Journal
JOURNAL OF APPLIED PHYCOLOGY
Volume 33, Issue 1, Pages 471-480Publisher
SPRINGER
DOI: 10.1007/s10811-020-02289-9
Keywords
Chlorophyta; Aquaculture; Growth rate; Irradiance; Nursery; Photosynthesis; Productivity
Funding
- R&D project CtLight - FEDER, through COMPETE2020 - Programa Operacional Competitividade e Internacionalizacao (POCI) [PTDC/BIA-FBT/30979/2017]
- national funds (OE), through FCT/MCTES
- FCT/MCTES [UIDP/50017/2020 + UIDB/50017/2020]
- FCT [IF/00899/2014, CEECIND/01434/2018]
- Fundação para a Ciência e a Tecnologia [PTDC/BIA-FBT/30979/2017] Funding Source: FCT
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This study investigated the effects of photoperiod and light spectra on the growth and pigment composition of C. tomentosum, revealing that long-day photoperiod and red light were optimal for growth at early development stages.
Codium tomentosum is a marine green macroalga with multiple value-added applications that is being successfully used as an extractive species in sustainable integrated multi-trophic aquaculture systems. Nonetheless, growth conditions of this species at an early development phase still require optimization. The present study addresses, under controlled laboratory conditions, the effects of photoperiod (long vs. short-day) and light spectra (white, blue, and red light) on growth and pigment composition of C. tomentosum. Relative growth rate was approximately 2x higher under long-day photoperiod (average of 39.2 and 20.1% week(-1) for long and short-day, respectively). Concentrations per dry weight of major pigments such as chlorophyll a (Chla) and siphonoxanthin (Siph) were significantly higher under long-day photoperiod. Relative growth rates were higher under red light, intermediate under white light, and lower under blue light. These last results were rather surprising, as Siph-Chla/Chlb light harvesting complexes of Codium have increased absorption in the blue-green region of the light spectra. Changes in carbon allocation patterns caused by the spectral composition of light and overgrowth of green microalgae in blue light cultures could explain the differences recorded for relative growth rate. Long-day photoperiod and light sources with preferential emission at the red region of the light spectra were identified as optimal for growth of C. tomentosum at early development stages. These lighting conditions can reduce the time required to reach the necessary biomass before transfer to grow-out systems. Overall, these findings can shorten production time, increase macroalgal productivity, and enhance aquaculture revenues.
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