@article{fdi:010063113,
  title = {{C}oupling algal biomass production and anaerobic digestion : production assessment of some native temperate and tropical microalgae},
  author = {{F}ouilland, {E}. and {V}asseur, {C}. and {L}eboulanger, {C}hristophe and {L}e {F}loc'h, {E}. and {C}arr{\'e}, {C}laire and {M}arty, {B}. and {S}teyer, {J}. {P}. and {S}ialve, {B}.},
  editor = {},
  language = {{ENG}},
  abstract = {{C}oupling algal biomass production and anaerobic digestion is one of the most promising bioprocesses for economically viable algal production. {T}his study assesses the production rates of some native microalgae growing in media supplemented with algal digestate, urban wastewater or digested sludge. {N}ative microalgal populations isolated from temperate freshwaters ({S}cenedesmus spp.) and marine ecosystems ({N}annochloris spp.) had the highest potential production rates (about 100 mg {DW} {L}-1 d(-1)) with algal digestate at about 20% loading ratio. {H}owever, no growth was measured for {N}annochloris spp., when the ammonium concentration exceeded 100 mg {L}-1 although {S}cenedesmus spp. appeared to be tolerant to higher {NH}4+ concentrations. {V}ery low production rates, or no growth, were measured when microalgae isolated from high salinity waters ({D}unaliella salina, {L}yngbya aestuarii) were used, suggesting that populations well adapted to extreme environmental conditions are not suitable candidates for growing on wastewater or anaerobic digestate.},
  keywords = {{M}icroalgae ; {D}igestates ; {W}astewaters ; {E}xtreme natural environments ; {C}hlorophyta ; {C}yanobacteria ; {FRANCE}},
  booktitle = {},
  journal = {{B}iomass and {B}ioenergy},
  volume = {70},
  numero = {},
  pages = {564--569},
  ISSN = {0961-9534},
  year = {2014},
  DOI = {10.1016/j.biombioe.2014.08.027},
  URL = {https://www.documentation.ird.fr/hor/fdi:010063113},
}