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Bruce M. Greenberg
Researcher at University of Waterloo
Publications - 115
Citations - 9265
Bruce M. Greenberg is an academic researcher from University of Waterloo. The author has contributed to research in topics: Photosystem II & Lemna gibba. The author has an hindex of 51, co-authored 115 publications receiving 8674 citations. Previous affiliations of Bruce M. Greenberg include University of Guelph & Weizmann Institute of Science.
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Higher plants and UV-B radiation: balancing damage, repair and acclimation
TL;DR: A future challenge is to elucidate how UV-B-exposed plants balance damage, repair, acclimation and adaptation responses in a photobiologically dynamic environment.
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Phytoremediation and rhizoremediation of organic soil contaminants : Potential and challenges
TL;DR: If phytoremediation is to become an effective and viable remedial strategy, there is a need to mitigate plant stress in contaminated soils, and there is also aneed to establish reliable monitoring methods and evaluation criteria for remediation in the field.
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A multi-process phytoremediation system for removal of polycyclic aromatic hydrocarbons from contaminated soils.
TL;DR: The use of plant species that have the ability to proliferate in the presence of high levels of contaminants and strains of PGPR that increase plant tolerance to contaminants and accelerate plant growth in heavily contaminated soils resulted in rapid and massive biomass accumulation of plant tissue in contaminated soil.
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Separate photosensitizers mediate degradation of the 32-kDa photosystem II reaction center protein in the visible and UV spectral regions
TL;DR: Spectral evidence demonstrates two distinctly different photosensitizers for 32-kDa protein degradation, which implicate the bulk photosynthetic pigments in the visible and far red regions, and plastoquinone in the UV region.
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A multi-process phytoremediation system for decontamination of persistent total petroleum hydrocarbons (TPHs) from soils
TL;DR: In this article, a multi-process phytoremediation system (MPPS) was developed to improve the removal of persistent hydrocarbons from soil by using a combination of land-farming, contaminant degrading bacteria, plant growth-promoting rhizobacteria (PGPR), and growth of the contaminant-tolerant plant, Tall Fescue (Festuca arundinacea).