The lake-induced convection experiment and the snowband dynamics project

David A.R. Kristovich; George S. Young; Johannes Verlinde; Peter J. Sousounis; Pierre Mourad; Donald Lenschow; Robert M. Rauber; Mohan K. Ramamurthy; Brian F. Jewett; Kenneth Beard; Elen Cutrim; Paul J. DeMott; Edwin W. Eloranta; Mark R. Hjelmfelt; Sonia M. Kreidenweis; Jon Martin; James Moore; Harry T. Ochs; David C. Rogers; John Scala; Gregory Tripoli; John Young

doi:10.1175/1520-0477(2000)081<0519:TLCEAT>2.3.CO;2

The lake-induced convection experiment and the snowband dynamics project

David A.R. Kristovich
, George S. Young
, Johannes Verlinde
, Peter J. Sousounis
, Pierre Mourad
, Donald Lenschow
, Robert M. Rauber
, Mohan K. Ramamurthy
, Brian F. Jewett
, Kenneth Beard
, Elen Cutrim
, Paul J. DeMott
, Edwin W. Eloranta
, Mark R. Hjelmfelt
, Sonia M. Kreidenweis
, Jon Martin
, James Moore
, Harry T. Ochs
, David C. Rogers
, John Scala

Gregory Tripoli, John Young

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

64 Scopus citations

Abstract

A severe 5-day lake-effect storm resulted in eight deaths, hundreds of injuries, and over $3 million in damage to a small area of northeastern Ohio and northwestern Pennsylvania in November 1996. In 1999, a blizzard associated with an intense cyclone disabled Chicago and much of the U.S. Midwest with 30-90 cm of snow. Such winter weather conditions have many impacts on the lives and property of people throughout much of North America. Each of these events is the culmination of a complex interaction between synoptic-scale, mesoscale, and microscale processes. An understanding of how the multiple size scales and timescales interact is critical to improving forecasting of these severe winter weather events. The Lake-Induced Convection Experiment (Lake-ICE) and the Snowband Dynamics Project (SNOWBAND) collected comprehensive datasets on processes involved in lake-effect snowstorms and snowbands associated with cyclones during the winter of 1997/98. This paper outlines the goals and operations of these collaborative projects. Preliminary findings are given with illustrative examples of new state-of-the-art research observations collected. Analyses associated with Lake-ICE and SNOWBAND hold the promise of greatly improving our scientific understanding of processes involved in these important wintertime phenomena.

Original language	English
Pages (from-to)	519-542
Number of pages	24
Journal	Bulletin of the American Meteorological Society
Volume	81
Issue number	3
DOIs	https://doi.org/10.1175/1520-0477(2000)081<0519:TLCEAT>2.3.CO;2
State	Published - Mar 2000
Externally published	Yes

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10.1175/1520-0477(2000)081<0519:TLCEAT>2.3.CO;2

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Kristovich, D. A. R., Young, G. S., Verlinde, J., Sousounis, P. J., Mourad, P., Lenschow, D., Rauber, R. M., Ramamurthy, M. K., Jewett, B. F., Beard, K., Cutrim, E., DeMott, P. J., Eloranta, E. W., Hjelmfelt, M. R., Kreidenweis, S. M., Martin, J., Moore, J., Ochs, H. T., Rogers, D. C., ... Young, J. (2000). The lake-induced convection experiment and the snowband dynamics project. Bulletin of the American Meteorological Society, 81(3), 519-542. https://doi.org/10.1175/1520-0477(2000)081<0519:TLCEAT>2.3.CO;2

@article{145bd5d19f7449f89bd4e9430c7fea3d,

title = "The lake-induced convection experiment and the snowband dynamics project",

abstract = "A severe 5-day lake-effect storm resulted in eight deaths, hundreds of injuries, and over \$3 million in damage to a small area of northeastern Ohio and northwestern Pennsylvania in November 1996. In 1999, a blizzard associated with an intense cyclone disabled Chicago and much of the U.S. Midwest with 30-90 cm of snow. Such winter weather conditions have many impacts on the lives and property of people throughout much of North America. Each of these events is the culmination of a complex interaction between synoptic-scale, mesoscale, and microscale processes. An understanding of how the multiple size scales and timescales interact is critical to improving forecasting of these severe winter weather events. The Lake-Induced Convection Experiment (Lake-ICE) and the Snowband Dynamics Project (SNOWBAND) collected comprehensive datasets on processes involved in lake-effect snowstorms and snowbands associated with cyclones during the winter of 1997/98. This paper outlines the goals and operations of these collaborative projects. Preliminary findings are given with illustrative examples of new state-of-the-art research observations collected. Analyses associated with Lake-ICE and SNOWBAND hold the promise of greatly improving our scientific understanding of processes involved in these important wintertime phenomena.",

author = "Kristovich, \{David A.R.\} and Young, \{George S.\} and Johannes Verlinde and Sousounis, \{Peter J.\} and Pierre Mourad and Donald Lenschow and Rauber, \{Robert M.\} and Ramamurthy, \{Mohan K.\} and Jewett, \{Brian F.\} and Kenneth Beard and Elen Cutrim and DeMott, \{Paul J.\} and Eloranta, \{Edwin W.\} and Hjelmfelt, \{Mark R.\} and Kreidenweis, \{Sonia M.\} and Jon Martin and James Moore and Ochs, \{Harry T.\} and Rogers, \{David C.\} and John Scala and Gregory Tripoli and John Young",

year = "2000",

month = mar,

doi = "10.1175/1520-0477(2000)081<0519:TLCEAT>2.3.CO;2",

language = "English",

volume = "81",

pages = "519--542",

journal = "Bulletin of the American Meteorological Society",

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}

Kristovich, DAR, Young, GS, Verlinde, J, Sousounis, PJ, Mourad, P, Lenschow, D, Rauber, RM, Ramamurthy, MK, Jewett, BF, Beard, K, Cutrim, E, DeMott, PJ, Eloranta, EW, Hjelmfelt, MR, Kreidenweis, SM, Martin, J, Moore, J, Ochs, HT, Rogers, DC, Scala, J, Tripoli, G & Young, J 2000, 'The lake-induced convection experiment and the snowband dynamics project', Bulletin of the American Meteorological Society, vol. 81, no. 3, pp. 519-542. https://doi.org/10.1175/1520-0477(2000)081<0519:TLCEAT>2.3.CO;2

TY - JOUR

T1 - The lake-induced convection experiment and the snowband dynamics project

AU - Kristovich, David A.R.

AU - Young, George S.

AU - Verlinde, Johannes

AU - Sousounis, Peter J.

AU - Mourad, Pierre

AU - Lenschow, Donald

AU - Rauber, Robert M.

AU - Ramamurthy, Mohan K.

AU - Jewett, Brian F.

AU - Beard, Kenneth

AU - Cutrim, Elen

AU - DeMott, Paul J.

AU - Eloranta, Edwin W.

AU - Hjelmfelt, Mark R.

AU - Kreidenweis, Sonia M.

AU - Martin, Jon

AU - Moore, James

AU - Ochs, Harry T.

AU - Rogers, David C.

AU - Scala, John

AU - Tripoli, Gregory

AU - Young, John

PY - 2000/3

Y1 - 2000/3

N2 - A severe 5-day lake-effect storm resulted in eight deaths, hundreds of injuries, and over $3 million in damage to a small area of northeastern Ohio and northwestern Pennsylvania in November 1996. In 1999, a blizzard associated with an intense cyclone disabled Chicago and much of the U.S. Midwest with 30-90 cm of snow. Such winter weather conditions have many impacts on the lives and property of people throughout much of North America. Each of these events is the culmination of a complex interaction between synoptic-scale, mesoscale, and microscale processes. An understanding of how the multiple size scales and timescales interact is critical to improving forecasting of these severe winter weather events. The Lake-Induced Convection Experiment (Lake-ICE) and the Snowband Dynamics Project (SNOWBAND) collected comprehensive datasets on processes involved in lake-effect snowstorms and snowbands associated with cyclones during the winter of 1997/98. This paper outlines the goals and operations of these collaborative projects. Preliminary findings are given with illustrative examples of new state-of-the-art research observations collected. Analyses associated with Lake-ICE and SNOWBAND hold the promise of greatly improving our scientific understanding of processes involved in these important wintertime phenomena.

AB - A severe 5-day lake-effect storm resulted in eight deaths, hundreds of injuries, and over $3 million in damage to a small area of northeastern Ohio and northwestern Pennsylvania in November 1996. In 1999, a blizzard associated with an intense cyclone disabled Chicago and much of the U.S. Midwest with 30-90 cm of snow. Such winter weather conditions have many impacts on the lives and property of people throughout much of North America. Each of these events is the culmination of a complex interaction between synoptic-scale, mesoscale, and microscale processes. An understanding of how the multiple size scales and timescales interact is critical to improving forecasting of these severe winter weather events. The Lake-Induced Convection Experiment (Lake-ICE) and the Snowband Dynamics Project (SNOWBAND) collected comprehensive datasets on processes involved in lake-effect snowstorms and snowbands associated with cyclones during the winter of 1997/98. This paper outlines the goals and operations of these collaborative projects. Preliminary findings are given with illustrative examples of new state-of-the-art research observations collected. Analyses associated with Lake-ICE and SNOWBAND hold the promise of greatly improving our scientific understanding of processes involved in these important wintertime phenomena.

UR - https://www.scopus.com/pages/publications/0001763287

U2 - 10.1175/1520-0477(2000)081<0519:TLCEAT>2.3.CO;2

DO - 10.1175/1520-0477(2000)081<0519:TLCEAT>2.3.CO;2

M3 - Article

AN - SCOPUS:0001763287

SN - 0003-0007

VL - 81

SP - 519

EP - 542

JO - Bulletin of the American Meteorological Society

JF - Bulletin of the American Meteorological Society

IS - 3

ER -

The lake-induced convection experiment and the snowband dynamics project

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