Teleconnections in spatial modelling

In pedology, spatial context is relevant to soil-landscape systems on at least three different scales: i) the scale of quasi-local processes, which are independent of influence from the direct or wider neighborhood, ii) the scale of short-range processes for example on the local hillslope or catena,...

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Vydáno v:Geoderma Ročník 354; s. 113854
Hlavní autoři: Behrens, Thorsten, MacMillan, Robert A., Viscarra Rossel, Raphael A., Schmidt, Karsten, Lee, Juhwan
Médium: Journal Article
Jazyk:angličtina
Vydáno: Elsevier B.V 15.11.2019
Témata:
catenas
Contextual spatial modelling
data collection
digital elevation models
Digital soil mapping
environmental factors
Environmental modelling
Geomorphic signature
landscapes
Pedology
soil texture
Teleconnections
topographic slope
Geomorphic signature
Pedology
Digital soil mapping
Teleconnections
Environmental modelling
Contextual spatial modelling
ISSN:0016-7061, 1872-6259
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Shrnutí:In pedology, spatial context is relevant to soil-landscape systems on at least three different scales: i) the scale of quasi-local processes, which are independent of influence from the direct or wider neighborhood, ii) the scale of short-range processes for example on the local hillslope or catena, and iii) the scale of long-range processes, or teleconnected systems. We can represent the effects of teleconnections using existing tools and covariates, but we cannot easily infer or identify their controls, landscape processes or landscape units. We consider that an ability to identify the relevant controls in teleconnected systems would greatly improve pedological interpretation and understanding. Such understanding relates to the interaction of environmental factors and processes in the spatial context, which is relevant for environmental mapping generally. Here we show that teleconnected systems can be disassembled and interpreted using contextual modelling in such a way that the controls, i.e. the cause, can be localized in space. We present examples of how teleconnected systems can be deciphered. The methodology is based on the previously described ConMap approach in combination with Random Forest's measures of local feature importance. ConMap uses elevation differences, computed along multiple rays radiating out from a center grid cell, as predictors instead of complex surface derivatives or decomposed scales of a digital elevation model (DEM) or terrain attribute. Using synthetic and real-world data sets, we show how to identify and interpret teleconnections in soil environmental systems. In the synthetic example, elevation peaks are shown to produce larger values of soil properties, while, in contrast, a valley-mountain system is the main control of soil texture in the real-world example. Our analyses of teleconnected soil environmental systems illustrate that the stochastic component of the universal model of spatial variation is an integral but typically unresolved part of the deterministic component. •The three most important contextual environmental process systems are defined.•The term teleconnection is introduced for digital soil mapping and pedology.•A method is presented that makes it possible to decode teleconnected systems.•The control of a teleconnected system can be determined and spatially localized.
Bibliografie:ObjectType-Article-1
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ISSN:0016-7061
1872-6259
DOI:10.1016/j.geoderma.2019.07.012