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  1. Carbonaceous Nanomaterials Have Higher Effects on Soybean Rhizosphere Prokaryotic Communities During the Reproductive Growth Phase than During Vegetative Growth
  2. Multiwall Carbon Nanotubes Induce More Pronounced Transcriptomic Responses in Pseudomonas aeruginosa PG201 than Graphene, Exfoliated Boron Nitride, or Carbon Black
  3. Alginic Acid-Aided Dispersion of Carbon Nanotubes, Graphene, and Boron Nitride Nanomaterials for Microbial Toxicity Testing
  4. Agglomeration Determines Effects of Carbonaceous Nanomaterials on Soybean Nodulation, Dinitrogen Fixation Potential, and Growth in Soil
  5. Host-symbiont interaction model explains non-monotonic response of soybean growth and seed production to nano-CeO2 exposure
  6. Damage assessment for soybean cultivated in soil with either CeO2 or ZnO manufactured nanomaterials
  7. It is now possible to predict where sewers are leaking and contaminating groundwater
  8. DEB modeling for nanotoxicology, microbial ecology, and environmental engineering
  9. The role of alternative testing strategies in environmental risk assessment of engineered nanomaterials
  10. Synthetic microfibers released during clothes washing are quantified
  11. Separation of Bacteria, Protozoa and Carbon Nanotubes by Density Gradient Centrifugation
  12. Toxicity of Manufactured Nanomaterials to Microorganisms
  13. Wastewater compounds in urban shallow groundwater wells correspond to exfiltration probabilities of nearby sewers
  14. Analysis of soil bacteria susceptibility to manufactured nanoparticles via data visualization
  15. Visual data exploration of soil bacteria susceptible to engineered nanomaterials
  16. Analysis of Run-to-Run Variation of Bar-Coded Pyrosequencing for Evaluating Bacterial Community Shifts and Individual Taxa Dynamics
  17. Zinc oxide nanoparticles delay soybean development: A standard soil microcosm study
  18. Integrated approach to evaluating the toxicity of novel cysteine-capped silver nanoparticles to Escherichia coli and Pseudomonas aeruginosa
  19. Engineered Nanoparticles May Induce Genotoxicity
  20. Assessing interactions of hydrophilic nanoscale TiO2 with soil water
  21. Differential Growth of and Nanoscale TiO2Accumulation in Tetrahymena thermophila by Direct Feeding versus Trophic Transfer from Pseudomonas aeruginosa
  22. Dynamic energy budget approach to modeling mechanisms of CdSe quantum dot toxicity
  23. An Assessment of Fluorescence- and Absorbance-Based Assays to Study Metal-Oxide Nanoparticle ROS Production and Effects on Bacterial Membranes
  24. Nanoparticle dispersion in environmentally relevant culture media: a TiO2 case study and considerations for a general approach
  25. Modeling Physiological Processes That Relate Toxicant Exposure and Bacterial Population Dynamics
  26. Evidence for Negative Effects of TiO2and ZnO Nanoparticles on Soil Bacterial Communities
  27. Community Analysis-Based Methods
  28. Bacterial and Mineral Elements in an Arctic Biofilm: A Correlative Study Using Fluorescence and Electron Microscopy
  29. Evidence for hydrothermal Archaea within the basaltic flanks of the East Pacific Rise
  30. Microbial Processes in the Vadose Zone
  31. Bacterial diversity in marine hydrocarbon seep sediments
  32. Variations in microbial community composition through two soil depth profiles
  33. [9] Biofilms in unsaturated environments
  34. Toluene diffusion and reaction in unsaturatedPseudomonas putida biofilms
  35. Toluene diffusion and reaction in unsaturated Pseudomonas putida biofilms
  36. Soil Microorganisms in Soil Cleanup: How Can We Improve Our Understanding?
  37. Coupling Transport and Biodegradation of VOCs in Surface and Subsurface Soils
  38. Bacterial Interactions with CdSe Quantum Dots and Environmental Implications