and cross-validated the hypothesized factor structure and determined that the three factor GQI subscales and the unidimensional Gender Fluidity measure yielded internally consistent and valid scores among transgender individuals seeking clinical treatment and LGB individuals within a community setting. The exploratory and confirmatory factor analyses provide evidence of good reliability, construct validity, and internal consistency of all four subscales. Discussion: The subscales were appropriate across a spectrum of gender identities and can be taken in the same form over time and across gender transition statuses, making them suitable for clinical evaluation and community based longitudinal research with trans-identified or gender nonconforming persons. The development of the GQI fills critical gaps in gender-related measurement including the ability to assess multiple dimensions of gender identity, and to assess gender identity across time.

AbstractObjectivesAlthough many studies have reported a higher risk of atherosclerotic cardiovascular diseases (ACVD) in people with periodontitis (PD), this has been tested in a few large‐scale population‐based studies with a longitudinal design. The aim of this study was to investigate whether people with PD status have an increased risk of a nonfatal ACVD event compared to people without PD status.MethodsA cohort of 1.2 million participants from a healthcare insurance claims database was studied longitudinally for a period of 8 years. PD status was derived from PD‐related insurance claims and ACVD status from ACVD‐related insurance claims. Person‐time at risk (PTAR) was calculated from the start of follow‐up (01 January 2007) for participants with and without PD status until ACVD or event‐free censoring (31 December 2014). Time‐dependent Cox proportional hazard models were used to calculate the hazard ratio (HR) and to adjust for shared risk factors (age, sex, socioeconomic position and diabetes mellitus).ResultsThe prevalence of PD was 20.1%, and the cumulative incidence of nonfatal ACVD events was 7.5%. The univariable and multivariable analyses revealed a limited risk of ACVD for participants with PD status (HR: 1.12; 95% CI 1.10–1.14, HR: 1.06; 95% CI 1.04–1.08, respectively). A subgroup analysis of participants ≤35 and > 35 years of age showed that those ≤35 years of age with PD status had a higher ACVD risk (univariable HR: 1.20; 95% CI 1.05–1.37, multivariable HR: 1.21; 95% CI 1.05–1.39). ACVD risk was not increased in participants >35 years of age with PD status (univariable HR: 0.92; 95% CI 0.91–0.94, multivariable HR: 0.96; 95% CI 0.94–0.98).ConclusionsThis study based on a healthcare insurance cohort shows that PD can hardly be regarded as a risk factor for nonfatal ACVD. The increased risk is of minor size, and therefore, the proposed role of PD in the development of ACVD events should be reconsidered. Possibly PD plays a role as a risk factor in younger people due to overlapping genetic risk factors of ACVD and a more aggressive course of PD.