Postdoctoral Scholar: Simulating fine-scale effects of Amazon deforestation on the regional water cycle and agriculture
Postdoctoral Scholar available: Simulating fine-scale effects of Amazon deforestation on the regional water cycle and agriculture.
The Department of Earth System Science at the University of California, Irvine is looking for a postdoctoral scholar interested in an interdisciplinary research project examining potential feedbacks between Amazon deforestation and associated forced changes in the regional atmospheric water cycle that impact agriculture production/expansion. The project focuses on running high-resolution (storm-resolving to eddy-permitting) regional climate simulations, across a spectrum of experiments ranging from the idealized (for process understanding) to the highly realistic (for analyzing ramifications of different policy scenarios). The project benefits from collaborations within Professor Paulo Brando, Professor Michael Pritchard and Professor James Randerson's research groups as well as with Dr. Michael Coe from the Woodwell Climate Research. The term of appointment is for one year, and renewable for one more year, subject to satisfactory progress. Please apply online at https://recruit.ap.uci.edu/apply/JPF06406 with a cover letter that also describes your immediate and long-term research goals, a curriculum vitae including publications list, and names for three letters of reference (please do not solicit letters). The start date is flexible, but we are eager to hire soon, and hope to fill the position by November 2020.
An expected or recent Ph.D. in atmospheric science, climate science, or other related fields is required. A strong foundational background in regional climate simulation is recommended. Well-qualified candidates will be knowledgeable about, or equipped to rapidly learn -- turbulent planetary boundary layer dynamics, large-eddy simulation, land-use change dynamics, and climate projections (e.g., working with CMIP5 and CMIP6 model outputs). Computational fluency is a plus for this position, as well as for candidates who are comfortable in dealing with large data sets. Responsibilities will include running simulations on high performance supercomputers and especially detailed iterative analysis of the processes at play in the model output, focusing on the relationship between deforestation forcing (separating effects of surface wind stress, albedo, and water use efficiency) and associated responses in the buoyant and mechanical turbulent mixing of the lower atmosphere and storage of subsurface soil moisture. Results are to be presented at major international conferences (e.g., AGU), and the postdoctoral researcher is expected to lead hypothesis-driven publications. The position is funded jointly and will be co-mentored by the Brando and Pritchard labs. Pritchard's group can provide mentoring in high performance computing, large eddy simulation, and analysis of water cycle dynamics. Brando and Coe's mentoring will focus on land-use dynamics, biosphere-atmosphere interactions, and forest conservation implications for the project's results.
The Earth System Science Department at UC Irvine is a highly interdisciplinary environment comprising ~ 25 faculty with expertise across many components of the Earth System, including atmospheric and climate dynamics, land surface processes, terrestrial and marine biogeochemical cycles, ice sheets, and human systems. The University of California, Irvine is an Equal Opportunity/Affirmative Action Employer advancing inclusive excellence. All qualified applicants will receive consideration for employment without regard to race, color, religion, sex, sexual orientation, gender identity, national origin, disability, age, protected veteran status, or other protected categories covered by the UC nondiscrimination policy.
Since 1965, the University of California, Irvine has combined the strengths of a major research university with the bounty of an incomparable Southern California location. UCI's unyielding commitment to rigorous academics, cutting-edge research, and leadership and character development makes the campus a driving force for innovation and discovery that serves our local, national and global communities.