M
Max M. Häggblom
Researcher at Rutgers University
Publications - 234
Citations - 13003
Max M. Häggblom is an academic researcher from Rutgers University. The author has contributed to research in topics: Reductive dechlorination & Denitrifying bacteria. The author has an hindex of 59, co-authored 224 publications receiving 11580 citations. Previous affiliations of Max M. Häggblom include Finnish Forest Research Institute & New York University.
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Journal ArticleDOI
Exotic plant species alter the microbial community structure and function in the soil
TL;DR: Differences in the structural variables were correlated to differences in the functional variables as demonstrated by canonical correlation analysis, indicating that successful exotic invasive species can have profound effects on the microbial community of the soil.
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Membrane lipids of symbiotic algae are diagnostic of sensitivity to thermal bleaching in corals
Dan Tchernov,Maxim Y. Gorbunov,Colomban de Vargas,Swati Narayan Yadav,Allen J. Milligan,Max M. Häggblom,Paul G. Falkowski +6 more
TL;DR: It is demonstrated that thylakoid membrane lipid composition is a key determinate of thermal-stress sensitivity in symbiotic algae of cnidarians and that the critical threshold temperature separating thermally tolerant from sensitive species of zooxanthellae is determined by the saturation of the lipids.
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Experimental analysis of the effect of exotic and native plant species on the structure and function of soil microbial communities.
TL;DR: It is found that the invasion of two very dissimilar exotic species into the under-story of deciduous forests in eastern North America can rapidly cause changes in most of the studied soil properties.
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Microbial breakdown of halogenated aromatic pesticides and related compounds
TL;DR: This review will focus on the biodegradation and biotransformation pathways that have been established for halogenated phenols, phenoxyalkanoic acids, benzoic acid, benzenes, anilines and structurally related halogenation aromatic pesticides.
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Dehalococcoides ethenogenes strain 195 reductively dechlorinates diverse chlorinated aromatic pollutants.
TL;DR: D. ethenogenes strain 195 has the ability to dechlorinate many different types of chlorinated aromatic compounds, in addition to its known chloroethene respiratory electron acceptors.