CMCC Position cod. 12826Researchers in Paleoclimate Modelling for Environment–Society DynamicsDeadline: May 31st 2026WHAT WE ARE LOOKING FORWe are seeking two highly motivated researchers to join the climate team of the ERC Synergy Grant project EUROpest. This six‐year interdisciplinary project explores how social‐ecological systems shaped epidemic disease dynamics in pre‐industrial Europe (1300–1800), integrating historical, archaeological, ecological, genomic, and climatic evidence. Grounded in resilience theory and actor‐network approaches, the project develops an innovative eco‐bio‐social framework to capture the complex, multicausal dynamics of disease emergence, transmission, and societal responses.The two positions will strengthen the project's climate‐related activities, focusing on high‐resolution palaeoclimate simulations and the analysis of past climate variability over Europe and the Mediterranean. Successful candidates will work with climate model simulations, reconstructed climate fields, and complementary datasets to investigate variability, extremes, and processes operating from large‐scale to regional levels across the last millennium. Particular consideration will be given to applicants with experience in atmospheric dynamics, ocean‐atmosphere interactions, regional climate processes, and complex or coupled climate systems.Open to candidates with backgrounds in climate science, atmospheric science, oceanography, environmental physics, applied mathematics, statistics, or related disciplines. We encourage applicants with experience in numerical climate simulations, Earth system analysis, coupled systems, or advanced quantitative methods for spatio‐temporal data. Selected candidates will be based at CMCC and supervised by Dr. Elena Xoplaki, working in an international and collaborative research environment at the interface of climate science and environmental history.ROLEThe researchers will contribute to EUROpest's climate component by supporting the application, implementation, and analysis of high‐resolution climate modelling approaches for Europe and the Mediterranean over the period 1300–1800 CE. Their work will focus on the use and evaluation of palaeoclimate simulations, including externally forced experiments and, where relevant, coupled atmosphere‐ocean frameworks, to characterise past climate variability and extremes at spatial and temporal scales relevant to interdisciplinary analyses. They will contribute to the preparation, evaluation, and interpretation of climate model outputs, including comparison with proxy‐based reconstructions. The role includes investigating large‐scale drivers, regional expressions of climate variability, and the consistency of climate signals across simulations and empirical evidence. Experience with atmospheric, oceanic, or coupled climate‐system processes will therefore be particularly valuable. The positions are closely integrated with ongoing climate modelling and reconstruction activities within the team and across project partners. The researchers will also support the translation of climate information into forms suitable for interdisciplinary analysis, contributing to a broader framework linking environmental variability with societal processes.RESPONSIBILITIESClimate Modelling and Simulation Analysis
Contribute to the implementation, analysis, and evaluation of high‐resolution palaeoclimate simulations over Europe and the MediterraneanWork with externally forced climate simulations and related datasets across regional to large‐scale domainsSupport the preparation, processing, and evaluation of simulation experiments addressing past climate variability and extremesEngage with atmospheric, oceanic, and, where relevant, coupled climate‐system processes represented in modelling frameworks
Quantitative Analysis and Evaluation
Analyse simulated climate variability, trends, and extremes across relevant temporal scalesCompare model outputs with proxy‐based reconstructions and other lines of climate evidenceAssess the consistency, uncertainties, and robustness of climate signals across datasets and approachesApply statistical and data‐driven methods to analyse and interpret spatio‐temporal climate patterns and relationships
Scientific Integration and Communication
Collaborate with interdisciplinary teams working on climatic, environmental, historical, and societal dimensions within the project consortium and the CLIVAR divisionSupport the integration of climate information into broader analyses of environment‐society interactionsContribute to scientific publications, reports, and project deliverablesPresent research results at international conferences, workshops, and project meetings
REQUIREMENTS
PhD in climate science, atmospheric science, oceanography, geosciences, physics, applied mathematics, statistics, or a related disciplineDemonstrated experience with regional and/or global climate models, Earth system models, or closely related numerical modelling frameworksExperience in the analysis and interpretation of climate simulations, ideally including atmospheric, oceanic, or coupled land‐ocean‐atmosphere systemsFamiliarity with high‐resolution climate applications, downscaling approaches, or the representation of multiscale climate processesExperience in model evaluation, model‐data comparison, or the analysis of climate variability and extremes using statistical or data‐driven methodsProficiency in scientific programming and data handling, including experience with Python, Bash, and standard climate data tools and workflowsExperience working in high‐performance computing (HPC) environmentsStrong quantitative, analytical, and problem‐solving skillsExcellent written and oral communication skills in EnglishAbility to work both independently and collaboratively in an interdisciplinary and international research environmentWillingness to take initiative, assume responsibility, and contribute actively to the group's research agendaInterest in palaeoclimate, historical climatology, climate variability, or interdisciplinary research on climate‐environment interactionsA strong publication record relative to career stage in climate science, modelling, or a related field
DURATION, COMPENSATION & BENEFITS
Both internal and external applications are acceptedManagers will be based in the Bologna CMCC officeContract and gross annual salary will be based on qualifications and working experienceWelfare package for minimum 12‐month contractFlexible working time as per internal policiesSupport during the immigration process, if needed
PROTECTED CATEGORYBelonging to legally protected categories (ex L. 68/99) will constitute a preferential condition. Some fiscal benefits could be applied for repatriated workers or foreign researchers/professors, having the requirements defined by Dlgs 147/2015 (for repatriates) or Dl 78/2010 (for foreigners).EEO STATEMENTCMCC is an equal‐opportunity employer. We evaluate qualified applicants without regard to race, color, religion, sex, sexual orientation, gender identity, national origin, disability, veteran status, age, familial status, and other legally protected characteristics. Please omit from your CV any data you or we might consider discriminatory.DECLARATIONApplicants responding to this posting declare that they have read, understood and agreed to the Official Rule for the CMCC Personnel recruitment.We will keep your information on file for up to 1 year.#J-18808-Ljbffr