User:Kristine de Leon

Contact Info

• Kristine C. de Leon
• University of Arizona
• Saguaro Hall Rm.315
• 1110 E. South Campus
• Tucson, AZ 85721
• kdeleon{at}email.arizona.edu

I work in the Rich Lab in the University of Arizona. I learned about OpenWetWare Through my PI.

Education

• 2014 - current, PhD student, University of Arizona: Soil, Water, & Environmental Science
• BA Philosophy, University of California, Berkeley

Research Interests

• Environmental Microbiology
• Soil Proteomics
• Biochemistry: Enzymes & Crystal Structures
• Permafrost Thaw
• The role of microbial ecology in ecosystem scale responses to global change
• Microbial genomics and biogeochemical cycling

Current Projects

• Genes, isotopes, and ecosystem biogeochemistry: dissecting methane flux at the leading edge of global change. Department of Energy project led by Scott Saleska and Virginia Rich, with collaborators: Gene Tyson (University of Queensland), Patrick Crill (Stockholm University), Jeff Chanton (Florida State University), Changsheng Li and Steven Frolking (University of New Hampshire).

Broadly, I am using metagenomics and metaproteomics to understand the microbial dynamics and co-evolving geochemistry along a chronosequence of permafrost thaw and carbon transformation. More specifically, I am interested in investigating how microbial community composition and function scale to ecosystem biogeochemistry of CH4 and CO2, and how such scaling is affected by climate change. To accomplish this, I am coupling molecular microbial ecology to biogeochemistry and modeling, in order to link microbes, genes, transcripts and proteins with biogeochemical processes and ecosystem fluxes.

My project addresses several key outstanding questions about the pathways for carbon loss under permafrost thaw:

• What are the relative contributions of old previously-frozen carbon and new plant-derived carbon in fueling thaw-related carbon gas emissions (which drive positive feedback to climate change, and are rigorously quantified in magnitude and isotopic character by the parallel field project)? Identifying the organic matter composition of the sources and transition states will help clarify this, and thaw answer will help constrain the potential magnitude of modeled emissions moving forward.
• How are microbial community systems interacting with these carbon substrates to control the ration of methane (CH4) to carbon dioxide (CO2) released, a key parameter in model simulations of CH4 biogeochemistry used to estimate global emissions?
• Who are the key microbial lineages performing carbon transformations in these systems, and by what mechanisms are they acting? The selective sequencing proposed in my project builds upon rich metagenomic data already generated for this site, and is thereby anticipated to add hundreds of high quality new population genomes to our understanding of these climate responsive habitats.

I am currently wrapping up the optimization of protein extraction for our peat samples collected in Abisko, Sweden.

I am also looking into whether syntrophic acetate-oxidizing microbes contribute to patterns of methanogenesis observed with thawing permafrost in Stordalen Mire, Sweden.

Computer & Software Skills

• Programming: Java, Python, R
• Proteome Discoverer
• QIIME

Outreach

• Saturday Science Academy workshop leader, University of Arizona

In conjunction with Arizona MESA (a university-based outreach program), the Saturday Science Academy puts together all-day geology-based education programs for underrepresented middle school students. This year, I co-lead a workshop on the geologic time scale.

• Earth Week & SWES_X graduate rep, UA, Tucson, Arizona

The School of Earth & Environmental Sciences hosts Earth week at UA every year. As a SWES Grad Rep I am responsible for the organization of the event and the student recruitment of students in the SWES department for presentations.