Glacial Retreat: Difference between revisions

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|+ Physical data for the glacier RGI60-13.1 in a 2004 survey
|+ Physical data for the glacier RGI60-13.1 in a 2004 survey
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|-
! POLITICAL_UNIT !! NAME !! WGMS_ID !! SURVEY_ID !! YEAR !! SURVEY_DATE !! REFERENCE_DATE !! LOWER_BOUND !! UPPER_BOUND !! AREA_SURVEY_YEAR !! AREA_CHANGE !! AREA_CHANGE_UNC !! THICKNESS_CHG !! THICKNESS_CHG_UNC !! VOLUME_CHANGE !! VOLUME_CHANGE_UNC !! SD_PLATFORM_METHOD !! RD_PLATFORM_METHOD !! INVESTIGATOR !! SPONS_AGENCY !! REFERENCE !! REMARKS
! POLITICAL_UNIT !! NAME !! WGMS_ID !! SURVEY_ID !! YEAR !! SURVEY_DATE !! REFERENCE_DATE !! LOWER_BOUND !! UPPER_BOUND !! AREA_SURVEY_YEAR !! AREA_CHANGE !! AREA_CHANGE_UNC
|-
|-
| AF || RGI60-13.10763 || 156232 || 808792 || 2004 || 20041231 || 19991231 || 9999 || 9999 || 1.01 || -1535 || 3650 || -1550 || 3690 || sP || sP || Romain Hugonnet || LEGOS, Université Toulouse, France; VAW, ETH Zürich, Switzerland. || Hugonnet et al. (2021); Nature, 592, 726-731 p. || Only glaciers with >50% spatial coverage are included. Spatial coverage of this glacier (pixels with elevation change estimates): 98.0%. Temporal coverage during this period (average repeat elevation observations): 4.1. Uncertainties are 1-sigma and conservative, in particular for glaciers smaller than 1 km².
| AF || RGI60-13.10763 || 156232 || 808792 || 2004 || 20041231 || 19991231 || 9999 || 9999 || 1.01
|}
 
{|
|-
! THICKNESS_CHG !! THICKNESS_CHG_UNC !! VOLUME_CHANGE !! VOLUME_CHANGE_UNC !! SD_PLATFORM_METHOD !! RD_PLATFORM_METHOD !! INVESTIGATOR !! SPONS_AGENCY !! REFERENCE !! REMARKS
|-
-1535 || 3650 || -1550 || 3690 || sP || sP || Romain Hugonnet || LEGOS, Université Toulouse, France; VAW, ETH Zürich, Switzerland. || Hugonnet et al. (2021); Nature, 592, 726-731 p. || Only glaciers with >50% spatial coverage are included. Spatial coverage of this glacier (pixels with elevation change estimates): 98.0%. Temporal coverage during this period (average repeat elevation observations): 4.1. Uncertainties are 1-sigma and conservative, in particular for glaciers smaller than 1 km².
|}
|}


== References ==
== References ==

Revision as of 23:37, 2 January 2024

Climate change has resulted in the accelerated melting of glaciers across the world. This melting is primarily caused by rising global temperatures (see Temperature Changes) caused by human activities [1]. Glaciers are important for reflecting the sun’s heat, making the planet cooler. The loss of glaciers reduces the planet’s capacity to reflect this heat, further accelerating global warming. Melting glaciers also contribute to rising global sea levels (see Sea Level Rise).

Dataset [2]

The World Glacier Monitoring Service (WGMS) is an organization that collects and shares data on the mass, volume, and dimensions of glaciers over time, as well as the distribution of perennial surface ice in space. WGMS is a service of the following global organizations: the International Association of the Cryospheric Sciences of the International Union of Geodesy and Geophysics (IACS, IUGG) [3] and the World Data System of the International Science Council (ISC) [4]. The raw data used was obtained from the Fluctuations of Glaciers Database on the WGMS website [5], with the particular dataset entitled “changes.csv” from the 2023 version. This file includes data on the change in glacier thickness, area, and volume, primarily from geodetic surveys.

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This scatterplot shows the change in glacier volume by year of study, at and after 1990 with some very large negative extreme values removed. Within each year, each point represents a different glacier. It is evident that there are more reductions in glacier volume than there are increases for most years, with these negative changes becoming larger with increasing years.
== Sample Data ==
Physical data for the glacier RGI60-13.1 in a 2004 survey
POLITICAL_UNIT NAME WGMS_ID SURVEY_ID YEAR SURVEY_DATE REFERENCE_DATE LOWER_BOUND UPPER_BOUND AREA_SURVEY_YEAR AREA_CHANGE AREA_CHANGE_UNC
AF RGI60-13.10763 156232 808792 2004 20041231 19991231 9999 9999 1.01
-1535 || 3650 || -1550 || 3690 || sP || sP || Romain Hugonnet || LEGOS, Université Toulouse, France; VAW, ETH Zürich, Switzerland. || Hugonnet et al. (2021); Nature, 592, 726-731 p. || Only glaciers with >50% spatial coverage are included. Spatial coverage of this glacier (pixels with elevation change estimates): 98.0%. Temporal coverage during this period (average repeat elevation observations): 4.1. Uncertainties are 1-sigma and conservative, in particular for glaciers smaller than 1 km².
THICKNESS_CHG THICKNESS_CHG_UNC VOLUME_CHANGE VOLUME_CHANGE_UNC SD_PLATFORM_METHOD RD_PLATFORM_METHOD INVESTIGATOR SPONS_AGENCY REFERENCE REMARKS

References

  1. https://www.worldwildlife.org/pages/why-are-glaciers-and-sea-ice-melting#:~:text=Melting%20glaciers%20add%20to%20rising,storms%20like%20hurricanes%20and%20typhoons
  2. WGMS (2023): Fluctuations of Glaciers Database. World Glacier Monitoring Service (WGMS), Zurich, Switzerland. https://doi.org/10.5904/wgms-fog-2023-09
  3. https://cryosphericsciences.org/
  4. https://worlddatasystem.org/
  5. https://wgms.ch/data_databaseversions/
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