Effects of Shelter Forests on Soil Organic Carbon of Irrigated Soils in the Taklimakan Desert

Effects of Shelter Forests on Soil Organic Carbon of Irrigated Soils in the Taklimakan Desert

An experiment was carried out to test the effects of artificial vegetation on soil organic carbon in sandy soil. The soils were collected from the Taklimakan desert highway shelter forests with different stand age (the stand ages are 5, 7, 10, 13, 16, respectively, and three shrubs named <i>Ca...

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Main Authors: Xuexi Ma, Zhengzhong Jin, Yingju Wang, Jiaqiang Lei
Format: Article
Language:English
Published: MDPI AG 2021-04-01
Series:Sustainability
Subjects:
artificial vegetation
stand age
organic carbon stock
passive organic carbon
chemical composition of humus
Online Access:https://www.mdpi.com/2071-1050/13/8/4535
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spelling doaj-b10a7ddfdfdc419f959bcc792d264e232021-04-19T23:04:21ZengMDPI AGSustainability2071-10502021-04-01134535453510.3390/su13084535Effects of Shelter Forests on Soil Organic Carbon of Irrigated Soils in the Taklimakan DesertXuexi Ma0Zhengzhong Jin1Yingju Wang2Jiaqiang Lei3National Engineering Technology Research Center for Desert—Oasis Ecological Construction, Xinjiang Institute of Ecology and Geography, Chinese Academy of Sciences, Urumqi 830011, ChinaNational Engineering Technology Research Center for Desert—Oasis Ecological Construction, Xinjiang Institute of Ecology and Geography, Chinese Academy of Sciences, Urumqi 830011, ChinaNational Engineering Technology Research Center for Desert—Oasis Ecological Construction, Xinjiang Institute of Ecology and Geography, Chinese Academy of Sciences, Urumqi 830011, ChinaNational Engineering Technology Research Center for Desert—Oasis Ecological Construction, Xinjiang Institute of Ecology and Geography, Chinese Academy of Sciences, Urumqi 830011, ChinaAn experiment was carried out to test the effects of artificial vegetation on soil organic carbon in sandy soil. The soils were collected from the Taklimakan desert highway shelter forests with different stand age (the stand ages are 5, 7, 10, 13, 16, respectively, and three shrubs named <i>Calligonum mongolicunl</i>, <i>Tamarix chinensis</i> and <i>Haloxylon ammodendron</i> were planted along the highway) in Xinjiang, northwest of China. The soil organic carbon stock in soil vertical layers were calculated. We measured four passive organic carbons (i.e., micro-aggregates organic carbon, humic organic carbon, acid-resistant organic carbon and antioxidant organic carbon). Furthermore, we analyzed the correlations and ratios among the different passive organic carbons. Finally, the chemical composition of humus was detected and the relative contents of C=O and CH groups were determined. The main results showed that, (1) the soil organic carbon and organic carbon stock were decreased with the increase of depth, mainly in 0–50 cm. (2) With the increase of stand age, only in <i>Tamarix chinensis</i> forest, the total soil organic carbon stock increased a little. (3) Total soil organic carbon had more closely correlation with contents of micro-aggregate organic carbon and humic organic carbon. (4) C=O/C-O-C increased a little after 10 years; CH/C-O-C had no obvious change with stand age; CH<sub>2</sub>/CH<sub>3</sub> did not change obviously after 13 years. The <i>Tamarix chinensis</i> forest is the most helpful for carbon sequestration in sandy soil and stabilization in surface layer than <i>Calligonum mongolicunl</i> and <i>Haloxylon ammodendron</i>.https://www.mdpi.com/2071-1050/13/8/4535artificial vegetationstand ageorganic carbon stockpassive organic carbonchemical composition of humus
collection DOAJ
language English
format Article
sources DOAJ
author Xuexi Ma
Zhengzhong Jin
Yingju Wang
Jiaqiang Lei
spellingShingle Xuexi Ma
Zhengzhong Jin
Yingju Wang
Jiaqiang Lei
Effects of Shelter Forests on Soil Organic Carbon of Irrigated Soils in the Taklimakan Desert
Sustainability
artificial vegetation
stand age
organic carbon stock
passive organic carbon
chemical composition of humus
author_facet Xuexi Ma
Zhengzhong Jin
Yingju Wang
Jiaqiang Lei
author_sort Xuexi Ma
title Effects of Shelter Forests on Soil Organic Carbon of Irrigated Soils in the Taklimakan Desert
title_short Effects of Shelter Forests on Soil Organic Carbon of Irrigated Soils in the Taklimakan Desert
title_full Effects of Shelter Forests on Soil Organic Carbon of Irrigated Soils in the Taklimakan Desert
title_fullStr Effects of Shelter Forests on Soil Organic Carbon of Irrigated Soils in the Taklimakan Desert
title_full_unstemmed Effects of Shelter Forests on Soil Organic Carbon of Irrigated Soils in the Taklimakan Desert
title_sort effects of shelter forests on soil organic carbon of irrigated soils in the taklimakan desert
publisher MDPI AG
series Sustainability
issn 2071-1050
publishDate 2021-04-01
description An experiment was carried out to test the effects of artificial vegetation on soil organic carbon in sandy soil. The soils were collected from the Taklimakan desert highway shelter forests with different stand age (the stand ages are 5, 7, 10, 13, 16, respectively, and three shrubs named <i>Calligonum mongolicunl</i>, <i>Tamarix chinensis</i> and <i>Haloxylon ammodendron</i> were planted along the highway) in Xinjiang, northwest of China. The soil organic carbon stock in soil vertical layers were calculated. We measured four passive organic carbons (i.e., micro-aggregates organic carbon, humic organic carbon, acid-resistant organic carbon and antioxidant organic carbon). Furthermore, we analyzed the correlations and ratios among the different passive organic carbons. Finally, the chemical composition of humus was detected and the relative contents of C=O and CH groups were determined. The main results showed that, (1) the soil organic carbon and organic carbon stock were decreased with the increase of depth, mainly in 0–50 cm. (2) With the increase of stand age, only in <i>Tamarix chinensis</i> forest, the total soil organic carbon stock increased a little. (3) Total soil organic carbon had more closely correlation with contents of micro-aggregate organic carbon and humic organic carbon. (4) C=O/C-O-C increased a little after 10 years; CH/C-O-C had no obvious change with stand age; CH<sub>2</sub>/CH<sub>3</sub> did not change obviously after 13 years. The <i>Tamarix chinensis</i> forest is the most helpful for carbon sequestration in sandy soil and stabilization in surface layer than <i>Calligonum mongolicunl</i> and <i>Haloxylon ammodendron</i>.
topic artificial vegetation
stand age
organic carbon stock
passive organic carbon
chemical composition of humus
url https://www.mdpi.com/2071-1050/13/8/4535
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