Long-term ice phenology records spanning up to 578 years for 78 lakes around the Northern Hemisphere

Sapna Sharma; Alessandro Filazzola; Thi Nguyen; M. Arshad Imrit; Kevin Blagrave; Damien Bouffard; Julia Daly; Harley Feldman; Natalie Felsine; Harrie Jan Hendricks-Franssen; Nikolay Granin; Richard Hecock; Jan Henning L’Abée-Lund; Ed Hopkins; Neil Howk; Michael Iacono; Lesley B. Knoll; Johanna Korhonen; Hilmar J. Malmquist; Włodzimierz Marszelewski; Shin Ichiro S. Matsuzaki; Yuichi Miyabara; Kiyoshi Miyasaka; Alexander Mills; Lolita Olson; Theodore W. Peters; David C. Richardson; Dale M. Robertson; Lars Rudstam; Danielle Wain; Holly Waterfield; Gesa A. Weyhenmeyer; Brendan Wiltse; Huaxia Yao; Andry Zhdanov; John J. Magnuson

doi:10.1038/s41597-022-01391-6

Long-term ice phenology records spanning up to 578 years for 78 lakes around the Northern Hemisphere

Sapna Sharma, Alessandro Filazzola, Thi Nguyen, M. Arshad Imrit, Kevin Blagrave, Damien Bouffard, Julia Daly, Harley Feldman, Natalie Felsine, Harrie Jan Hendricks-Franssen, Nikolay Granin, Richard Hecock, Jan Henning L’Abée-Lund, Ed Hopkins, Neil Howk, Michael Iacono, Lesley B. Knoll, Johanna Korhonen, Hilmar J. Malmquist, Włodzimierz MarszelewskiShin Ichiro S. Matsuzaki, Yuichi Miyabara, Kiyoshi Miyasaka, Alexander Mills, Lolita Olson, Theodore W. Peters, David C. Richardson, Dale M. Robertson, Lars Rudstam, Danielle Wain, Holly Waterfield, Gesa A. Weyhenmeyer, Brendan Wiltse, Huaxia Yao, Andry Zhdanov, John J. Magnuson

Plant and Microbial Biology

Research output: Contribution to journal › Article › peer-review

10 Scopus citations

Abstract

In recent decades, lakes have experienced unprecedented ice loss with widespread ramifications for winter ecological processes. The rapid loss of ice, resurgence of winter biology, and proliferation of remote sensing technologies, presents a unique opportunity to integrate disciplines to further understand the broad spatial and temporal patterns in ice loss and its consequences. Here, we summarize ice phenology records for 78 lakes in 12 countries across North America, Europe, and Asia to permit the inclusion and harmonization of in situ ice phenology observations in future interdisciplinary studies. These ice records represent some of the longest climate observations directly collected by people. We highlight the importance of applying the same definition of ice-on and ice-off within a lake across the time-series, regardless of how the ice is observed, to broaden our understanding of ice loss across vast spatial and temporal scales.

Original language	English (US)
Article number	318
Journal	Scientific Data
Volume	9
Issue number	1
DOIs	https://doi.org/10.1038/s41597-022-01391-6
State	Published - Dec 2022

Bibliographical note

Publisher Copyright:
© 2022, The Author(s).

PubMed: MeSH publication types

Journal Article

Access

10.1038/s41597-022-01391-6

OpenUrl availability

Full text

Cite this

Sharma, S., Filazzola, A., Nguyen, T., Imrit, M. A., Blagrave, K., Bouffard, D., Daly, J., Feldman, H., Felsine, N., Hendricks-Franssen, H. J., Granin, N., Hecock, R., L’Abée-Lund, J. H., Hopkins, E., Howk, N., Iacono, M., Knoll, L. B., Korhonen, J., Malmquist, H. J., ... Magnuson, J. J. (2022). Long-term ice phenology records spanning up to 578 years for 78 lakes around the Northern Hemisphere. Scientific Data, 9(1), Article 318. https://doi.org/10.1038/s41597-022-01391-6

Sharma, S, Filazzola, A, Nguyen, T, Imrit, MA, Blagrave, K, Bouffard, D, Daly, J, Feldman, H, Felsine, N, Hendricks-Franssen, HJ, Granin, N, Hecock, R, L’Abée-Lund, JH, Hopkins, E, Howk, N, Iacono, M, Knoll, LB, Korhonen, J, Malmquist, HJ, Marszelewski, W, Matsuzaki, SIS, Miyabara, Y, Miyasaka, K, Mills, A, Olson, L, Peters, TW, Richardson, DC, Robertson, DM, Rudstam, L, Wain, D, Waterfield, H, Weyhenmeyer, GA, Wiltse, B, Yao, H, Zhdanov, A & Magnuson, JJ 2022, 'Long-term ice phenology records spanning up to 578 years for 78 lakes around the Northern Hemisphere', Scientific Data, vol. 9, no. 1, 318. https://doi.org/10.1038/s41597-022-01391-6

@article{9692567a87c94b73a685bab52334f423,

title = "Long-term ice phenology records spanning up to 578 years for 78 lakes around the Northern Hemisphere",

abstract = "In recent decades, lakes have experienced unprecedented ice loss with widespread ramifications for winter ecological processes. The rapid loss of ice, resurgence of winter biology, and proliferation of remote sensing technologies, presents a unique opportunity to integrate disciplines to further understand the broad spatial and temporal patterns in ice loss and its consequences. Here, we summarize ice phenology records for 78 lakes in 12 countries across North America, Europe, and Asia to permit the inclusion and harmonization of in situ ice phenology observations in future interdisciplinary studies. These ice records represent some of the longest climate observations directly collected by people. We highlight the importance of applying the same definition of ice-on and ice-off within a lake across the time-series, regardless of how the ice is observed, to broaden our understanding of ice loss across vast spatial and temporal scales.",

author = "Sapna Sharma and Alessandro Filazzola and Thi Nguyen and Imrit, {M. Arshad} and Kevin Blagrave and Damien Bouffard and Julia Daly and Harley Feldman and Natalie Felsine and Hendricks-Franssen, {Harrie Jan} and Nikolay Granin and Richard Hecock and L{\textquoteright}Ab{\'e}e-Lund, {Jan Henning} and Ed Hopkins and Neil Howk and Michael Iacono and Knoll, {Lesley B.} and Johanna Korhonen and Malmquist, {Hilmar J.} and W{\l}odzimierz Marszelewski and Matsuzaki, {Shin Ichiro S.} and Yuichi Miyabara and Kiyoshi Miyasaka and Alexander Mills and Lolita Olson and Peters, {Theodore W.} and Richardson, {David C.} and Robertson, {Dale M.} and Lars Rudstam and Danielle Wain and Holly Waterfield and Weyhenmeyer, {Gesa A.} and Brendan Wiltse and Huaxia Yao and Andry Zhdanov and Magnuson, {John J.}",

note = "Publisher Copyright: {\textcopyright} 2022, The Author(s).",

year = "2022",

month = dec,

doi = "10.1038/s41597-022-01391-6",

language = "English (US)",

volume = "9",

journal = "Scientific Data",

issn = "2052-4463",

publisher = "Nature Publishing Group",

number = "1",

}

TY - JOUR

T1 - Long-term ice phenology records spanning up to 578 years for 78 lakes around the Northern Hemisphere

AU - Sharma, Sapna

AU - Filazzola, Alessandro

AU - Nguyen, Thi

AU - Imrit, M. Arshad

AU - Blagrave, Kevin

AU - Bouffard, Damien

AU - Daly, Julia

AU - Feldman, Harley

AU - Felsine, Natalie

AU - Hendricks-Franssen, Harrie Jan

AU - Granin, Nikolay

AU - Hecock, Richard

AU - L’Abée-Lund, Jan Henning

AU - Hopkins, Ed

AU - Howk, Neil

AU - Iacono, Michael

AU - Knoll, Lesley B.

AU - Korhonen, Johanna

AU - Malmquist, Hilmar J.

AU - Marszelewski, Włodzimierz

AU - Matsuzaki, Shin Ichiro S.

AU - Miyabara, Yuichi

AU - Miyasaka, Kiyoshi

AU - Mills, Alexander

AU - Olson, Lolita

AU - Peters, Theodore W.

AU - Richardson, David C.

AU - Robertson, Dale M.

AU - Rudstam, Lars

AU - Wain, Danielle

AU - Waterfield, Holly

AU - Weyhenmeyer, Gesa A.

AU - Wiltse, Brendan

AU - Yao, Huaxia

AU - Zhdanov, Andry

AU - Magnuson, John J.

PY - 2022/12

Y1 - 2022/12

N2 - In recent decades, lakes have experienced unprecedented ice loss with widespread ramifications for winter ecological processes. The rapid loss of ice, resurgence of winter biology, and proliferation of remote sensing technologies, presents a unique opportunity to integrate disciplines to further understand the broad spatial and temporal patterns in ice loss and its consequences. Here, we summarize ice phenology records for 78 lakes in 12 countries across North America, Europe, and Asia to permit the inclusion and harmonization of in situ ice phenology observations in future interdisciplinary studies. These ice records represent some of the longest climate observations directly collected by people. We highlight the importance of applying the same definition of ice-on and ice-off within a lake across the time-series, regardless of how the ice is observed, to broaden our understanding of ice loss across vast spatial and temporal scales.

AB - In recent decades, lakes have experienced unprecedented ice loss with widespread ramifications for winter ecological processes. The rapid loss of ice, resurgence of winter biology, and proliferation of remote sensing technologies, presents a unique opportunity to integrate disciplines to further understand the broad spatial and temporal patterns in ice loss and its consequences. Here, we summarize ice phenology records for 78 lakes in 12 countries across North America, Europe, and Asia to permit the inclusion and harmonization of in situ ice phenology observations in future interdisciplinary studies. These ice records represent some of the longest climate observations directly collected by people. We highlight the importance of applying the same definition of ice-on and ice-off within a lake across the time-series, regardless of how the ice is observed, to broaden our understanding of ice loss across vast spatial and temporal scales.

UR - http://www.scopus.com/inward/record.url?scp=85132113754&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=85132113754&partnerID=8YFLogxK

U2 - 10.1038/s41597-022-01391-6

DO - 10.1038/s41597-022-01391-6

M3 - Article

C2 - 35710905

AN - SCOPUS:85132113754

SN - 2052-4463

VL - 9

JO - Scientific Data

JF - Scientific Data

IS - 1

M1 - 318

ER -

Long-term ice phenology records spanning up to 578 years for 78 lakes around the Northern Hemisphere

Abstract

Bibliographical note

PubMed: MeSH publication types

Access

OpenUrl availability

Other files and links

Fingerprint

Cite this