The retreat of mountain glaciers since the Little Ice Age: a spatially explicit global database

Most of the world’s mountain glaciers have been retreating for more than a century in response to climate change. Accurate, spatially explicit information on glacier retreat is pivotal to study the consequences of ice loss on both abiotic and biotic components of the environment. Here, we present a...

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Main Authors: Silvio Marta (6521660), Roberto Sergio Azzoni (3720586), Davide Fugazza (4587919), Levan Tielidze (8514879), Katrin Sieron (10343123), Peter Almond (6927479), Roberto Ambrosini (10079274), Fabien Anthelme (475650), Pablo Alviz Gazitúa (10343125), Rakesh Bhambri (10343126), Aurélie Bonin (3160365), Marco Caccianiga (10079316), Sophie Cauvy-Fraunié (788040), Jorge Luis Ceballos Lievano (10343129), John Clague (7004345), Justiniano Alejo Cochachín Rapre (10343130), Olivier Dangles (5158052), Philip Deline (9115007), Andreas Eger (571320), Rolando Cruz Encarnación (10343133), Sergey Erokhin (10343135), Andrea Franzetti (3879196), Ludovic Gielly (24935), Fabrizio Gili (10343138), Mauro Gobbi (762154), Alessia Guerrieri (10343142), Sigmund Hågvar (10343144), Norine Khedim (10343147), Rahab N Kinyanjui (8018444), Erwan Messager (7364643), Marco Aurelio Morales-Martínez (10343153), Gwendolyne Peyre (10343154), Francesca Pittino (6986972), Pritham Chand (11519460), Jérôme poulenard (7364627), Roberto Seppi (633364), Milap Chand Sharma (7335119), Nurai Urseitova (10343193), Blake Paul Weissling (10343196), Yanran Yang (4929709), Vitalii Zaginaev (10343198), Anaïs Zimmer (10343200), Guglielmina Adele Diolaiuti (3720589), Antoine Rabatel (4044779), Gentile Francesco Ficetola (8634240)
Format: Dataset
Language:unknown
Published: 2021
Subjects:
Physical Geography
Climate Change Processes
Glaciology
glacier retreat
Climate Change Evidence
Geographical information systems
mountain areas
Paleoenvironment
Almond
Deline
Franzetti
Martínez
Moraine Ridge
Morales
Antarc*
Antarctica
Online Access:https://doi.org/10.6084/m9.figshare.13700215.v5
id ftsmithonian:oai:figshare.com:article/13700215
record_format openpolar
institution Open Polar
collection Unknown
op_collection_id ftsmithonian
language unknown
topic Physical Geography
Climate Change Processes
Glaciology
glacier retreat
Climate Change Evidence
Geographical information systems
mountain areas
Paleoenvironment
spellingShingle Physical Geography
Climate Change Processes
Glaciology
glacier retreat
Climate Change Evidence
Geographical information systems
mountain areas
Paleoenvironment
Silvio Marta (6521660)
Roberto Sergio Azzoni (3720586)
Davide Fugazza (4587919)
Levan Tielidze (8514879)
Katrin Sieron (10343123)
Peter Almond (6927479)
Roberto Ambrosini (10079274)
Fabien Anthelme (475650)
Pablo Alviz Gazitúa (10343125)
Rakesh Bhambri (10343126)
Aurélie Bonin (3160365)
Marco Caccianiga (10079316)
Sophie Cauvy-Fraunié (788040)
Jorge Luis Ceballos Lievano (10343129)
John Clague (7004345)
Justiniano Alejo Cochachín Rapre (10343130)
Olivier Dangles (5158052)
Philip Deline (9115007)
Andreas Eger (571320)
Rolando Cruz Encarnación (10343133)
Sergey Erokhin (10343135)
Andrea Franzetti (3879196)
Ludovic Gielly (24935)
Fabrizio Gili (10343138)
Mauro Gobbi (762154)
Alessia Guerrieri (10343142)
Sigmund Hågvar (10343144)
Norine Khedim (10343147)
Rahab N Kinyanjui (8018444)
Erwan Messager (7364643)
Marco Aurelio Morales-Martínez (10343153)
Gwendolyne Peyre (10343154)
Francesca Pittino (6986972)
Pritham Chand (11519460)
Jérôme poulenard (7364627)
Roberto Seppi (633364)
Milap Chand Sharma (7335119)
Nurai Urseitova (10343193)
Blake Paul Weissling (10343196)
Yanran Yang (4929709)
Vitalii Zaginaev (10343198)
Anaïs Zimmer (10343200)
Guglielmina Adele Diolaiuti (3720589)
Antoine Rabatel (4044779)
Gentile Francesco Ficetola (8634240)
The retreat of mountain glaciers since the Little Ice Age: a spatially explicit global database
topic_facet Physical Geography
Climate Change Processes
Glaciology
glacier retreat
Climate Change Evidence
Geographical information systems
mountain areas
Paleoenvironment
description Most of the world’s mountain glaciers have been retreating for more than a century in response to climate change. Accurate, spatially explicit information on glacier retreat is pivotal to study the consequences of ice loss on both abiotic and biotic components of the environment. Here, we present a spatially explicit dataset showing positions of glacier fronts since the Little Ice Age (LIA) maxima. The dataset is based on multiple historical archival records including topographical maps; repeated photographs, paintings and aerial or satellite images with supplement of geochronology and our own field data. We provide ESRI shapefiles showing 728 past positions of 93 glacier fronts from all continents, except Antarctica, covering the period between the Little Ice Age maxima and the present. On average, the time series span the past 190 years. From 2 to 46 past positions per glacier are depicted (on average: 7.8). Past positions of the glaciers have been obtained mostly on the basis of the literature, provided in a separate file, complemented with information obtained from topographical maps, historical, aerial or satellite pictures, and with our own field data, dating the position of geomorphological elements in the landscape on the basis of measurements taken in the field, signals and marks reporting the ancient position of the glacier front, and additional approaches for dating older moraines (lichenometry, dendrochronology, radiocarbon chronology). NOTES TO THE DATABASE: Database structure: glacier: glacier name GLIMS id: glacier id, according to the Global Land Ice Measurements from Space (GLIMS) dating: calculated (or estimated) dating for a given line. source: source followed to draw the lines. Notes to fields of the database: GLIMS id: the database version is glims_db_20200630 (downloaded on February 3rd 2021). Exceptions i) Maladeta: the glacier is not mapped in the GLIMS db, but it appears in the online viewer (https://www.glims.org/maps/glims); ii) Qamanaarsuup Sermia and Popocatepetl: the glacier is not mapped neither in the GLIMS db nor in the online viewer. dating: in the cases a reference is cited in this field, it refers to the source we followed to estimate the age of the moraine ridge / position, sometimes by analogy with surrounding glaciers (cf. main text). source: specifically, we used: 1) Articles / theses / maps: one or more figures from a given source were georeferenced, and the lines were redrawn following the original maps; 2) Satellite / orthophotogrammetric data: the glacier profile in the specific year was drawn interpreting the satellite / aerial images provided by the sources (i.e., Esri ArcGIS World Imagery, GN orthophotogrammetry, Google Earth, IGN orthophotogrammetry, Regional orthophotogrammetry - Lombardia, Regional orthophotogrammetry - Vallee d Aoste / Valle d Aosta); 3) Databases: lines were used as provided by the sources (i.e., GlaRiskAlp, GLIMS, OpenData Trentino); 4) unpublished data / field marks: the identification of the moraine / position occurred in the field or using sources not yet published. The complete description of methodologies has been published on this paper: Marta, S., R. S. Azzoni, D. Fugazza, Levan Tielidze, P. Chand, K. Sieron, P. Almond, R. Ambrosini, F. Anthelme, P. A. Gazitúa, R. Bhambri, A. Bonin, M. Caccianiga, S. Cauvy-Fraunié, J. L. C. Lievano, J. Clague, J. A. C. Rapre, O. Dangles, P. Deline, A. Eger, R. C. Encarnación, S. Erokhin, A. Franzetti, L. Gielly, Fabrizio Gili, M. Gobbi, A. Guerrieri, S. Hågvar, N. Khedim, R. Kinyanjui, E. Messager, M. A. Morales-Martínez, G. Peyre, F. Pittino, J. Poulenard, R. Seppi, M. C. Sharma, N. Urseitova, B. P. Weissling, Y. Yang, V. Zaginaev, A. Zimmer, G. A. Diolaiuti, A. Rabatel, and G. F. Ficetola. 2021. The Retreat of Mountain Glaciers since the Little Ice Age: a Spatially Explicit Database. Data 6:10.3390/data6100107. https://www.mdpi.com/2306-5729/6/10/107# When referring to this dataset, please cite the Marta et al. 2021 paper.
format Dataset
author Silvio Marta (6521660)
Roberto Sergio Azzoni (3720586)
Davide Fugazza (4587919)
Levan Tielidze (8514879)
Katrin Sieron (10343123)
Peter Almond (6927479)
Roberto Ambrosini (10079274)
Fabien Anthelme (475650)
Pablo Alviz Gazitúa (10343125)
Rakesh Bhambri (10343126)
Aurélie Bonin (3160365)
Marco Caccianiga (10079316)
Sophie Cauvy-Fraunié (788040)
Jorge Luis Ceballos Lievano (10343129)
John Clague (7004345)
Justiniano Alejo Cochachín Rapre (10343130)
Olivier Dangles (5158052)
Philip Deline (9115007)
Andreas Eger (571320)
Rolando Cruz Encarnación (10343133)
Sergey Erokhin (10343135)
Andrea Franzetti (3879196)
Ludovic Gielly (24935)
Fabrizio Gili (10343138)
Mauro Gobbi (762154)
Alessia Guerrieri (10343142)
Sigmund Hågvar (10343144)
Norine Khedim (10343147)
Rahab N Kinyanjui (8018444)
Erwan Messager (7364643)
Marco Aurelio Morales-Martínez (10343153)
Gwendolyne Peyre (10343154)
Francesca Pittino (6986972)
Pritham Chand (11519460)
Jérôme poulenard (7364627)
Roberto Seppi (633364)
Milap Chand Sharma (7335119)
Nurai Urseitova (10343193)
Blake Paul Weissling (10343196)
Yanran Yang (4929709)
Vitalii Zaginaev (10343198)
Anaïs Zimmer (10343200)
Guglielmina Adele Diolaiuti (3720589)
Antoine Rabatel (4044779)
Gentile Francesco Ficetola (8634240)
author_facet Silvio Marta (6521660)
Roberto Sergio Azzoni (3720586)
Davide Fugazza (4587919)
Levan Tielidze (8514879)
Katrin Sieron (10343123)
Peter Almond (6927479)
Roberto Ambrosini (10079274)
Fabien Anthelme (475650)
Pablo Alviz Gazitúa (10343125)
Rakesh Bhambri (10343126)
Aurélie Bonin (3160365)
Marco Caccianiga (10079316)
Sophie Cauvy-Fraunié (788040)
Jorge Luis Ceballos Lievano (10343129)
John Clague (7004345)
Justiniano Alejo Cochachín Rapre (10343130)
Olivier Dangles (5158052)
Philip Deline (9115007)
Andreas Eger (571320)
Rolando Cruz Encarnación (10343133)
Sergey Erokhin (10343135)
Andrea Franzetti (3879196)
Ludovic Gielly (24935)
Fabrizio Gili (10343138)
Mauro Gobbi (762154)
Alessia Guerrieri (10343142)
Sigmund Hågvar (10343144)
Norine Khedim (10343147)
Rahab N Kinyanjui (8018444)
Erwan Messager (7364643)
Marco Aurelio Morales-Martínez (10343153)
Gwendolyne Peyre (10343154)
Francesca Pittino (6986972)
Pritham Chand (11519460)
Jérôme poulenard (7364627)
Roberto Seppi (633364)
Milap Chand Sharma (7335119)
Nurai Urseitova (10343193)
Blake Paul Weissling (10343196)
Yanran Yang (4929709)
Vitalii Zaginaev (10343198)
Anaïs Zimmer (10343200)
Guglielmina Adele Diolaiuti (3720589)
Antoine Rabatel (4044779)
Gentile Francesco Ficetola (8634240)
author_sort Silvio Marta (6521660)
title The retreat of mountain glaciers since the Little Ice Age: a spatially explicit global database
title_short The retreat of mountain glaciers since the Little Ice Age: a spatially explicit global database
title_full The retreat of mountain glaciers since the Little Ice Age: a spatially explicit global database
title_fullStr The retreat of mountain glaciers since the Little Ice Age: a spatially explicit global database
title_full_unstemmed The retreat of mountain glaciers since the Little Ice Age: a spatially explicit global database
title_sort retreat of mountain glaciers since the little ice age: a spatially explicit global database
publishDate 2021
url https://doi.org/10.6084/m9.figshare.13700215.v5
long_lat ENVELOPE(163.617,163.617,-78.383,-78.383)
ENVELOPE(-123.406,-123.406,65.198,65.198)
ENVELOPE(-56.667,-56.667,-63.600,-63.600)
ENVELOPE(-62.183,-62.183,-64.650,-64.650)
ENVELOPE(168.050,168.050,-72.300,-72.300)
ENVELOPE(-55.833,-55.833,-63.000,-63.000)
geographic Almond
Deline
Franzetti
Martínez
Moraine Ridge
Morales
geographic_facet Almond
Deline
Franzetti
Martínez
Moraine Ridge
Morales
genre Antarc*
Antarctica
genre_facet Antarc*
Antarctica
op_relation https://figshare.com/articles/dataset/The_retreat_of_mountain_glaciers_since_the_Little_Ice_Age_a_spatially_explicit_global_database/13700215
doi:10.6084/m9.figshare.13700215.v5
op_rights CC BY 4.0
op_rightsnorm CC-BY
op_doi https://doi.org/10.6084/m9.figshare.13700215.v5
_version_ 1766153985448738816
spelling ftsmithonian:oai:figshare.com:article/13700215 2023-05-15T13:41:42+02:00 The retreat of mountain glaciers since the Little Ice Age: a spatially explicit global database Silvio Marta (6521660) Roberto Sergio Azzoni (3720586) Davide Fugazza (4587919) Levan Tielidze (8514879) Katrin Sieron (10343123) Peter Almond (6927479) Roberto Ambrosini (10079274) Fabien Anthelme (475650) Pablo Alviz Gazitúa (10343125) Rakesh Bhambri (10343126) Aurélie Bonin (3160365) Marco Caccianiga (10079316) Sophie Cauvy-Fraunié (788040) Jorge Luis Ceballos Lievano (10343129) John Clague (7004345) Justiniano Alejo Cochachín Rapre (10343130) Olivier Dangles (5158052) Philip Deline (9115007) Andreas Eger (571320) Rolando Cruz Encarnación (10343133) Sergey Erokhin (10343135) Andrea Franzetti (3879196) Ludovic Gielly (24935) Fabrizio Gili (10343138) Mauro Gobbi (762154) Alessia Guerrieri (10343142) Sigmund Hågvar (10343144) Norine Khedim (10343147) Rahab N Kinyanjui (8018444) Erwan Messager (7364643) Marco Aurelio Morales-Martínez (10343153) Gwendolyne Peyre (10343154) Francesca Pittino (6986972) Pritham Chand (11519460) Jérôme poulenard (7364627) Roberto Seppi (633364) Milap Chand Sharma (7335119) Nurai Urseitova (10343193) Blake Paul Weissling (10343196) Yanran Yang (4929709) Vitalii Zaginaev (10343198) Anaïs Zimmer (10343200) Guglielmina Adele Diolaiuti (3720589) Antoine Rabatel (4044779) Gentile Francesco Ficetola (8634240) 2021-03-24T14:28:48Z https://doi.org/10.6084/m9.figshare.13700215.v5 unknown https://figshare.com/articles/dataset/The_retreat_of_mountain_glaciers_since_the_Little_Ice_Age_a_spatially_explicit_global_database/13700215 doi:10.6084/m9.figshare.13700215.v5 CC BY 4.0 CC-BY Physical Geography Climate Change Processes Glaciology glacier retreat Climate Change Evidence Geographical information systems mountain areas Paleoenvironment Dataset 2021 ftsmithonian https://doi.org/10.6084/m9.figshare.13700215.v5 2021-12-20T00:48:12Z Most of the world’s mountain glaciers have been retreating for more than a century in response to climate change. Accurate, spatially explicit information on glacier retreat is pivotal to study the consequences of ice loss on both abiotic and biotic components of the environment. Here, we present a spatially explicit dataset showing positions of glacier fronts since the Little Ice Age (LIA) maxima. The dataset is based on multiple historical archival records including topographical maps; repeated photographs, paintings and aerial or satellite images with supplement of geochronology and our own field data. We provide ESRI shapefiles showing 728 past positions of 93 glacier fronts from all continents, except Antarctica, covering the period between the Little Ice Age maxima and the present. On average, the time series span the past 190 years. From 2 to 46 past positions per glacier are depicted (on average: 7.8). Past positions of the glaciers have been obtained mostly on the basis of the literature, provided in a separate file, complemented with information obtained from topographical maps, historical, aerial or satellite pictures, and with our own field data, dating the position of geomorphological elements in the landscape on the basis of measurements taken in the field, signals and marks reporting the ancient position of the glacier front, and additional approaches for dating older moraines (lichenometry, dendrochronology, radiocarbon chronology). NOTES TO THE DATABASE: Database structure: glacier: glacier name GLIMS id: glacier id, according to the Global Land Ice Measurements from Space (GLIMS) dating: calculated (or estimated) dating for a given line. source: source followed to draw the lines. Notes to fields of the database: GLIMS id: the database version is glims_db_20200630 (downloaded on February 3rd 2021). Exceptions i) Maladeta: the glacier is not mapped in the GLIMS db, but it appears in the online viewer (https://www.glims.org/maps/glims); ii) Qamanaarsuup Sermia and Popocatepetl: the glacier is not mapped neither in the GLIMS db nor in the online viewer. dating: in the cases a reference is cited in this field, it refers to the source we followed to estimate the age of the moraine ridge / position, sometimes by analogy with surrounding glaciers (cf. main text). source: specifically, we used: 1) Articles / theses / maps: one or more figures from a given source were georeferenced, and the lines were redrawn following the original maps; 2) Satellite / orthophotogrammetric data: the glacier profile in the specific year was drawn interpreting the satellite / aerial images provided by the sources (i.e., Esri ArcGIS World Imagery, GN orthophotogrammetry, Google Earth, IGN orthophotogrammetry, Regional orthophotogrammetry - Lombardia, Regional orthophotogrammetry - Vallee d Aoste / Valle d Aosta); 3) Databases: lines were used as provided by the sources (i.e., GlaRiskAlp, GLIMS, OpenData Trentino); 4) unpublished data / field marks: the identification of the moraine / position occurred in the field or using sources not yet published. The complete description of methodologies has been published on this paper: Marta, S., R. S. Azzoni, D. Fugazza, Levan Tielidze, P. Chand, K. Sieron, P. Almond, R. Ambrosini, F. Anthelme, P. A. Gazitúa, R. Bhambri, A. Bonin, M. Caccianiga, S. Cauvy-Fraunié, J. L. C. Lievano, J. Clague, J. A. C. Rapre, O. Dangles, P. Deline, A. Eger, R. C. Encarnación, S. Erokhin, A. Franzetti, L. Gielly, Fabrizio Gili, M. Gobbi, A. Guerrieri, S. Hågvar, N. Khedim, R. Kinyanjui, E. Messager, M. A. Morales-Martínez, G. Peyre, F. Pittino, J. Poulenard, R. Seppi, M. C. Sharma, N. Urseitova, B. P. Weissling, Y. Yang, V. Zaginaev, A. Zimmer, G. A. Diolaiuti, A. Rabatel, and G. F. Ficetola. 2021. The Retreat of Mountain Glaciers since the Little Ice Age: a Spatially Explicit Database. Data 6:10.3390/data6100107. https://www.mdpi.com/2306-5729/6/10/107# When referring to this dataset, please cite the Marta et al. 2021 paper. Dataset Antarc* Antarctica Unknown Almond ENVELOPE(163.617,163.617,-78.383,-78.383) Deline ENVELOPE(-123.406,-123.406,65.198,65.198) Franzetti ENVELOPE(-56.667,-56.667,-63.600,-63.600) Martínez ENVELOPE(-62.183,-62.183,-64.650,-64.650) Moraine Ridge ENVELOPE(168.050,168.050,-72.300,-72.300) Morales ENVELOPE(-55.833,-55.833,-63.000,-63.000)

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