HelioWebMalak M. Tfaily
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A[Malak M. Tfaily]
AC["Associated Concepts (24)"]
AW["Authored Works (29)"]
CA["Linked Co-Authors (27)"]
CI["Linked Collaborating Institutions (32)"]
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click AW "#authored-works"
click CA "#co-authors"
click CI "#collaborating-institutions"
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- ORCiD
- https://orcid.org/0000-0002-3036-2833
- OpenAlex ID
- https://openalex.org/A5063958230 (API record)
Associated Concepts [?]
- Biology
- Ecology
- Geology
- Chemistry
- Environmental science
- Organic chemistry
- Environmental chemistry
- Geography
- Paleontology
- Computer science
- Oceanography
- Physics
- History
- Archaeology
- Materials science
- Soil science
- Organic matter
- Soil water
- Mathematics
- Engineering
- Ecosystem
- Genetics
- Quantum mechanics
- Composite material
Authored Works
sorted by decreasing year, and then by display-name
- Unraveling the Responses of Soil Bacterial and Fungal Communities to Changes in Resource Availability in a Desert Ecosystem
- Understanding Temporal, Spatial and Metabolomic Effects of Hydrogen Hotspots in Soil
- Soil carbon and volatile organic compound (VOC) cycling patterns during drought and rewet in an artificial tropical rainforest: Do microbes play a role?
- Nutrient and Water Availability Modulate the Destabilization of Mineral-Associated Organic Matter in the Rhizosphere
- Nitrogen competition in the rhizosphere: Using multi-omic and isotopic tools to trace belowground fates of nitrogenous fertilizers in a sorghum field
- Methylotrophic Metabolism in the Mire: Unearthing Direct and Indirect Routes for Methane Production in a Model Permafrost Thaw Peatland
- Metabotandem And Metabodirect: Software Pipelines for the Analysis of High Throughput Metabolomics Data for Complex Environmental Samples
- Metabolite analysis using FTICR (Fourier transform ion cyclotron resonance mass spectrometry) spectrometry in LEO with methanol extraction
- Climate, Time, and Soil Development Interact to Shape the Depth Distribution and Structure of Microbial Communities
- Characterization of Sphagnum Metabolome and Microbiome with Depth in an Arctic Ecosystem
- Changes in the Soil Metabolic Complexity Driven by Plant Succession at the Landscape Evolutionary Observatory at Biosphere2
- Whole-Ecosystem Warming of a Boreal Peatland Decreases Microbial Diversity and Stimulates Methane Production from Plant Metabolites
- Uncovering microbial metabolic trajectories during the snowmelt period in mountainous watersheds
- Substrate addition primes soil organic matter decomposition in a peat bog
- Sticky Roots: Plants and microbes poised to attack mineral-associated organic matter
- Sticky Roots Change Rhizodeposition Quality and Quantity Leading to Variable Disruption of Mineral-Organic Associations
- Stable Isotope Labelling to Trace Litter Degradation Pathways: A View Into the Carbon Cycling Processes Occurring in a Peat Bog
- Spatial metabolic profiling in roots reveals plant specific responses to drought at the Biosphere 2 tropical rainforest
- Predicting volatile organic compound (VOC) production and uptake locations using depth-resolved concentrations for a better understanding of the soil metabolome
- Organic matter biochemical transformation diversity is higher in surface water than in hyporheic zone sediments across global river corridors
- Microbial controls of nitrous oxide pulses in rewetted forest soils: An integrated -omic and isotopic approach
- Microbial Volatile Organic Compounds: Important but Undetected
- Microbial Community and Metabolomic Response to Drought and Ecological Stress at the Biosphere 2 Tropical Rainforest
- Exploring Ecometabolomics and Metabolomic Diversity in Response to Permafrost Thaw in Northern Sweden
- Elucidating the ecological dynamics of microbial systems in freshwater wetlands with an integrative omics approach across time and space
- Effect of drought on soil microbial metabolisms driving carbon allocation and volatile organic compound cycling in the tropical rainforest at Biosphere 2
- Dynamics of Organic Matter Molecular Composition under Aerobic Decomposition and Their Response to the Nitrogen Addition in Grassland Soils
- Community Response to Changing Environmental Conditions Among Contrasting Ecosystems
- A Deep, Diverse Reservoir of Methane-Cycling Microorganisms Resists Hydrologic Perturbation to Sustain Metabolic Activity in Freshwater Wetland Soils
Linked Co-Authors
- Aditi Sengupta
- Adrienne B. Narrowe
- Amy Goldman
- Bridget B McGivern
- C. R. Lawrence
- Christian Ayala-Ortiz
- Eoin L. Brodie
- Eva Y. Pfannerstill
- Gil Bohrer
- Holly M. Andrews
- J. H. Shorter
- James C. Stegen
- Jeffrey P. Chanton
- Joost van Haren
- Jordan E. Krechmer
- Laura Meredith
- Linnea K. Honeker
- Marco Keiluweit
- Mary-Cathrine Leewis
- Paul J. Hanson
- Qian Zhao
- Rachel M. Wilson
- Sherlynette Pérez Castro
- Simon Roux
- Timothy H. Morin
- V. I. Rich
- Viviana Freire-Zapata
Linked Collaborating Institutions
- Aerodyne Research Inc., Massachusetts
- Agriculture and Agri-Food Canada
- Albert Ludwigs University of Freiburg, Germany
- California State University, Los Angeles
- California State University, Northridge
- Colorado State University
- Eidgenossische Technische Hochschule, Zurich, Switzerland
- Florida State University
- Georg August University of Gottingen, Germany
- Georgia Institute of Technology
- Lawrence Berkeley National Laboratory, California
- Leopald Franzens University of Innsbruck, Austria
- Marine Biological Laboratory, Woods Hole, Massachusetts
- Max-Planck-Institute for Chemistry, Mainz
- Michigan State University
- Northwest Agriculture and Forestry University, Yangling
- Oak Ridge National Laboratory, Tennessee
- Pacific Northwest National Laboratory
- SUNY Syracuse, New York
- The Ohio State University
- U.S. Geological Survey
- U.S. Geological Survey, Menlo Park
- UMass Amherst
- University of Arizona
- University of Basel, Switzerland
- University of California, Davis
- University of Colorado, Boulder
- University of Colorado, Denver
- University of Louisiana
- University of Minnesota, Twin Cities
- University of Queensland, Australia
- University of Washington, Seattle
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