Since 1997, Picarro isotope and gas concentration analyzers have been used in some of the most consequential research. Whether analyzing climate change, monitoring air and water pollution, developing climate-smart agricultural practices, or exploring a number of other complex issues, researchers around the world rely on the continuous, precise results our innovative CRDS technology delivers. In celebration of our 25th anniversary, we are recognizing some of our users and their world-changing work through the Picarro Hero Awards.
We invited our customers to tell us about their work and how our analyzers help them in their research. We think all of them are amazing! Picarro selected three and asked the public to vote for the "People's Choice" award winner. All four will be featured in full-page advertisements in EOS magazine and receive other prizes. We'll be announcing the winners in early October.
Get to know our Picarro Hero Award nominees and their work!
Read their submissions.
Hover over the photos below for names of the finalists. Click on the photo to link to the finalists' submissions.
-
Adam Bednařík
Characterizing the Spatial Variability and Environmental Drivers of CH4 Ebullition
-
Bruce Vaughn
Generating Ultra-high Resolution Paleoclimate Records From Ice Cores
-
Damian Grundle
Measuring N2O Concentrations and Isotopic Signatures Across a Range of Dissolved Oxygen Concentrations in the Oceans
-
Eran Levin
Following Nutrients and their Metabolism in a Variety of Animals
-
Eric Steig
Producing the First and Longest Continuous High-Resolution Records of Past Climate Change Ever, from the WAIS Divide Ice Core
-
Gabriel Bowen
Advancing Our Understanding of Continental to Global Patterns in Surface and Groundwaters, Infrastructure, and Distribution Systems
-
Goggy Davidowitz
Tracking, in Real Time, How Insects Utilize Macronutrients and Their Role in Both Reproductive Success and Survival
-
Harald Sodemann
Studying the Life Cycle of Water Vapour in the Atmosphere, from Evaporation, Transport with Weather Systems, and Precipitation
-
Ido Rog
Gaining a Holistic View of Plant Carbon Regulation by Combining Advanced Molecular Biology Research with Ecophysiological Probing
-
Jeff Welker
Tracking the Transport of Seawater and Water Vapor Into, Within, and Out of the Arctic
-
Jennifer Stern
Using Mars Analog Environments on Earth to Understand What Biological and Geochemical Cycling of Carbon Would Look Like on Mars
-
Jesper Christiansen
Unraveling a Newly Discovered, Mysterious CH4 Flux in Glaciers and Ice Sheets
-
John Gitonga
Characterizing Water Isotopes in a Watershed that Stretches from Mt. Kenya through the Savanna
-
Kevan Minick
Researching How Forest Type, Disturbance, and Management Influences the Storage and Cycling of Key Elements in Soils and Vegetation
-
Maciej Górka
Researching Urban Environment GHGs, Their Biogenic and Anthropogenic Sources, and Seasonal Cycles -
Maren Dubbert
Application of Flux and Stable Isotope Techniques for Studying Interactions at the Soil-Plant-Atmosphere Continuum
-
Mohammad Zaman
Bringing Precision GHG and Isotopic Measurement Technology to IAEA Member States
-
Pierre-Yves Quehe
Gathering Insights Into Climate Data from the Land, Air, and Sea at the SNO ICOS-France World-reference Station
-
Ruth Esther Villanueva Estrada
Understanding the Water-Rock Interaction Processes in Geothermal Systems
-
Svetlana Evgrafova
Assessing the Impacts of Climate Change on Permafrost Ecosystems by Studying CO2 and CH4 Fluxes
-
Whendee Silver
Understanding the Patterns and Drivers of Greenhouse Gas Emissions in Forests, Grasslands, Agricultural Ecosystems, and Waste Management
-
Xinying Ling
Studying the Water Movement Processes in the Soil-Plant-Atmosphere Continuum (SPAC) using Stable Isotopes and Numerical Simulations
-
Yogesh Tiwari
Deepening the Understanding of CH4 Vertical Transport in the Atmosphere Over India.