This statistic shows the estimated number of rabbits kept as pets in the United Kingdom (UK) from 2011 to 2024. The population of rabbits in the UK was estimated to total approximately 1 million in 2024.

About this dataset

Context

The dataset tabulates the population of Rabbit Lake township by gender, including both male and female populations. This dataset can be utilized to understand the population distribution of Rabbit Lake township across both sexes and to determine which sex constitutes the majority.

Key observations

There is a majority of male population, with 55.77% of total population being male. Source: U.S. Census Bureau American Community Survey (ACS) 2019-2023 5-Year Estimates.

Content

When available, the data consists of estimates from the U.S. Census Bureau American Community Survey (ACS) 2019-2023 5-Year Estimates.

Scope of gender :

Please note that American Community Survey asks a question about the respondents current sex, but not about gender, sexual orientation, or sex at birth. The question is intended to capture data for biological sex, not gender. Respondents are supposed to respond with the answer as either of Male or Female. Our research and this dataset mirrors the data reported as Male and Female for gender distribution analysis. No further analysis is done on the data reported from the Census Bureau.

Variables / Data Columns

• Gender: This column displays the Gender (Male / Female)
• Population: The population of the gender in the Rabbit Lake township is shown in this column.
• % of Total Population: This column displays the percentage distribution of each gender as a proportion of Rabbit Lake township total population. Please note that the sum of all percentages may not equal one due to rounding of values.

Good to know

Margin of Error

Data in the dataset are based on the estimates and are subject to sampling variability and thus a margin of error. Neilsberg Research recommends using caution when presening these estimates in your research.

Custom data

If you do need custom data for any of your research project, report or presentation, you can contact our research staff at research@neilsberg.com for a feasibility of a custom tabulation on a fee-for-service basis.

Inspiration

Neilsberg Research Team curates, analyze and publishes demographics and economic data from a variety of public and proprietary sources, each of which often includes multiple surveys and programs. The large majority of Neilsberg Research aggregated datasets and insights is made available for free download at https://www.neilsberg.com/research/.

Recommended for further research

This dataset is a part of the main dataset for Rabbit Lake township Population by Race & Ethnicity. You can refer the same here

The highest population of rabbits in Russian farms was observed in 2015 at over *** million heads. Since then, the number of these animals decreased in the country's households, measuring at *** million rabbit heads in 2022.

PygmyRabbitOverallRange is an ESRI SDE Feature Class encompassing the observed and predicted range of a population of Pygmy Rabbit in Colorado. This information was derived from species experts. A variety of data capture techniques were used including implementation of the SmartBoard Interactive Whiteboard using stand-up, real-time digitizing at various scales (Cowardin, M., M. Flenner. March 2003. Maximizing Mapping Resources. GeoWorld 16(3):32-35). Various sources were referenced in developing these data including"Determining pygmy rabbit population demographics, habitat, and vertebrate associates at the edges of their geographic range Ana Davidson, Ph.D. Colorado Natural Heritage Program, Colorado State University", Mammals of Colorado, and CPW Scientific Collection data. Pygmy Rabbit is primarily associated with areas of tall, dense sagebrush (Artemisia spp.) cover, and are highly dependent on sagebrush to provide both food and shelter throughout the year. Their diet in the winter consists of up to 99 percent sagebrush. Burrows are typically found in relatively deep, loose soils of wind-borne or water-born origin. They occasionally make use of burrows abandoned by other species and as a result, may occur in areas of shallower or more compact soils that support sufficient shrub cover. This generalized graphic representation of species range data is provided for informational purposes only and has not been prepared for, nor is it suitable for, any type of legal, regulatory, or site specific planning purposes. These data are subject to errors and change. Users of the information displayed in this map service are strongly cautioned to verify all information and contact local CPW Biologists before making any decisions.These data were last updated in December 2019.

The global rabbit feed market is projected to reach a value of $587 million by 2033, exhibiting a CAGR of 4.3% during the forecast period of 2025-2033. This growth can be attributed to the increasing awareness about the health benefits of rabbit meat, rising consumer demand for convenient and nutritious food options, and favorable government regulations supporting rabbit farming. The market is expected to witness significant growth in emerging economies such as China, India, and Brazil, driven by expanding rabbit population and the growing demand for protein-rich diets. Key drivers for the rabbit feed market include the increasing demand for rabbit meat as a healthy and sustainable alternative to other meats, rising disposable income, expanding rabbit farming, and advancements in feed technology. However, the market also faces challenges such as price fluctuations in raw materials, disease outbreaks, and the availability of substitutes. The market is segmented by application into farm, house, and others, and by type into conventional and organic. In terms of region, North America is expected to hold a dominant share, followed by Europe and Asia Pacific.

The global rabbit restrainer market is projected to be valued at $528.1 million in 2025, exhibiting a Compound Annual Growth Rate (CAGR) of 2.8% from 2025 to 2033. This steady growth is driven by several factors. The increasing use of rabbits in biomedical research necessitates safe and effective restraint methods, fueling demand for specialized equipment. Furthermore, advancements in veterinary practices and the rising number of rabbits as pets are contributing to market expansion. The market is segmented by application (laboratory, veterinary clinic, others) and type (acrylic, stainless steel, others). Laboratory applications currently dominate the market share due to the high volume of research activities involving rabbits. However, the veterinary clinic segment is anticipated to witness significant growth in the coming years, driven by the increasing pet rabbit population and the need for safe handling during routine checkups and treatments. Stainless steel restrainers, preferred for their durability and ease of sterilization, hold a substantial market share, while acrylic restrainers cater to specific research and veterinary applications. Regional analysis indicates a strong presence in North America and Europe, primarily due to established research infrastructure and high animal welfare standards. However, Asia-Pacific is expected to showcase considerable growth potential over the forecast period driven by expanding research activities and a growing pet rabbit population. Competitive dynamics involve several key players such as Plas-Labs, Inc., Harvard Apparatus, and Orchid Scientific, each vying for market share with varying product offerings and technological advancements. The steady CAGR reflects a stable yet incremental growth trajectory, indicating a consistent demand for rabbit restrainers across various sectors. Future growth hinges on technological advancements offering enhanced animal welfare, improved ease of use, and greater cost-effectiveness. Regulations concerning animal welfare will continue to influence the design and adoption of rabbit restrainers, pushing manufacturers towards more humane and efficient solutions. The increasing awareness of responsible pet ownership and advancements in veterinary care further underpin the long-term prospects of this market. The market's segmentation allows for specialized product development targeting different user needs and further contributes to the overall growth.

The estimated number of small mammals owned by households in the United Kingdom has fluctuated since 2010. As of 2023, the UK small mammal pet population measured approximately *** million, an decrease from the previous year.

Additional file 1. Full pipeline with all the metabolomic analyses.

The global pet rabbit medication market is experiencing steady growth, driven by increasing pet ownership, rising awareness of rabbit healthcare, and the growing availability of specialized veterinary services. While precise market sizing data is unavailable, considering the overall pet pharmaceutical market's expansion and the increasing humanization of pets, a reasonable estimate for the 2025 market size would be around $500 million USD. This projection considers the relatively smaller rabbit population compared to dogs and cats, but acknowledges the dedicated niche for rabbit-specific medications. The Compound Annual Growth Rate (CAGR) is likely to remain robust at around 5-7% during the forecast period (2025-2033), fueled by advancements in rabbit-specific drug formulations and the increasing demand for preventative healthcare. Key segments driving growth include dermatological sprays for skin conditions common in rabbits, cold medications to address respiratory issues, and antidiarrheal treatments for digestive problems. Online sales channels are anticipated to witness faster growth compared to traditional offline veterinary clinics, reflecting broader e-commerce trends in pet supplies and medication. Geographic regions with higher pet ownership rates and greater disposable incomes, such as North America and Europe, are expected to hold significant market share, while emerging markets in Asia-Pacific show potential for future expansion as pet ownership continues to increase. However, potential restraints include the relatively smaller target market compared to other companion animals, the cost of specialized rabbit medications, and the regulatory hurdles associated with new drug approvals for this niche market. The competitive landscape is characterized by a mix of large multinational pharmaceutical companies such as Boehringer Ingelheim, Bayer, and Zoetis alongside smaller, specialized animal health companies. These companies are actively engaged in research and development to improve existing medications and create innovative new treatments for rabbits, further stimulating market growth. Strategic partnerships, mergers and acquisitions, and the introduction of advanced drug delivery systems will be key competitive strategies in this evolving market. Focusing on specific therapeutic areas, such as novel approaches to treating common rabbit ailments like dental disease and overgrown teeth, will provide opportunities for differentiation and expansion within this niche market.

The global Experimental Rabbit Breeding Feed market is projected to reach USD XX million by 2033, exhibiting a CAGR of XX% during the forecast period 2025-2033. The market growth is attributed to the increasing adoption of rabbits as pets and the growing demand for high-quality rabbit feed. The rising awareness about the nutritional needs of rabbits is also driving the market growth. The market is segmented based on Application into Scale Breeding, Individual Feeding, and Type into Full Price Rabbit Food, Baby Rabbit Food, and region into North America, South America, Europe, Middle East & Africa, and Asia Pacific. North America and Europe are the major markets for experimental rabbit breeding feed due to the high adoption of rabbits as pets and the presence of leading manufacturers in these regions. The Asia Pacific region is expected to be the fastest-growing market due to the increasing demand for rabbit meat and the growing population of rabbits in the region. The market is dominated by a few major players, including ADM Animal Nutrition, Hubbard Feeds, Purina Mills, Jiangsu Synergetic Pharmaceutical Bioengineering, and Wuhan Wanqian Jiaxing Biotechnology. These companies are focused on expanding their market share through new product launches, acquisitions, and partnerships.

Additional file 2: Table S1. Results of the Bayesian statistical analysis. The file includes (from left to right) the metabolite ID, posterior mean of the differences among the resilient and non-resilient rabbit populations (meanDiff), the probability of the difference being higher (if the difference is positive) or lower (if negative) than 0 (P0), the highest posterior interval density of 95% (HPD95), the chemical name of the metabolites and the general and specific pathways in which they are involved, the posterior error probability (PEP), the cumulative PEP, the metabolites identified by the Bayesian analysis (Bayes), the metabolites identified by the PLS-DA (PLS), and the biological origin determined for each metabolite.

This statistic shows the estimated percentage of households owning rabbits in the United Kingdom (UK) from 2011 to 2024. According to the pet population survey, approximately *** percent of households in the UK owned a rabbit in 2024.

The TGB Osborn Vegetation Reserve (or Koonamore Vegetation Reserve (KVR)) is a protected area on Koonamore Station which has been fenced off from grazing since the mid 1920's. In 1925, Professor Theodore George Bentley (TGB) Osborn and his colleagues established a vegetation reserve by fencing off 400 ha of a badly overgrazed portion of the Koonamore station to study the process of recovery of vegetation in the arid zone of South Australia after the removal of grazing pressure. The fence was established to initially keep sheep and later also rabbits from the reserve and allow vegetation regeneration. The resulting long-term vegetation monitoring project at Koonamore is now over 80 years old, making it one of the longest-running monitoring series of its type in the world.; Reserve History: In the mid 1920's Professor TGB Osborn and his colleagues extended their interests in ecology and field physiology of vegetation to the arid zone of South Australia. In 1892 Dixon had warned the Royal Society of South Australia of serious degradation of the soils and vegetation resulting from pastoralism and other alien influences in the region. Equally important to the origin of KVR was the new theory of vegetation succession derived from North American work early in the century. Osborn was particularly concerned with the question as to whether overgrazing by domestic and feral herbivores would result in return of the original vegetation via recognisable 'seral' stages, or whether the changes were ?artificial, mere destructions and as such outside the ecologist's proper field?. Although the concepts of 'succession' and the scope of ecology have developed and changed much since that time, nevertheless it was interest in 'succession to climax' that gave the initial impetus to KVR and many other long-term vegetation studies from that time. The theory of vegetation succession gave rise to the permanent charted quadrat as a technique for observing vegetation change. An extensive series of permanent quadrats was set up on KVR and supplemented by a series of fixed photopoints, in order to pursue the first aim. Although some of these were allowed to lapse within five years, many others were sampled more or less regularly, some almost annually up to the present. Several early publications reviewing the progress of vegetation change resulted. Nothing was done towards the second aim but autecological and population dynamics studies are still being carried out, based on KVR and its records. The Bibliography contains a complete listing of research publications arising from work done on the Reserve. Much of the continuity of the earlier records is due to the efforts of Miss Constance Eardley, who while a lecturer in the Department of Botany, organised annual visits of students and staff to take records and maintain KVR. However, after 1950 the rate of sampling had begun to decline and in the mid 1960's ceased altogether for a period of several years. In the 1970's Dr Russell Sinclair reactivated the recording programme and also began a sustained effort at rabbit control. Although the Reserve was originally fenced with rabbit-proof netting, the rabbits were never eradicated and the population has fluctuated greatly with the seasons. Beginning in 1975, numbers have been kept very low by careful annual inspection and control. Since that time there has been marked seedling establishment of several tree and shrub species which showed little previous regeneration. The Reserve records now contain a history of the vegetation over 50 years without sheep grazing followed by over 30 years without significant grazing by either sheep or rabbits. Kangaroos and emus have never been excluded from the Reserve, as they can jump the fence, and their numbers vary with the seasons. The monitoring work at KVR and the curation of its records is continuing under the direction of Dr Sinclair. The Reserve is also used for post-graduate study and complements the arid-zone research interests of Environmental Biology at the Middleback Field Sation near Whyalla.; Site Description: The Reserve is located in the centre of Koonamore Station, a sheep-grazing lease 400 km north-east of Adelaide, South Australia (Lat. 32º07'S, Long. 139º20'E) in predominantly chenopod shrubland with mean annual rainfall of about 200mm. The area consists of a complex of low sand dunes alternating with sand plain and harder loam soils with travertine limestone on the intervening flats. The tree cover is a low open woodland formation. The sand dunes carry Acacia aneura (mulga), A. burkittii and Eremophila spp., the sand plain a dense stand of Casuarina pauper (blackoak, belah), and the harder loam soils a mixed community of Myoporum platycarpum (false sandalwood) and Alectryon oleifolius (bullock bush, rosewood). Understorey shrubs, which also form low chenopod shrubland communities in some areas, include Atriplex vesicaria (bladder saltbush), A. stipitata and Maireana sedifolia (bluebush). Numerous other chenopodiaceous shrubs also occur, and grass and ephemeral herb cover varies with the seasons. Several species of Senna, Eremophila and other shrubs also occur.; Monitoring activities: Some or all of the following monitoring activities are carried out during visits to the TGB Osborn Vegetation Reserve: Vegetation Quadrats, Photopoints, Senna Quadrat (Cassia Corner), Myoporum platycarpum Plants, Saltbush Transects, Senna Populations, Kangaroo Transects, Rabbit Activity Monitoring and Control.; Rabbit Activity Monitoring and Control: For each visit to the TGB Osborn Vegetation Reserve, a group of 3 or 4 observers walk the whole reserve in strips, identifying rabbit warrens. Each encountered warren is marked on a reserve map, fumigated and filled in. A rabbit warren count for each monitored quadrat along the strips as well as the total number is recorded.

About this dataset

Context

The dataset tabulates the Rabbit Lake township population over the last 20 plus years. It lists the population for each year, along with the year on year change in population, as well as the change in percentage terms for each year. The dataset can be utilized to understand the population change of Rabbit Lake township across the last two decades. For example, using this dataset, we can identify if the population is declining or increasing. If there is a change, when the population peaked, or if it is still growing and has not reached its peak. We can also compare the trend with the overall trend of United States population over the same period of time.

Key observations

In 2023, the population of Rabbit Lake township was 336, a 0.90% increase year-by-year from 2022. Previously, in 2022, Rabbit Lake township population was 333, an increase of 0.91% compared to a population of 330 in 2021. Over the last 20 plus years, between 2000 and 2023, population of Rabbit Lake township decreased by 11. In this period, the peak population was 447 in the year 2009. The numbers suggest that the population has already reached its peak and is showing a trend of decline. Source: U.S. Census Bureau Population Estimates Program (PEP).

Content

When available, the data consists of estimates from the U.S. Census Bureau Population Estimates Program (PEP).

Data Coverage:

• From 2000 to 2023

Variables / Data Columns

• Year: This column displays the data year (Measured annually and for years 2000 to 2023)
• Population: The population for the specific year for the Rabbit Lake township is shown in this column.
• Year on Year Change: This column displays the change in Rabbit Lake township population for each year compared to the previous year.
• Change in Percent: This column displays the year on year change as a percentage. Please note that the sum of all percentages may not equal one due to rounding of values.

Good to know

Margin of Error

Data in the dataset are based on the estimates and are subject to sampling variability and thus a margin of error. Neilsberg Research recommends using caution when presening these estimates in your research.

Custom data

If you do need custom data for any of your research project, report or presentation, you can contact our research staff at research@neilsberg.com for a feasibility of a custom tabulation on a fee-for-service basis.

Inspiration

Neilsberg Research Team curates, analyze and publishes demographics and economic data from a variety of public and proprietary sources, each of which often includes multiple surveys and programs. The large majority of Neilsberg Research aggregated datasets and insights is made available for free download at https://www.neilsberg.com/research/.

Recommended for further research

This dataset is a part of the main dataset for Rabbit Lake township Population by Year. You can refer the same here

Rabbit Polyclonal Antibodies Market Outlook

The global Rabbit Polyclonal Antibodies market size was valued at approximately USD 500 million in 2023 and is expected to reach around USD 900 million by 2032, growing at a CAGR of 6.5% during the forecast period. The market's growth is driven by various factors including the increasing adoption of rabbit polyclonal antibodies in research, diagnostics, and therapeutics, and the rising prevalence of chronic diseases that necessitate advanced diagnostic and therapeutic tools.

One of the significant growth factors for the Rabbit Polyclonal Antibodies market is the increasing investment in research and development within the life sciences sector. As pharmaceutical and biotechnology companies continue to invest heavily in R&D to discover novel drugs and therapies, the demand for rabbit polyclonal antibodies, which are essential tools in various experimental protocols, is expected to surge. Rabbit polyclonal antibodies are particularly valued for their ability to recognize multiple epitopes on a given antigen, making them versatile and useful in diverse research applications.

Another pivotal growth factor is the rise in the prevalence of chronic diseases, such as cancer, diabetes, and cardiovascular diseases, which require advanced diagnostic tools for early detection and treatment. Rabbit polyclonal antibodies play a crucial role in diagnostic applications due to their high affinity and specificity. Diagnostic assays utilizing these antibodies are increasingly being adopted in clinical settings, thereby driving market growth. Furthermore, the aging global population and the associated increase in age-related diseases further amplify the need for advanced diagnostics and therapeutics, consequently boosting the market.

The burgeoning biotechnology sector also significantly contributes to the market's growth. Biotechnology companies are utilizing rabbit polyclonal antibodies for various applications, including drug development and therapeutic interventions. The antibodies' high sensitivity and broad applicability make them indispensable in the development of biopharmaceuticals. Additionally, the growing trend of personalized medicine, which relies on specific biomarkers for targeted therapy, underscores the importance of high-quality antibodies in therapeutic applications.

In recent years, the development and application of Recombinant Antibodies Rabs have gained significant attention in the field of biotechnology and pharmaceuticals. These antibodies are engineered through recombinant DNA technology, allowing for the production of highly specific and consistent antibody products. Unlike traditional polyclonal antibodies, Recombinant Antibodies Rabs offer enhanced specificity and reduced batch-to-batch variability, making them ideal for a wide range of research and diagnostic applications. Their ability to be tailored to recognize specific antigens with high precision is particularly advantageous in the development of targeted therapies and personalized medicine, where precision and reliability are paramount.

From a regional perspective, North America dominates the Rabbit Polyclonal Antibodies market, attributed to the presence of advanced healthcare infrastructure, substantial R&D investments, and a strong biotechnology industry. However, the Asia Pacific region is anticipated to witness the highest growth rate, driven by the expanding healthcare sector, increasing R&D activities, and the rising prevalence of chronic diseases. The favorable government initiatives supporting biotechnology and pharmaceutical research in countries like China and India also foster market growth in this region.

Product Type Analysis

The Rabbit Polyclonal Antibodies market can be segmented based on product type into primary antibodies and secondary antibodies. Primary antibodies are those that directly bind to the antigen of interest, whereas secondary antibodies are used to detect the primary antibodies. Primary antibodies form a significant portion of the market due to their direct application in identifying specific antigens in research, diagnostics, and therapeutic contexts. They are widely used in techniques such as ELISA, Western blotting, and immunohistochemistry, where their specificity and sensitivity are crucial.

The population of small mammals kept as pets in India amounted to over 64 thousand in the year 2021. The population was forecast to reach around 66 thousand by the end of year 2026. Some of the popular mammals kept as pets in India are hamsters, guinea pigs and mice and rabbits.

The world's annual output of rabbits is over 1.2 billion, therefore this sector is also one of the sources of greenhouse gases in livestock production. One hundred-twenty New Zealand rabbits were allocated into four treatments, five replicates in each treatment and six rabbits in each replicate to examine the effect of grinding alfalfa hay to different sizes on growth performance, methane production and cecal archaeal populations. The particle sizes of the alfalfa meal in the four treatment diets were 2500, 1000, 100 and 10 μm, while the other ingredients were ground through a 2.5 mm sieve. The average daily gain (ADG) and average daily feed intake (ADFI) increased (P

According to an online survey conducted in 2024, it was estimated that 13.5 million dogs and 12.5 million cats were living in UK homes in that year. In addition, the pet population in the United Kingdom also included around 1.3 million indoor birds and 1 million rabbits. Expenditure on pets in the UK In 2021, consumers spent over 9.6 billion British pounds on pets and related products in the United Kingdom, almost double the pet expenditure levels ten years prior, when pet owners in the UK spent a total of 5.13 billion British pounds in 2011. Since dogs and cats were the most common pet animals in UK homes, dog food and cat food were also the most valuable segment in the pet market in the UK. For instance, the UK dry dog food market was valued at 576 million British pounds. Pets at Home Pets at Home is a British pet supplies retailer operating more than 452 stores in the United Kingdom. It is one of the leading pet retailers in Europe, with an annual turnover of 948 million euros in 2019. Pets at Home revenue amounted to more than 1.14 billion British pounds in 2021. Over the last decade, the British pet retailer witnessed its revenues increase every year from a figure of approximately 517 million British pounds generated in 2011.

The TGB Osborn Vegetation Reserve (or Koonamore Vegetation Reserve (KVR)) is a protected area on Koonamore Station which has been fenced off from grazing since the mid 1920's. In 1925, Professor Theodore George Bentley (TGB) Osborn and his colleagues established a vegetation reserve by fencing off 400 ha of a badly overgrazed portion of the Koonamore station to study the process of recovery of vegetation in the arid zone of South Australia after the removal of grazing pressure. The fence was established to initially keep sheep and later also rabbits from the reserve and allow vegetation regeneration. The resulting long-term vegetation monitoring project at Koonamore is now over 80 years old, making it one of the longest-running monitoring series of its type in the world.; Reserve History: In the mid 1920's Professor TGB Osborn and his colleagues extended their interests in ecology and field physiology of vegetation to the arid zone of South Australia. In 1892 Dixon had warned the Royal Society of South Australia of serious degradation of the soils and vegetation resulting from pastoralism and other alien influences in the region. Equally important to the origin of KVR was the new theory of vegetation succession derived from North American work early in the century. Osborn was particularly concerned with the question as to whether overgrazing by domestic and feral herbivores would result in return of the original vegetation via recognisable 'seral' stages, or whether the changes were ?artificial, mere destructions and as such outside the ecologist's proper field?. Although the concepts of 'succession' and the scope of ecology have developed and changed much since that time, nevertheless it was interest in 'succession to climax' that gave the initial impetus to KVR and many other long-term vegetation studies from that time. The theory of vegetation succession gave rise to the permanent charted quadrat as a technique for observing vegetation change. An extensive series of permanent quadrats was set up on KVR and supplemented by a series of fixed photopoints, in order to pursue the first aim. Although some of these were allowed to lapse within five years, many others were sampled more or less regularly, some almost annually up to the present. Several early publications reviewing the progress of vegetation change resulted. Nothing was done towards the second aim but autecological and population dynamics studies are still being carried out, based on KVR and its records. The Bibliography contains a complete listing of research publications arising from work done on the Reserve. Much of the continuity of the earlier records is due to the efforts of Miss Constance Eardley, who while a lecturer in the Department of Botany, organised annual visits of students and staff to take records and maintain KVR. However, after 1950 the rate of sampling had begun to decline and in the mid 1960's ceased altogether for a period of several years. In the 1970's Dr Russell Sinclair reactivated the recording programme and also began a sustained effort at rabbit control. Although the Reserve was originally fenced with rabbit-proof netting, the rabbits were never eradicated and the population has fluctuated greatly with the seasons. Beginning in 1975, numbers have been kept very low by careful annual inspection and control. Since that time there has been marked seedling establishment of several tree and shrub species which showed little previous regeneration. The Reserve records now contain a history of the vegetation over 50 years without sheep grazing followed by over 30 years without significant grazing by either sheep or rabbits. Kangaroos and emus have never been excluded from the Reserve, as they can jump the fence, and their numbers vary with the seasons. The monitoring work at KVR and the curation of its records is continuing under the direction of Dr Sinclair. The Reserve is also used for post-graduate study and complements the arid-zone research interests of Environmental Biology at the Middleback Field Sation near Whyalla.; Site Description: The Reserve is located in the centre of Koonamore Station, a sheep-grazing lease 400 km north-east of Adelaide, South Australia (Lat. 32º07'S, Long. 139º20'E) in predominantly chenopod shrubland with mean annual rainfall of about 200mm. The area consists of a complex of low sand dunes alternating with sand plain and harder loam soils with travertine limestone on the intervening flats. The tree cover is a low open woodland formation. The sand dunes carry Acacia aneura (mulga), A. burkittii and Eremophila spp., the sand plain a dense stand of Casuarina pauper (blackoak, belah), and the harder loam soils a mixed community of Myoporum platycarpum (false sandalwood) and Alectryon oleifolius (bullock bush, rosewood). Understorey shrubs, which also form low chenopod shrubland communities in some areas, include Atriplex vesicaria (bladder saltbush), A. stipitata and Maireana sedifolia (bluebush). Numerous other chenopodiaceous shrubs also occur, and grass and ephemeral herb cover varies with the seasons. Several species of Senna, Eremophila and other shrubs also occur.; Monitoring activities: Some or all of the following monitoring activities are carried out during visits to the TGB Osborn Vegetation Reserve: Vegetation Quadrats, Photopoints, Senna Quadrat (Cassia Corner), Myoporum platycarpum Plants, Saltbush Transects, Senna Populations, Kangaroo Transects, Rabbit Activity Monitoring and Control.; Senna Populations: Many very young Senna seedlings were identified close to the Northern boundary of the TGB Osborn Vegetation Reserve, both inside and outside of the reserve in 1997. To study the effects of grazing on these seedlings outside the reserve, three populations were identified and measured to the north of the fence, and a fourth population just south of the fence, i.e. on the reserve. Different fencing treatments were applied to the plants outside the reserve fence. One was protected from sheep, the second from both sheep and rabbits, the third left unprotected. The population inside the reserve was assumed to be protected from all grazing by the reserve fence. Plants were given numbers, marked on roofing nails in the ground beside the plant, and mapped on chart cards.

About this dataset

Context

The dataset tabulates the data for the Rabbit Lake Township, Minnesota population pyramid, which represents the Rabbit Lake township population distribution across age and gender, using estimates from the U.S. Census Bureau American Community Survey (ACS) 2019-2023 5-Year Estimates. It lists the male and female population for each age group, along with the total population for those age groups. Higher numbers at the bottom of the table suggest population growth, whereas higher numbers at the top indicate declining birth rates. Furthermore, the dataset can be utilized to understand the youth dependency ratio, old-age dependency ratio, total dependency ratio, and potential support ratio.

Key observations

• Youth dependency ratio, which is the number of children aged 0-14 per 100 persons aged 15-64, for Rabbit Lake Township, Minnesota, is 18.8.
• Old-age dependency ratio, which is the number of persons aged 65 or over per 100 persons aged 15-64, for Rabbit Lake Township, Minnesota, is 70.8.
• Total dependency ratio for Rabbit Lake Township, Minnesota is 89.6.
• Potential support ratio, which is the number of youth (working age population) per elderly, for Rabbit Lake Township, Minnesota is 1.4.

Content

When available, the data consists of estimates from the U.S. Census Bureau American Community Survey (ACS) 2019-2023 5-Year Estimates.

Age groups:

• Under 5 years
• 5 to 9 years
• 10 to 14 years
• 15 to 19 years
• 20 to 24 years
• 25 to 29 years
• 30 to 34 years
• 35 to 39 years
• 40 to 44 years
• 45 to 49 years
• 50 to 54 years
• 55 to 59 years
• 60 to 64 years
• 65 to 69 years
• 70 to 74 years
• 75 to 79 years
• 80 to 84 years
• 85 years and over

Variables / Data Columns

• Age Group: This column displays the age group for the Rabbit Lake township population analysis. Total expected values are 18 and are define above in the age groups section.
• Population (Male): The male population in the Rabbit Lake township for the selected age group is shown in the following column.
• Population (Female): The female population in the Rabbit Lake township for the selected age group is shown in the following column.
• Total Population: The total population of the Rabbit Lake township for the selected age group is shown in the following column.

Good to know

Margin of Error

Data in the dataset are based on the estimates and are subject to sampling variability and thus a margin of error. Neilsberg Research recommends using caution when presening these estimates in your research.

Custom data

If you do need custom data for any of your research project, report or presentation, you can contact our research staff at research@neilsberg.com for a feasibility of a custom tabulation on a fee-for-service basis.

Inspiration

Neilsberg Research Team curates, analyze and publishes demographics and economic data from a variety of public and proprietary sources, each of which often includes multiple surveys and programs. The large majority of Neilsberg Research aggregated datasets and insights is made available for free download at https://www.neilsberg.com/research/.

Recommended for further research

This dataset is a part of the main dataset for Rabbit Lake township Population by Age. You can refer the same here