TY - JOUR
T1 - Microplate-based method for high-throughput screening of microalgae growth potential
AU - Van Wagenen, Jonathan
AU - Holdt, Susan Løvstad
AU - De Francisci, Davide
AU - Valverde Perez, Borja
AU - Plósz, Benedek G.
AU - Angelidaki, Irini
PY - 2014
Y1 - 2014
N2 - Microalgae cultivation conditions in microplates will differ from large-scale photobioreactors in crucial parameters such as light profile, mixing and gas transfer. Hence volumetric productivity (Pv) measurements made in microplates cannot be directly scaled up. Here we demonstrate that it is possible to use microplates to measure characteristic exponential growth rates and determine the specific growth rate light intensity dependency (μ-I curve), which is useful as the key input for several models that predict Pv. Nannochloropsis salina and Chlorella sorokiniana specific growth rates were measured by repeated batch culture in microplates supplied with continuous light at different intensities. Exponential growth unlimited by gas transfer or self-shading was observable for a period of several days using fluorescence, which is an order of magnitude more sensitive than optical density. The microplate datasets were comparable to similar datasets obtained in photobioreactors and were used an input for the Huesemann model to accurately predict Pv.
AB - Microalgae cultivation conditions in microplates will differ from large-scale photobioreactors in crucial parameters such as light profile, mixing and gas transfer. Hence volumetric productivity (Pv) measurements made in microplates cannot be directly scaled up. Here we demonstrate that it is possible to use microplates to measure characteristic exponential growth rates and determine the specific growth rate light intensity dependency (μ-I curve), which is useful as the key input for several models that predict Pv. Nannochloropsis salina and Chlorella sorokiniana specific growth rates were measured by repeated batch culture in microplates supplied with continuous light at different intensities. Exponential growth unlimited by gas transfer or self-shading was observable for a period of several days using fluorescence, which is an order of magnitude more sensitive than optical density. The microplate datasets were comparable to similar datasets obtained in photobioreactors and were used an input for the Huesemann model to accurately predict Pv.
KW - Microalgae
KW - Screening
KW - μ–I curve
KW - Modeling
KW - Microplate
U2 - 10.1016/j.biortech.2014.06.096
DO - 10.1016/j.biortech.2014.06.096
M3 - Journal article
SN - 0960-8524
VL - 169
SP - 566
EP - 572
JO - Bioresource Technology
JF - Bioresource Technology
ER -