@article{fdi:010073643,
  title = {{D}istinct physiological, biochemical and morphometric adjustments in the malaria vectors {A}nopheles gambiae and {A}. coluzzii as means to survive dry season conditions in {B}urkina {F}aso},
  author = {{H}idalgo, {K}. and {M}ontazeau, {C}{\'e}line and {S}iaussat, {D}. and {B}raman, {V}. and {T}rabalon, {M}. and {S}imard, {F}r{\'e}d{\'e}ric and {R}enault, {D}. and {D}abire, {R}. {K}. and {M}ouline, {K}arine},
  editor = {},
  language = {{ENG}},
  abstract = {{A}estivation and dispersive migration are the two strategies evoked in the literature to explain the way in which malaria vectors {A}nopheles coluzzii and {A}. gambiae survive the harsh climatic conditions of the dry season in sub-{S}aharan {A}frica. {H}owever, the physiological mechanisms regulating these two strategies are unknown. {I}n the present study, mosquito species were exposed to controlled environmental conditions mimicking the rainy and dry seasons of south western {B}urkina {F}aso. {S}urvival strategies were studied through morphometric (wing length), ecophysiological (respiratory gas exchanges), biochemical (cuticular hydrocarbons composition) and molecular ({AKH} m{RNA} expression levels) parameters, variations of which are usually considered to be hallmarks of aestivation and dispersion mechanisms in various insects. {O}ur results showed that ecophysiological and morphometric adjustments are made in both species to prevent water losses during the dry season. {H}owever, the usual metabolic rate modifications expected as signatures of aestivation and migration were not observed, highlighting specific and original physiological mechanisms sustaining survival in malaria mosquitoes during the dry season. {D}ifferences in epicuticular hydrocarbon composition and {AKH} levels of expression were found between the permanent and temporary {A}. coluzzii populations, illustrating the great phenotypic plasticity of this mosquito species. {A}ltogether, our work underlines the diverse and complex pattern of changes occurring in the two mosquito species and at the population level to cope with the dry season and highlights potential targets of future control tools.},
  keywords = {{A}estivation ; {M}igration ; {A}dipokinetic hormone ({AKH}) ; {C}uticular hydrocarbons ; {M}etabolic rate ; {BURKINA} {FASO}},
  booktitle = {},
  journal = {{J}ournal of {E}xperimental {B}iology},
  volume = {221},
  numero = {6},
  pages = {jeb174433 [11 p.]},
  ISSN = {0022-0949},
  year = {2018},
  DOI = {10.1242/jeb.174433},
  URL = {https://www.documentation.ird.fr/hor/fdi:010073643},
}