As it harbors some of the most important tourist destinations in the country, the number of people living in Yucatán has been growing throughout the past decade, reaching over 2.37 million inhabitants in 2022.

Mexico Population: Male: Yucatan data was reported at 1,082.457 Person th in 2018. This records an increase from the previous number of 1,070.193 Person th for 2017. Mexico Population: Male: Yucatan data is updated yearly, averaging 756.811 Person th from Dec 1970 (Median) to 2018, with 49 observations. The data reached an all-time high of 1,082.457 Person th in 2018 and a record low of 397.437 Person th in 1970. Mexico Population: Male: Yucatan data remains active status in CEIC and is reported by National Population Council. The data is categorized under Global Database’s Mexico – Table MX.G002: Population: by State.

Mexico Population: Yucatan data was reported at 2,195.272 Person th in 2018. This records an increase from the previous number of 2,169.134 Person th for 2017. Mexico Population: Yucatan data is updated yearly, averaging 1,520.523 Person th from Dec 1970 (Median) to 2018, with 49 observations. The data reached an all-time high of 2,195.272 Person th in 2018 and a record low of 793.797 Person th in 1970. Mexico Population: Yucatan data remains active status in CEIC and is reported by National Population Council. The data is categorized under Global Database’s Mexico – Table MX.G002: Population: by State.

About this dataset

Context

The dataset tabulates the Yucatan 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 Yucatan 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 Yucatan township was 324, a 0.61% decrease year-by-year from 2022. Previously, in 2022, Yucatan township population was 326, a decline of 0.61% compared to a population of 328 in 2021. Over the last 20 plus years, between 2000 and 2023, population of Yucatan township decreased by 29. In this period, the peak population was 360 in the year 2007. 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 Yucatan township is shown in this column.
• Year on Year Change: This column displays the change in Yucatan 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 Yucatan township Population by Year. You can refer the same here

About this dataset

Context

The dataset tabulates the Yucatan township population by age cohorts (Children: Under 18 years; Working population: 18-64 years; Senior population: 65 years or more). It lists the population in each age cohort group along with its percentage relative to the total population of Yucatan township. The dataset can be utilized to understand the population distribution across children, working population and senior population for dependency ratio, housing requirements, ageing, migration patterns etc.

Key observations

The largest age group was 18 to 64 years with a poulation of 173 (54.92% of the total population). 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.

Age cohorts:

• Under 18 years
• 18 to 64 years
• 65 years and over

Variables / Data Columns

• Age Group: This column displays the age cohort for the Yucatan township population analysis. Total expected values are 3 groups ( Children, Working Population and Senior Population).
• Population: The population for the age cohort in Yucatan township is shown in the following column.
• Percent of Total Population: The population as a percent of total population of the Yucatan township 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 Yucatan township Population by Age. You can refer the same here

Mexico Average Years in School: Population: 15 Years & Above: Male: Yucatan data was reported at 9.720 Year in 2020. This records an increase from the previous number of 9.030 Year for 2015. Mexico Average Years in School: Population: 15 Years & Above: Male: Yucatan data is updated yearly, averaging 8.720 Year from Dec 2000 (Median) to 2020, with 4 observations. The data reached an all-time high of 9.720 Year in 2020 and a record low of 7.150 Year in 2000. Mexico Average Years in School: Population: 15 Years & Above: Male: Yucatan data remains active status in CEIC and is reported by National Institute of Statistics and Geography. The data is categorized under Global Database’s Mexico – Table MX.G016: Education Statistics: Age 15 and Above.

Original provider: Eduardo Cuevas Dataset credits: Data provider Grupo de trabajo para la tortuga carey (Mexico) Originating data center Satellite Tracking and Analysis Tool (STAT) Project partner This study represents a collaboration between the Instituto de Ciencias del Mar y Limnologia (UNAM), ProNatura Peninsula de Yucatan, Comision Nacional de Areas Naturales Protegidas (SEMARNAT), Laguna de Terminos- Area de Proteccion de Flora y Fauna, Chelonia Inc (Puerto Rico), and NOAA. Project sponsor or sponsor description This project (CAMP-2005-C01-046) is financed jointly by the Campeche State Government and the Mexican National Science and Technology Council (CONACYT). Further support from NOAA, which we thankfully acknowledge, has permitted us to extend the scope of the initial project. Abstract: The hawksbill population that nests in the Yucatan Peninsula (Mexico) is considered the largest in the Atlantic and one of the four largest in the world. However, from about 6,400 registered annual number of nests in 1999 (when the Mexican population represented about 43% of all recorded hawksbill nests in the Greater Caribbean), the population's reproductive output dropped to less than 2,400 nests/yr by 2004. No single cause has been demonstrated but as major nesting sites are under protection this alarming decline (a drop of 63% in 5 years) is suspected to be associated with threats impacting the species at foraging grounds or migratory routes. Unfortunately not only has there been no capacity to study and protect these habitats but, with the exception of studies by Byles and Swimmer (1994) and Garduño et al. (2003), there is also insufficient information on the routes taken and foraging destinations for the various rookeries in the region. To address these issues, the current satellite tracking project was instrumented to reveal the post-nesting migratory behavior of hawksbills in the Yucatan Peninsula, starting in 2006 with animals nesting in Campeche State, where about 50% of the reproductive output by the species in the whole Peninsula is concentrated.

Knowledge on the migratory routes and foraging sites will be helpful in identifying and mitigating potential threats in the marine habitats and for the establishment of research programs on the status of the habitats themselves. Furthermore, discovering whether or not these lie within or outside Mexican territorial waters has important consequences for the management strategies. If they are inside, the responsibility for addressing the hawksbills' conservation needs is totally Mexico's. If, on the other hand, some or all of the turtles cross into international waters or into other countries' jurisdictions it would indicate an internationally shared responsibility.

Future studies by the group will be directed towards tracking hawksbills nesting in the two other sates using similar techniques and learning from the lessons obtained from this season's experience.

Literature cited
Byles, R. A. and Swimmer, Y. B. 1994. Post-nesting migration of Eretmocheyls imbricata in the Yucatán Península. In: K. A. Bjorndal, A. B. Bolten, D. A. Johnson and P. J. Eliazar (compilers). 1994. Proc. Fourteenth Ann. Symp. Sea Turtle Biol. and Cons. NMFS-SEFSC-351. p. 202.

Garduño-Andrade, M., Schroeder, B. Balazs, G. and Lope, R. 2003. Migration and dive behavior of female hawksbills (Eretmochelys imbricata) in the Yucatan Peninsula. In: Seminoff, J. A. Compiler, Proceedings of the Twenty-Second Annual Symposium on Sea Turtle Biology and Conservation. NOAA Technical Memorandum NMFS-SEFSC-503, p. 285 This dataset is a summarized representation of the telemetry locations aggregated per species per 1-degree cell.

About this dataset

Context

The dataset tabulates the data for the Yucatan Township, Minnesota population pyramid, which represents the Yucatan 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 Yucatan Township, Minnesota, is 34.1.
• Old-age dependency ratio, which is the number of persons aged 65 or over per 100 persons aged 15-64, for Yucatan Township, Minnesota, is 41.9.
• Total dependency ratio for Yucatan Township, Minnesota is 76.0.
• Potential support ratio, which is the number of youth (working age population) per elderly, for Yucatan Township, Minnesota is 2.4.

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 Yucatan township population analysis. Total expected values are 18 and are define above in the age groups section.
• Population (Male): The male population in the Yucatan township for the selected age group is shown in the following column.
• Population (Female): The female population in the Yucatan township for the selected age group is shown in the following column.
• Total Population: The total population of the Yucatan 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 Yucatan township Population by Age. You can refer the same here

As the world faces unprecedented ecological and social changes, there is a need to better understand the complex dynamics of social-ecological systems (SES) and the mechanisms that underlie their resilience. In Mexico, Natural Protected Areas (NPAs) constitute complex SES as they are generally established on territories that different peoples have historically inhabited and managed. They generally manage their resources following a multiple use strategy (MUS), which involves local traditional agricultural practices and has been proposed as a resilience-enhancing mechanism. In this paper we study the MUS as practiced by the Yucatec Maya communities that inhabit the NPA Otoch Ma'ax Yetel Kooh and its buffer zone in the Yucatan Peninsula, Mexico. Due to the restrictions imposed by the decree of the reserve and the growth of tourism in the region, some of these communities have started to abandon the MUS and specialize on tourism-related activities. To study the consequences of these changes and to better understand the mechanisms by which the MUS may enhance the resilience of this SES, we built an evidence-based dynamical computational model that allows us to explore different virtual scenarios. The model, through the incorporation of agent-based and boolean network modeling, explores the interaction between the forest, the monkey population and some productive activities done by the households (milpa agriculture, ecotourism, agriculture, charcoal production). We calibrated the model, explored its sensibility, compared it with empirical data and simulated different management scenarios. Our results support the hypothesis that the MUS enhances the resilience of this SES in terms of income and food availability, as it increases the system's response diversity and functional redundancy, thus reducing income variability and increasing the resistance to natural and anthropogenic disturbances. We also identify other possible mechanisms related with the MUS that provide a more nuanced understanding of the resilience of this SES. Our study, in addition to highlighting the importance of local management practices for resilience, also puts forward a novel integration of diverse mathematical formalisms and illustrates how computational modeling and a systems perspective are effective means of integrating and synthesizing information from different sources.

Original provider: Eduardo Cuevas

Dataset credits: Data provider Grupo de trabajo para la tortuga carey (Mexico) Originating data center Satellite Tracking and Analysis Tool (STAT) Project partner This study represents a collaboration between the Instituto de Ciencias del Mar y Limnologia (UNAM), ProNatura Peninsula de Yucatan, Comision Nacional de Areas Naturales Protegidas (SEMARNAT), Laguna de Terminos- Area de Proteccion de Flora y Fauna, Chelonia Inc (Puerto Rico), and NOAA. Project sponsor or sponsor description This project (CAMP-2005-C01-046) is financed jointly by the Campeche State Government and the Mexican National Science and Technology Council (CONACYT). Further support from NOAA, which we thankfully acknowledge, has permitted us to extend the scope of the initial project.

Abstract: The hawksbill population that nests in the Yucatan Peninsula (Mexico) is considered the largest in the Atlantic and one of the four largest in the world. However, from about 6,400 registered annual number of nests in 1999 (when the Mexican population represented about 43% of all recorded hawksbill nests in the Greater Caribbean), the population's reproductive output dropped to less than 2,400 nests/yr by 2004. No single cause has been demonstrated but as major nesting sites are under protection this alarming decline (a drop of 63% in 5 years) is suspected to be associated with threats impacting the species at foraging grounds or migratory routes. Unfortunately not only has there been no capacity to study and protect these habitats but, with the exception of studies by Byles and Swimmer (1994) and Garduño et al. (2003), there is also insufficient information on the routes taken and foraging destinations for the various rookeries in the region. To address these issues, the current satellite tracking project was instrumented to reveal the post-nesting migratory behavior of hawksbills in the Yucatan Peninsula, starting in 2006 with animals nesting in Campeche State, where about 50% of the reproductive output by the species in the whole Peninsula is concentrated.

Knowledge on the migratory routes and foraging sites will be helpful in identifying and mitigating potential threats in the marine habitats and for the establishment of research programs on the status of the habitats themselves. Furthermore, discovering whether or not these lie within or outside Mexican territorial waters has important consequences for the management strategies. If they are inside, the responsibility for addressing the hawksbills' conservation needs is totally Mexico's. If, on the other hand, some or all of the turtles cross into international waters or into other countries' jurisdictions it would indicate an internationally shared responsibility.

Future studies by the group will be directed towards tracking hawksbills nesting in the two other sates using similar techniques and learning from the lessons obtained from this season's experience.

Literature cited
Byles, R. A. and Swimmer, Y. B. 1994. Post-nesting migration of Eretmocheyls imbricata in the Yucatán Península. In: K. A. Bjorndal, A. B. Bolten, D. A. Johnson and P. J. Eliazar (compilers). 1994. Proc. Fourteenth Ann. Symp. Sea Turtle Biol. and Cons. NMFS-SEFSC-351. p. 202.

Garduño-Andrade, M., Schroeder, B. Balazs, G. and Lope, R. 2003. Migration and dive behavior of female hawksbills (Eretmochelys imbricata) in the Yucatan Peninsula. In: Seminoff, J. A. Compiler, Proceedings of the Twenty-Second Annual Symposium on Sea Turtle Biology and Conservation. NOAA Technical Memorandum NMFS-SEFSC-503, p. 285

Mexico Life Expectancy at Birth: Yucatan data was reported at 74.525 Year in 2018. This records an increase from the previous number of 74.410 Year for 2017. Mexico Life Expectancy at Birth: Yucatan data is updated yearly, averaging 71.565 Year from Dec 1970 (Median) to 2018, with 49 observations. The data reached an all-time high of 75.040 Year in 2006 and a record low of 57.815 Year in 1970. Mexico Life Expectancy at Birth: Yucatan data remains active status in CEIC and is reported by National Population Council. The data is categorized under Global Database’s Mexico – Table MX.G006: Life Expectancy at Birth: by State.

Additional file 1: Table S1. Detailed information of Triatoma dimidiata specimens included in this study.

The environmental variability at local scale results in different physiognomic types of mangrove forest. However, this variability has never been considered in studies of mangrove genetic variability. This study analyzed the genetic and morphological variability and structure of Rhizophora mangle at regional and local scales in the Yucatan Peninsula. Thirteen mangrove populations (eight scrub and five tall), located in seven sites, were sampled, and their morphological variability and relationship with the availability of phosphorus and salinity were analyzed. The diversity and genetic structure were estimated at different hierarchical levels with nine microsatellites, also Bayesian inference and Principal Coordinates Analysis were used. We found a great morphological variability of R. mangle that responded to local environmental variability and not to the precipitation gradient of the peninsula. The genetic diversity found in the peninsula was greater than that reported for other popul...

The hawksbill population that nests in the Yucatan Peninsula (Mexico) is considered the largest in the Atlantic and one of the four largest in the world. However, from about 6,400 registered annual number of nests in 1999 (when the Mexican population represented about 43% of all recorded hawksbill nests in the Greater Caribbean), the population's reproductive output dropped to less than 2,400 nests/yr by 2004. No single cause has been demonstrated but as major nesting sites are under protection this alarming decline (a drop of 63% in 5 years) is suspected to be associated with threats impacting the species at foraging grounds or migratory routes. Unfortunately not only has there been no capacity to study and protect these habitats but, with the exception of studies by Byles and Swimmer (1994) and Gardu et al. (2003), there is also insufficient information on the routes taken and foraging destinations for the various rookeries in the region. To address these issues, the current satellite tracking project was instrumented to reveal the post-nesting migratory behavior of hawksbills in the Yucatan Peninsula, starting in 2006 with animals nesting in Campeche State, where about 50% of the reproductive output by the species in the whole Peninsula is concentrated.

Knowledge on the migratory routes and foraging sites will be helpful in identifying and mitigating potential threats in the marine habitats and for the establishment of research programs on the status of the habitats themselves. Furthermore, discovering whether or not these lie within or outside Mexican territorial waters has important consequences for the management strategies. If they are inside, the responsibility for addressing the hawksbills' conservation needs is totally Mexico's. If, on the other hand, some or all of the turtles cross into international waters or into other countries' jurisdictions it would indicate an internationally shared responsibility.

Future studies by the group will be directed towards tracking hawksbills nesting in the two other sates using similar techniques and learning from the lessons obtained from this season's experience.

Literature cited -Byles, R. A. and Swimmer, Y. B. 1994. Post-nesting migration of Eretmocheyls imbricata in the Yucan Pen;nsula. In: K. A. Bjorndal, A. B. Bolten, D. A. Johnson and P. J. Eliazar (compilers). 1994. Proc. Fourteenth Ann. Symp. Sea Turtle Biol. and Cons. NMFS-SEFSC-351. p. 202. -Gardu;o-Andrade, M., Schroeder, B. Balazs, G. and Lope, R. 2003. Migration and dive behavior of female hawksbills (Eretmochelys imbricata) in the Yucatan Peninsula. In: Seminoff, J. A. Compiler, Proceedings of the Twenty-Second Annual Symposium on Sea Turtle Biology and Conservation. NOAA Technical Memorandum NMFS-SEFSC-503, p. 285

CURRENTNESS REFERENCE: ground condition

SPATIAL DATA ORGANIZATION INFORMATION Direct Spatial Reference: Vector

SPATIAL REFERENCE INFORMATION - GEODETIC MODEL Horizontal Datum Name: D_WGS_1984 Ellipsoid Name: WGS_1984 Semi-major Axis: 6378137.000000 Denominator of Flattening Ratio: 298.257224

NATIVE: Microsoft Windows 2000 Version 5.0 (Build 2195) Service Pack 4; ESRI ArcCatalog 9.1.0.722

Summary of whale shark (Rhincodon typus) conventional tagging off the northeastern Yucatan Peninsula.

Estimates of potential jaguar populations for both censuses relative to vegetation type and available suitable area for each region.

Summary data and statistics for the 2010 and 2018 jaguar censuses in Mexico.

The Asian citrus psyllid, Diaphorina citri Kuwayama, is native to Asia but has recently invaded North America. Asian citrus psyllid is a significant pest of citrus crops by its direct feeding but, more importantly, as the vector of the bacterium ‘Candidatus Liberibacter asiaticus’, which causes Huanglongbing disease. Asian citrus psyllid was first found in México in 2001 and 2002 and, since then, has spread quickly across the country, suggesting rapid adaptation to new environments. Yet, we lack information on the genetic variation and structure that could facilitate or inhibit adaptation. Using six microsatellite markers, we analyzed genetic variation and structure among six localities in México: three in western states near the Pacific coast and two in the Yucatán Peninsula near the Gulf of México. We found low genetic diversity (no more than three alleles per locus) and intermediate differentiation between all populations. Asian citrus psyllid populations clustered into two genetic groups, but, surprisingly, these clusters were present in western populations. The first group included El Arenal, and the second group included Autlán de Navarro, Colima, and Tecomán. Interestingly, both of the Yucatán populations shared variation from the two clusters, suggesting admixture. We infer that reproductive isolation, barriers to gene flow, local selection, and the possibility of multiple invasions have influenced the current genetic structure of Asian citrus psyllid in México.

Mexico Life Expectancy at Birth: Male: Yucatan data was reported at 71.440 Year in 2018. This records an increase from the previous number of 71.320 Year for 2017. Mexico Life Expectancy at Birth: Male: Yucatan data is updated yearly, averaging 68.860 Year from Dec 1970 (Median) to 2018, with 49 observations. The data reached an all-time high of 72.510 Year in 2006 and a record low of 55.710 Year in 1970. Mexico Life Expectancy at Birth: Male: Yucatan data remains active status in CEIC and is reported by National Population Council. The data is categorized under Global Database’s Mexico – Table MX.G006: Life Expectancy at Birth: by State.

In migratory stopover habitats, bird abundance and composition change on a near daily basis. On any given day, the local bird community should reflect local environmental conditions but also the environments that birds encountered previously along their migratory route. For example, during fall migration, the coast of the Yucatán Peninsula in Mexico receives birds that have just crossed the Gulf of Mexico and their abundance and composition may be associated with regional factors such as wind conditions experienced on previous dates but also local factors such as fruit availability. Thus, we used three data sets to quantify the influence of wind and fruit on near daily variation in bird abundance and composition. Our bird data consists of the number of individuals per species captured using mist nets for two coastal national parks in the Yucatán Peninsula during fall migration in 2016 and 2017. The data is provided daily, as are the "net-hours," i.e., the sum of the hours each net was open summed across nets. Thus, we analyzed bird captures standardized by net-hours. Our fruit data consists of the number of unripe and ripe fruits per species counted on each side of each mist net lane at various points during fall migration. Our wind data consists of the wind costs birds arriving at our sites would have experienced when departing the north coast of the Gulf of Mexico two days prior to their arrival. Wind cost reflects wind speed and direction and it was calculated using the wind.dl_2 function in the rWind package. The wind costs are averaged across the entire US Gulf coastline. We used Moran eigenvector maps to quantify the temporal structure of the bird, wind, and fruit data and we partitioned the variance in the bird data into the components explainable by wind or fruit, the temporal structure of wind or fruit, and temporal structure independent of wind or fruit. After running the analysis, we did not find a strong association between daily changes in bird abundance or community composition with wind conditions and ripe fruit availability. Thus, despite wind and fruit being known to be important to individual birds (influencing stopover duration and departure decisions), their effects might not scale up to be drivers of population and community-level variation.