Modeling land management effects on the size distribution of eroded sediment

•A relationship between soil carbon, soil clay, and median soil aggregate size is derived.•A model of eroded sediment aggregation responsive to land management is proposed for RUSLE2.•Modeled macro-aggregation changes over time are compared to published observations. Land management that improves so...

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Published inSoil & tillage research Vol. 192; pp. 121 - 133
Main Authors Liu, Gang, Dabney, Seth M., Yoder, Daniel C., Wells, Robert R., Vieira, Dalmo A.N.
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.09.2019
Subjects
algorithms
biomass
clay
clay fraction
cropland
data collection
forests
grasses
land use
pastures
reduced tillage
regression analysis
Revised Universal Soil Loss Equation
Sediment size distribution
sediments
Soil aggregation
Soil erosion
soil organic carbon
soil quality
standard deviation
United States
water stable soil aggregates
United States
Soil aggregation
Sediment size distribution
Soil erosion
Online AccessGet full text
ISSN0167-1987
1879-3444
DOI10.1016/j.still.2019.04.012

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Abstract •A relationship between soil carbon, soil clay, and median soil aggregate size is derived.•A model of eroded sediment aggregation responsive to land management is proposed for RUSLE2.•Modeled macro-aggregation changes over time are compared to published observations. Land management that improves soil quality is known to increase the amount of water-stable soil aggregates, but many current soil erosion models do not consider land management effects when estimating the size distribution of eroded sediment. Our objective was to develop a method to improve eroded sediment size estimates in response to alternative land management practices using information available within the RUSLE2 model and its database. We conducted a literature search identifying 274 soil aggregate size distributions where soil clay and soil organic carbon were also reported. The median value and log-normal standard deviation were estimated for each distribution. Median value was found to be linearly related to soil clay fraction and quadratically related to soil carbon content. However, the 10% of samples with observed median aggregate sizes greater than 3 mm were all underestimated by the regression model. All these samples were collected from soils under land use described as grass, pasture, or forest. To then determine whether incorporating management impacts on size distribution could better fit field data than this simple approach based purely on clay and carbon, algorithms termed MAS (Model of Aggregated Sediment) were derived and applied with default values in the RUSLE2 soil erosion model to estimate a coarser sediment size distribution at the point of detachment for land management with increased biomass inputs and reduced tillage disturbances. The MAS estimates of macroaggregated sediment (>0.212 mm) mirrored fragment size observations made over 10 yr when cropland was converted to prairie in the central U.S.A. Thus, MAS estimated dynamic land management effects on aggregation better than regression relationships based solely on soil clay and carbon contents. More aggregate and sediment size datasets that include historical land use information will be needed to fully assess the generality of the MAS algorithms and parameter estimates.
AbstractList •A relationship between soil carbon, soil clay, and median soil aggregate size is derived.•A model of eroded sediment aggregation responsive to land management is proposed for RUSLE2.•Modeled macro-aggregation changes over time are compared to published observations. Land management that improves soil quality is known to increase the amount of water-stable soil aggregates, but many current soil erosion models do not consider land management effects when estimating the size distribution of eroded sediment. Our objective was to develop a method to improve eroded sediment size estimates in response to alternative land management practices using information available within the RUSLE2 model and its database. We conducted a literature search identifying 274 soil aggregate size distributions where soil clay and soil organic carbon were also reported. The median value and log-normal standard deviation were estimated for each distribution. Median value was found to be linearly related to soil clay fraction and quadratically related to soil carbon content. However, the 10% of samples with observed median aggregate sizes greater than 3 mm were all underestimated by the regression model. All these samples were collected from soils under land use described as grass, pasture, or forest. To then determine whether incorporating management impacts on size distribution could better fit field data than this simple approach based purely on clay and carbon, algorithms termed MAS (Model of Aggregated Sediment) were derived and applied with default values in the RUSLE2 soil erosion model to estimate a coarser sediment size distribution at the point of detachment for land management with increased biomass inputs and reduced tillage disturbances. The MAS estimates of macroaggregated sediment (>0.212 mm) mirrored fragment size observations made over 10 yr when cropland was converted to prairie in the central U.S.A. Thus, MAS estimated dynamic land management effects on aggregation better than regression relationships based solely on soil clay and carbon contents. More aggregate and sediment size datasets that include historical land use information will be needed to fully assess the generality of the MAS algorithms and parameter estimates.
Land management that improves soil quality is known to increase the amount of water-stable soil aggregates, but many current soil erosion models do not consider land management effects when estimating the size distribution of eroded sediment. Our objective was to develop a method to improve eroded sediment size estimates in response to alternative land management practices using information available within the RUSLE2 model and its database. We conducted a literature search identifying 274 soil aggregate size distributions where soil clay and soil organic carbon were also reported. The median value and log-normal standard deviation were estimated for each distribution. Median value was found to be linearly related to soil clay fraction and quadratically related to soil carbon content. However, the 10% of samples with observed median aggregate sizes greater than 3 mm were all underestimated by the regression model. All these samples were collected from soils under land use described as grass, pasture, or forest. To then determine whether incorporating management impacts on size distribution could better fit field data than this simple approach based purely on clay and carbon, algorithms termed MAS (Model of Aggregated Sediment) were derived and applied with default values in the RUSLE2 soil erosion model to estimate a coarser sediment size distribution at the point of detachment for land management with increased biomass inputs and reduced tillage disturbances. The MAS estimates of macroaggregated sediment (>0.212 mm) mirrored fragment size observations made over 10 yr when cropland was converted to prairie in the central U.S.A. Thus, MAS estimated dynamic land management effects on aggregation better than regression relationships based solely on soil clay and carbon contents. More aggregate and sediment size datasets that include historical land use information will be needed to fully assess the generality of the MAS algorithms and parameter estimates.
Author Liu, Gang
Wells, Robert R.
Dabney, Seth M.
Vieira, Dalmo A.N.
Yoder, Daniel C.
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  surname: Liu
  fullname: Liu, Gang
  organization: State Key Laboratory of Soil Erosion and Dryland Farming on the Loess Plateau, Institute of Soil and Water Conservation, Northwest A&F University, Yangling 712100, People's Republic of China
– sequence: 2
  givenname: Seth M.
  surname: Dabney
  fullname: Dabney, Seth M.
  email: seth.dabney@ars.usda.gov
  organization: USDA-ARS National Sedimentation Laboratory, Oxford, MS 38655, USA
– sequence: 3
  givenname: Daniel C.
  surname: Yoder
  fullname: Yoder, Daniel C.
  organization: Department of Biosystems Engineering and Soil Science, University of Tennessee, 2506 E.J. Chapman Drive, Knoxville, TN 37996-4531, USA
– sequence: 4
  givenname: Robert R.
  surname: Wells
  fullname: Wells, Robert R.
  organization: USDA-ARS National Sedimentation Laboratory, Oxford, MS 38655, USA
– sequence: 5
  givenname: Dalmo A.N.
  surname: Vieira
  fullname: Vieira, Dalmo A.N.
  organization: USDA-ARS National Sedimentation Laboratory, Oxford, MS 38655, USA
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SSID ssj0004328
Score 2.341579
Snippet •A relationship between soil carbon, soil clay, and median soil aggregate size is derived.•A model of eroded sediment aggregation responsive to land management...
Land management that improves soil quality is known to increase the amount of water-stable soil aggregates, but many current soil erosion models do not...
SourceID proquest
crossref
elsevier
SourceType Aggregation Database
Enrichment Source
Index Database
Publisher
StartPage 121
SubjectTerms algorithms
biomass
clay
clay fraction
cropland
data collection
forests
grasses
land use
pastures
reduced tillage
regression analysis
Revised Universal Soil Loss Equation
Sediment size distribution
sediments
Soil aggregation
Soil erosion
soil organic carbon
soil quality
standard deviation
United States
water stable soil aggregates
Title Modeling land management effects on the size distribution of eroded sediment
URI https://dx.doi.org/10.1016/j.still.2019.04.012
https://www.proquest.com/docview/2253244106
Volume 192
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