Tendency of soil erosion dynamics by coupling radioisotopes and RUSLE model on the Southeastern Tibetan Plateau in response to climate warming and human activity

Soil erosion has created landscape problems in many parts of the world and in particular in cold regions where the sensitive permafrost conditions have changed due to climate warming. Such a case occurred in the Tibetan Plateau (TP), which has been strongly affected by global warming and human activ...

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Published in:CATENA
Main Authors: Chen, Peng, Czymzik, Markus, Yu, Zhongbo, Aldahan, Ala, Wang, Jinguo, Yi, Peng, Hou, Xiaolin, Guo, Shouyan, Zheng, Minjie
Format: Article in Journal/Newspaper
Language:English
Published: Elsevier 2023
Subjects:
Physical Geography
Pb and Cs
Climate warming and human activity
RUSLE
Soil erosion
Southeastern Tibetan Plateau
permafrost
Online Access:https://lup.lub.lu.se/record/4a57f27f-01e9-4bc9-aed1-63cfa753de3d
https://doi.org/10.1016/j.catena.2023.106954
id ftulundlup:oai:lup.lub.lu.se:4a57f27f-01e9-4bc9-aed1-63cfa753de3d
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spelling ftulundlup:oai:lup.lub.lu.se:4a57f27f-01e9-4bc9-aed1-63cfa753de3d 2023-05-15T17:57:20+02:00 Tendency of soil erosion dynamics by coupling radioisotopes and RUSLE model on the Southeastern Tibetan Plateau in response to climate warming and human activity Chen, Peng Czymzik, Markus Yu, Zhongbo Aldahan, Ala Wang, Jinguo Yi, Peng Hou, Xiaolin Guo, Shouyan Zheng, Minjie 2023-04 https://lup.lub.lu.se/record/4a57f27f-01e9-4bc9-aed1-63cfa753de3d https://doi.org/10.1016/j.catena.2023.106954 eng eng Elsevier https://lup.lub.lu.se/record/4a57f27f-01e9-4bc9-aed1-63cfa753de3d http://dx.doi.org/10.1016/j.catena.2023.106954 scopus:85146544337 Catena; 223, no 106954 (2023) ISSN: 0341-8162 Physical Geography Pb and Cs Climate warming and human activity RUSLE Soil erosion Southeastern Tibetan Plateau contributiontojournal/article info:eu-repo/semantics/article text 2023 ftulundlup https://doi.org/10.1016/j.catena.2023.106954 2023-02-15T23:27:28Z Soil erosion has created landscape problems in many parts of the world and in particular in cold regions where the sensitive permafrost conditions have changed due to climate warming. Such a case occurred in the Tibetan Plateau (TP), which has been strongly affected by global warming and human activities. Monitoring technologies, like remote sensing and field surveys were used to explore soil erosion rates in the TP, but they were limited by the resolution and meteorological disturbance factors or the spatial and time scales. Here, we present for the first time 210Pbex (excess lead-210) and 137Cs (caesium-137) data of soils from the southeastern TP (SETP) covering an area of 640,000 km2. In the permafrost-dominant areas, the results show mean soil-erosion rates in the last 56–100 years that were relatively higher (1891 t·km−2·a-1) based on 210Pbex than those based on 137Cs (1623 t·km−2·a-1). Modelling results from the Revised Universal Soil Loss Equation (RUSLE) indicate relatively high mean soil erosion rates of 4363 and 4394 t·km−2·a-1 using a period covering the last 40 or 10 years respectively. Our data suggest accelerating erosion rates on the SETP that are linked to permafrost degradation, and glacier and snow melting due to accelerating global climate warming. The increase in ground surface temperature of ∼2 °C in the last four decades has further shifted the regional hydrology, affecting the degeneration of vegetation cover and a further increase in soil-erosion rates. However, our radionuclides data also expose low erosion rates in the seasonally frozen ground at some sampling sites which indicates the complex nature of erosion trends in cold regions that require careful adaptation of soil management. Article in Journal/Newspaper permafrost Lund University Publications (LUP) CATENA 223 106954
institution Open Polar
collection Lund University Publications (LUP)
op_collection_id ftulundlup
language English
topic Physical Geography
Pb and Cs
Climate warming and human activity
RUSLE
Soil erosion
Southeastern Tibetan Plateau
spellingShingle Physical Geography
Pb and Cs
Climate warming and human activity
RUSLE
Soil erosion
Southeastern Tibetan Plateau
Chen, Peng
Czymzik, Markus
Yu, Zhongbo
Aldahan, Ala
Wang, Jinguo
Yi, Peng
Hou, Xiaolin
Guo, Shouyan
Zheng, Minjie
Tendency of soil erosion dynamics by coupling radioisotopes and RUSLE model on the Southeastern Tibetan Plateau in response to climate warming and human activity
topic_facet Physical Geography
Pb and Cs
Climate warming and human activity
RUSLE
Soil erosion
Southeastern Tibetan Plateau
description Soil erosion has created landscape problems in many parts of the world and in particular in cold regions where the sensitive permafrost conditions have changed due to climate warming. Such a case occurred in the Tibetan Plateau (TP), which has been strongly affected by global warming and human activities. Monitoring technologies, like remote sensing and field surveys were used to explore soil erosion rates in the TP, but they were limited by the resolution and meteorological disturbance factors or the spatial and time scales. Here, we present for the first time 210Pbex (excess lead-210) and 137Cs (caesium-137) data of soils from the southeastern TP (SETP) covering an area of 640,000 km2. In the permafrost-dominant areas, the results show mean soil-erosion rates in the last 56–100 years that were relatively higher (1891 t·km−2·a-1) based on 210Pbex than those based on 137Cs (1623 t·km−2·a-1). Modelling results from the Revised Universal Soil Loss Equation (RUSLE) indicate relatively high mean soil erosion rates of 4363 and 4394 t·km−2·a-1 using a period covering the last 40 or 10 years respectively. Our data suggest accelerating erosion rates on the SETP that are linked to permafrost degradation, and glacier and snow melting due to accelerating global climate warming. The increase in ground surface temperature of ∼2 °C in the last four decades has further shifted the regional hydrology, affecting the degeneration of vegetation cover and a further increase in soil-erosion rates. However, our radionuclides data also expose low erosion rates in the seasonally frozen ground at some sampling sites which indicates the complex nature of erosion trends in cold regions that require careful adaptation of soil management.
format Article in Journal/Newspaper
author Chen, Peng
Czymzik, Markus
Yu, Zhongbo
Aldahan, Ala
Wang, Jinguo
Yi, Peng
Hou, Xiaolin
Guo, Shouyan
Zheng, Minjie
author_facet Chen, Peng
Czymzik, Markus
Yu, Zhongbo
Aldahan, Ala
Wang, Jinguo
Yi, Peng
Hou, Xiaolin
Guo, Shouyan
Zheng, Minjie
author_sort Chen, Peng
title Tendency of soil erosion dynamics by coupling radioisotopes and RUSLE model on the Southeastern Tibetan Plateau in response to climate warming and human activity
title_short Tendency of soil erosion dynamics by coupling radioisotopes and RUSLE model on the Southeastern Tibetan Plateau in response to climate warming and human activity
title_full Tendency of soil erosion dynamics by coupling radioisotopes and RUSLE model on the Southeastern Tibetan Plateau in response to climate warming and human activity
title_fullStr Tendency of soil erosion dynamics by coupling radioisotopes and RUSLE model on the Southeastern Tibetan Plateau in response to climate warming and human activity
title_full_unstemmed Tendency of soil erosion dynamics by coupling radioisotopes and RUSLE model on the Southeastern Tibetan Plateau in response to climate warming and human activity
title_sort tendency of soil erosion dynamics by coupling radioisotopes and rusle model on the southeastern tibetan plateau in response to climate warming and human activity
publisher Elsevier
publishDate 2023
url https://lup.lub.lu.se/record/4a57f27f-01e9-4bc9-aed1-63cfa753de3d
https://doi.org/10.1016/j.catena.2023.106954
genre permafrost
genre_facet permafrost
op_source Catena; 223, no 106954 (2023)
ISSN: 0341-8162
op_relation https://lup.lub.lu.se/record/4a57f27f-01e9-4bc9-aed1-63cfa753de3d
http://dx.doi.org/10.1016/j.catena.2023.106954
scopus:85146544337
op_doi https://doi.org/10.1016/j.catena.2023.106954
container_title CATENA
container_volume 223
container_start_page 106954
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