Data for "Soil texture and environmental conditions influence the biogeochemical responses of soils to drought and flooding"

Patel, Kaizad; Fansler, Sarah; Campbell, Tayte; Bond-Lamberty, Ben; Smith, A. Peyton; RoyChowdhury, Taniya; McCue, Lee Ann; Varga, Tamas; Bailey, Vanessa

doi:10.15485/1785525

Title: Data for "Soil texture and environmental conditions influence the biogeochemical responses of soils to drought and flooding"

Dataset
Other Related Research

Abstract

This dataset contains data used for the paper "Soil texture and environmental conditions influence the biogeochemical responses of soils to drought and flooding". The Related References field will be updated with a full citation when available.Climate change is intensifying the global water cycle, with increased frequency of drought and flood. Water is an important driver of soil carbon dynamics, and it is crucial to understand how moisture disturbances will affect carbon availability and fluxes in soils. Here we investigate the role of water in substrate-microbe connectivity and soil carbon cycling under extreme moisture conditions. We collected soils from Alaska, Florida, and Washington USA, and incubated them under Drought and Flood conditions. Drought had a stronger effect on soil respiration, pore-water carbon, and microbial community composition than flooding. Soil response was not consistent across sites, and was influenced by site-level pedological and environmental factors. Soil texture and porosity can influence microbial access to substrates through the pore network, driving the chemical response. Further, the microbial communities are adapted to the historic stress conditions at their sites and therefore show site-specific responses to drought and flood.This dataset contains a compressed (.zip) archive of the data and R scripts used for this manuscript.more »« less

Authors:

;

Pacific Northwest National Laboratory
Pacific Northwest National Laboratory, Joint Global Change Research Institute
Texas A&M University
USDA Agricultural Research Service

Publication Date:: Fri Jan 01 00:00:00 EST 2021

Other Number(s):: ESD PRE-PUB DOI: 10.15485/1785525

Research Org.:: Environmental System Science Data Infrastructure for a Virtual Ecosystem (ESS-DIVE) (United States); Soil Carbon Biogeochemistry

Sponsoring Org.:: U.S. DOE > Office of Science > Biological and Environmental Research (BER)

Subject:: 54 ENVIRONMENTAL SCIENCES

Keywords:: drought; flood; water soluble organic carbon; FT-ICR-MS; respiration; EARTH SCIENCE > LAND SURFACE > SOILS; FT-ICR-MS; metagenome; metatranscriptome; EARTH SCIENCE > AGRICULTURE > SOILS > SOIL MOISTURE/WATER CONTENT; EARTH SCIENCE > LAND SURFACE > SOILS > SOIL RESPIRATION; EARTH SCIENCE > LAND SURFACE > SOILS > CARBON

Geolocation:: 28.105,-81.419|28.105,-81.419|28.105,-81.419|28.105,-81.419|28.105,-81.41965.12,-147.487|65.12,-147.487|65.12,-147.487|65.12,-147.487|65.12,-147.48746.308,-123.69|46.308,-123.69|46.308,-123.69|46.308,-123.69|46.308,-123.69

OSTI Identifier:: 1785525

DOI:: https://doi.org/10.15485/1785525

Project Location:

Project Location:

Project Location:

Citation Formats


                    Patel, Kaizad, Fansler, Sarah, Campbell, Tayte, Bond-Lamberty, Ben, Smith, A. Peyton, RoyChowdhury, Taniya, McCue, Lee Ann, Varga, Tamas, and Bailey, Vanessa. Data for "Soil texture and environmental conditions influence the biogeochemical responses of soils to drought and flooding".  United States: N. p., 2021. 
        Web.  doi:10.15485/1785525.

Copy to clipboard


                    Patel, Kaizad, Fansler, Sarah, Campbell, Tayte, Bond-Lamberty, Ben, Smith, A. Peyton, RoyChowdhury, Taniya, McCue, Lee Ann, Varga, Tamas, & Bailey, Vanessa. Data for "Soil texture and environmental conditions influence the biogeochemical responses of soils to drought and flooding".  United States.  doi:https://doi.org/10.15485/1785525

Copy to clipboard


                    Patel, Kaizad, Fansler, Sarah, Campbell, Tayte, Bond-Lamberty, Ben, Smith, A. Peyton, RoyChowdhury, Taniya, McCue, Lee Ann, Varga, Tamas, and Bailey, Vanessa. 2021.  
"Data for "Soil texture and environmental conditions influence the biogeochemical responses of soils to drought and flooding"".  United States.  doi:https://doi.org/10.15485/1785525.  https://www.osti.gov/servlets/purl/1785525. Pub date:Fri Jan 01 00:00:00 EST 2021

Copy to clipboard


                    
@article{osti_1785525,

  title        = {Data for "Soil texture and environmental conditions influence the biogeochemical responses of soils to drought and flooding"},

  author       = {Patel, Kaizad and Fansler, Sarah and Campbell, Tayte and Bond-Lamberty, Ben and Smith, A. Peyton and RoyChowdhury, Taniya and McCue, Lee Ann and Varga, Tamas and Bailey, Vanessa},

  abstractNote = {This dataset contains data used for the paper "Soil texture and environmental conditions influence the biogeochemical responses of soils to drought and flooding". The Related References field will be updated with a full citation when available.Climate change is intensifying the global water cycle, with increased frequency of drought and flood. Water is an important driver of soil carbon dynamics, and it is crucial to understand how moisture disturbances will affect carbon availability and fluxes in soils. Here we investigate the role of water in substrate-microbe connectivity and soil carbon cycling under extreme moisture conditions. We collected soils from Alaska, Florida, and Washington USA, and incubated them under Drought and Flood conditions. Drought had a stronger effect on soil respiration, pore-water carbon, and microbial community composition than flooding. Soil response was not consistent across sites, and was influenced by site-level pedological and environmental factors. Soil texture and porosity can influence microbial access to substrates through the pore network, driving the chemical response. Further, the microbial communities are adapted to the historic stress conditions at their sites and therefore show site-specific responses to drought and flood.This dataset contains a compressed (.zip) archive of the data and R scripts used for this manuscript. The dataset includes files in .csv and .txt format, which can be accessed and processed using MS Excel or R. This archive can also be accessed on GitHub at https://github.com/kaizadp/TES_3Soils_2021 (DOI: 10.5281/zenodo.4792655).},

  doi          = {10.15485/1785525},

  journal      = {},

  number       = ,

  volume       = ,

  place        = {United States},

  year         = {Fri Jan 01 00:00:00 EST 2021},

  month        = {Fri Jan 01 00:00:00 EST 2021}

}

Copy to clipboard

Dataset:

View Dataset

DOI: https://doi.org/10.15485/1785525

Save / Share:

Export Metadata

Save to My Library

Similar records in DOE Data Explorer and OSTI.GOV collections:

Soil texture and environmental conditions influence the biogeochemical responses of soils to drought and flooding

Journal Article Patel, Kaizad F. ; Fansler, Sarah J. ; Campbell, Tayte P. ; ... - Communications Earth & Environment

Abstract Climate change is intensifying the global water cycle, with increased frequency of drought and flood. Water is an important driver of soil carbon dynamics, and it is crucial to understand how moisture disturbances will affect carbon availability and fluxes in soils. Here we investigate the role of water in substrate-microbe connectivity and soil carbon cycling under extreme moisture conditions. We collected soils from Alaska, Florida, and Washington USA, and incubated them under Drought and Flood conditions. Drought had a stronger effect on soil respiration, pore-water carbon, and microbial community composition than flooding. Soil response was not consistent across sites,more »« less
Soil texture and environmental conditions influence the biogeochemical responses of soils to drought and flooding

Journal Article Patel, Kaizad F. ; Fansler, Sarah J. ; Campbell, Tayte P. ; ... - Communications Earth & Environment

Climate change is intensifying the global water cycle, with increased frequency of drought and flood. Water is an important driver of soil carbon dynamics, and it is crucial to understand how moisture disturbances will affect carbon availability and fluxes in soils. Here we investigate the role of water in substrate-microbe connectivity and soil carbon cycling under extreme moisture conditions. We collected soils from Alaska, Florida, and Washington USA, and incubated them under Drought and Flood conditions. Drought had a stronger effect on soil respiration, pore-water carbon, and microbial community composition than flooding. Soil response was not consistent across sites, andmore »« less
Influence of hydrological, biogeochemical and temperature transients on subsurface carbon fluxes in a flood plain environment, Biogeochemistry: Dataset

Dataset Arora, Bhavna ; Bill, Markus ; Conrad, Mark ; ...

Data tables used in Arora et al. 2016b Influence of hydrological, biogeochemical and temperature transients on subsurface carbon fluxes in a flood plain environment. Biogeochemistry, 127(2-3), 367-396. Files include reactive transport model parameters describing soil physical and thermal parameters, geochemical reaction network and rate laws, as well as initial and boundary conditions. The last table documents modeling results with respect to annual carbon fluxes from the site to the river.
Data and scripts associated with the manuscript "Estimating soil moisture and salinity response to simulated coastal flooding using time-lapse electrical resistivity and induced polarization monitoring”

Dataset Adebayo, Moses ; Bailey, Vanessa ; Ehosioke, Solomon ; ...

This package contains geophysics datasets generated during the simulated ecosystem-flooding experiment – TEMPEST (Terrestrial Ecosystem Manipulation to Probe the Effects of Storm Treatment). These geophysics data consist of Electrical Resistivity Imaging (ERI) and Induced Polarization (IP) datasets collected to estimate the soil moisture and salinity response to the simulated coastal flooding experiment. In addition to using geophysics datasets to estimate soil moisture and salinity response, petrophysical relationship between the measured resistivity and moisture content and salinity using the multisalinity. This package consists of two folders: “MultiSalinity Experiment” folder and “TEMPEST Experiment and petrophysical conversion” folders. The “MultiSalinity Experiment” folder containsmore »« less
Data and scripts associated with a manuscript on a meta-analysis synthesizing stream biogeochemical response to wildfires across space and time.

Dataset Cavaiani, Jake ; Regier, Peter ; Roebuck, Alan ; ...

This data package is associated with the publication “Catchment characteristics modulate the influence of wildfires on nitrate and dissolved organic carbon across space and time: A meta-analysis.” submitted to Global Change Biology (Cavaiani et al. 2024., in preparation). This study uses meta-analytical techniques to evaluate the effect of wildfire on in-stream responses in burned and unburned watersheds. The study aims to provide additional insight into the range of responses and net influences that wildfires have on hydro-biogeochemistry across broad spatial scales, burn extents, and the persistence of water-quality change. This study compiles data and metadata from 18 total publications thatmore »« less

Similar Records