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(Top) 1 Determining LI 2 Significance to thunderstorms 3 See also 4 References 5 External links

Lifted index

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Computer generated Lifted Index field from April 6th, 2009, at 1 pm EDT. Unstable areas are in yellow (slightly) and red (highly) while the stable zone is in blue.

The lifted index (LI) is the temperature difference between the environment Te(p) and an air parcel lifted adiabatically Tp(p) at a given pressure height in the troposphere (lowest layer where most weather occurs) of the atmosphere, usually 500 hPa (mb). The temperature is measured in Celsius. When the value is positive, the atmosphere (at the respective height) is stable and when the value is negative, the atmosphere is unstable.

Determining LI[edit]

LI can be computed using computer algorithms but can also be determined graphically. To do this, generally, the parcel is lifted from the portion of the planetary boundary layer (PBL) that lies below the morning inversion. The air here should be about 60 to 65% RH, which is then lifted along the dry adiabat (see also adiabatic process) to the lifting condensation level (LCL), which is the intersection of that curve with the average mixing ratio in the boundary layer. Once the LCL is found, the parcel is lifted along the moist adiabat to 500 mb. It is then that one finds LI = Te(p) - Tp(p).

LI is generally scaled as follows:

LI 6 or Greater, Very Stable Conditions
LI Between 1 and 6 : Stable Conditions, Thunderstorms Not Likely
LI Between 0 and -2 : Slightly Unstable, Thunderstorms Possible, With Lifting Mechanism (i.e., cold front, daytime heating, ...)
LI Between -2 and -6 : Unstable, Thunderstorms Likely, Some Severe With Lifting Mechanism
LI Less Than -6: Very Unstable, Severe Thunderstorms Likely With Lifting Mechanism

Significance to thunderstorms[edit]

The lifted index can be used in thunderstorm forecasting, however, convective available potential energy (CAPE) is considered by most as a superior measurement of instability and is preferred by many meteorologists for convection forecasting.^[1] However, LI is easier and faster to determine without using a computer, as determining CAPE requires integration from one level to another.

References[edit]

^ Blanchard, David O. (1998-09-01). "Assessing the Vertical Distribution of Convective Available Potential Energy". Weather and Forecasting. 13 (3): 870–877. Bibcode:1998WtFor..13..870B. doi:10.1175/1520-0434(1998)013<0870:ATVDOC>2.0.CO;2. ISSN 0882-8156. S2CID 124375544.

External links[edit]

Lifted Index (University of Illinois)
A look at LI
Convective indices (NWS St. Louis)
AMS Glossary stability indices, including LI
Doswell, III, Charles A.; D.M. Schultz (2006). "On the Use of Indices and Parameters in Forecasting Severe Storms". Electronic Journal of Severe Storms Meteorology. 1 (3): 1–22. doi:10.55599/ejssm.v1i3.4.

v t e Meteorological data and variables
General	Adiabatic processes Advection Buoyancy Lapse rate Lightning Surface solar radiation Surface weather analysis Visibility Vorticity Wind Wind shear
Condensation	Cloud Cloud condensation nuclei (CCN) Fog Convective condensation level (CCL) Lifted condensation level (LCL) Precipitable water Precipitation Water vapor
Convection	Convective available potential energy (CAPE) Convective inhibition (CIN) Convective instability Convective momentum transport Conditional symmetric instability Convective temperature (T_c) Equilibrium level (EL) Free convective layer (FCL) Helicity K Index Level of free convection (LFC) Lifted index (LI) Maximum parcel level (MPL) Bulk Richardson number (BRN)
Temperature	Dew point (T_d) Dew point depression Dry-bulb temperature Equivalent temperature (T_e) Forest fire weather index Haines Index Heat index Humidex Humidity Relative humidity (RH) Mixing ratio Potential temperature (θ) Equivalent potential temperature (θ_e) Sea surface temperature (SST) Temperature anomaly Thermodynamic temperature Vapor pressure Virtual temperature Wet-bulb temperature Wet-bulb globe temperature Wet-bulb potential temperature Wind chill
Pressure	Atmospheric pressure Baroclinity Barotropicity Pressure gradient Pressure-gradient force (PGF)
Velocity	Maximum potential intensity

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