Effects of snowfall depth on soil physical–chemical properties and soil microbial biomass in moss–dominated crusts in the Gurbantunggut Desert, Northern China

Winter snowfall is an important source of moisture that may influence the growth and development of biological soil crusts (BSCs) in temperate desert regions of China. Yet there is still limited empirical knowledge about the effect of snowfall on BSCs. In this study, moss crusts from the Gurbantungg...

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Published inCatena (Giessen) Vol. 169; pp. 175 - 182
Main Authors Zhao, Ruiming, Hui, Rong, Liu, Lichao, Xie, Min, An, Lizhe
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.10.2018
Subjects
Biological soil crusts
China
ecological function
electrical conductivity
growth and development
Inorganic N
microbial biomass
mosses and liverworts
nitrogen
nitrogen content
phosphorus
potassium
semiarid zones
snow
Snowfall
soil microorganisms
soil nutrient dynamics
Soil nutrients
soil organic carbon
soil water
Soil water content
winter
China
SMBN
SOC
Biological soil crusts
Soil nutrients
AK
Inorganic N
Snowfall
AN
SMBP
AP
ANOVA
Soil water content
TN
SMBC
BSCs
EC
SWC
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Abstract Winter snowfall is an important source of moisture that may influence the growth and development of biological soil crusts (BSCs) in temperate desert regions of China. Yet there is still limited empirical knowledge about the effect of snowfall on BSCs. In this study, moss crusts from the Gurbantunggut Desert were exposed to five snow depths to evaluate how snowfall affected the physical–chemical properties (pH; electric conductivity, EC; soil organic carbon, SOC; total nitrogen, TN; available nitrogen, AN; available phosphorus, AP; available potassium, AK) and microbial biomass (soil microbial biomass carbon, SMBC; soil microbial biomass nitrogen, SMBN; soil microbial biomass phosphorus, SMBP) of soil in the BSCs, before (in October 2016: representing three consecutive years of snow manipulation) and after winter (in April 2017). Results showed that the soil water content increased significantly as snowfall depth increased (p < 0.05) in October 2016 and April 2017. Most of the soil physical–chemical features (EC, SOC, TN, AN, AP, and AK) and microbial biomass (SMBC and SMBN) showed an increase with an increase of snowfall depth after three consecutive years of snow manipulation. Moreover, for most experimental treatments, after a winter of melting snow (in April 2017) most of the soil properties were significantly higher (p < 0.05) than found in October 2016. Together, these results showed that the dynamics of soil nutrients and microbial biomass in moss BSCs were affected by snowfall depth in Gurbantunggut Desert. Different snowfall depths can have different effects on the dynamics of soil nutrients and microbial biomass of moss crusts, an impact that may alter the future growth and development of BSCs. Thus, we suggest that the potential influence of snowfall depth on soil nutrients and microbial biomass dynamics in BSCs require consideration when discussing the effects of moisture on ecological functions of BSCs in arid and semi–arid regions. •Snowfall depth change dynamic of soil nutrients in moss–dominated crusts.•Soil microbial biomass of moss–dominated crusts was influenced by snowfall depth.•Snowfall depth had more obvious influenced to soil in snowmelt period.•Snowfall depth may cause influence to ecological functions of moss–dominated crusts.
AbstractList Winter snowfall is an important source of moisture that may influence the growth and development of biological soil crusts (BSCs) in temperate desert regions of China. Yet there is still limited empirical knowledge about the effect of snowfall on BSCs. In this study, moss crusts from the Gurbantunggut Desert were exposed to five snow depths to evaluate how snowfall affected the physical–chemical properties (pH; electric conductivity, EC; soil organic carbon, SOC; total nitrogen, TN; available nitrogen, AN; available phosphorus, AP; available potassium, AK) and microbial biomass (soil microbial biomass carbon, SMBC; soil microbial biomass nitrogen, SMBN; soil microbial biomass phosphorus, SMBP) of soil in the BSCs, before (in October 2016: representing three consecutive years of snow manipulation) and after winter (in April 2017). Results showed that the soil water content increased significantly as snowfall depth increased (p < 0.05) in October 2016 and April 2017. Most of the soil physical–chemical features (EC, SOC, TN, AN, AP, and AK) and microbial biomass (SMBC and SMBN) showed an increase with an increase of snowfall depth after three consecutive years of snow manipulation. Moreover, for most experimental treatments, after a winter of melting snow (in April 2017) most of the soil properties were significantly higher (p < 0.05) than found in October 2016. Together, these results showed that the dynamics of soil nutrients and microbial biomass in moss BSCs were affected by snowfall depth in Gurbantunggut Desert. Different snowfall depths can have different effects on the dynamics of soil nutrients and microbial biomass of moss crusts, an impact that may alter the future growth and development of BSCs. Thus, we suggest that the potential influence of snowfall depth on soil nutrients and microbial biomass dynamics in BSCs require consideration when discussing the effects of moisture on ecological functions of BSCs in arid and semi–arid regions. •Snowfall depth change dynamic of soil nutrients in moss–dominated crusts.•Soil microbial biomass of moss–dominated crusts was influenced by snowfall depth.•Snowfall depth had more obvious influenced to soil in snowmelt period.•Snowfall depth may cause influence to ecological functions of moss–dominated crusts.
Winter snowfall is an important source of moisture that may influence the growth and development of biological soil crusts (BSCs) in temperate desert regions of China. Yet there is still limited empirical knowledge about the effect of snowfall on BSCs. In this study, moss crusts from the Gurbantunggut Desert were exposed to five snow depths to evaluate how snowfall affected the physical–chemical properties (pH; electric conductivity, EC; soil organic carbon, SOC; total nitrogen, TN; available nitrogen, AN; available phosphorus, AP; available potassium, AK) and microbial biomass (soil microbial biomass carbon, SMBC; soil microbial biomass nitrogen, SMBN; soil microbial biomass phosphorus, SMBP) of soil in the BSCs, before (in October 2016: representing three consecutive years of snow manipulation) and after winter (in April 2017). Results showed that the soil water content increased significantly as snowfall depth increased (p < 0.05) in October 2016 and April 2017. Most of the soil physical–chemical features (EC, SOC, TN, AN, AP, and AK) and microbial biomass (SMBC and SMBN) showed an increase with an increase of snowfall depth after three consecutive years of snow manipulation. Moreover, for most experimental treatments, after a winter of melting snow (in April 2017) most of the soil properties were significantly higher (p < 0.05) than found in October 2016. Together, these results showed that the dynamics of soil nutrients and microbial biomass in moss BSCs were affected by snowfall depth in Gurbantunggut Desert. Different snowfall depths can have different effects on the dynamics of soil nutrients and microbial biomass of moss crusts, an impact that may alter the future growth and development of BSCs. Thus, we suggest that the potential influence of snowfall depth on soil nutrients and microbial biomass dynamics in BSCs require consideration when discussing the effects of moisture on ecological functions of BSCs in arid and semi–arid regions.
Author Hui, Rong
Liu, Lichao
Xie, Min
An, Lizhe
Zhao, Ruiming
Author_xml – sequence: 1
  givenname: Ruiming
  surname: Zhao
  fullname: Zhao, Ruiming
  email: zhaorm@lzu.edu.cn
  organization: MOE Key Laboratory of Cell Activities and Stress Adaptations, School of Life Sciences, Lanzhou University, Tianshui South Road 222, Lanzhou 730000, Gansu, China
– sequence: 2
  givenname: Rong
  surname: Hui
  fullname: Hui, Rong
  organization: Shapotou Desert Research and Experimental Station, Cold and Arid Regions Environmental and Engineering Research Institute, Chinese Academy of Sciences, Donggang West Road 320, Lanzhou 730000, Gansu, China
– sequence: 3
  givenname: Lichao
  surname: Liu
  fullname: Liu, Lichao
  email: lichao@lzb.ac.cn
  organization: Shapotou Desert Research and Experimental Station, Cold and Arid Regions Environmental and Engineering Research Institute, Chinese Academy of Sciences, Donggang West Road 320, Lanzhou 730000, Gansu, China
– sequence: 4
  givenname: Min
  surname: Xie
  fullname: Xie, Min
  organization: China Institute of Water Resources and Hydropower Research, Chegongzhuang West Road 20, Haidian, 100048 Beijing, China
– sequence: 5
  givenname: Lizhe
  surname: An
  fullname: An, Lizhe
  organization: MOE Key Laboratory of Cell Activities and Stress Adaptations, School of Life Sciences, Lanzhou University, Tianshui South Road 222, Lanzhou 730000, Gansu, China
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Keywords SMBN
SOC
Biological soil crusts
Soil nutrients
AK
Inorganic N
Snowfall
AN
SMBP
AP
ANOVA
Soil water content
TN
SMBC
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EC
SWC
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Snippet Winter snowfall is an important source of moisture that may influence the growth and development of biological soil crusts (BSCs) in temperate desert regions...
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SubjectTerms Biological soil crusts
China
ecological function
electrical conductivity
growth and development
Inorganic N
microbial biomass
mosses and liverworts
nitrogen
nitrogen content
phosphorus
potassium
semiarid zones
snow
Snowfall
soil microorganisms
soil nutrient dynamics
Soil nutrients
soil organic carbon
soil water
Soil water content
winter
Title Effects of snowfall depth on soil physical–chemical properties and soil microbial biomass in moss–dominated crusts in the Gurbantunggut Desert, Northern China
URI https://dx.doi.org/10.1016/j.catena.2018.05.042
https://www.proquest.com/docview/2101363476
Volume 169
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