Size Distributions of Arctic Waterbodies Reveal Consistent Relations in Their Statistical Moments in Space and Time

Arctic lowlands are characterized by large numbers of small waterbodies, which are known to affect surface energy budgets and the global carbon cycle. Statistical analysis of their size distributions has been hindered by the shortage of observations at sufficiently high spatial resolutions. This sit...

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Main Authors: Muster, Sina, Riley, William J, Roth, Kurt, Langer, Moritz, Aleina, Fabio Cresto, Koven, Charles D, Lange, Stephan, Bartsch, Annett, Grosse, Guido, Wilson, Cathy J, Jones, Benjamin M, Boike, Julia
Format: Article in Journal/Newspaper
Language:unknown
Published: eScholarship, University of California 2019
Subjects:
Earth Sciences
Atmospheric Sciences
permafrost
hydrology
waterbodies
size distribution
thermokarst
statistical moments
ponds
lakes
Geology
Geophysics
Physical Geography and Environmental Geoscience
Arctic
Thermokarst
Online Access:https://escholarship.org/uc/item/45j2022x
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spelling ftcdlib:oai:escholarship.org:ark:/13030/qt45j2022x 2024-01-14T10:03:59+01:00 Size Distributions of Arctic Waterbodies Reveal Consistent Relations in Their Statistical Moments in Space and Time Muster, Sina Riley, William J Roth, Kurt Langer, Moritz Aleina, Fabio Cresto Koven, Charles D Lange, Stephan Bartsch, Annett Grosse, Guido Wilson, Cathy J Jones, Benjamin M Boike, Julia 2019-01-01 https://escholarship.org/uc/item/45j2022x unknown eScholarship, University of California qt45j2022x https://escholarship.org/uc/item/45j2022x public Earth Sciences Atmospheric Sciences permafrost hydrology waterbodies size distribution thermokarst statistical moments ponds lakes Geology Geophysics Physical Geography and Environmental Geoscience article 2019 ftcdlib 2023-12-18T19:07:55Z Arctic lowlands are characterized by large numbers of small waterbodies, which are known to affect surface energy budgets and the global carbon cycle. Statistical analysis of their size distributions has been hindered by the shortage of observations at sufficiently high spatial resolutions. This situation has now changed with the high-resolution (<5 m) circum-Arctic Permafrost Region Pond and Lake (PeRL) database recently becoming available. We have used this database to make the first consistent, high-resolution estimation of Arctic waterbody size distributions, with surface areas ranging from 0.0001 km2 (100 m2) to 1 km2. We found that the size distributions varied greatly across the thirty study regions investigated and that there was no single universal size distribution function (including power-law distribution functions) appropriate across all of the study regions. We did, however, find close relationships between the statistical moments (mean, variance, and skewness) of the waterbody size distributions from different study regions. Specifically, we found that the spatial variance increased linearly with mean waterbody size (R2 = 0.97, p < 2.2e-16) and that the skewness decreased approximately hyperbolically. We have demonstrated that these relationships (1) hold across the 30 Arctic study regions covering a variety of (bio)climatic and permafrost zones, (2) hold over time in two of these study regions for which multi-decadal satellite imagery is available, and (3) can be reproduced by simulating rising water levels in a high-resolution digital elevation model. The consistent spatial and temporal relationships between the statistical moments of the waterbody size distributions underscore the dominance of topographic controls in lowland permafrost areas. These results provide motivation for further analyses of the factors involved in waterbody development and spatial distribution and for investigations into the possibility of using statistical moments to predict future hydrologic dynamics in the ... Article in Journal/Newspaper Arctic permafrost Thermokarst University of California: eScholarship Arctic
institution Open Polar
collection University of California: eScholarship
op_collection_id ftcdlib
language unknown
topic Earth Sciences
Atmospheric Sciences
permafrost
hydrology
waterbodies
size distribution
thermokarst
statistical moments
ponds
lakes
Geology
Geophysics
Physical Geography and Environmental Geoscience
spellingShingle Earth Sciences
Atmospheric Sciences
permafrost
hydrology
waterbodies
size distribution
thermokarst
statistical moments
ponds
lakes
Geology
Geophysics
Physical Geography and Environmental Geoscience
Muster, Sina
Riley, William J
Roth, Kurt
Langer, Moritz
Aleina, Fabio Cresto
Koven, Charles D
Lange, Stephan
Bartsch, Annett
Grosse, Guido
Wilson, Cathy J
Jones, Benjamin M
Boike, Julia
Size Distributions of Arctic Waterbodies Reveal Consistent Relations in Their Statistical Moments in Space and Time
topic_facet Earth Sciences
Atmospheric Sciences
permafrost
hydrology
waterbodies
size distribution
thermokarst
statistical moments
ponds
lakes
Geology
Geophysics
Physical Geography and Environmental Geoscience
description Arctic lowlands are characterized by large numbers of small waterbodies, which are known to affect surface energy budgets and the global carbon cycle. Statistical analysis of their size distributions has been hindered by the shortage of observations at sufficiently high spatial resolutions. This situation has now changed with the high-resolution (<5 m) circum-Arctic Permafrost Region Pond and Lake (PeRL) database recently becoming available. We have used this database to make the first consistent, high-resolution estimation of Arctic waterbody size distributions, with surface areas ranging from 0.0001 km2 (100 m2) to 1 km2. We found that the size distributions varied greatly across the thirty study regions investigated and that there was no single universal size distribution function (including power-law distribution functions) appropriate across all of the study regions. We did, however, find close relationships between the statistical moments (mean, variance, and skewness) of the waterbody size distributions from different study regions. Specifically, we found that the spatial variance increased linearly with mean waterbody size (R2 = 0.97, p < 2.2e-16) and that the skewness decreased approximately hyperbolically. We have demonstrated that these relationships (1) hold across the 30 Arctic study regions covering a variety of (bio)climatic and permafrost zones, (2) hold over time in two of these study regions for which multi-decadal satellite imagery is available, and (3) can be reproduced by simulating rising water levels in a high-resolution digital elevation model. The consistent spatial and temporal relationships between the statistical moments of the waterbody size distributions underscore the dominance of topographic controls in lowland permafrost areas. These results provide motivation for further analyses of the factors involved in waterbody development and spatial distribution and for investigations into the possibility of using statistical moments to predict future hydrologic dynamics in the ...
format Article in Journal/Newspaper
author Muster, Sina
Riley, William J
Roth, Kurt
Langer, Moritz
Aleina, Fabio Cresto
Koven, Charles D
Lange, Stephan
Bartsch, Annett
Grosse, Guido
Wilson, Cathy J
Jones, Benjamin M
Boike, Julia
author_facet Muster, Sina
Riley, William J
Roth, Kurt
Langer, Moritz
Aleina, Fabio Cresto
Koven, Charles D
Lange, Stephan
Bartsch, Annett
Grosse, Guido
Wilson, Cathy J
Jones, Benjamin M
Boike, Julia
author_sort Muster, Sina
title Size Distributions of Arctic Waterbodies Reveal Consistent Relations in Their Statistical Moments in Space and Time
title_short Size Distributions of Arctic Waterbodies Reveal Consistent Relations in Their Statistical Moments in Space and Time
title_full Size Distributions of Arctic Waterbodies Reveal Consistent Relations in Their Statistical Moments in Space and Time
title_fullStr Size Distributions of Arctic Waterbodies Reveal Consistent Relations in Their Statistical Moments in Space and Time
title_full_unstemmed Size Distributions of Arctic Waterbodies Reveal Consistent Relations in Their Statistical Moments in Space and Time
title_sort size distributions of arctic waterbodies reveal consistent relations in their statistical moments in space and time
publisher eScholarship, University of California
publishDate 2019
url https://escholarship.org/uc/item/45j2022x
geographic Arctic
geographic_facet Arctic
genre Arctic
permafrost
Thermokarst
genre_facet Arctic
permafrost
Thermokarst
op_relation qt45j2022x
https://escholarship.org/uc/item/45j2022x
op_rights public
_version_ 1788058631817658368

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