Michael N. Weintraub

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    A[Michael N. Weintraub]
    AC["Associated Concepts (25)"]
    AW["Authored Works (18)"]
    CA["Linked Co-Authors (29)"]
    CI["Linked Collaborating Institutions (22)"]
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ORCiD

https://orcid.org/0000-0002-9623-2855

OpenAlex ID

https://openalex.org/A5059190653 (API record)

Associated Concepts [?]

• Biology
• Ecology
• Geology
• Environmental science
• Chemistry
• Organic chemistry
• Ecosystem
• Physics
• Oceanography
• Soil science
• Soil water
• Botany
• Agronomy
• Geography
• Environmental chemistry
• Biochemistry
• Arctic
• Paleontology
• Tundra
• Nutrient
• Genetics
• Engineering
• Quantum mechanics
• Mathematics
• Medicine

Authored Works

sorted by decreasing year, and then by display-name

• X-ray Absorption Spectroscopy to Unravel Fe Speciation in Soil and Sediment Cores from Redox-Dynamic Marine and Freshwater Coastal Environments
• Time to Anoxia: Oxygen Consumption in Soils Varies Across a Coastal Gradient
• Spatial Variation of Soil Hydraulic Properties Across Coastal Terrestrial-Aquatic Interfaces Along Lake Erie
• Redox Conditions Vary with Depth in Arctic Tundra Surface Soils
• Opposite gradients of soil greenhouse gas fluxes across the terrestrial-aquatic interface
• Molecular Observation Networks for Enhancing Ecosystem Modeling
• Iron concentrations and speciation across a soil moisture and soil pH gradient in the arctic tundra and its impact on phosphate availability
• Inundation Caused by Rising Water Levels in the Great Lakes Drives Hydraulic Dysfunction in Coastal Trees
• Identification of decomposition thresholds between -10 and 10 °C, and potential mechanisms
• How soil microbial properties change in the transitional layer between organic and mineral soil in the Arctic tundra
• Flooding events and groundwater redox dynamics of coastal ecosystems
• Estimating Greenhouse Gas dynamics in Terrestrial-Aquatic Interfaces using a redox-informed modeling framework integrated with microsite probability density functions
• Coastal Observations, Mechanisms, and Predictions Across Systems and Scales - Field, Measurements, and Experiments (COMPASS-FME)
• Beneath the Ghost Forest: Biogeochemistry and Function in Soils as they Transition from Coastal Forest to Wetland
• Applying Sensor Networks and Design Interconnectivity to Further Understanding and Modeling of Coastal Ecosystem Response to Global Change: A Journey into Developing Design Interconnectivity Among Six Coastal Experiments
• Vegetation Influences on Soil and Microbial Function at Transition Zones Within the Terrestrial-Aquatic Interface
• Despite Carbon and Nitrogen limitations, Soil Respiration is Greatest Within Seasonally Flooded Soils Along a Hydrological Gradient in a Temperate Freshwater Wetland
• Decomposition signals of warming in Arctic soils, exploring temperature thresholds of cellulose breakdown

Linked Co-Authors

• Allison Myers‐Pigg
• Ben Bond‐Lamberty
• Debjani Sihi
• Edward J. O’Loughlin
• Elizabeth Herndon
• Eric A. Davidson
• Erin Rooney
• Fausto Machado‐Silva
• J. Patrick Megonigal
• Jocelyn M. Lavallee
• Kennedy O. Doro
• Kenton A. Rod
• Khadijah Homolka
• M. Francesca Cotrufo
• Maggie Bowman
• Matthew H. Kaufman
• Natalie A. Griffiths
• Nicholas D. Ward
• Nicola Falco
• P. E. Thornton
• Roy L. Rich
• Samantha R. Weintraub
• Solomon Ehosioke
• Stephanie C. Pennington
• Vanessa Bailey
• Xingyuan Chen
• Yuri Corilo
• Yuxin Wu
• Zhuonan Wang

Linked Collaborating Institutions

• Argonne National Laboratory, Illinois
• Bulgarian Academy of Sciences
• Colorado State University
• Emory University, Georgia
• Florida State University, Department of Earth, Ocean and Atmospheric Science
• Jet Propulsion Laboratory
• Kent State University, Ohio
• Lawrence Berkeley National Laboratory, California
• Los Alamos National Laboratory, New Mexico
• Oak Ridge National Laboratory, Tennessee
• Pacific Northwest National Laboratory
• Smithsonian Institution
• The Ohio State University
• University of Colorado, Boulder
• University of East Anglia, UK
• University of Hamburg, Germany
• University of Maryland, Center for Environmental Science
• University of Maryland, College Park
• University of South Florida
• University of Tennessee
• University of Texas, Austin
• University of Toledo, Ohio

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