Laura Meredith
@laurameredith.bsky.social
Microbial trace gas and volatile cycling across soil-rhizosphere-biosphere-atmosphere the continuum.
Associate Professor at University of Arizona
Associate Professor at University of Arizona
Soil microbes consume 80% of atmospheric hydrogen - but will they adapt fast enough to handle leaks from tomorrow's hydrogen infrastructure?
Check out this coverage of our NSF research project aimed at addressing this question with new data-model efforts:
cales.arizona.edu/news/u-led-r...
Check out this coverage of our NSF research project aimed at addressing this question with new data-model efforts:
cales.arizona.edu/news/u-led-r...
U of A-led research team will study how soil microbes could make or break hydrogen's clean energy promise
Soil microbes consume 80% of atmospheric hydrogen—but will they adapt fast enough to handle leaks from tomorrow's hydrogen infrastructure? A new research project aims to find out with a $1.7M National...
cales.arizona.edu
October 22, 2025 at 7:20 PM
Soil microbes consume 80% of atmospheric hydrogen - but will they adapt fast enough to handle leaks from tomorrow's hydrogen infrastructure?
Check out this coverage of our NSF research project aimed at addressing this question with new data-model efforts:
cales.arizona.edu/news/u-led-r...
Check out this coverage of our NSF research project aimed at addressing this question with new data-model efforts:
cales.arizona.edu/news/u-led-r...
Reposted by Laura Meredith
Our paper about VOC fluxes from leaf litter following rewetting is now published in JGR-Biogeosciences. Led by Lia Crocker, making use of leaf litter from the B2 WALD drought
Out in JGR Biogeosciences!
Volatile Organic Compound (VOC) Exchange in Tropical Leaf Litter in Response to Wetting
Automated Scheme to Classify Flux Pulse Dynamics
dx.doi.org/10.1029/2025...
Lia Crocker @you-wren.bsky.social @chriswernerlab.bsky.social @nemiahladd.bsky.social
Volatile Organic Compound (VOC) Exchange in Tropical Leaf Litter in Response to Wetting
Automated Scheme to Classify Flux Pulse Dynamics
dx.doi.org/10.1029/2025...
Lia Crocker @you-wren.bsky.social @chriswernerlab.bsky.social @nemiahladd.bsky.social
Volatile Organic Compound (VOC) Exchange in Tropical Leaf Litter in Response to Wetting: An Automated Scheme to Classify Flux Pulse Dynamics
Wetting of decomposing leaf litter triggered the emission and uptake of 121 potential VOCs including methanol, acetaldehyde, and acetone Most VOCs appear to originate from plant processes, althou...
dx.doi.org
October 1, 2025 at 7:22 PM
Our paper about VOC fluxes from leaf litter following rewetting is now published in JGR-Biogeosciences. Led by Lia Crocker, making use of leaf litter from the B2 WALD drought
Out in JGR Biogeosciences!
Volatile Organic Compound (VOC) Exchange in Tropical Leaf Litter in Response to Wetting
Automated Scheme to Classify Flux Pulse Dynamics
dx.doi.org/10.1029/2025...
Lia Crocker @you-wren.bsky.social @chriswernerlab.bsky.social @nemiahladd.bsky.social
Volatile Organic Compound (VOC) Exchange in Tropical Leaf Litter in Response to Wetting
Automated Scheme to Classify Flux Pulse Dynamics
dx.doi.org/10.1029/2025...
Lia Crocker @you-wren.bsky.social @chriswernerlab.bsky.social @nemiahladd.bsky.social
Volatile Organic Compound (VOC) Exchange in Tropical Leaf Litter in Response to Wetting: An Automated Scheme to Classify Flux Pulse Dynamics
Wetting of decomposing leaf litter triggered the emission and uptake of 121 potential VOCs including methanol, acetaldehyde, and acetone Most VOCs appear to originate from plant processes, althou...
dx.doi.org
October 1, 2025 at 4:00 PM
Out in JGR Biogeosciences!
Volatile Organic Compound (VOC) Exchange in Tropical Leaf Litter in Response to Wetting
Automated Scheme to Classify Flux Pulse Dynamics
dx.doi.org/10.1029/2025...
Lia Crocker @you-wren.bsky.social @chriswernerlab.bsky.social @nemiahladd.bsky.social
Volatile Organic Compound (VOC) Exchange in Tropical Leaf Litter in Response to Wetting
Automated Scheme to Classify Flux Pulse Dynamics
dx.doi.org/10.1029/2025...
Lia Crocker @you-wren.bsky.social @chriswernerlab.bsky.social @nemiahladd.bsky.social
Microbial traits for volatile production and consumption are diverse and consequential. Here's why they are ripe for interpretation through a trait-based lens...
Led by UA PhD students Ledford and Geffre @parkergeffre.bsky.social in collab w/ LBNL team @elbrodie.bsky.social Marschmann Karaoz
Led by UA PhD students Ledford and Geffre @parkergeffre.bsky.social in collab w/ LBNL team @elbrodie.bsky.social Marschmann Karaoz
September 11, 2025 at 4:04 PM
Microbial traits for volatile production and consumption are diverse and consequential. Here's why they are ripe for interpretation through a trait-based lens...
Led by UA PhD students Ledford and Geffre @parkergeffre.bsky.social in collab w/ LBNL team @elbrodie.bsky.social Marschmann Karaoz
Led by UA PhD students Ledford and Geffre @parkergeffre.bsky.social in collab w/ LBNL team @elbrodie.bsky.social Marschmann Karaoz
Reposted by Laura Meredith
Volatile traits expand the microbial playbook
@cp-trendsmicrobiol.bsky.social Opinion from @laurameredith.bsky.social
www.sciencedirect.com/science/arti...
@cp-trendsmicrobiol.bsky.social Opinion from @laurameredith.bsky.social
www.sciencedirect.com/science/arti...
September 11, 2025 at 6:19 AM
Volatile traits expand the microbial playbook
@cp-trendsmicrobiol.bsky.social Opinion from @laurameredith.bsky.social
www.sciencedirect.com/science/arti...
@cp-trendsmicrobiol.bsky.social Opinion from @laurameredith.bsky.social
www.sciencedirect.com/science/arti...
Reposted by Laura Meredith
Finally out: my #TEDtalk on our work on #climatechange #impact on #forests🌲🌳 and #B2WALD amd #ECOSENSE @nemiahladd.bsky.social @laurameredith.bsky.social @ecosense-sfb-1537.bsky.social Happy to share: share.google/Ag6muXOslSln...
share.google
September 9, 2025 at 9:37 PM
Finally out: my #TEDtalk on our work on #climatechange #impact on #forests🌲🌳 and #B2WALD amd #ECOSENSE @nemiahladd.bsky.social @laurameredith.bsky.social @ecosense-sfb-1537.bsky.social Happy to share: share.google/Ag6muXOslSln...
Postdoc position at UA!
Join a new NSF project to improve understanding of the atmospheric H2 soil sink and its response to H2 emissions with new flux measurements.
Excellent exposure to different disciplines and career paths.
Please share and apply by Sept 30
arizona.csod.com/ux/ats/caree...
Join a new NSF project to improve understanding of the atmospheric H2 soil sink and its response to H2 emissions with new flux measurements.
Excellent exposure to different disciplines and career paths.
Please share and apply by Sept 30
arizona.csod.com/ux/ats/caree...
Postdoctoral Research Associate
Assist to deploy H2 soil flux and profile measurement system at two National Ecological Observatory Network field sites (both domestic, one local).Mon...
arizona.csod.com
September 8, 2025 at 8:59 PM
Postdoc position at UA!
Join a new NSF project to improve understanding of the atmospheric H2 soil sink and its response to H2 emissions with new flux measurements.
Excellent exposure to different disciplines and career paths.
Please share and apply by Sept 30
arizona.csod.com/ux/ats/caree...
Join a new NSF project to improve understanding of the atmospheric H2 soil sink and its response to H2 emissions with new flux measurements.
Excellent exposure to different disciplines and career paths.
Please share and apply by Sept 30
arizona.csod.com/ux/ats/caree...
New NSF award: the future of the atmospheric hydrogen (H2) sink-is adaptation enough?
📣 Postdoc and PhD positions to be advertised soon 👀
Extreme gratitude for the Atmospheric Chemistry and Ecosystem Science Programs for their support.
@aerodyne.com
📣 Postdoc and PhD positions to be advertised soon 👀
Extreme gratitude for the Atmospheric Chemistry and Ecosystem Science Programs for their support.
@aerodyne.com
July 31, 2025 at 8:28 PM
New NSF award: the future of the atmospheric hydrogen (H2) sink-is adaptation enough?
📣 Postdoc and PhD positions to be advertised soon 👀
Extreme gratitude for the Atmospheric Chemistry and Ecosystem Science Programs for their support.
@aerodyne.com
📣 Postdoc and PhD positions to be advertised soon 👀
Extreme gratitude for the Atmospheric Chemistry and Ecosystem Science Programs for their support.
@aerodyne.com
Reposted by Laura Meredith
We are hosting a PhD course on volatiles in ecosystems for 30 international PhD students. Today we heard flash talks by all participants, got an introduction to isotopes, a lab tour and a tour in the Botanical Garden of #SNM.
We are thankful for Faculty of Science @ucph.bsky.social for funding.
We are thankful for Faculty of Science @ucph.bsky.social for funding.
Full house at our exciting PhD course on #BVOCs and #isotope techniques: advancing #ecosystem #research that will run for 3 days at @voltcenter.bsky.social
May 19, 2025 at 3:11 PM
We are hosting a PhD course on volatiles in ecosystems for 30 international PhD students. Today we heard flash talks by all participants, got an introduction to isotopes, a lab tour and a tour in the Botanical Garden of #SNM.
We are thankful for Faculty of Science @ucph.bsky.social for funding.
We are thankful for Faculty of Science @ucph.bsky.social for funding.
Has anyone else used Qiagen's PowerProtect solution (now that LifeGuard is unavailable) but with success extracting DNA/RNA from soil samples?
April 28, 2025 at 7:56 PM
Has anyone else used Qiagen's PowerProtect solution (now that LifeGuard is unavailable) but with success extracting DNA/RNA from soil samples?
Reposted by Laura Meredith
I’m happy to share our recent review published in The ISME Journal! Here, we explore the role of CO and H₂ oxidisers in oligotrophic environments. This work was a collaboration with Philippe Constant, Gary King, and @hendrikschaefer.bsky.social.
Hope you enjoy it!
academic.oup.com/ismej/articl...
Hope you enjoy it!
academic.oup.com/ismej/articl...
Metabolism of CO and H2 by pioneer bacteria in volcanic soils and the phyllosphere
Abstract. Trace gas degradation is a widespread metabolic adaptation in microbial communities, driving chemosynthesis and providing auxiliary energy that e
academic.oup.com
April 25, 2025 at 6:44 PM
I’m happy to share our recent review published in The ISME Journal! Here, we explore the role of CO and H₂ oxidisers in oligotrophic environments. This work was a collaboration with Philippe Constant, Gary King, and @hendrikschaefer.bsky.social.
Hope you enjoy it!
academic.oup.com/ismej/articl...
Hope you enjoy it!
academic.oup.com/ismej/articl...
Reposted by Laura Meredith
Our new preprint is out! A genomic and metagenomic dive into the diversity of microbial carbonic anhydrases. Huge thanks to the amazing team who made this possible!
@you-wren.bsky.social @laurameredith.bsky.social
www.biorxiv.org/content/10.1...
@you-wren.bsky.social @laurameredith.bsky.social
www.biorxiv.org/content/10.1...
Genomic and metagenomic survey of microbial carbonic anhydrase genes reveals novel clades, high diversity, and biome-specificity
Carbonic anhydrase (CA) enzymes catalyze the interconversion of carbon dioxide and bicarbonate with an efficiency exceeded only by superoxide dismutase. CA enzymes have convergently evolved multiple t...
www.biorxiv.org
January 14, 2025 at 12:47 PM
Our new preprint is out! A genomic and metagenomic dive into the diversity of microbial carbonic anhydrases. Huge thanks to the amazing team who made this possible!
@you-wren.bsky.social @laurameredith.bsky.social
www.biorxiv.org/content/10.1...
@you-wren.bsky.social @laurameredith.bsky.social
www.biorxiv.org/content/10.1...