The population density of Curry County, NM was 32 in 2009.

Population Density

Population Density is computed by dividing the total population by Land Area Per Square Mile.

Above charts are based on data from the U.S. Census American Community Survey | ODN Dataset | API - Notes:

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Geographic and Population Datasets Involving Curry County, NM

  • API

    Deer Tick Surveillance: Adults (Oct to Dec) excluding Powassan virus: Beginning 2008

    health.data.ny.gov | Last Updated 2024-05-01T18:05:44.000Z

    This dataset provides the results from collecting and testing adult deer ticks, also known as blacklegged ticks, or by their scientific name <i>Ixodes scapularis</i>. Collection and testing take place across New York State (excluding New York City) from October to December, when adult deer ticks are most commonly seen. Adult deer ticks are individually tested for different bacteria and parasites, which includes the bacteria responsible for Lyme disease. These data should simply be used to educate people that there is a risk of coming in contact with ticks and tick-borne diseases. These data only provide adult tick infections at a precise location and at one point in time. Both measures, tick population density and percentage, of ticks infected with the specified bacteria or parasite can vary greatly within a very small area and within a county. These data should not be used to broadly predict disease risk for a county. Further below on this page you can find links to tick prevention tips, a video on how to safely remove a tick, and more datasets with tick testing results. Interactive charts and maps provide an easier way to view the data.

  • API

    Deer Tick Surveillance: Nymphs (May to Sept) excluding Powassan virus: Beginning 2008

    health.data.ny.gov | Last Updated 2024-05-01T18:07:53.000Z

    This dataset provides the results from collecting and testing nymph deer ticks, also known as blacklegged ticks, or by their scientific name <i>Ixodes scapularis</i>. Collection and testing take place across New York State (excluding New York City) from May to September, when nymph deer ticks are most commonly seen. Nymph deer ticks are individually tested for different bacteria and parasites, which includes the bacteria responsible for Lyme disease. These data should simply be used to educate people that there is a risk of coming in contact with ticks and tick-borne diseases. These data only provide nymph tick infections at a precise location and at one point in time. Both measures, tick population density and percentage, of ticks infected with the specified bacteria or parasite can vary greatly within a very small area and within a county. These data should not be used to broadly predict disease risk for a county. Further below on this page you can find links to tick prevention tips, a video on how to safely remove a tick, and more datasets with tick testing results. Interactive charts and maps provide an easier way to view the data.

  • API

    Deer Tick Surveillance: Nymphs (May to Sept) Powassan Virus Only: Beginning 2009

    health.data.ny.gov | Last Updated 2024-05-01T18:00:16.000Z

    This dataset provides the results from collecting and testing nymph deer ticks, also known as blacklegged ticks, or by their scientific name <i>Ixodes scapularis</i>. Collection and testing take place across New York State (excluding New York City) from May to September, when nymph deer ticks are most commonly seen. Nymph deer ticks are tested in “pools”, or groups of up to ten adult ticks per pool, for the Powassan virus, also known as Deer tick virus. These data should simply be used to educate people that there is a risk of coming in contact with ticks and tick-borne diseases. These data only provide nymph tick minimum infection rates at a precise location and at one point in time. Both measures, tick population density and minimum infection percentages, can vary greatly within a very small area and within a county. These data should not be used to broadly predict disease risk for a county. Further below on this page you can find links to tick prevention tips, a video on how to safely remove a tick, and more datasets with tick testing results. Interactive charts and maps provide an easier way to view the data.

  • API

    Deer Tick Surveillance: Adults (Oct to Dec) Powassan Virus Only: Beginning 2009

    health.data.ny.gov | Last Updated 2024-05-01T18:04:12.000Z

    This dataset provides the results from collecting and testing adult deer ticks, also known as blacklegged ticks, or by their scientific name Ixodes scapularis. Collection and testing take place across New York State (excluding New York City) from October to December, when adult deer ticks are most commonly seen. Adult deer ticks are tested in “pools”, or groups of up to ten adult ticks per pool, for the Powassan virus, also known as Deer tick virus. These data should simply be used to educate people that there is a risk of coming in contact with ticks and tick-borne diseases. These data only provide adult tick minimum infection rates at a precise location and at a point in time. Both measures, tick population density and minimum infection percentages, can vary greatly within a very small area and within a county. These data should not be used to broadly predict disease risk for a county. Further below on this page you can find links to tick prevention tips, a video on how to safely remove a tick, and more datasets with tick testing results. Interactive charts and maps provide an easier way to view the data.

  • API

    Real Property Assessment Equity Statistics By Municipality: Beginning 2004

    data.ny.gov | Last Updated 2024-03-05T19:24:08.000Z

    The Department of Taxation and Finance annually produces a report documenting the results of the Market Value Survey pertaining to property assessment. The report contains the staff findings regarding assessment equity by municipality in New York State, that is, the degree to which assessments are at a uniform percentage of their market value. Equity is measured primarily by two statistics — the coefficient of dispersion (COD) and the price-related differential (PRD). For more information please go to: http://www.tax.ny.gov/research/property/default.htm

  • API

    Waste Tire Abatement Sites

    data.ny.gov | Last Updated 2024-09-27T18:10:25.000Z

    Information on designated waste tire abatement sites in New York State, including approximate size, location, and abatement status.

  • API

    Risk of Infected Blacklegged Tick Encounter: Adults (Oct to Dec): Beginning 2008

    health.data.ny.gov | Last Updated 2024-05-01T18:57:20.000Z

    Tick-borne diseases, such as Lyme disease, anaplasmosis and babesiosis, are a significant issue in New York (NY), impacting well over 10,000 individuals yearly. The New York State Department of Health (NYSDOH) has a responsibility to perform surveillance to monitor and track different kinds of tick-borne diseases. While most surveillance is done via reportable cases of human illness, tick-borne diseases can also be monitored by collecting ticks from the environment (called active surveillance) and testing them for bacteria, viruses, and parasites known to cause illness in people (collectively called pathogens). Active surveillance allows local county health departments in NY, excluding New York City (NYC), to have a better understanding of the tick populations present in the state, the species composition of the tick population, and the rate at which ticks are infected with different pathogens. The Department started testing ticks in 2002 in limited areas; testing statewide began in 2008. Further information on NYSDOH active tick surveillance can be found at the URL below and in the Data Methodology section below. https://www.health.ny.gov/diseases/communicable/lyme/

  • API

    Risk of Infected Blacklegged Tick Encounter: Nymphs (May to Sep): Beginning 2008

    health.data.ny.gov | Last Updated 2024-05-07T14:49:16.000Z

    Tick-borne diseases, such as Lyme disease, anaplasmosis and babesiosis, are a significant issue in New York (NY), impacting well over 10,000 individuals yearly. The New York State Department of Health (NYSDOH) has a responsibility to perform surveillance to monitor and track different kinds of tick-borne diseases. While most surveillance is done via reportable cases of human illness, tick-borne diseases can also be monitored by collecting ticks from the environment (called active surveillance) and testing them for bacteria, viruses, and parasites known to cause illness in people (collectively called pathogens). Active surveillance allows local county health departments in NY, excluding New York City (NYC), to have a better understanding of the tick populations present in the state, the species composition of the tick population, and the rate at which ticks are infected with different pathogens. The Department started testing ticks in 2002 in limited areas; testing statewide began in 2008. Further information on NYSDOH active tick surveillance can be found at the URL below and in the Data Methodology section below. https://www.health.ny.gov/diseases/communicable/lyme/

  • API

    Incidence Rate Of Leukemia Per 100,000 All States

    opendata.utah.gov | Last Updated 2019-04-19T00:30:16.000Z

    Incidence Rate Of Leukemia Per 100,000 All States

  • API

    Disease Severity Rating of Chile Pepper Plants Inoculated with Phytophthora Capsici Collected in Taiwan

    datahub.usaid.gov | Last Updated 2024-07-17T17:10:52.000Z

    The data are the phenotypic host reactions of a recombinant inbred line population of Capsicum annuum developed to differentiate races of Phytophthora capsici. The New Mexico Recombinant Inbred Line (NMRIL) is an F8 population derived from a hybridization between ?Early Jalapeno? (susceptible parent) and Criollo de Morelos 334 (CM334) (resistant parent). The controls include CM334 (negative control) and New Mexico Capsicum Accession 10399 (NMCA10399) (positive control). Also included are the World Vegetable Center host differentials including ?Early Calwonder? (EC), PI 201234, PBC137, and PBC602. The host differentials were screened with isolates of P. capsici that were collected from chile pepper production regions of Taiwan (Republic of China) in 2016 as well as Race 1, 2, and 3 of P. capsici from the World Vegetable Center collection at a concentration of 10,000 zoospores per plant. The plants were scored at ~2 weeks after inoculation and only those with an average score of = 1 were considered resistant. The experiment included 6 plants per replication with two replications and each test was repeated twice. The data would be best used by individuals interested in population structure, virulence, or sources of resistance to the oomycetes plant pathogen Phytophthora capsici.