@article{PAR00020017,
  title = {{D}o sustainable drainage systems favour mosquito proliferation in cities compared to stormwater networks ?},
  author = {{V}aldelfener, {M}. and {B}arraud, {S}. and {S}ibeud, {E}. and {B}acot, {L}. and {P}errin, {Y}von and {J}ourdain, {F}r{\'e}d{\'e}ric and {M}armonier, {P}.},
  editor = {},
  language = {{ENG}},
  abstract = {{W}ith the recent emergence of dangerous mosquito species in cities, {S}ustainable {D}rainage {S}ystems used to manage stormwater are sometimes suspected to favour their development. {I}n the metropolis of {L}yon, the density of mosquitoes were studied in 15 retention, detention and/or infiltration sites, two green roofs, seven swales and 20 gully pots in traditional sewer networks. {N}one of the swales retained water long enough to be sampled. {N}o larvae were detected in the green roofs. {F}our classical species were found in the retention/detention basins ({C}ulex pipiens, {C}ulex hortensis, {A}nopheles maculipennis sl and {C}uliseta longiareolata). {T}hey appeared in {M}ay, mainly in the artificial habitats (e.g. concrete parts). {G}ully pots were colonized by {C}ulex pipiens, {C}uliseta longiareolata during summer and by {A}edes albopictus, 'tiger mosquito' in autumn. {V}egetated systems where water was drained rapidly (i.e. green roofs, infiltration basins or swales) were not significant breeding sites compared to more artificial sites.},
  keywords = {{B}est management practices ({BMP}s) ; retention and infiltration basin ; green roof ; {FRANCE} ; {LYON}},
  booktitle = {},
  journal = {{U}rban {W}ater {J}ournal},
  volume = {16},
  numero = {6},
  pages = {436--443},
  ISSN = {1573-062{X}},
  year = {2019},
  DOI = {10.1080/1573062x.2018.1523442},
  URL = {https://www.documentation.ird.fr/hor/{PAR}00020017},
}