ChronoLorica: introduction of a soil–landscape evolution model combined with geochronometers

IF 2.7 Q2 GEOCHEMISTRY & GEOPHYSICS
W. M. van der Meij, A. Temme, S. Binnie, T. Reimann
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引用次数: 0

Abstract

Abstract. Understanding long-term soil and landscape evolution can help us understand the threats to current-day soils, landscapes and their functions. The temporal evolution of soils and landscapes can be studied using geochronometers, such as optically stimulated luminescence (OSL) particle ages or radionuclide inventories. Also, soil–landscape evolution models (SLEMs) can be used to study the spatial and temporal evolution of soils and landscapes through numerical modelling of the processes responsible for the evolution. SLEMs and geochronometers have been combined in the past, but often these couplings focus on a single geochronometer, are designed for specific idealized landscape positions, or do not consider multiple transport processes or post-depositional mixing processes that can disturb the geochronometers in sedimentary archives. We present ChronoLorica, a coupling of the soil–landscape evolution model Lorica with a geochronological module. The module traces spatiotemporal patterns of particle ages, analogous to OSL ages, and radionuclide inventories during the simulations of soil and landscape evolution. The geochronological module opens rich possibilities for data-based calibration of simulated model processes, which include natural processes, such as bioturbation and soil creep, as well as anthropogenic processes, such as tillage. Moreover, ChronoLorica can be applied to transient landscapes that are subject to complex, non-linear boundary conditions, such as land use intensification, and processes of post-depositional disturbance which often result in complex geo-archives. In this contribution, we illustrate the model functionality and applicability by simulating soil and landscape evolution along a two-dimensional hillslope. We show how the model simulates the development of the following three geochronometers: OSL particle ages, meteoric 10Be inventories and in situ 10Be inventories. The results are compared with field observations from comparable landscapes. We also discuss the limitations of the model and highlight its potential applications in pedogenical, geomorphological or geological studies.
ChronoLorica:介绍了结合地球时计的土壤景观演化模型
摘要了解土壤和景观的长期演变可以帮助我们了解当前土壤、景观及其功能面临的威胁。土壤和景观的时间演变可以使用地球时计进行研究,例如光激发发光(OSL)粒子年龄或放射性核素清单。此外,土壤景观演化模型(SLEMs)可以通过对土壤和景观演化过程的数值模拟来研究土壤和景观的时空演化。slem和地质时计在过去已经结合在一起,但这些耦合通常集中在一个地质时计上,是为特定的理想景观位置设计的,或者没有考虑多重运输过程或沉积后混合过程,这些过程可能会干扰沉积档案中的地质时计。我们提出了ChronoLorica,这是一个将土壤-景观演化模型lorica与地质年代学模块相结合的模型。该模块追踪粒子年龄的时空模式,类似于OSL年龄,以及模拟土壤和景观演变过程中的放射性核素清单。地质年代学模块为模拟模型过程的基于数据的校准提供了丰富的可能性,其中包括自然过程,如生物扰动和土壤蠕变,以及人为过程,如耕作。此外,ChronoLorica可以应用于受复杂、非线性边界条件影响的瞬态景观,如土地利用集约化和沉积后扰动过程,这些过程往往导致复杂的地质档案。在本文中,我们通过模拟沿二维山坡的土壤和景观演变来说明模型的功能和适用性。我们展示了该模型如何模拟以下三种地球计时器的发展:OSL粒子年龄,大气10Be库存和原位10Be库存。结果与可比较景观的实地观测结果进行了比较。我们还讨论了该模型的局限性,并强调了其在土壤学、地貌学或地质学研究中的潜在应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Geochronology
Geochronology Earth and Planetary Sciences-Paleontology
CiteScore
6.60
自引率
0.00%
发文量
35
审稿时长
19 weeks
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