@article{fdi:010077268,
  title = {{M}odeling environmental impacts of plankton reservoirs on cholera population dynamics},
  author = {{C}onstantin de {M}agny, {G}uillaume and {P}aroissin, {C}. and {C}azelles, {B}. and {L}ara, {M}. de and {D}elmas, {J}.{F}. and {D}elmas, {J}.{F}. and {G}u{\'e}gan, {J}ean-{F}ran{\c{c}}ois},
  editor = {},
  language = {{ENG}},
  abstract = {{C}holera remains a major public health problem with significant mortality, and numerous re-emergences have been observed in the last decade in many developing countries. {P}revious analyses have suggested a complex process for cholera disease emergence and spread, particularly related to environmental factors associated to aquatic habitats. {T}o disentangle the complexity of these ecological and epidemiological processes and to understand the dynamics of cholera epidemics, mathematical models are needed. {H}ere we review the state-of-the-art of cholera models before proposing a modified model that integrates some influential environmental drivers. {P}articularly, as statistical analyses have revealed that chlorophyll a concentration had a significant influence over cholera epidemics our model incorporates this association, we suggest a new model where the disease starts with a bloom of phytoplankton, and then spreads in human community.},
  keywords = {{INFECTION} ; {EPIDEMIE} ; {BACTERIOLOGIE} ; {PLANKTON} ; {CHLOROPHYLLE} ; {MODELE} {MATHEMATIQUE} ; {PAYS} {EN} {DEVELOPPEMENT}},
  booktitle = {{M}athematics and applications to biology and medicine : {CEMRACS} 2004},
  journal = {{ESAIM} : {P}roceedings},
  volume = {14},
  numero = {},
  pages = {156--173},
  ISSN = {2267-3059},
  year = {2005},
  DOI = {10.1051/proc:2005013},
  URL = {https://www.documentation.ird.fr/hor/fdi:010077268},
}