FGDC

World Air Temperature Distribution in January (line), 1996

Identification Information
Data Quality Information
Spatial Data Organization Information
Spatial Reference Information
Entity and Attribute Information
Distribution Information
Metadata Reference Information

Identification Information

Citation

Originator

Environmental Systems Research Institute (Redlands, Calif.)

Publication Date

1996

Title

World Air Temperature Distribution in January (line), 1996

Geospatial Data Presentation Form

vector digital data

Series Information

Series Name: ArcAtlas

Publication Information

Publication Place: Redlands, Calif.
Publisher: ESRI

Online Linkage

https://www1.columbia.edu/sec/acis/eds/dgate/studies/C1301/data/esri_1996_world_jantempline.zip

Abstract

World Air Temperature Distribution in January (line), 1996 is a polyline theme representing the distribution of air temperatures in January worldwide.

Purpose

For educational, non-commercial purposes. This dataset is appropriate for use in a GIS.

Supplemental Information

Air temperature near the earth's surface is a major climatic factor controlling the environment and significantly influencing the quality of human life. The temperature of the air near the ground is mostly a result of heat exchange with the ground. It depends on two main factors: solar radiation and ground characteristics. The amount of solar radiation received by a place on the earth varies with latitude and with season. Annual solar radiation increases from the high latitudes (poles) to the low latitudes (tropics). Solar radiation varies seasonally with sun altitude. The proportion of solar radiation absorbed by the ground is the most important characteristic influencing the how much the ground heats the surrounding air. The proportion of absorbed solar radiation ranges from 10 percent for dry, clean, cold snow to 90 percent for water. For example, the proportion of absorbed radiation is about 78 to 86 percent for vegetation, 70 to 75 percent for desert sand, and 10 to 60 percent for snow, depending on its moisture and dust contents. The air temperature of a region is influenced by regional heat exchange and air masses transferred to the region by atmospheric circulation. Land and water have different thermal characteristics. Land heats and cools more readily than water, so the continents are warmer in summer and cooler in winter than the oceans. Because the characteristics of air masses are formed by heat exchange along their routes, atmospheric circulation pattern over continents and ocean is also a leading factor determining air temperature. Large ice covers, such as in Antarctica, the Arctic, and Greenland, also influence the character of the air masses over them. Ocean currents are another factor that influence air temperature. The ocean currents affect the temperature of the air masses that pass over them. Air mass routes go westward between 30 and 75 degrees latitudes, and eastward at latitudes above 75 degrees and below 30 degrees in both the northern and southern hemispheres. Air temperatures on the windward sides of the continents are similar to the temperatures of the ocean air masses because they are not yet modified much by the temperature of the land. These areas are said to have maritime climates. In the interiors and the leeward sides of continents, air temperatures are significantly modified by the ground. These areas are said to have continental climates. Continental climates are characterized by great annual temperature range, that is, a great difference between summer and winter temperatures. The range also increases with increasing latitude. In contrast, maritime climates are characterized by cool summers and mild winters. Altitude also controls air temperature. Air temperatures generally decrease with altitude for two reasons: (1) increasing distance from the greatest surface area of the ground, which is the air's heat source, and (2) the natural expansion and cooling of the air as it rises, which results from the thinning of the atmosphere with altitude. The change in temperature with altitude (the vertical temperature gradient) is greater for dry air than for moist air. The rate of change averages 0.8 degrees Celsius per 100 meters of altitude. It is less in humid climates, 0.5 degrees per 100 meters, because as the rising air cools, water condenses and heat is released, slowing the rate of cooling. Air temperatures decrease at rates close to the average gradient in summer, but in winter, the decrease is often broken by a temperature inversion. An inversion occurs when cold dense air accumulates near the cold ground and warmer air is found above it, causing the normal vertical gradient to be reversed. Mountains can be barriers to air masses. As a result, their altitudes and directions have an effect on a region's air temperatures and atmospheric circulation.

Temporal Extent

Currentness Reference: publication date
Time Instant: 1996

Bounding Box

West: -180
East: 180
North: 85
South: -85

Theme Keyword

climatologyMeteorologyAtmosphere

Theme Keyword Thesaurus: ISO 19115 Topic Categories

Theme Keyword

Temperature

Theme Keyword Thesaurus: None

Place Keyword

Earth

Place Keyword Thesaurus: Library of Congress Subject Headings

Temporal Keyword

1996

Temporal Keyword Thesaurus: None

Access Restrictions

For current Columbia affiliates only.

Use Restrictions

For educational, non-commercial use only.

Status

Complete

Maintenance and Update Frequency

None planned

Point of Contact

Contact Organization: ESRI
Delivery Point: 380 New York Street
City: Redlands
State: California
Postal Code: 92373-8100
Country: USA
Contact Telephone: 909-793-2853
Contact Facsimile Telephone: 909-793-5953
Contact Electronic Mail Address: info@esri.com
Hours of Service: 7:00 a.m.-5:30 p.m. Pacific time, Monday-Friday

Native Data Set Environment

Microsoft Windows XP Version 5.1 (Build 2600) Service Pack 3; ESRI ArcCatalog 9.3.1.1850

Data Quality Information

Lineage

Source

Type of Source Media: paper

Source

Type of Source Media: paper

Source

Type of Source Media: paper

Source

Type of Source Media: paper

Source

Type of Source Media: paper

Source

Type of Source Media: paper

Source

Type of Source Media: paper

Spatial Data Organization Information

Direct Spatial Reference Method

Vector

Point and Vector Object Information

SDTS Terms Description

SDTS Point and Vector Object Type: String
Point and Vector Object Count: 7047

Spatial Reference Information

Horizontal Coordinate System Definition

Geographic

Latitude Resolution: 0.000000
Longitude Resolution: 0.000000
Geographic Coordinate Units: Decimal degrees

Geodetic Model

Horizontal Datum Name: D_Clarke_1866
Ellipsoid Name: Clarke 1866
Semi-major Axis: 6378206.400000
Denominator of Flattening Ratio: 294.978698

Entity and Attribute Information

Entity Type

Entity Type Label: temp_jan_ln
Entity Type Definition: Air temperature areas

Attributes

FID

Internal feature number. (Sequential unique whole numbers that are automatically generated.)

Definition Source: ESRI

Shape

Feature geometry. (Coordinates defining the features.)

Definition Source: ESRI

FNODE_

Frome Node

TNODE_

To Node

LPOLY_

Left Polygon

RPOLY_

Right Polygon

LENGTH

Length

SATJANDD_

South America

SATJANDD_I

South America ID

TEMPERATUR

temperature in degrees Celcius

LINE_TYPE

Line Type

coastline: coastline
isoline: isolinev
af_as_bnd: boundary between Africa and Asia
eu_as_bnd: boundary between Europe and Asia
na_sa_bnd: boundary between North and South America
Gridline: 180 degrees longitude line

NATJANDD_

North America

NATJANDD_I

North America ID

EUTJANDD_

Europe

EUTJANDD_I

Europe ID

AUTJANDD_

Australia

AUTJANDD_I

Australia ID

ASTJANDD_

Asia

ASTJANDD_I

Asia ID

ANTJANLB_

Antarctica

ANTJANLB_I

Antarctica ID

AFTJANDD_

Africa

AFTJANDD_I

Africa ID

Distribution Information

Format Name: geopackage
Distributor: ESRI; ESRI International Distributors
Name

Metadata Reference Information

Metadata Date

20090611

Metadata Contact

Contact Information

Contact Organization Primary

Contact Organization: Research Data Services (RDS), Columbia University Libraries
Contact Person: GIS/Metadata Librarian

Contact Address

Address: 420 W. 118th St. 215 IAB, MC 3301
City: New York
State or Province: NY
Postal Code: 10027
Country: USA

Contact Voice Telephone

(212) 854-6012

Contact Electronic Mail Address

data@library.columbia.edu

Hours of Service

7:00 a.m.-5:30 p.m. Pacific time, Monday-Friday

Metadata Standard Name

FGDC Content Standards for Digital Geospatial Metadata

Metadata Standard Version

FGDC-STD-001-1998

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View Metadata

World Air Temperature Distribution in January (line), 1996

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