Explanation: The GNIS is fundamentally a database for geographical features, not historical land ownership records. Its primary function is to document names and locations of physical and cultural features.

Explanation: The development of the GNIS by the USGS was conducted in collaboration with the United States Board on Geographic Names (BGN).

Explanation: A principal objective in the establishment of the GNIS was to ensure the standardization of geographical feature names throughout the United States.

Explanation: The GNIS database encompasses geographical features not only within the United States and its territories but also in associated states like the Marshall Islands, Micronesia, Palau, and Antarctica.

Explanation: Preventing redundant efforts in the compilation of geographic data among various governmental bodies was indeed one of the foundational objectives for the creation of the GNIS.

Explanation: The GNIS indeed functions as a gazetteer, serving as a comprehensive geographical dictionary or index that lists names and their corresponding locations.

Explanation: The GNIS functions as a comprehensive repository for the names and locations of geographical features within the United States and its associated territories, essentially acting as a gazetteer.

Explanation: The United States Geological Survey (USGS) was responsible for the development of the GNIS, undertaking this initiative in conjunction with the United States Board on Geographic Names (BGN).

Explanation: The GNIS database covers the United States, its territories, associated states like the Marshall Islands, Micronesia, and Palau, as well as Antarctica. Greenland is not listed as being covered.

Explanation: Creating a database of geological survey reports was not among the original four stated purposes for the GNIS. The other options were indeed foundational objectives.

Explanation: A gazetteer is defined as a geographical dictionary or index that provides listings of place names along with their associated locations, a function fulfilled by the GNIS.

Explanation: Phase 1 of GNIS data collection (1978-1981) explicitly excluded certain feature types, such as roads, airports, and civil divisions, due to their perceived better documentation elsewhere.

Explanation: Phase 1 data from GNIS was initially available in multiple formats, including paper volumes, microfiche, and magnetic tape, not exclusively magnetic tape.

Explanation: During Phase 1, elevations were recorded exclusively in feet, and only when explicitly noted on the map feature. The use of meters or interpolation was not part of this initial phase.

Explanation: In Phase 1, the NGNDB was structured with one computer file dedicated to each U.S. state and territory, with Alaska having two files.

Explanation: Phase 2 of the GNIS project expanded the scope and included a wider array of feature classes, rather than reducing them compared to Phase 1.

Explanation: During the 1990s, GNIS databases were indeed made available on CD-ROM, frequently accompanied by software designed for searching and accessing the data.

Explanation: In Phase 1, coordinates for populated places were generally assigned to a primary civic feature (like a city hall or post office) or the approximate center of the area, not necessarily the exact geographic center.

Explanation: The database known as the USGS Topographic Map Names database (TMNDB) was indeed subsequently renamed the Geographic Cell Names database (GCNDB).

Explanation: Phase 1 of the GNIS data collection commenced in 1978, following an initial pilot project conducted in Kansas and Colorado in 1976.

Explanation: Phase 1 data collection was limited in scope, notably excluding features such as airports, roads, and civil divisions, which were considered to be documented elsewhere.

Explanation: During Phase 1, elevations were recorded exclusively in feet, and only when explicitly indicated on the map feature itself.

Explanation: The USGS Topographic Map Names database (TMNDB) specifically contained map names as they were officially presented on USGS topographic maps during Phase 1.

Explanation: Phase 2 marked a significant shift as the U.S. government outsourced the data compilation tasks, state by state, to external entities, including private organizations and university researchers.

Explanation: For area-occupying features in Phase 1, coordinates were typically assigned to the feature's mouth or its approximate central area.

Explanation: The National Atlas database was an abridged version of the NGNDB, containing only entries indexed in the USGS National Atlas and utilizing the coordinates published therein.

Explanation: Phase 2 expanded the scope to include feature classes such as housing developments and ghost towns, which were not typically part of the Phase 1 data collection.

Explanation: In Phase 1, names containing diacritic characters that could not be processed by the available computer encoding systems were marked with an asterisk for subsequent revision.

Explanation: In the TMNDB, coordinates were recorded based on the south-east corner of the map, with an exception for American Samoa and Guam, where the north-east corner was used.

Explanation: The 'tank' feature class in Phase 1 was problematic due to its undocumented nature and inconsistent application, often being misapplied to lakes rather than exclusively reservoirs, leading to classification issues.

Explanation: The GNIS database assigns the same level of significance to populated places regardless of their size, treating small subdivisions and major metropolitan centers equivalently in terms of classification.

Explanation: For flowing bodies of water and linear features, the primary point designated in the GNIS database is typically at the mouth of the feature, not the source.

Explanation: Locations within the GNIS database are stored with a higher precision, utilizing seven decimal places for latitude and longitude coordinates.

Explanation: The Generic database serves as a glossary of map terms and abbreviations, not a collection of official names approved by the BGN.

Explanation: The GNIS database contains information on over two million physical and cultural features, not ten million.

Explanation: In addition to names and locations, the GNIS database provides bibliographic references, lists variant names, and assigns a unique GNIS identifier to each feature.

Explanation: The 'tank' feature class was problematic because it was undocumented and frequently misapplied to bodies of water like lakes, not solely reservoirs, leading to classification inaccuracies.

Explanation: A 1986 report indicated that the GNIS database treats populated places, irrespective of their size or population, with an equivalent level of significance.

Explanation: The 'mouth' of a feature is designated as the primary point for flowing bodies of water and linear geographical features within the GNIS.

Explanation: Latitude and longitude coordinates in the GNIS database are recorded with a high degree of precision, specified to seven decimal places.

Explanation: The 'primary point' represents the authoritative location designated for a feature, ensuring its positive and unique identification within the database.

Explanation: The 'Generic database' functioned as a machine-readable glossary, containing definitions for map terms and abbreviations extracted from various sources.

Explanation: The established policy of the GNIS is that entries are generally not removed, with the sole exception being cases of clear duplication. This ensures the preservation of a comprehensive historical record.

Explanation: While official bodies can submit proposals, the general public can also submit proposals for new or changed geographic names through channels like The National Map Corps and the GNIS website.

Explanation: The President of the United States can indeed influence geographic name changes, for example, through executive orders that mandate specific alterations to federal place names.

Explanation: The GNIS policy explicitly states that entries are not removed from the database unless they represent an obvious duplication of an existing record.

Explanation: Proposals for name changes can be submitted through The National Map Corps or via the GNIS website, which allows for the review of justifications and supporting documentation.

Explanation: The National Map Corps functions as a conduit for the submission of proposals concerning new or altered geographical names to the GNIS system.

Explanation: The AGNDB specifically includes names of natural features in Antarctica and its surrounding islands, but it does not include scientific outposts or research stations.

Explanation: The U.S. Census Bureau utilizes data from the GNIS as a foundational source for defining and delineating 'Census Designated Places' (CDPs).

Explanation: The GEOnet Names Server (GNS) focuses on geographical locations outside the United States, whereas GNIS is the primary database for U.S. geographical names.

Explanation: The United Nations Conference on the Standardization of Geographical Names works towards global standardization of geographical names, not exclusively within Europe.

Explanation: The Canadian Geographical Names Database (CGNDB) is specific to Canada and is not in the public domain, contrasting with the public accessibility of GNIS.

Explanation: The AGNDB focuses on natural geographical features and approved names within Antarctica and its surrounding islands; it does not encompass scientific outposts or research stations.

Explanation: The U.S. Census Bureau employs GNIS data as a foundational resource for defining 'Census Designated Places' (CDPs), which are statistical entities representing communities.

Explanation: The GEOnet Names Server (GNS) is specifically designed to provide information on geographical locations situated outside the territorial boundaries of the United States.

Explanation: The Canadian Geographical Names Database (CGNDB) pertains exclusively to Canada and is not publicly accessible, distinguishing it from the publicly available GNIS.

Explanation: The U.S. Census Bureau (USCB) is the entity responsible for defining 'Census Designated Places' (CDPs), utilizing GNIS data in this process.

Explanation: The fundamental distinction is that GNIS pertains to geographical locations within the United States, whereas GNS focuses on locations situated internationally.

Explanation: Research in 2001 suggested that many populated places in Connecticut with 'Corner' in their name might represent historical settlements or cartographic locators rather than currently inhabited significant settlements.

Explanation: Indeed, a group of middle school students in Alaska, with community support, successfully campaigned for the renaming of geographically offensive place names.

Explanation: In November 2021, the U.S. Secretary of the Interior issued an order to remove the term 'Squaw' from federal government usage, but this did not constitute a universal removal from all geographic names nationwide.

Explanation: While earlier efforts to replace racial pejoratives are documented, the change from 'Jap' to 'Japanese' occurred in 1974, not 1962.

Explanation: A 2015 cross-reference indicated that while California had a significant number of placenames with racial slurs, Arizona actually had the highest count.

Explanation: Mark Monmonier's research identified 'Niger Hill' as an erroneous transcription of 'Nigger Hill' and he successfully petitioned for its change to 'Negro Hill', not the other way around.

Explanation: Research from 2001 proposed that many Connecticut placenames containing 'Corner' might function as historical markers or cartographic references rather than denoting active settlements.

Explanation: In November 2021, the U.S. Secretary of the Interior issued a directive to eliminate the use of the term 'Squaw' within federal government contexts.

Explanation: A 2015 analysis cross-referencing the GNIS database with a Racial Slur Database identified 1,441 placenames containing such terms across the United States.

Explanation: Mark Monmonier identified 'Niger Hill' as an error for 'Nigger Hill' and successfully advocated for its official change to 'Negro Hill'.