Soil Nitrogen Storage, Distribution, and Associated Controlling Factors in the Northeast Tibetan Plateau Shrublands

Soil Nitrogen Storage, Distribution, and Associated Controlling Factors in the Northeast Tibetan Plateau Shrublands

Although the soils in the Tibetan Plateau shrublands store large amounts of total nitrogen (N), the estimated values remain uncertain because of spatial heterogeneity and a lack of field observations. In this study, we quantified the regional soil N storage, spatial and vertical density distribution...

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Main Authors: Xiuqing Nie, Feng Xiong, Lucun Yang, Changbin Li, Guoying Zhou
Format: Article
Language:English
Published: MDPI AG 2017-11-01
Series:Forests
Subjects:
soil total nitrogen
spatial distribution
vertical distribution
climatic factors
Tibetan Plateau shrublands
Online Access:https://www.mdpi.com/1999-4907/8/11/416
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spelling doaj-1e0e48a54b0e4918bc002476599a6b192020-11-24T23:54:56ZengMDPI AGForests1999-49072017-11-0181141610.3390/f8110416f8110416Soil Nitrogen Storage, Distribution, and Associated Controlling Factors in the Northeast Tibetan Plateau ShrublandsXiuqing Nie0Feng Xiong1Lucun Yang2Changbin Li3Guoying Zhou4Key Laboratory of Tibetan Medicine Research, Northwest Institute of Plateau Biology, Chinese Academy of Sciences, Xining 810008, ChinaKey Laboratory of Tibetan Medicine Research, Northwest Institute of Plateau Biology, Chinese Academy of Sciences, Xining 810008, ChinaKey Laboratory of Tibetan Medicine Research, Northwest Institute of Plateau Biology, Chinese Academy of Sciences, Xining 810008, ChinaKey Laboratory of Tibetan Medicine Research, Northwest Institute of Plateau Biology, Chinese Academy of Sciences, Xining 810008, ChinaKey Laboratory of Tibetan Medicine Research, Northwest Institute of Plateau Biology, Chinese Academy of Sciences, Xining 810008, ChinaAlthough the soils in the Tibetan Plateau shrublands store large amounts of total nitrogen (N), the estimated values remain uncertain because of spatial heterogeneity and a lack of field observations. In this study, we quantified the regional soil N storage, spatial and vertical density distributions, and related climatic controls using 183 soil profiles sampled from 61 sites across the Northeast Tibetan Plateau shrublands during the period of 2011–2013. Our analysis revealed a soil N storage value of 132.40 Tg at a depth of 100 cm, with an average density of 1.21 kg m−2. Soil N density was distributed at greater levels in alpine shrublands, compared with desert shrublands. Spatially, soil N densities decreased from south to north and from east to west, and, vertically, the soil N in the upper 30 and 50 cm accounted for 42% and 64% of the total soil N stocks in the Tibetan Plateau. However, compared with desert shrublands, the surface layers in alpine shrublands exhibited a larger distribution of soil N stocks. Overall, the soil N density in the top 30 cm increased significantly with the mean annual precipitation (MAP) and tended to decrease with the mean annual temperature (MAT), although the dominant climatic controls differed among shrubland types. Specifically, MAP in alpine shrublands, and MAT in desert shrubland, had a weak effect on N density. Soil pH can significant affect soil N density in the Tibetan Plateau shrublands. In conclusion, changes in soil N density should be monitored over the long term to provide accurate information about the effects of climatic factors.https://www.mdpi.com/1999-4907/8/11/416soil total nitrogenspatial distributionvertical distributionclimatic factorsTibetan Plateau shrublands
collection DOAJ
language English
format Article
sources DOAJ
author Xiuqing Nie
Feng Xiong
Lucun Yang
Changbin Li
Guoying Zhou
spellingShingle Xiuqing Nie
Feng Xiong
Lucun Yang
Changbin Li
Guoying Zhou
Soil Nitrogen Storage, Distribution, and Associated Controlling Factors in the Northeast Tibetan Plateau Shrublands
Forests
soil total nitrogen
spatial distribution
vertical distribution
climatic factors
Tibetan Plateau shrublands
author_facet Xiuqing Nie
Feng Xiong
Lucun Yang
Changbin Li
Guoying Zhou
author_sort Xiuqing Nie
title Soil Nitrogen Storage, Distribution, and Associated Controlling Factors in the Northeast Tibetan Plateau Shrublands
title_short Soil Nitrogen Storage, Distribution, and Associated Controlling Factors in the Northeast Tibetan Plateau Shrublands
title_full Soil Nitrogen Storage, Distribution, and Associated Controlling Factors in the Northeast Tibetan Plateau Shrublands
title_fullStr Soil Nitrogen Storage, Distribution, and Associated Controlling Factors in the Northeast Tibetan Plateau Shrublands
title_full_unstemmed Soil Nitrogen Storage, Distribution, and Associated Controlling Factors in the Northeast Tibetan Plateau Shrublands
title_sort soil nitrogen storage, distribution, and associated controlling factors in the northeast tibetan plateau shrublands
publisher MDPI AG
series Forests
issn 1999-4907
publishDate 2017-11-01
description Although the soils in the Tibetan Plateau shrublands store large amounts of total nitrogen (N), the estimated values remain uncertain because of spatial heterogeneity and a lack of field observations. In this study, we quantified the regional soil N storage, spatial and vertical density distributions, and related climatic controls using 183 soil profiles sampled from 61 sites across the Northeast Tibetan Plateau shrublands during the period of 2011–2013. Our analysis revealed a soil N storage value of 132.40 Tg at a depth of 100 cm, with an average density of 1.21 kg m−2. Soil N density was distributed at greater levels in alpine shrublands, compared with desert shrublands. Spatially, soil N densities decreased from south to north and from east to west, and, vertically, the soil N in the upper 30 and 50 cm accounted for 42% and 64% of the total soil N stocks in the Tibetan Plateau. However, compared with desert shrublands, the surface layers in alpine shrublands exhibited a larger distribution of soil N stocks. Overall, the soil N density in the top 30 cm increased significantly with the mean annual precipitation (MAP) and tended to decrease with the mean annual temperature (MAT), although the dominant climatic controls differed among shrubland types. Specifically, MAP in alpine shrublands, and MAT in desert shrubland, had a weak effect on N density. Soil pH can significant affect soil N density in the Tibetan Plateau shrublands. In conclusion, changes in soil N density should be monitored over the long term to provide accurate information about the effects of climatic factors.
topic soil total nitrogen
spatial distribution
vertical distribution
climatic factors
Tibetan Plateau shrublands
url https://www.mdpi.com/1999-4907/8/11/416
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AT fengxiong soilnitrogenstoragedistributionandassociatedcontrollingfactorsinthenortheasttibetanplateaushrublands
AT lucunyang soilnitrogenstoragedistributionandassociatedcontrollingfactorsinthenortheasttibetanplateaushrublands
AT changbinli soilnitrogenstoragedistributionandassociatedcontrollingfactorsinthenortheasttibetanplateaushrublands
AT guoyingzhou soilnitrogenstoragedistributionandassociatedcontrollingfactorsinthenortheasttibetanplateaushrublands
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