Denudation and geomorphic change in the Anthropocene; a global overview

The effects of human activity on geomorphic processes, particularly those related to denudation/sedimentation, are investigated by reviewing case studies and global assessments covering the past few centuries. Evidence we have assembled from different parts of the world, as well as from the literatu...

Full description

Saved in:
Bibliographic Details
Published in:Earth-science reviews 2022-10, Vol.233, p.104186, Article 104186
Main Authors: Cendrero, Antonio, Remondo, Juan, Beylich, Achim A., Cienciala, Piotr, Forte, Luis M., Golosov, Valentin N., Gusarov, Artyom V., Kijowska-Strugała, Małgorzata, Laute, Katja, Li, Dongfeng, Navas, Ana, Soldati, Mauro, Vergari, Francesca, Zwoliński, Zbigniew, Dixon, John C., Knight, Jasper, Nadal-Romero, Estela, Płaczkowska, Eliza
Format: Article
Language:English
Subjects:
Anthropocene epoch
climate
climate change
Geomorphic disasters
Global geomorphic change
Great geomorphic acceleration
gross domestic product
humans
land use
landscapes
landslides
Sediment flux
Sedimentation rates
sediments
socioeconomics
Technological denudation
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:The effects of human activity on geomorphic processes, particularly those related to denudation/sedimentation, are investigated by reviewing case studies and global assessments covering the past few centuries. Evidence we have assembled from different parts of the world, as well as from the literature, show that certain geomorphic processes are experiencing an acceleration, especially since the mid-twentieth century. This suggests that a global geomorphic change is taking place, largely caused by anthropogenic landscape changes. Direct human-driven denudation (through activities involving excavation, transport, and accumulation of geological materials) has increased by a factor of 30 between 1950 and 2015, representing a ten-fold increase of per capita effect. Direct plus indirectly human-induced denudation (triggered by land surface alteration) is presently at least one order of magnitude greater than denudation due to purely natural processes. The activity of slope movements, which represent an important contribution to denudation, sediment generation and landscape evolution, also shows a clear intensification. Frequency of hazardous events and disasters related to slope movements (an indirect measure of process frequency) in specific regions, as well as at continental and global levels, has grown considerably, in particular after the mid-twentieth century. Intense rainstorm events are often related to slope movement occurrence, but the general increasing trend observed is not satisfactorily explained by climate. Sedimentation has augmented considerably in most regions and all kinds of sedimentation environments. Although the link between denudation and sedimentation is not direct and unequivocal, it is safe to assume that if sedimentation rates increase in different regions during a given period, denudation must have increased too, even though their magnitudes could be different. This augmentation, particularly marked from the second half of the last century onwards, appears to be determined mainly by land surface changes, in conjunction with climate change. The changes observed suggest: a) there is evidence at a global scale of a growing response of geomorphic systems to socio-economic drivers, being Gross Domestic Product density, a good indicator of the human potential to cause such impacts; b) Land use/cover changes enhance effects of climate change on global denudation/sedimentation and landslide/flood frequency, and appear to be a stronger control
ISSN:0012-8252
1872-6828
DOI:10.1016/j.earscirev.2022.104186