Minkowski Functionals of Connected Soil Porosity as Indicators of Soil Tillage and Depth

Martínez, Fernando San José; Martı́n, Luisa; García-Gutiérrez, Carlos

doi:10.3389/fenvs.2018.00055

Cited by 8 publications

(6 citation statements)

References 38 publications

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“…The models described in the previous subsection rely on a huge amount of information contained in soil images, which is constantly increasing due to steady improvements of imaging techniques. Today, 3D CT images that are routinely acquired require several tens of gigabytes of storage for a size of up to about 2000 3 voxels (Helliwell, Sturrock, Miller, Whalley, & Mooney, 2019;Koebernick et al, 2017;Quigley, Rivers, & Kravchenko, 2018;San José Martínez, Martín, & García-Gutiérrez, 2018). The numerical solvers of the pore-scale models that directly include CT images as input data, such as LBM or finite volume resolutions, require large computational and memory capabilities.…”

Section: Case Of Simplified Actual Soil Architecturementioning

confidence: 99%

Accounting for soil architecture and microbial dynamics in microscale models: Current practices in soil science and the path ahead

Pot

Portell

Otten

et al. 2021

European J Soil Science

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Section: Case Of Simplified Actual Soil Architecturementioning

confidence: 99%

Accounting for soil architecture and microbial dynamics in microscale models: Current practices in soil science and the path ahead

Pot

Portell

Otten

et al. 2021

European J Soil Science

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“…These functions reflect complementary aspects of soil structure and should therefore have relevance for many different processes in soils (San José Martínez, Martín, & García-Gutiérrez, 2018;Vogel et al, 2010). For example, the surface area controls the interactions of solutes between water-filled pores and solid surfaces, while the curvature gives information on pore shape, which may be relevant for soil mechanical properties (Vogel et al, 2010).…”

Section: Soil S Truc Ture and Soil S Truc Ture Dynamic S: Overvie Wmentioning

confidence: 99%

“…The Minkowski functions represent a concise way to describe the geometry and topology of a multiscale binary medium (Vogel, Weller, & Schlüter, 2010), being defined as the volume and connectivity of each phase and the surface area and curvature of their interface, expressed as a function of pore diameter. These functions reflect complementary aspects of soil structure and should therefore have relevance for many different processes in soils (San José Martínez, Martín, & García‐Gutiérrez, 2018; Vogel et al., 2010). For example, the surface area controls the interactions of solutes between water‐filled pores and solid surfaces, while the curvature gives information on pore shape, which may be relevant for soil mechanical properties (Vogel et al., 2010).…”

Section: Soil Structure and Soil Structure Dynamics: Overview And Sommentioning

confidence: 99%

A framework for modelling soil structure dynamics induced by biological activity

Meurer

Barron

Chenu

et al. 2020

Global Change Biology

100

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Soil degradation is a worsening global phenomenon driven by socio‐economic pressures, poor land management practices and climate change. A deterioration of soil structure at timescales ranging from seconds to centuries is implicated in most forms of soil degradation including the depletion of nutrients and organic matter, erosion and compaction. New soil–crop models that could account for soil structure dynamics at decadal to centennial timescales would provide insights into the relative importance of the various underlying physical (e.g. tillage, traffic compaction, swell/shrink and freeze/thaw) and biological (e.g. plant root growth, soil microbial and faunal activity) mechanisms, their impacts on soil hydrological processes and plant growth, as well as the relevant timescales of soil degradation and recovery. However, the development of such a model remains a challenge due to the enormous complexity of the interactions in the soil–plant system. In this paper, we focus on the impacts of biological processes on soil structure dynamics, especially the growth of plant roots and the activity of soil fauna and microorganisms. We first define what we mean by soil structure and then review current understanding of how these biological agents impact soil structure. We then develop a new framework for modelling soil structure dynamics, which is designed to be compatible with soil–crop models that operate at the soil profile scale and for long temporal scales (i.e. decades, centuries). We illustrate the modelling concept with a case study on the role of root growth and earthworm bioturbation in restoring the structure of a severely compacted soil.

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“…Contrary to allegations made by several staunch defenders of the aggregate concept (Wang et al, 2019b; Yudina & Kuzyakov, 2019), it is in general impossible to identify aggregates in 3D CT images of soil samples, even in the case of columns filled with artificially repacked aggregates. Nevertheless, mathematical techniques exist, and novel ones are continuously being developed, to quantify the geometry of the pore space and account for it explicitly in computer models of soil dynamics, making unnecessary any mention of aggregates (e.g., Houston et al, 2017; Rabot, Wiesmeier, Schlüter, & Vogel, 2018; San José Martínez, Martín, & García‐Gutiérrez, 2018; Vogel & Roth, 2001; Vogel, Weller, & Schlüter, 2010).…”

Section: Multiple Evidence Of Bypassmentioning

confidence: 99%

Bypass and hyperbole in soil research: Worrisome practices critically reviewed through examples

Baveye

2020

European J Soil Science

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Almost 30 years ago, a distinguished soil physical‐chemist, Grant W. Thomas, voiced serious concern about what he saw in the soil science literature as more a preoccupation with style than with substance. The present article argues that, similarly, there are reasons to be worried at the moment because of a tendency in much of the literature on soils, both within and outwith soil science, to systematically ignore certain bodies of “old” literature, even when they are extremely relevant, and also to unduly inflate the potential significance of research achievements. These two practices, referred to as “bypass” and “hyperbole”, are illustrated by several examples dealing, respectively, with soil “aggregates”, soil quality/health, soil “contributions to ecosystem services” and whole‐soil metagenomics, in the case of bypass, and with biochar, the “4 per 1000” initiative, and the role of soils in achieving Sustainable Development Goals, in the case of hyperbole. It is hoped that the present review article will lead to a healthy debate on where our discipline stands at the moment in terms of how we build on the achievements of our predecessors and how accurately we describe the significance of our work. This debate should allow soil science to evolve to meet the daunting challenges it faces in the years ahead. Highlights The literature on soils seems characterized by a significant amount of bypass and hyperbole Bypass is described, related to soil “aggregates”, soil quality/health, soil “contributions to ecosystem services” and whole‐soil metagenomics Hyperbole is described in connection with the research on biochar, the “4 per 1000” initiative, and the role of soils in achieving Sustainable Development Goals. The need to curb these deviances is stressed.

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Minkowski Functionals of Connected Soil Porosity as Indicators of Soil Tillage and Depth

Cited by 8 publications

References 38 publications

Accounting for soil architecture and microbial dynamics in microscale models: Current practices in soil science and the path ahead

Accounting for soil architecture and microbial dynamics in microscale models: Current practices in soil science and the path ahead

A framework for modelling soil structure dynamics induced by biological activity

Bypass and hyperbole in soil research: Worrisome practices critically reviewed through examples

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