Modeling the effect of biodegradable paper and plastic mulch on soil moisture dynamics

[Display omitted] •We modeled moisture dynamics under different biodegradable mulch treatments.•Biodegradable mulch can be modeled with variable-flux boundary condition.•Infiltration and evaporation were affected by mulch treatments.•Deterioration of biodegradable mulch caused enhanced evaporation,...

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Published inAgricultural water management Vol. 193; pp. 240 - 250
Main Authors Saglam, Mustafa, Sintim, Henry Y., Bary, Andy I., Miles, Carol A., Ghimire, Shuresh, Inglis, Debra A., Flury, Markus
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.11.2017
Subjects
biodegradability
Biodegradable paper mulch
Biodegradable plastic mulch
Cucurbita pepo
Evaporation
field experimentation
growing season
HYDRUS-2D
mulching
plastic film mulches
polyethylene
Polyethylene mulch
pumpkins
rain
raised beds
simulation models
Soil moisture
soil water
water content
HYDRUS-2D
Evaporation
Soil moisture
Biodegradable plastic mulch
Polyethylene mulch
Biodegradable paper mulch
Online AccessGet full text
ISSN0378-3774
1873-2283
DOI10.1016/j.agwat.2017.08.011

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Abstract [Display omitted] •We modeled moisture dynamics under different biodegradable mulch treatments.•Biodegradable mulch can be modeled with variable-flux boundary condition.•Infiltration and evaporation were affected by mulch treatments.•Deterioration of biodegradable mulch caused enhanced evaporation, but reduced runoff compared to polyethylene mulch. Plastic mulch films are often used in agriculture to conserve soil moisture. Most of the plastic mulch currently used worldwide is made of non-biodegradable polyethylene, which has to be removed and disposed after harvest, incurring significant environmental costs. Biodegradable paper or plastic mulch could offer a valuable alternative to polyethylene. The objective of this study was to compare the effects of biodegradable mulches and standard polyethylene mulch on soil moisture dynamics during a growing season. A field experiment was carried out with pumpkin (Cucurbita pepo), which were irrigated and grown on raised beds covered with the following mulch treatments: no mulch, biodegradable paper, biodegradable plastic, and polyethylene. Soil moisture was measured at 10- and 20-cm depths. A numerical model (HYDRUS-2D) was used to simulate the moisture dynamics under the different mulch treatments, each represented by different boundary conditions at the soil surface. Polyethylene mulch, which created an impermeable surface layer, effectively reduced evaporation and maintained highest water content among the treatments. Biodegradable paper mulch, which was partially permeable to evaporation and rainfall throughout the growing season, resulted in soil moisture that was intermediate between that obtained for no mulch and polyethylene. Biodegradable plastic mulch, which was similar to that of polyethylene mulch initially in terms of effects on soil moisture, disintegrated during the growing season and allowed rainfall to penetrate and water to evaporate from the soil surface. Field data and model simulations both indicate that the biodegradable paper and plastic mulches provide comparable soil moisture dynamics as polyethylene mulch.
AbstractList [Display omitted] •We modeled moisture dynamics under different biodegradable mulch treatments.•Biodegradable mulch can be modeled with variable-flux boundary condition.•Infiltration and evaporation were affected by mulch treatments.•Deterioration of biodegradable mulch caused enhanced evaporation, but reduced runoff compared to polyethylene mulch. Plastic mulch films are often used in agriculture to conserve soil moisture. Most of the plastic mulch currently used worldwide is made of non-biodegradable polyethylene, which has to be removed and disposed after harvest, incurring significant environmental costs. Biodegradable paper or plastic mulch could offer a valuable alternative to polyethylene. The objective of this study was to compare the effects of biodegradable mulches and standard polyethylene mulch on soil moisture dynamics during a growing season. A field experiment was carried out with pumpkin (Cucurbita pepo), which were irrigated and grown on raised beds covered with the following mulch treatments: no mulch, biodegradable paper, biodegradable plastic, and polyethylene. Soil moisture was measured at 10- and 20-cm depths. A numerical model (HYDRUS-2D) was used to simulate the moisture dynamics under the different mulch treatments, each represented by different boundary conditions at the soil surface. Polyethylene mulch, which created an impermeable surface layer, effectively reduced evaporation and maintained highest water content among the treatments. Biodegradable paper mulch, which was partially permeable to evaporation and rainfall throughout the growing season, resulted in soil moisture that was intermediate between that obtained for no mulch and polyethylene. Biodegradable plastic mulch, which was similar to that of polyethylene mulch initially in terms of effects on soil moisture, disintegrated during the growing season and allowed rainfall to penetrate and water to evaporate from the soil surface. Field data and model simulations both indicate that the biodegradable paper and plastic mulches provide comparable soil moisture dynamics as polyethylene mulch.
Plastic mulch films are often used in agriculture to conserve soil moisture. Most of the plastic mulch currently used worldwide is made of non-biodegradable polyethylene, which has to be removed and disposed after harvest, incurring significant environmental costs. Biodegradable paper or plastic mulch could offer a valuable alternative to polyethylene. The objective of this study was to compare the effects of biodegradable mulches and standard polyethylene mulch on soil moisture dynamics during a growing season. A field experiment was carried out with pumpkin (Cucurbita pepo), which were irrigated and grown on raised beds covered with the following mulch treatments: no mulch, biodegradable paper, biodegradable plastic, and polyethylene. Soil moisture was measured at 10- and 20-cm depths. A numerical model (HYDRUS-2D) was used to simulate the moisture dynamics under the different mulch treatments, each represented by different boundary conditions at the soil surface. Polyethylene mulch, which created an impermeable surface layer, effectively reduced evaporation and maintained highest water content among the treatments. Biodegradable paper mulch, which was partially permeable to evaporation and rainfall throughout the growing season, resulted in soil moisture that was intermediate between that obtained for no mulch and polyethylene. Biodegradable plastic mulch, which was similar to that of polyethylene mulch initially in terms of effects on soil moisture, disintegrated during the growing season and allowed rainfall to penetrate and water to evaporate from the soil surface. Field data and model simulations both indicate that the biodegradable paper and plastic mulches provide comparable soil moisture dynamics as polyethylene mulch.
Author Miles, Carol A.
Flury, Markus
Bary, Andy I.
Inglis, Debra A.
Saglam, Mustafa
Sintim, Henry Y.
Ghimire, Shuresh
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– sequence: 2
  givenname: Henry Y.
  surname: Sintim
  fullname: Sintim, Henry Y.
  organization: Department of Crop & Soil Sciences, Washington State University, Pullman, WA, 99164, USA
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  givenname: Andy I.
  surname: Bary
  fullname: Bary, Andy I.
  organization: Department of Crop & Soil Sciences, Washington State University, Pullman, WA, 99164, USA
– sequence: 4
  givenname: Carol A.
  surname: Miles
  fullname: Miles, Carol A.
  organization: Department of Horticulture, Washington State University, WSU Mount Vernon Northwestern Washington Research & Extension Center, Mount Vernon, WA, 98273, USA
– sequence: 5
  givenname: Shuresh
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  fullname: Ghimire, Shuresh
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  givenname: Debra A.
  surname: Inglis
  fullname: Inglis, Debra A.
  organization: Department of Plant Pathology, Washington State University, WSU Mount Vernon Northwestern Washington Research & Extension Center, Mount Vernon, WA, 98273, USA
– sequence: 7
  givenname: Markus
  surname: Flury
  fullname: Flury, Markus
  email: flury@wsu.edu
  organization: Department of Crop & Soil Sciences, Washington State University, Pullman, WA, 99164, USA
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Keywords HYDRUS-2D
Evaporation
Soil moisture
Biodegradable plastic mulch
Polyethylene mulch
Biodegradable paper mulch
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  article-title: Evaluating the effects of mulch and irrigation amount on soil water distribution and root zone water balance using HYDRUS-2D
  publication-title: Water
  doi: 10.3390/w7062622
– volume: 193
  start-page: 209
  year: 2015
  ident: 10.1016/j.agwat.2017.08.011_bib0215
  article-title: Assessing the potential for spunbond, nonwoven biodegradable fabric as mulches for tomato and bell pepper crops
  publication-title: Sci. Hort.
  doi: 10.1016/j.scienta.2015.07.019
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Snippet [Display omitted] •We modeled moisture dynamics under different biodegradable mulch treatments.•Biodegradable mulch can be modeled with variable-flux boundary...
Plastic mulch films are often used in agriculture to conserve soil moisture. Most of the plastic mulch currently used worldwide is made of non-biodegradable...
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SubjectTerms biodegradability
Biodegradable paper mulch
Biodegradable plastic mulch
Cucurbita pepo
Evaporation
field experimentation
growing season
HYDRUS-2D
mulching
plastic film mulches
polyethylene
Polyethylene mulch
pumpkins
rain
raised beds
simulation models
Soil moisture
soil water
water content
Title Modeling the effect of biodegradable paper and plastic mulch on soil moisture dynamics
URI https://dx.doi.org/10.1016/j.agwat.2017.08.011
https://www.proquest.com/docview/2000547970
Volume 193
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