Australia Population: Resident: Estimated: Annual: Queensland: Greater Brisbane data was reported at 2,413,457.000 Person in 2017. This records an increase from the previous number of 2,362,672.000 Person for 2016. Australia Population: Resident: Estimated: Annual: Queensland: Greater Brisbane data is updated yearly, averaging 2,171,862.000 Person from Jun 2006 (Median) to 2017, with 12 observations. The data reached an all-time high of 2,413,457.000 Person in 2017 and a record low of 1,908,265.000 Person in 2006. Australia Population: Resident: Estimated: Annual: Queensland: Greater Brisbane data remains active status in CEIC and is reported by Australian Bureau of Statistics. The data is categorized under Global Database’s Australia – Table AU.G002: Estimated Resident Population.

Historical dataset of population level and growth rate for the Brisbane, Australia metro area from 1950 to 2025.

The workforce dataset contains monthly workforce sizes from July 2005 to June 2018 in the eight Australian capital cities with estimated stratification by indoor and outdoor workers. It is included in both csv and rda format. It includes variables for:

Year Month GCCSA (Greater Capital City Statistical Area, which is used to define capital cities) Date (using the first day of the month) fulltime: Fulltime workers parttime: Parttime workers n. Overall workers outorin. Estimated indoor or outdoor status

This data are derived from the Australian Bureau of Statistics (ABS) Labour Force, Australia, Detailed, LM1 dataset: LM1 - Labour force status by age, greater capital city and rest of state (ASGS), marital status and sex, February 1978 onwards (pivot table). Occupational data from the 2006, 2011 and 2016 Census of Population and Housing (ABS Census TableBuilder Basic data) were used to stratify this dataset into indoor and outdoor classifications as per the "Indooroutdoor classification.xlsx" file. For the Census data, GCCSA for the place of work was used, not the place of usual residence.

Occupations were defined by the Australian and New Zealand Standard Classification of Occupations (ANZSCO). Each 6-digit ANZSCO occupation (the lowest level classification) was manually cross-matched with their corresponding occupation(s) from the Canadian National Occupation System (NOC). ANZSCO and NOC share a similar structure, because they are both derived from the International Standard Classification of Occupations. NOC occupations listed with an “L3 location” (include main duties with outdoor work for at least part of the working day) were classified as outdoors, including occupations with multiple locations. Occupations without a listing of "L3 location" were classified as indoors (no outdoor work). 6-digit ANZSCO occupations were then aggregated to 4-digit unit groups to match the ABS Census TableBuilder Basic data. These data were further aggregated into indoor and outdoor workers. The 4-digit ANZSCO unit groups’ indoor and outdoor classifications are listed in "Indooroutdoor classification.xlsx."

ANZSCO occupations associated with both indoor and outdoor listings were classified based on the more common listing, with indoors being selected in the event of a tie. The cross-matching of ANZSCO and NOC occupation was checked against two previous cross-matches used in published Australian studies utilising older ANZSCO and NOC versions. One of these cross-matches, the original cross-match, was validated with a strong correlation between ANZSCO and NOC for outdoor work (Smith, Peter M. Comparing Imputed Occupational Exposure Classifications With Self-reported Occupational Hazards Among Australian Workers. 2013).

To stratify the ABS Labour Force detailed data by indoors or outdoors, workers from the ABS Census 2006, 2011 and 2016 data were first classified as indoors or outdoors. To extend the indoor and outdoor classification proportions from 2005 to 2018, the population counts were (1) stratified by workplace GCCSA (standardised to the 2016 metrics), (2) logit-transformed and then interpolated using cubic splines and extrapolated linearly for each month, and (3) back-transformed to the normal population scale. For the 2006 Census, workplace location was reported by Statistical Local Area and then converted to GCCSA. This interpolation method was also used to estimate the 1-monthly worker count for Darwin relative to the rest of Northern Territory (ABS worker 1-monthly counts are reported only for Northern Territory collectively).

ABS data are owned by the Commonwealth Government under a CC BY 4.0 license. The attached datasets are derived and aggregated from ABS data.

人口：居民：估计：年度：昆士兰：大布里斯班 在06-01-2017达2,413,457.000人，相较于06-01-2016的2,362,672.000人有所增长。人口：居民：估计：年度：昆士兰：大布里斯班 数据按年更新，06-01-2006至06-01-2017期间平均值为2,171,862.000人，共12份观测结果。该数据的历史最高值出现于06-01-2017，达2,413,457.000人，而历史最低值则出现于06-01-2006，为1,908,265.000人。CEIC提供的人口：居民：估计：年度：昆士兰：大布里斯班 数据处于定期更新的状态，数据来源于Australian Bureau of Statistics，数据归类于全球数据库的澳大利亚 – 表 AU.G002：估计常住人口。

Aedes aegypti (L.) (Diptera: Culicidae) is a highly invasive mosquito whose global distribution has fluctuated dramatically over the last 100 years. In Australia the distribution of Ae. aegypti once spanned the eastern seaboard, for 3,000 km north to south. However, during the 1900s this distribution markedly reduced and the mosquito disappeared from its southern range. Numerous hypotheses have been proffered for this retraction, however quantitative evidence of the mechanisms driving the disappearance are lacking. We examine historical records during the period when Ae. aegypti disappeared from Brisbane, the largest population centre in Queensland, Australia. In particular, we focus on the targeted management of Ae. aegypti by government authorities, that led to local elimination, something rarely observed in large cities. Numerous factors are likely to be responsible including the removal of larval habitat, especially domestic rainwater tanks, in combination with increased mosquito surveillance and regulatory enforcement. This account of historical events as they pertain to the elimination of Ae. aegypti from Brisbane, will inform assessments of the risks posed by recent human responses to climate change and the reintroduction of 300,000 rainwater tanks into the State over the past decade.

The Australian Marine Microbial Biodiversity Initiative (AMMBI) provides methodologically standardized, continental scale, temporal phylogenetic amplicon sequencing data describing Bacteria, Archaea and microbial Eukarya assemblages. Sequence data is linked to extensive physical, biological and chemical oceanographic contextual information. Samples are collected monthly to seasonally from multiple depths at seven National Reference Stations (NRS) sites: Darwin Harbour (Northern Territory), Yongala (Queensland), North Stradbroke Island (Queensland), Port Hacking (New South Wales), Maria Island (Tasmania), Kangaroo Island (South Australia), Rottnest Island (Western Australia). The Integrated Marine Observing System (IMOS) NRS network is described at http://imos.org.au/facilities/nationalmooringnetwork/nrs/ North Stradbroke Island NRS is located 6.6 nm north east of North Stradbroke Island at a depth of 60 m over sandy substrate. It is 30 km southeast of the major city of Brisbane, Queensland (population 2.099 million), at the opening to large, shallow, Moreton Bay. The site is impacted by the southerly flowing EAC and its eddies, which may cause periodic nutrient enrichment through upwelling. This latitude is the biogeographic boundary for many tropical and subtropical species. The water column is well mixed between May-August and stratified for the remainder of the year and salinity may at times be affected by floodwaters from the nearby Brisbane River outflow.

Site details from Brown, M. V. et al. Continental scale monitoring of marine microbiota by the Australian Marine Microbial Biodiversity Initiative. Sci. Data 5:180130 doi: 10.1038/sdata.2018.130 (2018). Site location: North Stradbroke Island National Reference Station (NRS), Queensland, Australia Note on data download/processing: Data downloaded from Australian Microbiome Initiative via Bioplatforms Australia Data Portal on 17 June 2022. The search filter applied to download data from Bioplatforms Australia Data portal are stored in the Darwin Core property (identificationRemarks). Taxonomy is assigned according to the taxonomic database (SILVA 138) and method (Sklearn) which is stored in the Darwin Core Extension DNA derived data property (otu_db). Prefix were removed from the taxonomic names as shown in the example (e.g. d_Bacteria to Bacteria). Scientific name is assigned to the valid name available from the highest taxonomic rank. This collection is published as Darwin Core Occurrence, so the event level measurements need to be replicated for every occurrence. Instead of data replication, the event level eMoF data are made available separately at https://www.marine.csiro.au/data/services/obisau/emof_export.cfm?ipt_resource=bioplatforms_mm_nrs_nsi Please see https://www.australianmicrobiome.com/protocols/acknowledgements/ for citation examples and links to the data policy.

Change in prevalent cases and mortality over the life course of the Brisbane adult population (95% uncertainty interval).

Yearly registered births – breakdown by Month

PM2.5 values baseline and sensitivity scenarios.

This data collection contains all currently published nucleotide (DNA/RNA) and protein sequences from the Australian research institution,Royal Brisbane Hospital.The nucleotide (DNA/RNA) and protein sequences have been sourced through the European Nucleotide Archive (ENA) and Universal Protein Resource (UniProt), databases that contains comprehensive sets of nucleotide (DNA/RNA) and protein sequences from all organisms that have been published by the International Research Community.

Mode share travel targets.

Health care costs and health outcomes for base case by sex over the life course of the Brisbane adult population (95% uncertainty interval).

NATSEM indicators of child well-being variables of SLAs, excluding SLAs in Brisbane and Canberra, in Australia (2006). These data were provided by NATSEM, University of Canberra, and are based on …Show full descriptionNATSEM indicators of child well-being variables of SLAs, excluding SLAs in Brisbane and Canberra, in Australia (2006). These data were provided by NATSEM, University of Canberra, and are based on data from the 2006 Census of Population and Housing supplied by the Australian Bureau of Statistics. The data were developed as part of a project funded by a Discovery Grant from the Australian Research Council (DP664429: Opportunity and Disadvantage: Differences in Wellbeing among Australia's Adults and Children at a Small Area Level. Copyright attribution: University of Canberra - National Centre for Social and Economic Modelling, (2014): ; accessed from AURIN on 12/3/2020. Licence type: Creative Commons Attribution 2.5 Australia (CC BY 2.5 AU)

Australia's café and restaurant scene continues to thrive, with New South Wales leading the way with over 19,225 establishments in operation at the end of the 2024 financial year. The second-leading state in terms of the number of cafés and restaurants was Victoria. As Australia's two largest states in terms of population, the concentration of food service establishments in New South Wales and Victoria mirrors Australia's population distribution, reflecting the urban-centric nature of the country's café and restaurant landscape. Gastronomy: a key economic sector In recent years, the number of cafés and restaurants throughout the country has shown relatively consistent growth, exceeding 55,700 in the 2024 financial year, up from approximately 41,570 in 2017. Australia's cafés, restaurants, and takeaway food services turnover experienced steady annual increases for many years up until the start of the COVID-19 pandemic. Nevertheless, since 2021, the industry's revenue has been on the recovery, hitting a record of over 65 billion Australian dollars in 2024. Additionally, food services represent a key source of gross value added to the tourism industry. An added boost from coffee Coffee plays an important role in the Australian food service sector, with the beverage topping the list of regularly consumed drinks among Australians in a 2024 survey. Several international chains like McCafé operate alongside popular domestic coffee franchises, including The Coffee Club, in the country. Alongside this, the country's annual domestic coffee consumption remains robust, consistently exceeding two million sixty-kilogram bags in recent years, underscoring the enduring nature of Australia's coffee culture. Nonetheless, recent cost-of-living pressures have led to a shift in consumer behavior, with more Australians opting to brew their coffee at home.

Proportional multi-state life table Markov model input parameters.

Road trauma rates per 100 million kilometres travelled by transport mode.

Additional mean minutes per week of transport physical activity undertaken in the travel targets scenario compared to the baseline scenario (statu-quo), by age and sex.

Mode-specific mean (95% uncertainty interval (UI)) trips per weekday in 2009, by age and sex.

Clusters, collision probability, and 95% confidence interval by hazard species.