Kishore Gopalakrishnan
Wayne State University
13 Papers
30 Citations
Kishore Gopalakrishnan is an academic researcher from Wayne State University. The author has contributed to research in topics: Chemistry & Trebouxiophyceae. The author has an hindex of 8, co-authored 11 publications. Previous affiliations of Kishore Gopalakrishnan include University of Canterbury.
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Papers
Removal efficiency of micro- and nanoplastics (180 nm-125 μm) during drinking water treatment.
TL;DR: This study investigated the removal efficiency of micro- and nanoplastics during drinking water treatment, particularly coagulation/flocculation combined with sedimentation (CFS) and granular filtration under ordinary working conditions at water treatment plants (WTPs), and studied the interactions between biofilms and microplastics.
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Mixotrophic Microalgae Biofilm: A Novel Algae Cultivation Strategy for Improved Productivity and Cost-efficiency of Biofuel Feedstock Production.
TL;DR: This work proved that microalgae biofilms under mixotrophic condition exhibited significantly higher productivity and quality of biofuel feedstock, and demonstrated the applicability of integrating this novel cultivation method with wastewater for maximum efficiency.
Microplastic ingestion by quagga mussels, Dreissena bugensis, and its effects on physiological processes.
Adam F. Pedersen,Kishore Gopalakrishnan,Anna G. Boegehold,Nicholas J. Peraino,Judy A. Westrick,Donna R. Kashian +5 more
TL;DR: It is suggested that microplastics can impair feeding through decreased filtration rates of filter feeding organisms, potentially resulting in a reduction of overall fitness over time and that MALDI-IMS may have the potential to identify microplastic and changes in tissue at the borders of plastic inclusion.
101
Alpine Scenedesmaceae from New Zealand: new taxonomy
TL;DR: Analysis of 18S ribosomal DNA in Coelastrella indicates likely intragenomic recombination and possible horizontal transfer of introns between taxa in this genus.
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Inclusion of chloroplast genes that have undergone expansion misleads phylogenetic reconstruction in the Chlorophyta
Phil M. Novis,Rob D. Smissen,Thomas R. Buckley,Thomas R. Buckley,Kishore Gopalakrishnan,Gabriel Visnovsky +5 more
TL;DR: It is reaffirm that Leptosira is a trebouxiophycean and that fragmentation of rpoB has occurred at least twice in chlorophyte evolution and should be excluded from phylogenetic analyses attempting to resolve deep nodes because their expansion violates the assumptions of substitution models.
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