Superabsorbent hydrogel (SAH) as a soil amendment for drought management: A review

[Display omitted] •Long-term drought affects the soil ecosystem and can initiate desertification.•SAH improves the soil-pore structure and water retention characteristics.•Plant growth and survival time increases with increasing SAH concentration.•Soil texture, salinity and application rate influenc...

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Published inSoil & tillage research Vol. 204; p. 104736
Main Authors Saha, Abhisekh, Sekharan, Sreedeep, Manna, Uttam
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.10.2020
Subjects
absorbents
absorption
biodegradability
biodegradation
Critical review
desertification
distress
drought
evaporation
hydraulic conductivity
hydrogels
hydrophilicity
irrigation
land management
plant available water
plant growth
salinity
Soil amendment
soil amendments
Soil degradation
soil ecosystems
soil quality
soil structure
Superabsorbent hydrogel
tillage
water content
water holding capacity
water management
Water stress
Soil degradation
Water stress
Superabsorbent hydrogel
Critical review
Soil amendment
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Abstract [Display omitted] •Long-term drought affects the soil ecosystem and can initiate desertification.•SAH improves the soil-pore structure and water retention characteristics.•Plant growth and survival time increases with increasing SAH concentration.•Soil texture, salinity and application rate influence the performance of SAH.•SAH amendment can protect plant-soil ecosystem from drought stress. Drought is one of the worst natural disasters that affect the economic, social, and environmental status of any country. The long-term drought affects the soil ecosystem and can initiate desertification and deterioration of soil health. This leads to severe water distress, which is further aggravated by improper water management, poor irrigation practice, degradation of soil quality, and low water holding capacity of soil. Effective land management is the most feasible solution during drought. It is established that the utilization of superabsorbent hydrogel (SAH) as a soil amendment can improve soil structure, water-holding capacity, and plant available water content because of its hydrophilic three-dimensional network. However, there are contrasting observations in the existing literature related to the absorption capacity of SAH under different conditions, which may have an impact on drought management. This study purports to critically review the findings reported in the literature to reveal the influence of SAH addition for solving water stress conditions. The influence of SAH application on the physical properties of soil, such as water retention capacity, plant available water content, hydraulic conductivity, and infiltration, was investigated. This study brings out the discrepancies associated with the influence of SAH application in different textured soil, presence of salinity, and biodegradation of synthetic SAH. It was found that the application of SAH can reduce the evaporation loss and deep percolation, thereby increasing the plant growth and survival time in drought despite some reduction in swelling capacity under saline condition. The need for further studies for the development of biodegradable SAH and its performance evaluation under various environmental conditions has been summarized.
AbstractList [Display omitted] •Long-term drought affects the soil ecosystem and can initiate desertification.•SAH improves the soil-pore structure and water retention characteristics.•Plant growth and survival time increases with increasing SAH concentration.•Soil texture, salinity and application rate influence the performance of SAH.•SAH amendment can protect plant-soil ecosystem from drought stress. Drought is one of the worst natural disasters that affect the economic, social, and environmental status of any country. The long-term drought affects the soil ecosystem and can initiate desertification and deterioration of soil health. This leads to severe water distress, which is further aggravated by improper water management, poor irrigation practice, degradation of soil quality, and low water holding capacity of soil. Effective land management is the most feasible solution during drought. It is established that the utilization of superabsorbent hydrogel (SAH) as a soil amendment can improve soil structure, water-holding capacity, and plant available water content because of its hydrophilic three-dimensional network. However, there are contrasting observations in the existing literature related to the absorption capacity of SAH under different conditions, which may have an impact on drought management. This study purports to critically review the findings reported in the literature to reveal the influence of SAH addition for solving water stress conditions. The influence of SAH application on the physical properties of soil, such as water retention capacity, plant available water content, hydraulic conductivity, and infiltration, was investigated. This study brings out the discrepancies associated with the influence of SAH application in different textured soil, presence of salinity, and biodegradation of synthetic SAH. It was found that the application of SAH can reduce the evaporation loss and deep percolation, thereby increasing the plant growth and survival time in drought despite some reduction in swelling capacity under saline condition. The need for further studies for the development of biodegradable SAH and its performance evaluation under various environmental conditions has been summarized.
Drought is one of the worst natural disasters that affect the economic, social, and environmental status of any country. The long-term drought affects the soil ecosystem and can initiate desertification and deterioration of soil health. This leads to severe water distress, which is further aggravated by improper water management, poor irrigation practice, degradation of soil quality, and low water holding capacity of soil. Effective land management is the most feasible solution during drought. It is established that the utilization of superabsorbent hydrogel (SAH) as a soil amendment can improve soil structure, water-holding capacity, and plant available water content because of its hydrophilic three-dimensional network. However, there are contrasting observations in the existing literature related to the absorption capacity of SAH under different conditions, which may have an impact on drought management. This study purports to critically review the findings reported in the literature to reveal the influence of SAH addition for solving water stress conditions. The influence of SAH application on the physical properties of soil, such as water retention capacity, plant available water content, hydraulic conductivity, and infiltration, was investigated. This study brings out the discrepancies associated with the influence of SAH application in different textured soil, presence of salinity, and biodegradation of synthetic SAH. It was found that the application of SAH can reduce the evaporation loss and deep percolation, thereby increasing the plant growth and survival time in drought despite some reduction in swelling capacity under saline condition. The need for further studies for the development of biodegradable SAH and its performance evaluation under various environmental conditions has been summarized.
ArticleNumber 104736
Author Manna, Uttam
Saha, Abhisekh
Sekharan, Sreedeep
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  orcidid: 0000-0002-4771-572X
  surname: Saha
  fullname: Saha, Abhisekh
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  organization: Department of Civil Engineering, Indian Institute of Technology, Guwahati, Assam, India
– sequence: 2
  givenname: Sreedeep
  orcidid: 0000-0003-2566-6901
  surname: Sekharan
  fullname: Sekharan, Sreedeep
  email: srees@iitg.ac.in
  organization: Department of Civil Engineering, Indian Institute of Technology, Guwahati, Assam, India
– sequence: 3
  givenname: Uttam
  surname: Manna
  fullname: Manna, Uttam
  email: umanna@iitg.ac.in
  organization: Department of Chemistry and Centre for Nanotechnology, Indian Institute of Technology, Guwahati, Assam, India
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Keywords Soil degradation
Water stress
Superabsorbent hydrogel
Critical review
Soil amendment
Language English
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ORCID 0000-0003-2566-6901
0000-0002-4771-572X
PQID 2551980790
PQPubID 24069
ParticipantIDs proquest_miscellaneous_2551980790
crossref_citationtrail_10_1016_j_still_2020_104736
crossref_primary_10_1016_j_still_2020_104736
elsevier_sciencedirect_doi_10_1016_j_still_2020_104736
ProviderPackageCode CITATION
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PublicationCentury 2000
PublicationDate October 2020
2020-10-00
20201001
PublicationDateYYYYMMDD 2020-10-01
PublicationDate_xml – month: 10
  year: 2020
  text: October 2020
PublicationDecade 2020
PublicationTitle Soil & tillage research
PublicationYear 2020
Publisher Elsevier B.V
Publisher_xml – name: Elsevier B.V
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Snippet [Display omitted] •Long-term drought affects the soil ecosystem and can initiate desertification.•SAH improves the soil-pore structure and water retention...
Drought is one of the worst natural disasters that affect the economic, social, and environmental status of any country. The long-term drought affects the soil...
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SubjectTerms absorbents
absorption
biodegradability
biodegradation
Critical review
desertification
distress
drought
evaporation
hydraulic conductivity
hydrogels
hydrophilicity
irrigation
land management
plant available water
plant growth
salinity
Soil amendment
soil amendments
Soil degradation
soil ecosystems
soil quality
soil structure
Superabsorbent hydrogel
tillage
water content
water holding capacity
water management
Water stress
Title Superabsorbent hydrogel (SAH) as a soil amendment for drought management: A review
URI https://dx.doi.org/10.1016/j.still.2020.104736
https://www.proquest.com/docview/2551980790
Volume 204
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