Atmosphere-vegetation-soil interactions in a climate change context; Impact of changing conditions on engineered transport infrastructure slopes in Europe

A. M. Tang; P. N. Hughes; T. A. Dijkstra; A. Askarinejad; M. Brenčič; Y. J. Cui; J. J. Diez; T. Firgi; B. Gajewska; F. Gentile; G. Grossi; C. Jommi; F. Kehagia; E. Koda; H. W. TerMaat; S. Lenart; S. Lourenco; M. Oliveira; P. Osinski; S. M. Springman; R. Stirling; D. G. Toll; V. Van Beek

doi:10.1144/qjegh2017-103

Atmosphere-vegetation-soil interactions in a climate change context; Impact of changing conditions on engineered transport infrastructure slopes in Europe

A. M. Tang^*, P. N. Hughes, T. A. Dijkstra, A. Askarinejad, M. Brenčič, Y. J. Cui, J. J. Diez, T. Firgi, B. Gajewska, F. Gentile, G. Grossi, C. Jommi, F. Kehagia, E. Koda, H. W. TerMaat, S. Lenart, S. Lourenco, M. Oliveira, P. Osinski, S. M. SpringmanR. Stirling, D. G. Toll, V. Van Beek

^*Corresponding author for this work

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Abstract

In assessing the impact of climate change on infrastructure, it is essential to consider the interactions between the atmosphere, vegetation and the near-surface soil. This paper presents an overview of these processes, focusing on recent advances from the literature and those made by members of COST Action TU1202 - Impacts of climate change on engineered slopes for infrastructure. Climate- and vegetation-driven processes (suction generation, erosion, desiccation cracking, freeze- thaw effects) are expected to change in incidence and severity, which will affect the stability of new and existing infrastructure slopes. This paper identifies the climate- and vegetation-driven processes that are of greatest concern, the suite of known unknowns that require further research, and lists key aspect that should be considered for the design of engineered transport infrastructure slopes in the context of climate change.

Original language	English
Pages (from-to)	156-168
Number of pages	13
Journal	Quarterly Journal of Engineering Geology and Hydrogeology
Volume	51
Issue number	2
DOIs	https://doi.org/10.1144/qjegh2017-103
Publication status	Published - 1 May 2018

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10.1144/qjegh2017-103

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Tang, A. M., Hughes, P. N., Dijkstra, T. A., Askarinejad, A., Brenčič, M., Cui, Y. J., Diez, J. J., Firgi, T., Gajewska, B., Gentile, F., Grossi, G., Jommi, C., Kehagia, F., Koda, E., TerMaat, H. W., Lenart, S., Lourenco, S., Oliveira, M., Osinski, P., ... Van Beek, V. (2018). Atmosphere-vegetation-soil interactions in a climate change context; Impact of changing conditions on engineered transport infrastructure slopes in Europe. Quarterly Journal of Engineering Geology and Hydrogeology, 51(2), 156-168. https://doi.org/10.1144/qjegh2017-103

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title = "Atmosphere-vegetation-soil interactions in a climate change context; Impact of changing conditions on engineered transport infrastructure slopes in Europe",

abstract = "In assessing the impact of climate change on infrastructure, it is essential to consider the interactions between the atmosphere, vegetation and the near-surface soil. This paper presents an overview of these processes, focusing on recent advances from the literature and those made by members of COST Action TU1202 - Impacts of climate change on engineered slopes for infrastructure. Climate- and vegetation-driven processes (suction generation, erosion, desiccation cracking, freeze- thaw effects) are expected to change in incidence and severity, which will affect the stability of new and existing infrastructure slopes. This paper identifies the climate- and vegetation-driven processes that are of greatest concern, the suite of known unknowns that require further research, and lists key aspect that should be considered for the design of engineered transport infrastructure slopes in the context of climate change.",

author = "Tang, {A. M.} and Hughes, {P. N.} and Dijkstra, {T. A.} and A. Askarinejad and M. Bren{\v c}i{\v c} and Cui, {Y. J.} and Diez, {J. J.} and T. Firgi and B. Gajewska and F. Gentile and G. Grossi and C. Jommi and F. Kehagia and E. Koda and TerMaat, {H. W.} and S. Lenart and S. Lourenco and M. Oliveira and P. Osinski and Springman, {S. M.} and R. Stirling and Toll, {D. G.} and {Van Beek}, V.",

year = "2018",

month = may,

day = "1",

doi = "10.1144/qjegh2017-103",

language = "English",

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pages = "156--168",

journal = "Quarterly Journal of Engineering Geology and Hydrogeology",

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Tang, AM, Hughes, PN, Dijkstra, TA, Askarinejad, A, Brenčič, M, Cui, YJ, Diez, JJ, Firgi, T, Gajewska, B, Gentile, F, Grossi, G, Jommi, C, Kehagia, F, Koda, E, TerMaat, HW, Lenart, S, Lourenco, S, Oliveira, M, Osinski, P, Springman, SM, Stirling, R, Toll, DG & Van Beek, V 2018, 'Atmosphere-vegetation-soil interactions in a climate change context; Impact of changing conditions on engineered transport infrastructure slopes in Europe', Quarterly Journal of Engineering Geology and Hydrogeology, vol. 51, no. 2, pp. 156-168. https://doi.org/10.1144/qjegh2017-103

Atmosphere-vegetation-soil interactions in a climate change context; Impact of changing conditions on engineered transport infrastructure slopes in Europe. / Tang, A. M.; Hughes, P. N.; Dijkstra, T. A. et al.
In: Quarterly Journal of Engineering Geology and Hydrogeology, Vol. 51, No. 2, 01.05.2018, p. 156-168.

Research output: Contribution to journal › Article › Scientific › peer-review

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AU - Tang, A. M.

AU - Hughes, P. N.

AU - Dijkstra, T. A.

AU - Askarinejad, A.

AU - Brenčič, M.

AU - Cui, Y. J.

AU - Diez, J. J.

AU - Firgi, T.

AU - Gajewska, B.

AU - Gentile, F.

AU - Grossi, G.

AU - Jommi, C.

AU - Kehagia, F.

AU - Koda, E.

AU - TerMaat, H. W.

AU - Lenart, S.

AU - Lourenco, S.

AU - Oliveira, M.

AU - Osinski, P.

AU - Springman, S. M.

AU - Stirling, R.

AU - Toll, D. G.

AU - Van Beek, V.

PY - 2018/5/1

Y1 - 2018/5/1

N2 - In assessing the impact of climate change on infrastructure, it is essential to consider the interactions between the atmosphere, vegetation and the near-surface soil. This paper presents an overview of these processes, focusing on recent advances from the literature and those made by members of COST Action TU1202 - Impacts of climate change on engineered slopes for infrastructure. Climate- and vegetation-driven processes (suction generation, erosion, desiccation cracking, freeze- thaw effects) are expected to change in incidence and severity, which will affect the stability of new and existing infrastructure slopes. This paper identifies the climate- and vegetation-driven processes that are of greatest concern, the suite of known unknowns that require further research, and lists key aspect that should be considered for the design of engineered transport infrastructure slopes in the context of climate change.

AB - In assessing the impact of climate change on infrastructure, it is essential to consider the interactions between the atmosphere, vegetation and the near-surface soil. This paper presents an overview of these processes, focusing on recent advances from the literature and those made by members of COST Action TU1202 - Impacts of climate change on engineered slopes for infrastructure. Climate- and vegetation-driven processes (suction generation, erosion, desiccation cracking, freeze- thaw effects) are expected to change in incidence and severity, which will affect the stability of new and existing infrastructure slopes. This paper identifies the climate- and vegetation-driven processes that are of greatest concern, the suite of known unknowns that require further research, and lists key aspect that should be considered for the design of engineered transport infrastructure slopes in the context of climate change.

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DO - 10.1144/qjegh2017-103

M3 - Article

AN - SCOPUS:85046426372

SN - 1470-9236

VL - 51

SP - 156

EP - 168

JO - Quarterly Journal of Engineering Geology and Hydrogeology

JF - Quarterly Journal of Engineering Geology and Hydrogeology

IS - 2

ER -

Atmosphere-vegetation-soil interactions in a climate change context; Impact of changing conditions on engineered transport infrastructure slopes in Europe

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