Olivier Marcou scite author profile

The aetiological agent of Chagas disease, Trypanosoma cruzi, is a key human pathogen afflicting most populations of Latin America. This vectorborne parasite is transmitted by haematophageous triatomines, whose control by large‐scale insecticide spraying has been the main strategy to limit the impact of the disease for over 25 years. While those international initiatives have been successful in highly endemic areas, this systematic approach is now challenged by the emergence of insecticide resistance and by its low efficacy in controlling species that are only partially adapted to human habitat. In this contribution, we review evidences that Chagas disease control shall now be entering a second stage that will rely on a better understanding of triatomines adaptive potential, which requires promoting microevolutionary studies and –omic approaches. Concomitantly, we show that our knowledge of the determinants of the evolution of T. cruzi high diversity and low virulence remains too limiting to design evolution‐proof strategies, while such attributes may be part of the future of Chagas disease control after the 2020 WHO's target of regional elimination of intradomiciliary transmission has been reached. We should then aim at developing a theory of T. cruzi virulence evolution that we anticipate to provide an interesting enrichment of the general theory according to the specificities of transmission of this very generalist stercorarian trypanosome. We stress that many ecological data required to better understand selective pressures acting on vector and parasite populations are already available as they have been meticulously accumulated in the last century of field research. Although more specific information will surely be needed, an effective research strategy would be to integrate data into the conceptual and theoretical framework of evolutionary ecology and life‐history evolution that provide the quantitative backgrounds necessary to understand and possibly anticipate adaptive responses to public health interventions.

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Time variability of the north-western Mediterranean Sea pH over 1995–2011

Yao

Marcou²,

Goyet³

et al. 2016

Marine Environmental Research

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Modeling of Irrigation Channels — A Comparative Study

Marcou

Chopard

Yacoubi

2007

Int. J. Mod. Phys. C

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A free surface Lattice Boltzmann (LB) model -based on a two-fluid system-is considered to simulate the flow of water in an irrigation canal. We compare the behavior of our numerical simulations with simple experiments and theoretical results obtained from the Saint-Venant equation, the partial differential equation commonly used to describe water flow in irrigation canals. The case study we consider are (1) the height of water along the canal in a stationary regime and (2) a draining experiment. The comparisons show that the two-fluid LB approach captures correctly the draining speed and the qualitative water profile.

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A Bi-fluid Lattice Boltzmann Model for Water Flow in an Irrigation Channel

Marcou

Yacoubi

Chopard

2006

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Olivier Marcou

Evolutionary ecology of Chagas disease; what do we know and what do we need?

Time variability of the north-western Mediterranean Sea pH over 1995–2011

Modeling of Irrigation Channels — A Comparative Study

A Bi-fluid Lattice Boltzmann Model for Water Flow in an Irrigation Channel

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