Lars Behrendt
Senior Lecturer/Associate Professor at Department of Organismal Biology; Physiology and Environmental Toxicology
- Telephone:
- +46 18 471 25 91
- Mobile phone:
- +46 76 315 10 45
- E-mail:
- lars.behrendt@ebc.uu.se
- Visiting address:
- Evolutionsbiologiskt Centrum EBC
Norbyvägen 18 A - Postal address:
- Norbyvägen 18 A
752 36 Uppsala
- Academic merits:
- Docent
- ORCID:
- 0000-0002-8988-2032
Keywords
- climate change
- ecotoxicology
- microfluidics
- bacteria
- cyanobacteria
- photosynthesis
- bioimaging
- microfabrication
- ecology
- phenotyping
- environmental sensing
Research
My laboratory explores the responses of individual and communities of microorganisms in relation to environmental landscapes and perturbations thereof. To provide insight into this interplay, we describe imminent processes and develop technologies to recreate fundamental environmental features so we can identify their effect on organisms’ function, structure and survival.
An immediate aim of my research is to improve our ability to forecast the effects of anthropogenic chemicals in changing aquatic environments. To address this challenge, we integrate microfabrication-based methods with assessments of single-cell physiological readouts (imaging, molecular readouts and chemical interrogations) into laboratory-on-a-chip approaches. My lab exploits the high-throughput of these devices to chart the parameter space of combined chemical and environmental conditions on the health of key marine players like bacteria, phytoplankton and fish. By obtaining multiparameter measurements of single organisms across trophic levels, we see potential for improved, ecosystem-wide risk assessment by the concluding extrapolation to global ocean settings.
Additionally, our ability to mimic key features from specific environments is useful for the phenotyping of unicellular phototrophs, for industrial processes, and for the domestication of ‘wild’ bacteria and partners in symbiotic relationships. The recreation of environmental features and their biological applications broadens our understanding of fundamental aspects of biological responses to external cues and helps demarcate environmental from anthropogenic effects – both expected to intensify under climate change.
Publications
Recent publications
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2025
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Microbial dietary preference and interactions affect the export of lipids to the deep ocean
Part of Science, p. 1182-+, 2024
- DOI for Microbial dietary preference and interactions affect the export of lipids to the deep ocean
- Download full text (pdf) of Microbial dietary preference and interactions affect the export of lipids to the deep ocean
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Novel Approach for Lifetime-Proportional Luminescence Imaging Using Frame Straddling
Part of ACS Sensors, p. 5531-5540, 2024
- DOI for Novel Approach for Lifetime-Proportional Luminescence Imaging Using Frame Straddling
- Download full text (pdf) of Novel Approach for Lifetime-Proportional Luminescence Imaging Using Frame Straddling
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SlipO2Chip - single-cell respiration under tuneable environments
Part of Lab on a Chip, p. 4786-4797, 2024
- DOI for SlipO2Chip - single-cell respiration under tuneable environments
- Download full text (pdf) of SlipO2Chip - single-cell respiration under tuneable environments
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Size-related variability of oxygen consumption rates in individual human hepatic cells
Part of Lab on a Chip, p. 4128-4137, 2024
- DOI for Size-related variability of oxygen consumption rates in individual human hepatic cells
- Download full text (pdf) of Size-related variability of oxygen consumption rates in individual human hepatic cells
All publications
Articles in journal
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Microbial dietary preference and interactions affect the export of lipids to the deep ocean
Part of Science, p. 1182-+, 2024
- DOI for Microbial dietary preference and interactions affect the export of lipids to the deep ocean
- Download full text (pdf) of Microbial dietary preference and interactions affect the export of lipids to the deep ocean
-
Novel Approach for Lifetime-Proportional Luminescence Imaging Using Frame Straddling
Part of ACS Sensors, p. 5531-5540, 2024
- DOI for Novel Approach for Lifetime-Proportional Luminescence Imaging Using Frame Straddling
- Download full text (pdf) of Novel Approach for Lifetime-Proportional Luminescence Imaging Using Frame Straddling
-
SlipO2Chip - single-cell respiration under tuneable environments
Part of Lab on a Chip, p. 4786-4797, 2024
- DOI for SlipO2Chip - single-cell respiration under tuneable environments
- Download full text (pdf) of SlipO2Chip - single-cell respiration under tuneable environments
-
Size-related variability of oxygen consumption rates in individual human hepatic cells
Part of Lab on a Chip, p. 4128-4137, 2024
- DOI for Size-related variability of oxygen consumption rates in individual human hepatic cells
- Download full text (pdf) of Size-related variability of oxygen consumption rates in individual human hepatic cells
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PACMan: A software package for automated single-cell chlorophyll fluorometry
Part of Cytometry Part A, p. 203-213, 2024
- DOI for PACMan: A software package for automated single-cell chlorophyll fluorometry
- Download full text (pdf) of PACMan: A software package for automated single-cell chlorophyll fluorometry
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Part of Cell Reports Methods, 2022
- DOI for Simultaneous visualization of flow fields and oxygen concentrations to unravel transport and metabolic processes in biological systems
- Download full text (pdf) of Simultaneous visualization of flow fields and oxygen concentrations to unravel transport and metabolic processes in biological systems
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Possible Functional Roles of Patellamides in the Ascidian-Prochloron Symbiosis
Part of Marine Drugs, 2022
- DOI for Possible Functional Roles of Patellamides in the Ascidian-Prochloron Symbiosis
- Download full text (pdf) of Possible Functional Roles of Patellamides in the Ascidian-Prochloron Symbiosis
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Zeitotox: Toxicology and the Rhythms of Life
Part of Environmental Science and Technology, p. 11100-11102, 2022
- DOI for Zeitotox: Toxicology and the Rhythms of Life
- Download full text (pdf) of Zeitotox: Toxicology and the Rhythms of Life
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Photophysiological response of Symbiodiniaceae single cells to temperature stress
Part of The ISME Journal, p. 2060-2064, 2022
- DOI for Photophysiological response of Symbiodiniaceae single cells to temperature stress
- Download full text (pdf) of Photophysiological response of Symbiodiniaceae single cells to temperature stress
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Part of Lab on a Chip, p. 1694-1705, 2021
- DOI for A microscopy-compatible temperature regulation system for single-cell phenotype analysis - demonstrated by thermoresponse mapping of microalgae
- Download full text (pdf) of A microscopy-compatible temperature regulation system for single-cell phenotype analysis - demonstrated by thermoresponse mapping of microalgae
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Part of Nature Protocols, 2021
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Sinking enhances the degradation of organic particles by marine bacteria
Part of Nature Geoscience, p. 775-780, 2021
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Part of Proceedings of the National Academy of Sciences of the United States of America, 2021
- DOI for Bistability in oxidative stress response determines the migration behavior of phytoplankton in turbulence
- Download full text (pdf) of Bistability in oxidative stress response determines the migration behavior of phytoplankton in turbulence
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Part of Science Advances, 2020
- DOI for PhenoChip: A single-cell phenomic platform for high-throughput photophysiological analyses of microalgae
- Download full text (pdf) of PhenoChip: A single-cell phenomic platform for high-throughput photophysiological analyses of microalgae
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Life in the dark: far-red absorbing cyanobacteria extend photic zones deep into terrestrial caves
Part of Environmental Microbiology, p. 952-963, 2020
Conference papers
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2025
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2021
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Combined effects of thermal stress and UV filter exposure on single cells of Symbiodinium
Part of ICRS 2021 - 14th International Coral Reef Symposium, 2021