PhD Position in Geochemistry of Enhanced Rock Weathering | |
Published | |
Closing Date | |
Workplace | Zurich, Zurich region, Switzerland |
Category | |
Position | |
100%, Zurich, fixed-termWe seek a PhD candidate to develop and evaluate new geochemical tracers for the quantification of carbon dioxide removal and monitoring of potential heavy metal pollution following enhanced rock weathering (ERW) applications. This position is integral to the research team, which includes 2 PhD candidates and 1 postdoctoral researcher across the three research groups involved in the project. Project backgroundIn the light of an intensifying climate crisis and the need for sustainable food production, ERW applications in agricultural systems are discussed as powerful tools for climate mitigation and soil remediation. However, several critical research questions of its application in an agricultural context remain unanswered, particularly for tropical soils, limiting the large-scale implementation of ERW. Project setup The advertised position is part of a multidisciplinary ETH-funded project that is motivated by the urgent need for scalable carbon dioxide removal (CDR) solutions---in addition to emissions reductions---to limit global warming to below 2°C. We will fill these gaps by providing a holistic quantification of CO2 removal and addressing poorly constrained environmental consequences on biogeochemical cycles in agroecosystems. We will utilize a shared greenhouse experimental setup to assess the impact of ERW on a variety of contrasting (tropical and non-tropical) soils. This work will be carried out across three groups at ETH Zurich: (i) the Earth Surface Geochemistry group (Dr. Tim Sweere; Dr. Gregory de Souza; Prof. Derek Vance), which aims to understand global biogeochemical cycles at several scales; (ii) the Soil Resources group (Prof. Sebastian Doetterl), which works on the effects of soil degradation and soil development on plant-soil-atmosphere C dynamics; and (iii) the Surface Earth Evolution group (Prof. Jordon Hemingway), which investigates processes that drive global climate change over human to geologic timescales. Job descriptionThe successful candidate will work within the Earth Surface Geochemistry group on the inorganic geochemical aspects of this project, focusing especially on the use of isotopic tracers of mineral weathering and neoformation. Tasks will include:
ProfileRequired experience, skills, and characteristics:
Desirable criteria:
WorkplaceWe offer
Placement of position at ETH Zurich The position is based in the Earth Surface Geochemistry group at the Department of Earth and Planetary Sciences. Our laboratories and offices are located in downtown Zurich with greenhouse facilities at ETH’s agricultural research station at Eschikon, ZH. Working, teaching and research at ETH Zurich We value diversityIn line with our values , ETH Zurich encourages an inclusive culture. We promote equality of opportunity, value diversity and nurture a working and learning environment in which the rights and dignity of all our staff and students are respected. Visit our Equal Opportunities and Diversity website to find out how we ensure a fair and open environment that allows everyone to grow and flourish. Curious? So are we.Start date will ideally be between 1 April 2025 and 1 June 2025. We look forward to receiving your online application until 31.01.2025 including:
Shortlisted applicants will be invited for an interview by 15.02.2024. We exclusively accept applications submitted through our online application portal. Applications via email or post will not be considered. For more information, please contact tim.sweereeaps.ethz.ch. Apply online now
| |
In your application, please refer to myScience.de and reference JobID 201901. |
Related News
9 January 2025
A fungus to save plants?
2 January 2025
Bats surf storm fronts during continental migration
19 December 2024
During the Christmas season, reindeer have plenty of time on their hands