ERC FUNDED PROJECTS

Our understanding of the emergence and dispersal of the earliest tool-making hominins has been revolutionised in the last decade, with sites in eastern Africa and China pushing both events more than half a million years earlier than previously thought. Traditional models linking biological speciation, cultural innovation and migration events with climatic pulses have remained theoretical, and recent discoveries suggest that the picture of the earliest human colonization across the Old World is far more complex, demanding heuristic approaches to understand the biogeography and adaptive behaviours of early humans. This project will be the first substantive attempt to produce a global synthesis of earliest human occupation dynamics by comparing the world’s longest sequences of early archaeological sites, namely eastern Africa and China. Our objective is to understand the alternative evolutionary trajectories adopted by hominins that shared an overarching biological and cultural background, but who faced different climatic and biogeographic challenges and opportunities. The ambition of our global-scale objectives is accompanied by the unmatched quality of our datasets and the ground-breaking perspective we will adopt in their study. Fieldwork in the two most renowned sequences in each region alongside a primary study of additional top-quality assemblages in both subcontinents, will be combined with extensive metadata sets to produce comprehensive views of temporal trends and paleoecological patterns. Our state-of-the-art methodological sets (which combine an exceptionally diverse range of disciplines from geochemistry to niche modelling) and ground-breaking analytical perspective (which considers data from micro-stratigraphy to satellite imaging) will enable us to develop new approaches to challenge established paradigms and produce a new picture of the biogeographic adaptations of early stone-tool makers.

2 499 996 €

Start date: 2019-10-01, End date: 2024-09-30

The relentless rise in diabetes is one of the greatest global health emergencies of the 21st century. The increase is most pronounced in low and middle income countries where today three quarters of people with diabetes live and over 80% of the deaths attributed to non-communicable diseases occur. In light of the wealth of knowledge already available about how to tackle the problem, most major international organizations call for the adoption healthy public policies and initiatives to strengthening health systems. However, implementation of recommended action remains limited in many settings. Most evidence comes from high-income settings and may generate recommendations that cannot be successfully implemented in other settings without careful consideration and contextualization. I propose here that this “know-do” gap can be reduced by revealing the barriers to implementing evidence-based recommendations, engaging local stakeholders in developing context-led innovations and developing a tool-kit for contextualizing and implementing diabetes recommendations in low-resource settings. I plan the research in two carefully selected settings in Ecuador, with mixed-methods combining quantitative epidemiological research and qualitative methodology to generate the rich and varied knowledge that is required to trigger policy action and/or changes in care models. Furthermore, I will engage patients, community members, health workers and decision makers in the process of knowledge generation, interpretation and use. The overarching objective is hence, to explore the process by which global recommendations can be translated into context-specific, evidence-informed action for diabetes prevention in low-resource settings. The findings will support the global endeavour to bridge the global “know-do” gap, one of the most important public health challenges this century and a great opportunity for strengthening health systems and achieving health equity.

1 475 334 €

Start date: 2019-01-01, End date: 2023-12-31

Integrons are genetic platforms that enhance bacterial evolvability through the acquisition and stockpiling of new genes encoded in mobile elements named cassettes. They are found in the chromosomes of environmental bacteria but some have acquired mobility through their association to transposons and conjugative plasmids. These mobile integrons (MI) caused the unexpected rise of multidrug resistance that is now a major threat to modern medicine, and are good proof of the adaptive power of integrons. Class 1 integrons are the most relevant MI and the major experimental model. Yet little is known about the hundreds of sedentary chromosomal integrons (SCI) that have driven bacterial evolution for eons. The paradigm of SCI is the superintegron (SI), an extremely large integron located in the chromosome of Vibrio cholerae, the causative agent of Cholera disease. Despite its role in the adaptability of one of the deadliest pathogens in history, the SI is poorly characterized because it is only functional in its native genetic background, yet its presence interferes with, and precludes all studies performed in V. cholerae. I propose to solve this paradoxical situation by deleting the SI, an ambitious project not only for its size (126 Kb) but because it is highly stabilized by 17 toxin-antitoxin systems. To do so, I have developed SeqDelTA, a novel method that is already giving excellent preliminary results. I will then use V. cholerae∆SI to study fundamental aspects of SCIs, yet out of reach. I will elucidate the functions encoded in SI cassettes to understand the role and adaptive value of integrons in nature; I will also unravel the genesis of cassettes: how a gene is exapted from its genetic context to become a mobile module; and I will explore the circulation of antibiotic resistance cassettes among humans, animals, food, and the environment with a novel biosynthetic tool (the I3C). KryptonInt will open and explore the historically inaccessible field of study of SCIs.

1 499 516 €

Start date: 2019-01-01, End date: 2023-12-31

Data mining and big data approaches are changing the ways in which we create knowledge, access information and preserve our cultural heritage. This research applies cutting-edge technology to analyse a neglected aspect of European and non-European social and cultural life of the 20th century: the impact of Hispanic and Lusophone literary networks and cultural mediators in international modernity between 1898 and 1959. The project pursues three central goals: 1) to retrieve the lost history of Iberoamerican mediators in modernist intercultural and multilingual networks and reappraise their role; 2) to narrow the knowledge divide in terms of access and production in the Iberoamerican field by generating and making freely available new and reliable data that addresses the lack of documented cultural heritage, and 3) to offer an innovative and reproducible model that can be applied across periods, languages, and disciplines to analyse cross-border phenomena, under-examined mediators and networks and overshadowed geographical scales in their relations to the wider world. These goals will be achieved by a twofold methodology: i) an open and collaborative research tool providing a data source for quantitative and qualitative analysis on Iberoamerican mediators, and ii) four subprojects on key cultural transformation processes distinctive of modern societies (the institutionalization of Iberoamerican cultures, the rise of translated literature in key Iberoamerican modernist journals, the position of Iberoamerican women in the cultural field, and the role of Iberoamerican mediators in new forms of mass media). By combining computational methods, cultural, literary history, translation, sociology, gender and media studies, I will lead an interdisciplinary team of 6 researchers that will fill the gap in modernist studies and will offer an original, reproducible and empirically tested method for studying social human interaction within a global, cultural and decentred approach

1 500 000 €

Start date: 2018-12-01, End date: 2023-11-30