This replication package contains the raw data and code to replicate the findings reported in the paper. The data are licensed under a Creative Commons Attribution 4.0 International Public License. The code is licensed under a Modified BSD License. See LICENSE.txt for details.

Software requirements

All analysis were done in Stata version 16:

• Add-on packages are included in scripts/libraries/stata and do not need to be installed by user. The names, installation sources, and installation dates of these packages are available in scripts/libraries/stata/stata.trk.

Instructions

1. Save the folder ‘replication_PLOS’ to your local drive.
2. Open the master script ‘run.do’ and change the global pointing to the working direction (line 20) to the location where you save the folder on your local drive
3. Run the master script ‘run.do’ to replicate the analysis and generate all tables and figures reported in the paper and supplementary online materials

Datasets

• Wave 1 – Survey experiment: ‘wave1_survey_experiment_raw.dta’
• Wave 2 – Follow-up Survey: ‘wave2_follow_up_raw.dta'
• Map: shape-files ‘plz2stellig.shp’ ‘OSM_PLZ.shp’, area codes ‘Postleitzahlengebiete-_OSM.csv’_, (all links to the sources can be found in the script ‘04_figure2_germany_map.do’)
• Pretest: ‘pre-test_corona_raw.dta’
• For Appendix S7: ‘alter_geschlecht_zensus_det.xlsx’, ‘vaccination_landkreis_raw.dta’, ‘census2020_age_gender.csv’ (all links to the sources can be found in the script ‘06_AppendixS7.do’)
• For Appendix S10: ‘vaccination_landkreis_raw.dta’ (all links to the sources can be found in the script ‘07_AppendixS10.do’)

Descriptions of scripts

1_1_clean_wave1.do
This script processes the raw data from wave 1, the survey experiment
1_2_clean_wave2.do
This script processes the raw data from wave 2, the follow-up survey
1_3_merge_generate.do
This script creates the datasets used in the main analysis and for robustness checks by merging the cleaned data from wave 1 and 2, tests the exclusion criteria and creates additional variables
02_analysis.do
This script estimates regression models in Stata, creates figures and tables, saving them to results/figures and results/tables
03_robustness_checks_no_exclusion.do
This script runs the main analysis using the dataset without applying the exclusion criteria. Results are saved in results/tables
04_figure2_germany_map.do
This script creates Figure 2 in the main manuscript using publicly available data on vaccination numbers in Germany.
05_figureS1_dogmatism_scale.do
This script creates Figure S1 using data from a pretest to adjust the dogmatism scale.
06_AppendixS7.do
This script creates the figures and tables provided in Appendix S7 on the representativity of our sample compared to the German average using publicly available data about the age distribution in Germany.
07_AppendixS10.do
This script creates the figures and tables provided in Appendix S10 on the external validity of vaccination rates in our sample using publicly available data on vaccination numbers in Germany.

The Stata data file "jumla_kavre_osmtracker_merged.dta” and equivalent excel file of the same name comprises data on water, waste management and landmarks collected by adolescent secondary school students during a "Citizen Science" project in the district of Kavre in the central hills of Nepal during April 2022 and in the district of Jumla in the remote mountains of West Nepal during June 2022. The project was part of a CIFF-funded Children in All Policies 2030 (CAP2030) project.

The data were generated by the students using an open access data collection and mapping application called Open Street Map (OSM) tracker, which had been adapted with Nepali language prompts by Researchers from Kathmandu Living Labs (KLL). Researchers from KLL and University College London (UCL) trained the adolescents to record tracks and way points of certain types of information including categories of waste management (rubbish dumps/bins), water sources and public amenities. The resulting datafile is a summary of the data collected showing the latitude/longitude, name, and category of the type of location and the district. The app and the process of gathering the data are described in a paper entitled "Citizen science for climate change resilience: engaging adolescents to study climate hazards, biodiversity and nutrition in rural Nepal" submitted to Wellcome Open Research in Feb 2023. The data contributed to Table 5, and Figure 4 of this paper.

This collection of computer programs and test data files was compiled by the Census Bureau for use with GEOGRAPHIC BASE FILE/DUAL INDEPENDENT MAP ENCODING (GBF/DIME), 1980 (ICPSR 8378). This collection consists of files grouped into five categories: Special Program Information Tape (SPIT) Datasets, UNIMATCH System Datasets, ADMATCH System Datasets, EASYMAP System Datasets, and EASYCORD System Datasets. Some of the capabilities of the programs in this collection include: mapping files for which complicated data manipulation is required, generating individualized lists of candidates for carpools, linking of records on the basis of street address, creating shaded area maps for statistical display, and producing a map coordinate system.

September 1., 2016 REPLICATION FILES FOR «THE IMPACT OF STATE TELEVISION ON VOTER TURNOUT», TO BE PUBLISHED BY THE BRITISH JOURNAL OF POLITICAL SCIENCE The replication files consist of two datasets and corresponding STATA do-files. Please note the following: 1. The data used in the current microanalysis are based on the National Election Surveys of 1965, 1969, and 1973. The Institute of Social Research (ISF) was responsible for the original studies, and data was made available by the NSD (Norwegian Center for Research Data). Neither ISF nor NSD are responsible for the analyses/interpretations of the data presented here. 2. Some of the data used in the municipality-level analyses are taken from NSD’s local government database (“Kommunedatabasen”). The NSD is not responsible for the analysis presented here or the interpretation offered in the BJPS-paper. 3. Note the municipality identification has been anonymized to avoid identification of individual respondents. 4. Most of the analyses generate Word-files that are produced by the outreg2 facility in STATA. These tables can be compared with those presented in the paper. The graphs are directly comparable to those in the paper. In a few cases, the results are only generated in the STATA output window. The paper employs two sets of data: I. Municipal level data in entered in STATA-format (AggregateReplicationTVData.dta), and with a corresponding data with map coordinates (muncoord.dta). The STATA code is in a do-file (ReplicationOfAggregateAnalysis.do). II. The survey data is in a STATA-file (ReplicationofIndividualLevelPanel.dta) and a with a corresponding do-file (ReplicationOfIndividualLevelAnalysis 25.08.2016.do). Please remember to change the file reference (i.e. use-statement) to execute the do-files.

IntroductionChildhood stunting is a global public health concern, associated with both short and long-term consequences, including high child morbidity and mortality, poor development and learning capacity, increased vulnerability for infectious and non-infectious disease. The prevalence of stunting varies significantly throughout Ethiopian regions. Therefore, this study aimed to assess the geographical variation in predictors of stunting among children under the age of five in Ethiopia using 2019 Ethiopian Demographic and Health Survey.MethodThe current analysis was based on data from the 2019 mini Ethiopian Demographic and Health Survey (EDHS). A total of 5,490 children under the age of five were included in the weighted sample. Descriptive and inferential analysis was done using STATA 17. For the spatial analysis, ArcGIS 10.7 were used. Spatial regression was used to identify the variables associated with stunting hotspots, and adjusted R2 and Corrected Akaike Information Criteria (AICc) were used to compare the models. As the prevalence of stunting was over 10%, a multilevel robust Poisson regression was conducted. In the bivariable analysis, variables having a p-value < 0.2 were considered for the multivariable analysis. In the multivariable multilevel robust Poisson regression analysis, the adjusted prevalence ratio with the 95% confidence interval is presented to show the statistical significance and strength of the association.ResultThe prevalence of stunting was 33.58% (95%CI: 32.34%, 34.84%) with a clustered geographic pattern (Moran’s I = 0.40, p40 (APR = 0.74, 95%CI: 0.55, 0.99). Children whose mother had secondary (APR = 0.74, 95%CI: 0.60, 0.91) and higher (APR = 0.61, 95%CI: 0.44, 0.84) educational status, household wealth status (APR = 0.87, 95%CI: 0.76, 0.99), child aged 6–23 months (APR = 1.87, 95%CI: 1.53, 2.28) were all significantly associated with stunting.ConclusionIn Ethiopia, under-five children suffering from stunting have been found to exhibit a spatially clustered pattern. Maternal education, wealth index, birth interval and child age were determining factors of spatial variation of stunting. As a result, a detailed map of stunting hotspots and determinants among children under the age of five aid program planners and decision-makers in designing targeted public health measures.

This study tests the efficacy of an intervention--Safe Public Spaces (SPS) -- focused on improving the safety of public spaces in schools, such as hallways, cafeterias, and stairwells. Twenty-four schools with middle grades in a large urban area were recruited for participation and were pair-matched and then assigned to either treatment or control. The study comprises four components: an implementation evaluation, a cost study, an impact study, and a community crime study. Community-crime-study: The community crime study used the arrest of juveniles from the NYPD (New York Police Department) data. The data can be found at (https://data.cityofnewyork.us/Public-Safety/NYPD-Arrests-Data-Historic-/8h9b-rp9u). Data include all arrest for the juvenile crime during the life of the intervention. The 12 matched schools were identified and geo-mapped using Quantum GIS (QGIS) 3.8 software. Block groups in the 2010 US Census in which the schools reside and neighboring block groups were mapped into micro-areas. This resulted in twelve experimental school blocks and 11 control blocks which the schools reside (two of the control schools existed in the same census block group). Additionally, neighboring blocks using were geo-mapped into 70 experimental and 77 control adjacent block groups (see map). Finally, juvenile arrests were mapped into experimental and control areas. Using the ARIMA time-series method in Stata 15 statistical software package, arrest data were analyzed to compare the change in juvenile arrests in the experimental and control sites. Cost-study: For the cost study, information from the implementing organization (Engaging Schools) was combined with data from phone conversations and follow-up communications with staff in school sites to populate a Resource Cost Model. The Resource Cost Model Excel file will be provided for archiving. This file contains details on the staff time and materials allocated to the intervention, as well as the NYC prices in 2018 US dollars associated with each element. Prices were gathered from multiple sources, including actual NYC DOE data on salaries for position types for which these data were available and district salary schedules for the other staff types. Census data were used to calculate benefits. Impact-evaluation: The impact evaluation was conducted using data from the Research Alliance for New York City Schools. Among the core functions of the Research Alliance is maintaining a unique archive of longitudinal data on NYC schools to support ongoing research. The Research Alliance builds and maintains an archive of longitudinal data about NYC schools. Their agreement with the New York City Department of Education (NYC DOE) outlines the data they receive, the process they use to obtain it, and the security measures to keep it safe. Implementation-study: The implementation study comprises the baseline survey and observation data. Interview transcripts are not archived.

Background: Many meta-analyses (MAs) on Chinese medicine (CM) as an adjunctive treatment for gastric cancer have been published in recent years. However, the pooled evidence reported in MAs and their methodological quality remain unknown. Therefore, we designed a study to comprehensively evaluate and summarize the current evidence of CMs for gastric cancer in published MAs.Methods: A systematic search on MAs published in English from inception to 1st September 2021 was conducted in PubMed and Embase. The AMSTAR-2 tool was used to evaluate the methodological quality of the included MAs, and the results of the quality assessment were visualized using the evidence mapping method. Stata 17/SE was used for statistical analysis (Registration number: INPLASY202190005).Results: A total of 20 MAs (16 pairwise and 4 network MAs) were included from 118 records. These MAs were published in 14 journals from 2013 to 2021, with the number of patients and trials ranging from 688 to 6,857, and from 10 to 85, respectively. A large number of CMs (e.g., AiDi, FuFangKuShen, and HuaChanSu) in combination with chemotherapy for gastric cancer were identified among the included MAs. According to the pooled results reported in MAs, when compared to chemotherapy alone, CMs in combination with chemotherapy not only improve various outcomes on efficacy (e.g., objective response rate, quality of life) but also reduce various adverse reactions (e.g., leucopenia, nausea and vomiting). Only 2 MAs were low in terms of the overall methodological quality, while the other 18 MAs were all critically low. The methodology was required to be advanced significantly, mainly involving: study protocol and registration, explanation for the inclusion of study design, list of excluded studies with justifications, adequate details of included studies, reporting on funding sources of primary studies, and evaluation of the potential impact of risk of bias. In addition, MAs that received funds support (β = 2.68; 95%CI: 0.40 to 4.96; p = 0.024) or were published in journals with higher impact factor (β = 2.81; 95%CI: 0.69 to 4.92; p = 0.012) had a higher score on the overall methodological quality in the univariate analysis, but the results were not statistically significant according to the multivariate analysis.Conclusion: Combining CMs with chemotherapy can potentially improve clinical outcomes and reduce the relevant adverse effects in patients with gastric cancer. However, the methodological quality of relevant MAs requires significant improvement, and the current evidence needs to be validated through multinational trials that are well-designed and have a large sample size.

Abstract

The work plan activities in Kiribati related to the updating of the listing of all households and institutions in Kiribati is to produce a sex and age disaggregated population count that forms the basis for a sampling frame for the upcoming Social Indicator Survey (SIS) and Household Income and Expenditure Survey (HIES). It also serves the purpose of digitalising and harmonising enumeration areas (EAs) to facilitate random sampling and census planning. To achieve this, SPC was engaged to conduct the following activities:

1. Planning and budgeting: prepare a comprehensive plan and budget for the household listing.
2. Mapping: prepare field maps to be used in the listing; digitalise EA boundaries and harmonisation of new EA framework; training and capacity building of the Ministry of Environment, Lands and Agricultural Development; prepare maps for the selected EAs in the SIS.
3. Listing questionnaire design, enumerator training and technology: develop a tablet-based household listing questionnaire and associated training resources, and set up of technology (e.g., server, tablet interviewer application, backup protocols); support Kiribati's National Statistics Office (KI-NSO) to conduct training of enumerators in all aspects of the collection; and administer South-South support to Kiribati for the duration of the listing.
4. Sample design: design the sample and field plan for the SIS; and build capacity of KI-NSO in sample design and field work planning.

Geographic coverage

National coverage (full coverage).

Analysis unit

Households/Institutions and Individuals.

Universe

Households, Institutions, de jure household members.

Kind of data

Census/enumeration data [cen]

Sampling procedure

Not Applicable.

Mode of data collection

Computer Assisted Personal Interview [capi]

Research instrument

The questionnaire, which is designed in English, is divided into three main sections:

1) Household ID and Building Type 2) Person Roster 3) Geographic Information and Photo

The questionnaire was generated by Survey Solutions and is provided as an external resource.

Cleaning operations

Data was processed using the software STATA. Corrections were made both automatically and by visual control: validation checks in the questionnaire as well as final editing of the raw data.

The tabular dataset is a product of household survey conducted in 2018. The sampling geography was a predefined coastal region of North and South Carolina adjacent to offshore wind development areas. The subject of the data collection was resident perceptions of local offshore wind energy development. Variables relate to place attachment, recreational activities, social value of favorite places, awareness, perceived impact to important quality of life items, support level, past and future action, and demographic and household characteristics. There are two formats of the tabular dataset provided: csv and STATA. (2019-07-19) The spatial/GIS dataset is a product of household survey conducted in 2018. The sampling geography was a predefined coastal region of North and South Carolina adjacent to offshore wind development areas. The subject of the data collection was resident perceptions of local offshore wind energy development. The spatial/GIS dataset is associated with a mapping question, Question 6 of the survey instrument. Question 6 asked respondents to identify three Favorite Places on a map of the study region, as well as to identify associated social values for each _location. Locations identified were assigned to 10 square km cells during the survey coding process for spatial analysis and to visualize the spatial distribution of Favorite Places. Shapefiles are provided in the dataset. (OMB CONTROL NUMBER: 0648-0744) (2019-07-19)

Population Services International Zimbabwe (PSI/Z) uses commercial marketing and distribution strategies to bring health products, services and messages to vulnerable populations in urban and rural Zimbabwe. PSI/Z is implementing a multi-year USAID and DFID funded HIV prevention programs targeting sexually active Zimbabwean men and women ages 15-49 years. This MAP survey (Round 6) was conducted to assess the geographical coverage and quality of coverage of Protector Plus male condoms and CARE female condoms. The study also estimated numeric distribution of Protector Plus condoms. Total Market Approach (TMA) metrics were calculated using estimates of market volume, market value and brand diversity for Condoms in Zimbabwe. Lot Quality Assurance Sampling (LQAS) technique was used to draw a sample of 19 wards within each supervision area (SA), i.e. a district. A sample size of 19 gives reasonably accurate estimates with an acceptable error margin for decision making. A total of 92 districts and 43 high-risk areas comprising 19 growth points, 19 mining areas and 5 border towns were selected. In cases where a district had fewer than 19 wards, a census of all the wards was done and direct percentage value was calculated to determine whether the SA reaches the target coverage standard or not. Data were collected in September 2014 using Survey ToGo software on android phones. Data cleaning and analysis was done using STATA version 13.0.

This article contain 1 table (a summary of votes outlined in the appendix), 3 figures, and an appendix. I used STATA, a commercial statistical analysis program, as well as R, a free statistics program, in this research.

Abstract

The South African Census 2011 is provided to researchers by Statistics South Africa in two formats: 1. A 10% sample dataset at the level of Province, District and Municipality plus spatial data at Small Area level. 2. A database of Community Profiles at the level of Province, District, Municipality, Main Place, Sub-Place and Ward. This database is in proprietary software, SuperCross, which allows cross-tabulation and mapping of the data. The South African Census Community Profile dataset is the Community Profiles database converted to Stata. This allows researchers to map the census data in software other than SuperCross, such as ArcGIS. The original rounding of the data to base 3 has been retained to protect respondent confidentiality. The result of this is that totals may not always add up. GIS data provided by Statistics SA at Small Area Layer level is available with this dataset.

Geographic coverage

The South African Census 2011 has national coverage. The lowest level of geographic aggregation of the data is small area layer.

Analysis unit

Units of analysis in the Census were households and individuals

Kind of data

Census/enumeration data [cen]

Mode of data collection

Face-to-face [f2f]

Vecchi piani dettagliati di Helsinki.

Le mappe dettagliate del piano per gli anni 1820, 1838 e 1878 possono essere scaricate come file TIFF. Le guide per tutti gli anni possono essere trovate attraverso l'API WMS.

Anteprima dei dati nel servizio map.hel.fi:

• Tutti i livelli dettagliati del piano attivi
• Tutti i piani dettagliati sono disponibili sul sito web: https://kartta.hel.fi/ > Livelli > Mappe di sfondo > Materiali storici > Piani dettagliati

Sistemi di coordinate:

Mantenuto in ETRS-GK25 (EPSG:3879), può essere proiettato su altri sistemi di coordinate. Consulta la query GetCapabilities per altri possibili sistemi di coordinate

Indirizzo API:

• WMS API: https://kartta.hel.fi/ws/geoserver/avoindata/wms

Livelli:

• Plan_ofver_Helsingfors_stad_i_borjan_af_1800_talet
• Pianifica mappa_1820
• Pianifica mappa_1838
• Pianifica mappa_1878

Mappa del piano urbanistico di Helsinki dell'inizio del XIX secolo

Mappa del piano urbanistico di Helsinki dell'inizio del XIX secolo (Plan Öfver Helsingfors Stad I Början Af 1800 Talet). L'anno di pubblicazione secondo l'Archivio della città è il 1803. La mappa è depositata nelle collezioni degli archivi della città di Helsinki. La mappa è stata prodotta dalla città di Helsinki, autori altrimenti sconosciuti. La mappa è stata una volta donata dal City Survey Department dell'Ufficio Immobiliare agli Archivi della Città per la conservazione e l'archiviazione.

La mappa mostra alcuni edifici in dettaglio e i blocchi con confini precisi della trama. Al di fuori dell'area edificata della città, lo sviluppo futuro è delineato a livello di blocco. Inoltre, la mappa mostra alcune caratteristiche del terreno, strade e sentieri.

1820

Il piano dettagliato elaborato da Johan Albrecht Ehrenström (1762-1847) fu approvato nel 1820. Ehrenström voleva rendere Helsinki, la nuova capitale del Granducato, rappresentabile con ampie strade e piazze spaziose. Esplanade Park separava la città di pietra di Vironiemi dal sobborgo di Uusimaa. Gli edifici del centro monumentale intorno a Piazza del Senato sono stati progettati dal tedesco C. L. Engel. In sostanza, il piano dettagliato di Ehrenström è stato attuato. Tuttavia, la baia di Kluuvinlahti fu alla fine completamente riempita invece di costruire un canale, e il palazzo imperiale e i giardini, che erano stati progettati per il lato settentrionale dell'attuale piazza Meritullintori, non furono mai costruiti. Mappa in svedese.

1838

Claes Wilhelm Gylden (1802-1872) ha pubblicato i piani dettagliati di tutte le 31 città della Finlandia. Le sue mappe sono il primo insieme uniforme di mappe della città. Oltre ai piani dettagliati, le mappe mostrano la posizione delle città in una mappa su scala più piccola, quartieri o quartieri della città ed edifici pubblici. Le mappe sono in svedese. C'è un facsimile di loro del 1983.

1878

La mappa molto dettagliata del 1878 dell'ingegnere cittadino Claes Kjerrström è stata premiata all'Esposizione Universale di Parigi. Suddivisione del terreno e aree di costruzione. In basso a destra sono raffigurati i quartieri della città in diversi colori e i nomi dei blocchi. La mappa raffigura la città in legno prima della più ampia costruzione di case in pietra.

La carta delle superfici impermeabilizzate della pianura descrive il grado di impermeabilizzazione dei manufatti: infrastrutture abitative e viarie, opere annesse, impianti sportivi e ricreativi. La descrizione del territorio è stata fatta attraverso una classificazione dell'area di pianura suddividendola in celle di 10 m di lato a cui sono stati attribuiti i corrispettivi valori di impermeabilizzazione, attraverso una suddivisione in classi.

La Carta Geologica Interattiva del Piemonte (Progetto GeoPiemonte Map)La Carta Geologica del Piemonte è stata realizzata da CNR IGG (Istituto di Geoscienze e Georisorse, sede di Torino), ARPA Piemonte e dai Dipartimenti di Scienze della Terra e di Informatica dell'Università di Torino, con il supporto di DIATI (PoliTO) e Eni S.p.A., a conclusione di una serie di attività iniziate nel 2008. La gestione, aggiornamento dei dati, sviluppi tematici ed il mantenimento del servizio è a cura di ARPA Piemonte (responsabile del servizio e dei tematismi) e CNR IGG (responsabile dello sviluppo della base dati).Il Progetto GeoPiemonte Map è stato realizzato tramite sintesi a scala regionale di dati geologici esistenti (circa un migliaio di fonti bibliografiche consultate) ed inediti, ha portato alla realizzazione di due nuovi prodotti:- la stampa di un nuovo prodotto editoriale che rappresenta la sintesi di un progetto di ricerca durato oltre 10 anni al quale hanno contributo alcune decine di ricercatori appartenenti al CNR IGG Istituto di Geoscienze e Georisorse di Torino, all'Università di Torino - Dipartimento di Scienze della Terra, all'ARPA Piemonte e al Politecnico di Torino ¿ DIATI;- l'aggiornamento ed implementazione della Base Dati della Carta geologica del Piemonte, che si compone, attualmente di circa 10 mila informazioni ad oggi arricchita dall'interpretazione di dati di sottosuolo forniti da ENI. La Base Dati è consultabile e scaricabile dal Servizio We-bGIS del Geoportale di ARPA Piemonte. Consiste in una cartografia digitale con relativa base dati organizzata secondo modelli logici e semantici e compilata in riferimento a stan-dard descrittivi internazionali per le geoscienze (INSPIRE - Data Specification on Geology, IUGS CGI - GeoSciML Vocabulary). La prima versione della Carta Geologica del Piemonte alla scala 1:250.000 è stata pubblicata nel 2017, in formato pdf vettoriale scaricabile, sulla rivista Journal of Maps (Taylor and Francis) con una Nota illustrativa sintetica (https://www.tandfonline.com/doi/full/10.1080/17445647.2017.1316218)La seconda versione conclude il progetto di redazione grafica della Carta Geologica del Piemonte con la realizzazione in stampa tipografica di un cofanetto formato 18x25 cm circa, contenente: - copia del volume n. 41, 2017, delle Memorie dell'Accademia delle Scienze di Torino - Classe di Scienze Fisiche e Naturali, riguardante le Note Illustrative della Carta Geologica del Piemonte (Geological Map of Piemonte region at 1:250,000 scale - Explanatory Notes) di 143 pagine;- Carta Geologica del Piemonte alla scala 1:250.000 in formato tipografico A0 (quadricromia digitale) con schemi a cornice e comprendente anche una sintesi interpretata di dati di sottosuolo forniti da ENI;- Legenda bilingue (inglese-italiano) della carta geologica in formato A0 con l'elenco delle forma-zioni geologiche e delle principali fonti cartografiche consultate.La divulgazione e la vendita del cofanetto è stata affidata all'Accademia delle Scienze di Torino (https://www.accademiadellescienze.it/attivita/editoria/periodici-e-collane/memorie/fisiche/vol-41-2017) . I proventi saranno utilizzati per iniziative culturali di divulgazione della conoscenza geologica regionale e per la promozione delle attività di rilevamento geologico di studenti e dottorandi in Scienze della Terra.I prodotti fruibili sia in versione banca dati (WebGIS su Geoportale ARPA P.), sia come documenti pdf statici hanno avuto anche le seguenti finalità:a) lo sviluppo di cartografie tematiche inerenti argomenti scientifici e tecnici a partire dalla base dati e dalle geometrie della versione di base; utilizzo del prodotto a fini di divulgazione scientifica e a favore delle pubbliche amministrazioni e delle comunità professionali geo-ingegneristiche; si attendono feed-back da parte degli utilizzatori al fine di migliorare la qualità del prodotto ed incrementare la Base Dati;b) lo sviluppo di ontologie su tematiche delle geoscienze, impostate a partire dall'organizzazione logica e semantica del Data Model di progetto, in collaborazione con il Dipartimento di Informatica di UniTO. Questa attività ha portato alla definizione di "OntoGeonous", un'ontologia che ha recepito vocabolari esistenti nell'ambito delle geoscienze e che è attualmente consultabile su pagine wiki de-dicate sul sito "WikiGeo" : https://www.di.unito.it/wikigeo/index.php?title=Pagina_principaleGUIDA ALLA LETTURA DELLA CARTALa carta è consultabile e scaricabile attraverso il Servizio WebGIS del Geoportale di ARPA Piemon-te:- può essere consultata (fino alla scala di 1:70.000) interrogando le campiture colorate che indicano le unità geologiche (litostratigrafiche). Nel menù a tendina comparirà la SIGLA ed il nome dell'unità, la sua descrizione, l'età e le unità geologiche di rango superiore alla quale essa appartiene (GEOL_UNIT_1, 2, 3 ¿sintema, unità litotettonica etc¿) ed il dominio paleogeografico di riferi-mento. Infine, nella colonna LITHOLOGY è riportata una descrizione litologica sintetica, ad uso tecnico-applicativo, che esprime le caratteristiche dei litotipi in modo standard, conforme al vocabolario internazionale "Simple Lithology", per favorirne la classificazione geo-litologica o geotecnica.- può essere scaricata. I file allegati sono suddivisi in poligoni e linee con le relative proprietà ripor-tate in banca dati. Essi sono distinti in: - poligoni relativi al substrato e ai depositi quaternari;- linee relative ai contatti tettonici principali e secondari, faglie, discordanze stratigrafiche;- linee delle direttrici di conoide quaternarie;- strutture del sottosuolo (anticlinali e sinclinali; faglie ad alto angolo; sovrascorrimento; fronte tettonico sepolto);- isobate base del Pliocene ad intervallo di profondità di 250 metri.Limiti scala di rappresentazione ed impiego delle informazioni è non inferiore a 1:70.000. Ogni impiego differente da quello enunciato risulterebbe scorretto forzando lo "strumento" entro ambiti per i quali non è stato originariamente sviluppato e per i quali si declina ogni responsabilità. Per qualsiasi utilizzo in forma totale o parziale delle informazioni numeriche dovranno essere citate la provenienza e la proprietà. Per eventuali aggregazioni o rielaborazioni dei dati finalizzate alla realizzazione di prodotti diversi dall'originale, si declina ogni responsabilità, pur permanendo l'obbligo di citazione della fonte.N.B. Nella versione cartacea (pdf a scala 1:250.000) le circa 350 unità litostratigrafiche esistenti, so-no state raggruppate, per ragioni di rappresentazione grafica, in un numero minore (circa 220) di en-tità di rango superiore, corrispondenti ai singoli tasselli della Legenda grafica e ai relativi campi colo-rati. Pertanto, nel menù a tendina delle campiture del servizio WebGIS è riportato anche il campo ID_COR (ID di correlazione) corrispondente ai relativi tasselli della Legenda grafica, garantendo così l¿allineamento tra le due modalità di visualizzazione. Ne risulta che la carta interattiva del servi-zio WebGIS avrà dettaglio maggiore e potrà contenere unità litostratigrafiche distinte da sigle diver-se, ma rappresentate dallo stesso colore, attribuito in base all¿ID_COR di appartenenza.

La "Heat Map Flanders 2019" è stata commissionata dall'Agenzia fiamminga per l'energia e il clima per attuare la direttiva 2012/27/UE sull'efficienza energetica e la direttiva (UE) 2018/2001 sulle energie rinnovabili. I prodotti principali sono le mappe per il 2019 per il territorio delle Fiandre con la domanda di calore dei grandi e piccoli consumatori, i risultati a livello dei comuni e dei settori statistici, le mappe delle reti di calore esistenti e pianificate e infine anche le posizioni dei potenziali punti di approvvigionamento di calore. Lo studio è stato condotto da VITO in collaborazione con il gestore del sistema di distribuzione Fluvius. È possibile consultare la relazione di accompagnamento qui: https://www.energiesparen.be/mappa termica. I consumatori di energia con un fabbisogno annuo di calore superiore a 0,2 GWh sono mappati con un punto e visualizzati in 4 classi. La domanda di calore è stata calcolata sulla base dei dati sul consumo di gas ed elettricità di Fluvius, dei consumi di gas nella comunicazione IMJV e di stime aggiuntive del consumo medio di biomassa e olio combustibile dal bilancio energetico. Oltre alla domanda di calore, vengono visualizzati anche il nome, l'indirizzo e il tipo di attività per ciascun consumatore. Infine, lo strato cartografico contiene anche informazioni sul numero di elettricità EAN e gas EAN presenti e mostra se è presente un impianto fotovoltaico. Per ulteriori informazioni di base, fare riferimento al rapporto Heat Map.

Coded survey data prepared for processing using FCM and STATA.

I Servizi Ecosistemici rappresentano i processi attraverso i quali gli ecosistemi naturali sostengono e soddisfano i bisogni umani; il suolo, pur non essendo di per sé un ecosistema, è stato riconosciuto come una matrice che fornisce servizi ecosistemici (Dominati at al, 2010). Essi sono suddivisi in 4 macrocategorie: Supporto, Regolazione, Approvvigionamento, Culturali (MEA, 2005, de Groot et al., 2002). Il suolo è in grado di esplicare delle funzioni molto importanti, come la regolazione del microclima, il sequestro di carbonio, la costituzione di un serbatoio di acqua, la fornitura di materie prime, cibo e fibre, habitat per i microorganismi. Nell'ambito del progetto SOS4LIFE sono state prodotte, per la parte di pianura della regione Emilia-Romagna, sei carte relative ai servizi ecosistemici BIO, BUF, WAR, WAS, CST e PRO più una carta che mostra un indice di qualità complessivo. E' stata utilizzata una metodologia appositamente messa a punto per questa area (Calzolari et al, 2016).

Einzelmessungen des Geschwindigkeitsmonitorings der Kantonspolizei Basel-Stadt vom Jahr 2021 bis und mit Jahr 2023 (Zeitpunkt des Beginns der Messung). Bei den dargestellten Daten handelt es sich ausschliesslich um statistische Erhebungen. Diese stehen nicht in einem Zusammenhang mit Ordnungsbussen oder einer strafrechtlichen Verfolgung. Die statistischen Geschwindigkeitsmessungen dienen der Kantonspolizei Basel-Stadt zur Überprüfung der Geschwindigkeit sowie der Verkehrssicherheit (z.B. Sicherheit an Fussgängerstreifen) an der betreffenden Örtlichkeit. Die Ergebnisse dienen zur Entscheidung, an welchen Örtlichkeiten Handlungsbedarf in Form von Geschwindigkeitskontrollen besteht. Jedes Statistikgerät besitzt eine einzige Punktgeometrie und ist meist mit zwei Richtungen versehen (Richtung 1 und 2).Hinweis: Die Messungen sind nicht zwingend repräsentativ für das ganze Jahr und müssen im Kontext des Erhebungsdatums betrachtet werden. Darüber hinaus wurden gewisse Messungen während einer ausserordentlichen Verkehrsführung (z.B. Umleitungsverkehr infolge von Baustellentätigkeiten etc.) erhoben. Manipulationen an Geräten können zu fehlerhaften Messungen führen. Zum Geschwindigkeitsmonitoring sind folgende Datensätze vorhanden:Einzelmessungen ab 2024: https://data.bs.ch/explore/dataset/100097/Einzelmessungen von 2021 bis 2023 (dieser Datensatz): https://data.bs.ch/explore/dataset/100358/Einzelmessungen bis 2020: https://data.bs.ch/explore/dataset/100200/Kennzahlen pro Mess-Standort: https://data.bs.ch/explore/dataset/100112/ Aufgrund der grossen Datenmenge kann es vorkommen, dass der Datensatz nicht vollständig heruntergeladen werden kann. Falls dieses Problem auftritt, kann man den vollständigen Datensatz und die Einzelmessungen der Messstationen hier herunterladen:vollständiger Datensatz: https://data-bs.ch/stata/kapo/geschwindigkeitsmonitoring/all_data/geschwindigkeitsmonitoring_data.csvEinzelmessungen der Messstationen: https://data-bs.ch/stata/kapo/geschwindigkeitsmonitoring/data/Die Mess-Standorte werden auch auf dem Geoportal Basel-Stadt publiziert: https://map.geo.bs.ch/?map_x=2614442↦_y=1267497↦_zoom=2⟨=de&baselayer_ref=Grundkarte%20farbig&tree_groups=Geschwindigkeit&tree_group_layers_Geschwindigkeit=RM_Geschwindigkeitsmonitoring

IntroductionChildhood stunting is a global public health concern, associated with both short and long-term consequences, including high child morbidity and mortality, poor development and learning capacity, increased vulnerability for infectious and non-infectious disease. The prevalence of stunting varies significantly throughout Ethiopian regions. Therefore, this study aimed to assess the geographical variation in predictors of stunting among children under the age of five in Ethiopia using 2019 Ethiopian Demographic and Health Survey.MethodThe current analysis was based on data from the 2019 mini Ethiopian Demographic and Health Survey (EDHS). A total of 5,490 children under the age of five were included in the weighted sample. Descriptive and inferential analysis was done using STATA 17. For the spatial analysis, ArcGIS 10.7 were used. Spatial regression was used to identify the variables associated with stunting hotspots, and adjusted R2 and Corrected Akaike Information Criteria (AICc) were used to compare the models. As the prevalence of stunting was over 10%, a multilevel robust Poisson regression was conducted. In the bivariable analysis, variables having a p-value < 0.2 were considered for the multivariable analysis. In the multivariable multilevel robust Poisson regression analysis, the adjusted prevalence ratio with the 95% confidence interval is presented to show the statistical significance and strength of the association.ResultThe prevalence of stunting was 33.58% (95%CI: 32.34%, 34.84%) with a clustered geographic pattern (Moran’s I = 0.40, p40 (APR = 0.74, 95%CI: 0.55, 0.99). Children whose mother had secondary (APR = 0.74, 95%CI: 0.60, 0.91) and higher (APR = 0.61, 95%CI: 0.44, 0.84) educational status, household wealth status (APR = 0.87, 95%CI: 0.76, 0.99), child aged 6–23 months (APR = 1.87, 95%CI: 1.53, 2.28) were all significantly associated with stunting.ConclusionIn Ethiopia, under-five children suffering from stunting have been found to exhibit a spatially clustered pattern. Maternal education, wealth index, birth interval and child age were determining factors of spatial variation of stunting. As a result, a detailed map of stunting hotspots and determinants among children under the age of five aid program planners and decision-makers in designing targeted public health measures.