Spatial and seasonal variations of soil salinity following vegetation restoration in coastal saline land in eastern China

Ecological restoration by plants on coastal saline lands affects salt accumulation, distribution patterns and related mechanisms. In Chongmind Island, eastern China, we explored the way vegetation restoration affected the profile distributions of soil moisture and salinity in various seasons in natu...

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Published inCatena (Giessen) Vol. 118; no. 118; pp. 147 - 153
Main Authors He, Bin, Cai, Yongli, Ran, Wenrui, Jiang, Hong
Format Journal Article
LanguageEnglish
Published Cremlingen-Destedt Elsevier B.V 01.07.2014
Catena
Subjects
Asia
autumn
Bgi / Prodig
China
Coastal saline land
ecological restoration
grasslands
Physical geography
plant communities
Profile distribution
salinity
Seasonal variation
shrublands
Soil moisture
Soil salinity
soil water
spring
summer
Vegetation restoration
winter
woodlands
Eastern China
Shanghai
China
China, People's Rep
Vegetation restoration
Profile distribution
Seasonal variation
Soil moisture
Soil salinity
Coastal saline land
Soil properties
Vegetation
Soil
Ecological restoration
Island
Saline soil
Salinity
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Abstract Ecological restoration by plants on coastal saline lands affects salt accumulation, distribution patterns and related mechanisms. In Chongmind Island, eastern China, we explored the way vegetation restoration affected the profile distributions of soil moisture and salinity in various seasons in naturally salt-affected coastal saline land. In four types of vegetation, five soil cores were acquired in the ∼80cm depth range and the sampling depths of the five cores were respectively 0–10cm, 10–20cm, 20–40cm, 40–60cm, and 60–80cm. Soil moisture firstly decreased and then increased with the depth in woodland and shrubland, while soil moisture consistently increased in grassland and control plots. Salt profiles showed the higher values in surface soil in control plots, whereas the pattern of soil salinity showed the reverse trend under vegetation. The effect of vegetation restoration on the profile distributions of salt is significant. In control plots, soil moisture and salinity showed a clear seasonal trend. Soil moisture values were the highest in spring and the lowest in autumn, when values of soil salinity were the highest in summer and the lowest in winter. Relative to control plots, the seasonal trend of soil moisture and salinity under vegetation appeared to be complex for no clear trend was observed. It can be concluded that plant communities significantly affect the spatial–temporal distribution of soil salinity. The selection of plant species is important in the reclamation of costal saline land. •Re-vegetation strongly affected the spatiotemporal distribution of soil moisture and salt.•Soil moisture consistently increased with depth in grassland and contrast plots.•Soil moisture firstly decreased and then increased with depth in woodland and shrubland.•Salt profiles showed higher values at surface soil in contrast plots.•Salt profiles showed higher values at deep soil under re-vegetation plots.
AbstractList Ecological restoration by plants on coastal saline lands affects salt accumulation, distribution patterns and related mechanisms. In Chongmind Island, eastern China, we explored the way vegetation restoration affected the profile distributions of soil moisture and salinity in various seasons in naturally salt-affected coastal saline land. In four types of vegetation, five soil cores were acquired in the similar to 80 cm depth range and the sampling depths of the five cores were respectively 0-10 cm, 10-20 cm, 20-40 cm, 40-60 cm, and 60-80 cm. Soil moisture firstly decreased and then increased with the depth in woodland and shrubland, while soil moisture consistently increased in grassland and control plots. Salt profiles showed the higher values in surface soil in control plots, whereas the pattern of soil salinity showed the reverse trend under vegetation. The effect of vegetation restoration on the profile distributions of salt is significant. In control plots, soil moisture and salinity showed a clear seasonal trend. Soil moisture values were the highest in spring and the lowest in autumn, when values of soil salinity were the highest in summer and the lowest in winter. Relative to control plots, the seasonal trend of soil moisture and salinity under vegetation appeared to be complex for no clear trend was observed. It can be concluded that plant communities significantly affect the spatial-temporal distribution of soil salinity. The selection of plant species is important in the reclamation of costal saline land.
Ecological restoration by plants on coastal saline lands affects salt accumulation, distribution patterns and related mechanisms. In Chongmind Island, eastern China, we explored the way vegetation restoration affected the profile distributions of soil moisture and salinity in various seasons in naturally salt-affected coastal saline land. In four types of vegetation, five soil cores were acquired in the ∼80cm depth range and the sampling depths of the five cores were respectively 0–10cm, 10–20cm, 20–40cm, 40–60cm, and 60–80cm. Soil moisture firstly decreased and then increased with the depth in woodland and shrubland, while soil moisture consistently increased in grassland and control plots. Salt profiles showed the higher values in surface soil in control plots, whereas the pattern of soil salinity showed the reverse trend under vegetation. The effect of vegetation restoration on the profile distributions of salt is significant. In control plots, soil moisture and salinity showed a clear seasonal trend. Soil moisture values were the highest in spring and the lowest in autumn, when values of soil salinity were the highest in summer and the lowest in winter. Relative to control plots, the seasonal trend of soil moisture and salinity under vegetation appeared to be complex for no clear trend was observed. It can be concluded that plant communities significantly affect the spatial–temporal distribution of soil salinity. The selection of plant species is important in the reclamation of costal saline land. •Re-vegetation strongly affected the spatiotemporal distribution of soil moisture and salt.•Soil moisture consistently increased with depth in grassland and contrast plots.•Soil moisture firstly decreased and then increased with depth in woodland and shrubland.•Salt profiles showed higher values at surface soil in contrast plots.•Salt profiles showed higher values at deep soil under re-vegetation plots.
Ecological restoration by plants on coastal saline lands affects salt accumulation, distribution patterns and related mechanisms. In Chongmind Island, eastern China, we explored the way vegetation restoration affected the profile distributions of soil moisture and salinity in various seasons in naturally salt-affected coastal saline land. In four types of vegetation, five soil cores were acquired in the ∼80cm depth range and the sampling depths of the five cores were respectively 0–10cm, 10–20cm, 20–40cm, 40–60cm, and 60–80cm. Soil moisture firstly decreased and then increased with the depth in woodland and shrubland, while soil moisture consistently increased in grassland and control plots. Salt profiles showed the higher values in surface soil in control plots, whereas the pattern of soil salinity showed the reverse trend under vegetation. The effect of vegetation restoration on the profile distributions of salt is significant. In control plots, soil moisture and salinity showed a clear seasonal trend. Soil moisture values were the highest in spring and the lowest in autumn, when values of soil salinity were the highest in summer and the lowest in winter. Relative to control plots, the seasonal trend of soil moisture and salinity under vegetation appeared to be complex for no clear trend was observed. It can be concluded that plant communities significantly affect the spatial–temporal distribution of soil salinity. The selection of plant species is important in the reclamation of costal saline land.
Author Cai, Yongli
Ran, Wenrui
Jiang, Hong
He, Bin
Author_xml – sequence: 1
  givenname: Bin
  surname: He
  fullname: He, Bin
  email: hebin123kewen@163.com
  organization: Shanghai Key Lab for Urban Ecological Processes and Eco-Restoration, East China Normal University, Shanghai 200241, China
– sequence: 2
  givenname: Yongli
  surname: Cai
  fullname: Cai, Yongli
  email: ylcai@geo.ecnu.edu.cn
  organization: Shanghai Key Lab for Urban Ecological Processes and Eco-Restoration, East China Normal University, Shanghai 200241, China
– sequence: 3
  givenname: Wenrui
  surname: Ran
  fullname: Ran, Wenrui
  organization: Shanghai Key Lab for Urban Ecological Processes and Eco-Restoration, East China Normal University, Shanghai 200241, China
– sequence: 4
  givenname: Hong
  surname: Jiang
  fullname: Jiang, Hong
  organization: Shanghai Key Lab for Urban Ecological Processes and Eco-Restoration, East China Normal University, Shanghai 200241, China
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Copyright 2014 Elsevier B.V.
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Issue 118
Keywords Vegetation restoration
Profile distribution
Seasonal variation
Soil moisture
Soil salinity
Coastal saline land
Soil properties
Vegetation
Soil
Ecological restoration
Island
Saline soil
Salinity
Language English
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Snippet Ecological restoration by plants on coastal saline lands affects salt accumulation, distribution patterns and related mechanisms. In Chongmind Island, eastern...
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SubjectTerms Asia
autumn
Bgi / Prodig
China
Coastal saline land
ecological restoration
grasslands
Physical geography
plant communities
Profile distribution
salinity
Seasonal variation
shrublands
Soil moisture
Soil salinity
soil water
spring
summer
Vegetation restoration
winter
woodlands
Title Spatial and seasonal variations of soil salinity following vegetation restoration in coastal saline land in eastern China
URI https://dx.doi.org/10.1016/j.catena.2014.02.007
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