Topographic wetness index

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The topographic wetness index (TWI), also known as the compound topographic index (CTI), is a steady state wetness index. It is commonly used to quantify topographic control on hydrological processes.[1] The index is a function of both the slope and the upstream contributing area per unit width orthogonal to the flow direction. The index was designed for hillslope catenas. Accumulation numbers in flat areas will be very large, so TWI will not be a relevant variable. The index is highly correlated with several soil attributes such as horizon depth, silt percentage, organic matter content, and phosphorus.[2] Methods of computing this index differ primarily in the way the upslope contributing area is calculated.


The topographic wetness index is defined as:

where is the local upslope area draining through a certain point per unit contour length and is the local slope in radians. The TWI has been used to study spatial scale effects on hydrological processes. The topographic wetness index (TWI) was developed by Beven and Kirkby[3] within the runoff model TOPMODEL. The topographic wetness index is unitless.


The TWI has been used to study spatial scale effects on hydrological processes and to identify hydrological flow paths for geochemical modelling, as well as to characterize biological processes such as annual net primary production, vegetation patterns, and forest site quality.


  1. ^ Sørensen, R.; Zinko, U.; Seibert, J. (2006). "On the calculation of the topographic wetness index: evaluation of different methods based on field observations". Hydrology and Earth System Sciences. 10: 101–112. 
  2. ^ Moore, I.D.; Gessler, P.E.; Nielsen, G.A.; Petersen, G.A (1993). "Terrain attributes: estimation methods and scale effects.". In Jakeman, A.J.; Beck, M.B.; McAleer, M. Modelling Change in Environmental Systems. London: Wiley. p. 189 – 214. 
  3. ^ Beven, K.J.; Kirkby, M. J. (1979). "A physically based, variable contributing area model of basin hydrology". Hydrolological Science Bulletin. 24 (1): 43–69. doi:10.1080/02626667909491834.