Ph.D. In Geosciences, ITN MSCA H2020, PANORAMA via EGU

University of Lisbon

Lisbon, , PT

Job description

Research objectives
Acid mine drainage (AMD): water/soil transfer.
Objectives: Evaluation of AMD impact on the environment and effectiveness of current remediation processes.

Under the supervision of Dr. Maria Isabel Prudêncio, Dr. João Carlos Waerenborgh and Dr. Rosa Marques, the PhD student will (i) perform the geochemical and mineralogical characterization of soils, sediments, acid water ponds and stream flows of the selected AMD systems; (ii) evaluate the seasonal behaviour (2 sampling campaigns per site) of REE in the water along the treatment systems; (iii) establish the natural background and evaluate the contribution of the main mining focus (AMD and mine wastes) to the behaviour of REE in the fluvial system; (iv) promote a better understanding of the mechanisms of preferential REE fixation in the different subsystems of the AMD environment and of the complexity of hydrogeochemical processes controlling the REE distribution that occur in the course of passive treatment systems constructed to remediate AMD; and (v) establish strategies to prevent contamination through the real assessment of REE contents modifications in the several compartments of the environment.
The project involves a strong collaboration with: Empresa de Desenvolvimento Mineiro, Portugal, for field work and sampling (2×1 month, Dr. Catarina Diamantino); University of Huelva, Spain, for field work and laboratory experiments (2×1 month, Prof. Manuel Olias); Université de Rennes, France, for REE analysis in aqueous systems (2 months, Dr. M. Bouhnik-LeCoz); synchrotron SOLEIL, France, for REE-ochre-precipitates characterization using spectroscopy (1 month, Dr. S. Reguer); and Belgian Nuclear Research Centre for geochemical modelling (2 months, S. Salah) including required research stays (secondments), during a total of 9 months.
The PhD student will be also involved in scientific/soft-skills meetings and in research activities conducted in other laboratories/companies from Europe and associated countries.
An important component of the training will be the participation to 3 main major training events:
WS1-(December 2020) REE as emerging contaminants: Properties, uses and dissemination –Germany-fundamental REE biogeochemistry and currently known anthropogenic REE inputs into the environment
SS1 (May 2021) – AMD and REE contamination mitigation – Portugal-Management and remediation solutions of AMD in old mining areas and Management of WEEE, recycling areas
WS2 – Colloids and nanoparticles as REE vectors France Structural characterization of colloids and nanoparticles by innovative and fine spectroscopic and scattering techniques: X-Ray absorption fluorescence and scattering, light scattering. REE interactions with bearing phases.
SS2 – (Eco)toxicology of REE –Germany- Eco)toxicological concepts and approaches, Physico-chemical properties of REE for bioavailability, ecotoxicity and environmental risk
In addition to these major milestones of the program, the PhD students will 1) continuously develop their core research skills via their own research project locally and within the network while at secondments and conferences, 2) receive a mandatory amount of hard and soft-skills training specific to their own doctoral school, along with mentoring by joint supervising bodies, 3) use conferences both as dissemination events for ESRs results and network events for progress reports and evaluations, and 4) collaborate into practical activities aimed at network-structuring legacy deliverables.
PANORAMA’s research objective is to elucidate the man-induced environmental dissemination of REE and the associated effects on the environmental health. For that purpose, interdisciplinary approaches are required combining geochemistry, ecotoxicology, hydrology, chemical analysis and coupling field monitoring, original in and ex situ experimental set-up and modelling from the element speciation to the environmental impact
PANORAMA’s key aim is to set-up an optimal scientific and non-scientific training to the understanding and forecasting of the environmental impacts of new emerging pollutants such as REE.

How to apply

Send your complete application before 15th June to the contacts below (application will remain open until position is filled).

A single pdf file needs to be submitted including:
– a cover letter, stating your research motivation and interests; including relevant background and career plan (max 1 A4 page)
– a Curriculum Vitae, including academic background, previous research and/or industrial experience (max 2 A4 pages)
– Degree transcripts (with marks)
– English language qualification certificates (or equivalent)

Reference letters:
– at least 2 confidential reference letters from academics (including name, position and email address of the referee) (max 1 A4 page, with substantiated assessment of the applicant’s technical skills, creativity, innovation ability, working capacity, efficiency and level of independence) must be sent directly to the contacts below.

ESR Supervisors: [email protected]; [email protected]; [email protected]
Recruitment committee: to be completed after the kick-off meeting
Project website: Created by Cordis when grant agreement will be signed