Soil enzyme response to permafrost collapse in the Northern Qinghai-Tibetan Plateau.

Permafrost degradation can result in the formation of permafrost collapsed ground features, and thus greatly alter soil variables such as moisture, pH, soil carbon and nitrogen content, and the biogeochemical cycling of soil carbon. However, little is known about the biogeochemical processes in thes...

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Main Authors:	Xu, Haiyan, Liu, Guimin, Wu, Xiaodong, Smoak, Joseph M., Mu, Cuicui, Ma, Xiaoliang, Zhang, Xiaolan, Li, Hongqin, Hu, Guanglu
Format:	Text
Language:	English
Published:	Digital Commons @ University of South Florida 2018
Subjects:	Biogeochemical process Light fraction carbon C:N ratio Carbon cycle Thermokarst Environmental Sciences permafrost
Online Access:	https://digitalcommons.usf.edu/fac_publications/2928 https://login.ezproxy.lib.usf.edu/login?url=https://ac.els-cdn.com/S1470160X17307252/1-s2.0-S1470160X17307252-main.pdf?_tid=d7efe918-d3a6-11e7-abf9-00000aab0f01&acdnat=1511810100_e8bb0035991bf8083e4686fa81193a55

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spelling	ftunisfloridatam:oai:digitalcommons.usf.edu:fac_publications-3927 2023-05-15T17:55:41+02:00 Soil enzyme response to permafrost collapse in the Northern Qinghai-Tibetan Plateau. Xu, Haiyan Liu, Guimin Wu, Xiaodong Smoak, Joseph M. Mu, Cuicui Ma, Xiaoliang Zhang, Xiaolan Li, Hongqin Hu, Guanglu 2018-01-01T08:00:00Z https://digitalcommons.usf.edu/fac_publications/2928 https://login.ezproxy.lib.usf.edu/login?url=https://ac.els-cdn.com/S1470160X17307252/1-s2.0-S1470160X17307252-main.pdf?_tid=d7efe918-d3a6-11e7-abf9-00000aab0f01&acdnat=1511810100_e8bb0035991bf8083e4686fa81193a55 en_US eng Digital Commons @ University of South Florida https://digitalcommons.usf.edu/fac_publications/2928 https://login.ezproxy.lib.usf.edu/login?url=https://ac.els-cdn.com/S1470160X17307252/1-s2.0-S1470160X17307252-main.pdf?_tid=d7efe918-d3a6-11e7-abf9-00000aab0f01&acdnat=1511810100_e8bb0035991bf8083e4686fa81193a55 http://creativecommons.org/licenses/by-nc-nd/4.0/ CC-BY-NC-ND USF St. Petersburg campus Faculty Publications Biogeochemical process Light fraction carbon C:N ratio Carbon cycle Thermokarst Environmental Sciences text 2018 ftunisfloridatam 2021-10-09T08:18:18Z Permafrost degradation can result in the formation of permafrost collapsed ground features, and thus greatly alter soil variables such as moisture, pH, soil carbon and nitrogen content, and the biogeochemical cycling of soil carbon. However, little is known about the biogeochemical processes in these features within mountainous-permafrost areas. We examined activities of six different soil enzymes (invertase, amylase, catalase, polyphenol oxidase, urease, and alkaline phosphatase) in three micro-topographical settings (i.e., collapsing, collapsed, and an unaffected control site) of a typical thermokarst feature on the northern Qinghai-Tibetan Plateau. Our results show soil moisture is substantially lower within the permafrost thaw-induced collapsed feature. In addition, soil organic carbon, light fraction organic carbon and total nitrogen in the upper 10 cm soil depth were lower in soils where permafrost was in the process of collapsing. Accordingly, soil enzyme activities varied considerably among the three settings, indicating biogeochemical processes have been altered by permafrost collapse. The invertase activities in collapsing soils were significantly lower than those of the control and collapsed soils for the upper 0–20 cm layer. Coefficient of variation values for amylase and polyphenol oxidase were 44.1% and 6.7%, respectively. For 0–10 cm soil depth, the catalase in collapsing soils were highest while the urease activities were lowest among the three settings. Statistical analysis demonstrated that light fraction carbon content, C:N ratios, and moisture were the most important predictors for enzyme activities. These results suggest that soil enzyme activities are good indicators for the decomposition of organic matter in permafrost collapse-affected areas. Text permafrost Thermokarst Digital Commons University of South Florida (USF)
institution	Open Polar
collection	Digital Commons University of South Florida (USF)
op_collection_id	ftunisfloridatam
language	English
topic	Biogeochemical process Light fraction carbon C:N ratio Carbon cycle Thermokarst Environmental Sciences
spellingShingle	Biogeochemical process Light fraction carbon C:N ratio Carbon cycle Thermokarst Environmental Sciences Xu, Haiyan Liu, Guimin Wu, Xiaodong Smoak, Joseph M. Mu, Cuicui Ma, Xiaoliang Zhang, Xiaolan Li, Hongqin Hu, Guanglu Soil enzyme response to permafrost collapse in the Northern Qinghai-Tibetan Plateau.
topic_facet	Biogeochemical process Light fraction carbon C:N ratio Carbon cycle Thermokarst Environmental Sciences
description	Permafrost degradation can result in the formation of permafrost collapsed ground features, and thus greatly alter soil variables such as moisture, pH, soil carbon and nitrogen content, and the biogeochemical cycling of soil carbon. However, little is known about the biogeochemical processes in these features within mountainous-permafrost areas. We examined activities of six different soil enzymes (invertase, amylase, catalase, polyphenol oxidase, urease, and alkaline phosphatase) in three micro-topographical settings (i.e., collapsing, collapsed, and an unaffected control site) of a typical thermokarst feature on the northern Qinghai-Tibetan Plateau. Our results show soil moisture is substantially lower within the permafrost thaw-induced collapsed feature. In addition, soil organic carbon, light fraction organic carbon and total nitrogen in the upper 10 cm soil depth were lower in soils where permafrost was in the process of collapsing. Accordingly, soil enzyme activities varied considerably among the three settings, indicating biogeochemical processes have been altered by permafrost collapse. The invertase activities in collapsing soils were significantly lower than those of the control and collapsed soils for the upper 0–20 cm layer. Coefficient of variation values for amylase and polyphenol oxidase were 44.1% and 6.7%, respectively. For 0–10 cm soil depth, the catalase in collapsing soils were highest while the urease activities were lowest among the three settings. Statistical analysis demonstrated that light fraction carbon content, C:N ratios, and moisture were the most important predictors for enzyme activities. These results suggest that soil enzyme activities are good indicators for the decomposition of organic matter in permafrost collapse-affected areas.
format	Text
author	Xu, Haiyan Liu, Guimin Wu, Xiaodong Smoak, Joseph M. Mu, Cuicui Ma, Xiaoliang Zhang, Xiaolan Li, Hongqin Hu, Guanglu
author_facet	Xu, Haiyan Liu, Guimin Wu, Xiaodong Smoak, Joseph M. Mu, Cuicui Ma, Xiaoliang Zhang, Xiaolan Li, Hongqin Hu, Guanglu
author_sort	Xu, Haiyan
title	Soil enzyme response to permafrost collapse in the Northern Qinghai-Tibetan Plateau.
title_short	Soil enzyme response to permafrost collapse in the Northern Qinghai-Tibetan Plateau.
title_full	Soil enzyme response to permafrost collapse in the Northern Qinghai-Tibetan Plateau.
title_fullStr	Soil enzyme response to permafrost collapse in the Northern Qinghai-Tibetan Plateau.
title_full_unstemmed	Soil enzyme response to permafrost collapse in the Northern Qinghai-Tibetan Plateau.
title_sort	soil enzyme response to permafrost collapse in the northern qinghai-tibetan plateau.
publisher	Digital Commons @ University of South Florida
publishDate	2018
url	https://digitalcommons.usf.edu/fac_publications/2928 https://login.ezproxy.lib.usf.edu/login?url=https://ac.els-cdn.com/S1470160X17307252/1-s2.0-S1470160X17307252-main.pdf?_tid=d7efe918-d3a6-11e7-abf9-00000aab0f01&acdnat=1511810100_e8bb0035991bf8083e4686fa81193a55
genre	permafrost Thermokarst
genre_facet	permafrost Thermokarst
op_source	USF St. Petersburg campus Faculty Publications
op_relation	https://digitalcommons.usf.edu/fac_publications/2928 https://login.ezproxy.lib.usf.edu/login?url=https://ac.els-cdn.com/S1470160X17307252/1-s2.0-S1470160X17307252-main.pdf?_tid=d7efe918-d3a6-11e7-abf9-00000aab0f01&acdnat=1511810100_e8bb0035991bf8083e4686fa81193a55
op_rights	http://creativecommons.org/licenses/by-nc-nd/4.0/
op_rightsnorm	CC-BY-NC-ND
_version_	1766163664380887040

Soil enzyme response to permafrost collapse in the Northern Qinghai-Tibetan Plateau.

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