Modeling soil and landscape evolution - The effect of rainfall and land-use change on soil and landscape patterns

W.M. Van Der Meij*, Arnaud J.A.M. Temme, Jakob Wallinga, Michael Sommer

*Corresponding author for this work

Research output: Contribution to journalArticleAcademicpeer-review

17 Citations (Scopus)

Abstract

Humans have substantially altered soil and landscape patterns and properties due to agricultural use, with severe Impacts on biodiversity, carbon sequestration and food security. These Impacts are difficult to quantify, because we lack data on long-term changes In soils In natural and agricultural settings and available simulation methods are not suitable for reliably predicting future development of soils under projected changes In climate and land management. To help overcome these challenges, we developed the HydroLorica soil-landscape evolution model that simulates soil development by explicitly modeling the spatial water balance as a driver of soil- and landscape-forming processes. We simulated 14 500 years of soil formation under natural conditions for three scenarios of different rainfall Inputs. For each scenario we added a 500-year period of Intensive agricultural land use, where we Introduced tillage erosion and changed vegetation type.

Our results show substantial differences between natural soil patterns under different rainfall Input. With higher rainfall, soil patterns become more heterogeneous due to Increased tree throw and water erosion. Agricultural patterns differ substantially from the natural patterns, with higher variation of soil properties over larger distances and larger correlations with terrain position. In the natural system, rainfall Is the dominant factor Influencing soil variation, while for agricultural soil patterns landform explains most of the variation simulated. The cultivation of soils thus changed the dominant factors and processes Influencing soil formation and thereby also Increased predictability of soil patterns. Our study highlights the potential of soil-landscape evolution modeling for simulating past and future developments of soil and landscape patterns. Our results confirm that humans have become the dominant soil-forming factor In agricultural landscapes.

Original languageEnglish
Pages (from-to)337-358
Number of pages22
JournalSOIL
Volume6
Issue number2
DOIs
Publication statusPublished - 3 Aug 2020

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