Organic Geochemistry Lab

We strive to unravel the mechanisms driving biological adaptation to environmental stressors through chemical modifications of cell membrane lipids (biomarkers). We use this knowledge to reconstruct the co-evolution of climate, environments, and microbial and biogeochemical processes through Earth’s history with the ultimate goal of providing context for possible future scenarios of our Earth system. 

Our lab is a shared analytical facility for multidisciplinary and collaborative research. Other investigators in our shared space include Caj Neubauer.

Photo of Julio SepĂșlveda

Julio SepĂșlveda 
Director

Photo of Lennart van Maldegem

Lennart van Maldegem
Lab manager

Allison Jacobel

Allison Jacobel
Visiting Scientist

Photo of Edgart Flores

Edgart Flores
Postdoc

Photo of David Harning

David Harning
Postdoc

Jonathan Raberg, with a fur-lined hood, stands on a snowy arctic landscape

Jonathan Raberg
Postdoc

Photo of Maria Luisa SĂĄnchez Montes

Maria Luisa SĂĄnchez Montes
Postdoc

Silhouette of generic person

Muhammad Haikal Ezhar bin Abu Bakar
Grad student

Photo of Harry Allbrook

Harry Allbrook
Grad student

Photo of Robert Kelleher

Robert Kelleher
Grad student

 

 

  • , Postdoc & PhD 2022
  • Sebastian Cantarero, PhD 2022
  • Garrett Boudinot, PhD 2020
  • Steven Moran, UNAVCO-RESESS Summer Undergraduate Fellow. Wichita State University, Kansas (Summer 2017)
  • Michael "Avi" Gross, Undergraduate student, Geological Sciences and Chemistry (2015-2017)
  • Raman Umamaheswaran, Visiting Graduate Student, S.N. Bose Fellow, University of Delhi, India (Summer 2016)
  • Marwa Baroumi, Visiting Graduate Student, EAOG Fellow, University of Tunis El Manar, Tunisia (Fall 2015)

Contact

Julio SepĂșlveda for lab and group inquires, including if you would like to join our group.   
Phone: 303-735-6877   SEEL room 214A 
Lab Phone: 303-735-3277   SEEL room 218

Who are we?

We are a diverse group of Earth scientists who study the interplay between changing environments, ecosystems, and climate.

Click on a photo to zoom

2016-2017 group photo in summer next to a stream. Nadia Dildar (lab manager), Michael "Avi" Gross (undergraduate student), Aaron "Ari" Meilijson (postdoc), Julio SepĂșlveda (PI), Garrett Boudinot (PhD student), Lina PĂ©rez-Ángel (PhD student)
Julio SepĂșlveda gives a presentation
Group photo outside on a spring day. Brooke Holman, Katie Eaman, Sebastian Cantarero, Jonathan Raberg, Harry Allbrook, David Harning, Lina PĂ©rez-Angel, Julio SepĂșlveda, Robert Kelleher
Fall group photo. Firstname Lastname, Nadia Dildar, Harry Allbrook, Sebastian Cantarero, Firstname Lastname, Julio SepĂșlveda, Lina PĂ©rez-Angel, Jonathan Raberg, Gifford Miller, Áslaug GeirsdĂłttir, Robert Kelleher, Firstname Lastname

 

Brooke Holman and Maria Luisa SĂĄnchez Montes, wearing white lab coats and purple nitrile gloves, work on lab instrumentation.
2022 graduation group photo. Jonathan Raberg, Lina PĂ©rez-Angel, Julio SepĂșlveda, and Firstname Lastname
Graduate students work at hoods in the lab. Lina PĂ©rez-Angel, Sarah Crump, Sebastian Cantarero, Jonathan Raberg
Julio SepĂșlveda in the Organic Geochemistry Lab

 

Julio SepĂșlveda, Katie Eaman, Lina PĂ©rez-Angel, Sebastian Cantarero, Jonathan Raberg
Pipetting from a vial
2022 group photo. Maria Luisa SĂĄnchez Montes, Robert Kelleher, Harry Allbrook, Julio SepĂșlveda

 

 

Research

The Organic Geochemistry Group studies the interplay between microorganisms, biogeochemical processes, and climate in contemporary settings (e.g., continental margins, marine oxygen minimum zones, extreme environments), and paleo-ecosystems across major climatic/biotic transitions in Earth history (e.g., mass extinction events, greenhouse climates, glacial-interglacial transitions). We approach these systems with a focus on the structures, distributions, and stable isotope composition of cell membrane lipids (biomarkers) that can be identified in water bodies, sediments, soils, and their fossilized remains preserved in the rock record.

Our research spans multiple disciplines:

  • Organic geochemistry and biomarkers
  • Stable isotope geochemistry
  • Geobiology and life in extreme environments
  • Paleoceanography
  • Paleoclimate
  • Chemical and biological oceanography

Julio SepĂșlveda doing fieldwork.

Lab & facilities

The Organic Geochemistry Laboratory (OG Lab) at CU Âé¶čÓ°Ôș is a shared analytical facility for multidisciplinary and collaborative research in fields as diverse as biogeochemistry, geobiology, astrobiology, environmental microbiology, paleoceanography, paleoclimatology, and energy, among others.

The OG Lab focuses on the extraction, purification, separation, and chemical and isotopic characterization of organic molecules extracted from a wide array of environmental and culture samples. Our state-of-the-art analytical facility, housed in the Sustainability, Energy and Environment Complex/Laboratories (SEEC/SEEL), began its operation in Summer 2016 and was specifically designed for research operations in organic geochemistry and compound-specific isotope ratio mass spectrometry.

A Thermo Trace 1310 GC interphase to a Thermo Scientific TSQ 8000 EVO triple quadrupole MS allows for the separation, and the untargeted and targeted analysis of biomarkers using full scan and Selected Reaction Monitoring (SRM) modes. The high signal over ratio provided by SRM mode ensures a detection limit of ca. 0.5 fg on column, which is ideal for the analysis of samples with low organic content.

A Thermo Finnigan Trace GC Ultra interphase to a PolarisQ ion-trap MS allows for the further characterization of biomarkers via MS-MS experiments. This instrument can also be attached to a Pyromat Curie-Point pyrolyzer (BrechbĂŒhler Scientific Analytical Solutions) for the analysis of bulk samples.

A Hewlett Packard 6890 Gas GC with an FID allows for the separation and accurate quantification of organic molecules.

A Thermo Scientific Ultimate 3000 HPLC interphase to a Q Exactive Focus Orbitrap-Quadrupole MS via electrospray ionization (ESI) or atmospheric pressure chemical ionization (APCI) allows for high sensitivity and high mass resolution for the targeted and untargeted analysis of polar biomarkers. Targeted analysis of polar lipids can be performed in Selected Ion Monitoring (SIM) and Parallel Reaction Monitoring (PRM) modes with high-resolution accurate-mass detection, and with enhanced signal over noise ratio for the detection of biomarkers present in low abundance. Untargeted analysis of unknown molecules can be performed via Full scan and Data-Independent Acquisition (DIA) modes. The Ultimate 3000 HPLC is also equipped with a DAD-3000 Diode Array Detector and a Fraction Collector for the identification, quantification, isolation and concentration of organic molecules for further chemical and/or stable isotope analysis.

  • Dionex 200 Accelerated Solvent Extraction (ASE) system
  • Anton Paar Multiwave 3000 Microwave Extraction System
  • Zymark Turbovap
  • Gilson GX-274 ASPEC Solid Phase Extraction system
  • Thermo Scientific Thermolyne Furnace Oven
  • Thermo Scientific Refrigerated Centrifuge
  • Freeze drier
  • Refrigerator and freezers
  • Microbalance and analytical balance
Multiple lab vials held on a grid await measurement

 

News
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Publications

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