The land area of Center Point, AL was 6 in 2018. The land area of Dublin, GA was 15 in 2018.

Land Area

Water Area

Land area is a measurement providing the size, in square miles, of the land portions of geographic entities for which the Census Bureau tabulates and disseminates data. Area is calculated from the specific boundary recorded for each entity in the Census Bureau's geographic database. Land area is based on current information in the TIGER® data base, calculated for use with Census 2010.

Water Area figures include inland, coastal, Great Lakes, and territorial sea water. Inland water consists of any lake, reservoir, pond, or similar body of water that is recorded in the Census Bureau's geographic database. It also includes any river, creek, canal, stream, or similar feature that is recorded in that database as a two- dimensional feature (rather than as a single line). The portions of the oceans and related large embayments (such as Chesapeake Bay and Puget Sound), the Gulf of Mexico, and the Caribbean Sea that belong to the United States and its territories are classified as coastal and territorial waters; the Great Lakes are treated as a separate water entity. Rivers and bays that empty into these bodies of water are treated as inland water from the point beyond which they are narrower than 1 nautical mile across. Identification of land and inland, coastal, territorial, and Great Lakes waters is for data presentation purposes only and does not necessarily reflect their legal definitions.

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

1. ODN datasets and APIs are subject to change and may differ in format from the original source data in order to provide a user-friendly experience on this site.

2. To build your own apps using this data, see the ODN Dataset and API links.

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Geographic and Area Datasets Involving Center Point, AL or Dublin, GA

  • API

    AFSC/RACE/SAP/Swiney: Effects of ocean acidification and increased temperatures on juvenile red king crab

    noaa-fisheries-afsc.data.socrata.com | Last Updated 2017-09-19T04:49:45.000Z

    Multiple stressor studies are needed to better understand the effects of oceanic changes on marine organisms. To determine the effects of near-future ocean acidification and warming temperature on juvenile red king crab (Paralithodes camtschaticus) survival, growth, and morphology, we conducted a long-term (184 d) fully crossed experiment with two pHs and three temperatures: ambient pH (~7.99), pH 7.8, ambient temperature, ambient +2 degree C, and ambient +4 degree C, for a total of 6 treatments.

  • API

    AFSC/RACE/SAP/Swiney: Effects of ocean acidification and increased temperatures on juvenile red king crab

    noaa-fisheries-afsc.data.socrata.com | Last Updated 2017-09-19T04:50:14.000Z

    Multiple stressor studies are needed to better understand the effects of oceanic changes on marine organisms. To determine the effects of near-future ocean acidification and warming temperature on juvenile red king crab (Paralithodes camtschaticus) survival, growth, and morphology, we conducted a long-term (184 d) fully crossed experiment with two pHs and three temperatures: ambient pH (~7.99), pH 7.8, ambient temperature, ambient +2 degree C, and ambient +4 degree C, for a total of 6 treatments.

  • API

    AFSC/RACE/SAP/Swiney: Effects of ocean acidification and increased temperatures on juvenile red king crab

    noaa-fisheries-afsc.data.socrata.com | Last Updated 2017-09-19T04:49:31.000Z

    Multiple stressor studies are needed to better understand the effects of oceanic changes on marine organisms. To determine the effects of near-future ocean acidification and warming temperature on juvenile red king crab (Paralithodes camtschaticus) survival, growth, and morphology, we conducted a long-term (184 d) fully crossed experiment with two pHs and three temperatures: ambient pH (~7.99), pH 7.8, ambient temperature, ambient +2 degree C, and ambient +4 degree C, for a total of 6 treatments.

  • API

    AFSC/RACE/SAP/Swiney: Effects of ocean acidification and increased temperatures on juvenile red king crab

    noaa-fisheries-afsc.data.socrata.com | Last Updated 2017-09-19T04:49:58.000Z

    Multiple stressor studies are needed to better understand the effects of oceanic changes on marine organisms. To determine the effects of near-future ocean acidification and warming temperature on juvenile red king crab (Paralithodes camtschaticus) survival, growth, and morphology, we conducted a long-term (184 d) fully crossed experiment with two pHs and three temperatures: ambient pH (~7.99), pH 7.8, ambient temperature, ambient +2 degree C, and ambient +4 degree C, for a total of 6 treatments.

  • API

    AFSC/ABL: Marine Debris Surveys in Alaska, 1972-2015

    noaa-fisheries-afsc.data.socrata.com | Last Updated 2017-09-19T05:03:14.000Z

    Scientists at the Auke Bay Laboratory have conducted marine debris surveys on select beaches in Alaska periodically since 1972. Some of the beaches previously sampled have been identified as marine debris hot spots due to their increased debris accumulation. At each location, multiple 1 km beach segments were sampled by people walking the beach and enumerating all anthropogenic marine debris found. The beach area surveyed was from the waters edge up to the base of the storm berm or log piles. Individual beach segments have been walked multiple times in the since 1972 allowing for a direct comparison with prior years. Sampling occurred in late spring and summer to test the hypothesis of change in marine debris sources due to increased summer boat traffic and the diminished occurrence and severity of storms.

  • API

    AFSC/RACE/SAP/Swiney: Effects of ocean acidification and increased temperatures on juvenile red king crab

    noaa-fisheries-afsc.data.socrata.com | Last Updated 2017-09-19T04:49:00.000Z

    Multiple stressor studies are needed to better understand the effects of oceanic changes on marine organisms. To determine the effects of near-future ocean acidification and warming temperature on juvenile red king crab (Paralithodes camtschaticus) survival, growth, and morphology, we conducted a long-term (184 d) fully crossed experiment with two pHs and three temperatures: ambient pH (~7.99), pH 7.8, ambient temperature, ambient +2 degree C, and ambient +4 degree C, for a total of 6 treatments.

  • API

    AFSC/RACE/SAP/Swiney: Effects of ocean acidification and increased temperatures on juvenile red king crab

    noaa-fisheries-afsc.data.socrata.com | Last Updated 2017-09-19T04:49:13.000Z

    Multiple stressor studies are needed to better understand the effects of oceanic changes on marine organisms. To determine the effects of near-future ocean acidification and warming temperature on juvenile red king crab (Paralithodes camtschaticus) survival, growth, and morphology, we conducted a long-term (184 d) fully crossed experiment with two pHs and three temperatures: ambient pH (~7.99), pH 7.8, ambient temperature, ambient +2 degree C, and ambient +4 degree C, for a total of 6 treatments.

  • API

    AFSC/RACE/SAP/Swiney: Primiparous and multiparous Tanner crab egg extrusion, embryo development and hatching

    noaa-fisheries-afsc.data.socrata.com | Last Updated 2017-09-19T04:48:02.000Z

    This study compares timing of egg extrusion, embryo development, timing and duration of eclosion, and incubation periods of Kodiak, Alaska primiparous and multiparous Tanner crabs (Chionoecetes bairdi) reared in identical conditions to determine if and how these variables differ between reproductive states. Female reproductive state (primiparous or multiparous) and dates of egg extrusion were recorded, eggs were sampled monthly to determine egg stage and area, and larvae were collected daily during eclosion to determine timing and duration of eclosion.

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    National Fish Habitat Partnership 2010 Estuary Assessment Data

    noaa-fisheries-nwfsc.data.socrata.com | Last Updated 2017-10-10T20:19:01.000Z

    InPort Dataset ID: 30858 InPort Entity ID: 36984 Data for calculating habitat impact scores for each estuary in the NOAA coastal framework, as part of the NFHAP 5-year habitat assessment. Summary of methods, analysis, and results can be found in Greene et al. (2014) Estuaries and Coasts, DOI 10.1007/s12237-014-9855-9.

  • API

    AFSC/RACE/SAP/Swiney: Primiparous and multiparous Tanner crab egg extrusion, embryo development and hatching

    noaa-fisheries-afsc.data.socrata.com | Last Updated 2017-09-19T04:47:38.000Z

    This study compares timing of egg extrusion, embryo development, timing and duration of eclosion, and incubation periods of Kodiak, Alaska primiparous and multiparous Tanner crabs (Chionoecetes bairdi) reared in identical conditions to determine if and how these variables differ between reproductive states. Female reproductive state (primiparous or multiparous) and dates of egg extrusion were recorded, eggs were sampled monthly to determine egg stage and area, and larvae were collected daily during eclosion to determine timing and duration of eclosion.