Snowfall in the northern great lakes: Lessons learned from a multisensor observatory

Mark S. Kulie; Claire Pettersen; Aronne J. Merrelli; Timothy J. Wagner; Norman B. Wood; Michael Dutter; David Beachler; Todd Kluber; Robin Turner; Marian Mateling; John Lenters; Peter Blanken; Maximilian Maahn; Christopher Spence; Stefan Kneifel; Paul A. Kucera; Ali Tokay; Larry F. Bliven; David B. Wolff; Walter A. Petersen

doi:10.1175/BAMS-D-19-0128.1

Snowfall in the northern great lakes: Lessons learned from a multisensor observatory

Mark S. Kulie, Claire Pettersen, Aronne J. Merrelli, Timothy J. Wagner, Norman B. Wood, Michael Dutter, David Beachler, Todd Kluber, Robin Turner, Marian Mateling, John Lenters, Peter Blanken, Maximilian Maahn, Christopher Spence, Stefan Kneifel, Paul A. Kucera, Ali Tokay, Larry F. Bliven, David B. Wolff, Walter A. Petersen

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Research output: Contribution to journal › Review article › peer-review

23 Scopus citations

Abstract

A multisensor snowfall observational suite has been deployed at the Marquette, Michigan, National Weather Service Weather Forecast Office (KMQT) since 2014. Micro Rain Radar (MRR; profiling radar), Precipitation Imaging Package (PIP; snow particle imager), and ancillary ground-based meteorological observations illustrate the unique capabilities of these combined instruments to document radar and concomitant microphysical properties associated with northern Great Lakes snowfall regimes. Lake-effect, lake-orographic, and transition event case studies are presented that illustrate the variety of snowfall events that occur at KMQT. Case studies and multiyear analyses reveal the ubiquity of snowfall produced by shallow events. These shallow snowfall features and their distinctive microphysical fingerprints are often difficult to discern with conventional remote sensing instruments, thus highlighting the scientific and potential operational value of MRR and PIP observations. The importance of near-surface lake-orographic snowfall enhancement processes in extreme snowfall events and regime-dependent snow particle microphysical variability controlled by regime and environmental factors are also highlighted.

Original language	English
Pages (from-to)	E1317-E1339
Journal	Bulletin of the American Meteorological Society
Volume	102
Issue number	7
DOIs	https://doi.org/10.1175/BAMS-D-19-0128.1
State	Published - Jul 2021

Keywords

Cloud microphysics
In situ atmospheric observations
Lake effects
Orographic effects
Radars/Radar observations
Snowfall

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10.1175/BAMS-D-19-0128.1

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Kulie, M. S., Pettersen, C., Merrelli, A. J., Wagner, T. J., Wood, N. B., Dutter, M., Beachler, D., Kluber, T., Turner, R., Mateling, M., Lenters, J., Blanken, P., Maahn, M., Spence, C., Kneifel, S., Kucera, P. A., Tokay, A., Bliven, L. F., Wolff, D. B., & Petersen, W. A. (2021). Snowfall in the northern great lakes: Lessons learned from a multisensor observatory. Bulletin of the American Meteorological Society, 102(7), E1317-E1339. https://doi.org/10.1175/BAMS-D-19-0128.1

@article{689ecc4343324a908e91ad4cbbed104a,

title = "Snowfall in the northern great lakes: Lessons learned from a multisensor observatory",

abstract = "A multisensor snowfall observational suite has been deployed at the Marquette, Michigan, National Weather Service Weather Forecast Office (KMQT) since 2014. Micro Rain Radar (MRR; profiling radar), Precipitation Imaging Package (PIP; snow particle imager), and ancillary ground-based meteorological observations illustrate the unique capabilities of these combined instruments to document radar and concomitant microphysical properties associated with northern Great Lakes snowfall regimes. Lake-effect, lake-orographic, and transition event case studies are presented that illustrate the variety of snowfall events that occur at KMQT. Case studies and multiyear analyses reveal the ubiquity of snowfall produced by shallow events. These shallow snowfall features and their distinctive microphysical fingerprints are often difficult to discern with conventional remote sensing instruments, thus highlighting the scientific and potential operational value of MRR and PIP observations. The importance of near-surface lake-orographic snowfall enhancement processes in extreme snowfall events and regime-dependent snow particle microphysical variability controlled by regime and environmental factors are also highlighted.",

keywords = "Cloud microphysics, In situ atmospheric observations, Lake effects, Orographic effects, Radars/Radar observations, Snowfall",

author = "Kulie, \{Mark S.\} and Claire Pettersen and Merrelli, \{Aronne J.\} and Wagner, \{Timothy J.\} and Wood, \{Norman B.\} and Michael Dutter and David Beachler and Todd Kluber and Robin Turner and Marian Mateling and John Lenters and Peter Blanken and Maximilian Maahn and Christopher Spence and Stefan Kneifel and Kucera, \{Paul A.\} and Ali Tokay and Bliven, \{Larry F.\} and Wolff, \{David B.\} and Petersen, \{Walter A.\}",

note = "Publisher Copyright: {\textcopyright} 2021 American Meteorological Society For information regarding reuse of this content and general copyright information, consult the AMS Copyright Policy.",

year = "2021",

month = jul,

doi = "10.1175/BAMS-D-19-0128.1",

language = "English",

volume = "102",

pages = "E1317--E1339",

journal = "Bulletin of the American Meteorological Society",

issn = "0003-0007",

publisher = "American Meteorological Society",

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Kulie, MS, Pettersen, C, Merrelli, AJ, Wagner, TJ, Wood, NB, Dutter, M, Beachler, D, Kluber, T, Turner, R, Mateling, M, Lenters, J, Blanken, P, Maahn, M, Spence, C, Kneifel, S, Kucera, PA, Tokay, A, Bliven, LF, Wolff, DB & Petersen, WA 2021, 'Snowfall in the northern great lakes: Lessons learned from a multisensor observatory', Bulletin of the American Meteorological Society, vol. 102, no. 7, pp. E1317-E1339. https://doi.org/10.1175/BAMS-D-19-0128.1

TY - JOUR

T1 - Snowfall in the northern great lakes

T2 - Lessons learned from a multisensor observatory

AU - Kulie, Mark S.

AU - Pettersen, Claire

AU - Merrelli, Aronne J.

AU - Wagner, Timothy J.

AU - Wood, Norman B.

AU - Dutter, Michael

AU - Beachler, David

AU - Kluber, Todd

AU - Turner, Robin

AU - Mateling, Marian

AU - Lenters, John

AU - Blanken, Peter

AU - Maahn, Maximilian

AU - Spence, Christopher

AU - Kneifel, Stefan

AU - Kucera, Paul A.

AU - Tokay, Ali

AU - Bliven, Larry F.

AU - Wolff, David B.

AU - Petersen, Walter A.

PY - 2021/7

Y1 - 2021/7

N2 - A multisensor snowfall observational suite has been deployed at the Marquette, Michigan, National Weather Service Weather Forecast Office (KMQT) since 2014. Micro Rain Radar (MRR; profiling radar), Precipitation Imaging Package (PIP; snow particle imager), and ancillary ground-based meteorological observations illustrate the unique capabilities of these combined instruments to document radar and concomitant microphysical properties associated with northern Great Lakes snowfall regimes. Lake-effect, lake-orographic, and transition event case studies are presented that illustrate the variety of snowfall events that occur at KMQT. Case studies and multiyear analyses reveal the ubiquity of snowfall produced by shallow events. These shallow snowfall features and their distinctive microphysical fingerprints are often difficult to discern with conventional remote sensing instruments, thus highlighting the scientific and potential operational value of MRR and PIP observations. The importance of near-surface lake-orographic snowfall enhancement processes in extreme snowfall events and regime-dependent snow particle microphysical variability controlled by regime and environmental factors are also highlighted.

AB - A multisensor snowfall observational suite has been deployed at the Marquette, Michigan, National Weather Service Weather Forecast Office (KMQT) since 2014. Micro Rain Radar (MRR; profiling radar), Precipitation Imaging Package (PIP; snow particle imager), and ancillary ground-based meteorological observations illustrate the unique capabilities of these combined instruments to document radar and concomitant microphysical properties associated with northern Great Lakes snowfall regimes. Lake-effect, lake-orographic, and transition event case studies are presented that illustrate the variety of snowfall events that occur at KMQT. Case studies and multiyear analyses reveal the ubiquity of snowfall produced by shallow events. These shallow snowfall features and their distinctive microphysical fingerprints are often difficult to discern with conventional remote sensing instruments, thus highlighting the scientific and potential operational value of MRR and PIP observations. The importance of near-surface lake-orographic snowfall enhancement processes in extreme snowfall events and regime-dependent snow particle microphysical variability controlled by regime and environmental factors are also highlighted.

KW - Cloud microphysics

KW - In situ atmospheric observations

KW - Lake effects

KW - Orographic effects

KW - Radars/Radar observations

KW - Snowfall

UR - https://www.scopus.com/pages/publications/85107704211

U2 - 10.1175/BAMS-D-19-0128.1

DO - 10.1175/BAMS-D-19-0128.1

M3 - Review article

AN - SCOPUS:85107704211

SN - 0003-0007

VL - 102

SP - E1317-E1339

JO - Bulletin of the American Meteorological Society

JF - Bulletin of the American Meteorological Society

IS - 7

ER -

Snowfall in the northern great lakes: Lessons learned from a multisensor observatory

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