Impact of biomass density on growth rates of Spirulina platensis under different light spectra

Maejo International Journal of Energy and Environmental Communication Pub Date : 2023-01-20 DOI:10.54279/mijeec.v5i1.248275

K. M. Palanisamy, Obaid Ahmad Bhat, Natanamurugaraj Govindan, Mohd Hasbi Ab. Rahim, Gaanty Pragas Maniam

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Abstract

Light is the core environmental factor that affects the growth and biomass production of microalgae. However, the high density of microalgae will lead to reduction of the growth rate of microalgae culture due to availability of light decreases. Therefore, this experiment was conducted with aim of determining the influence of biomass density on growth of Spirulina platensis under different density of culture and LED lights. The result found that, the growth rate Spirulina platensis was reduced under high biomass density (9:1) due to lacking light penetration into the culture. However, white LED helps maintain the light acclimation process in the cells. Light spectra enhance the growth biomass. However white light contains all the light spectra highly contribute to the biomass production. The maximum light was penetrated into the culture due to minimal density of culture. More light was observed by the cells. Photosynthetic microalage may frequently experience irradiance fluctuations of one to two orders of magnitude in the natural environment. Microalgae have created several acclimation mechanisms to deal with such shifts.

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不同光谱下生物量密度对螺旋藻生长速率的影响

光是影响微藻生长和生物量生产的核心环境因子。然而，微藻的高密度会导致微藻培养的生长速度降低，因为光的可用性降低。因此，本试验旨在确定不同培养密度和LED灯下生物量密度对螺旋藻生长的影响。结果发现，在高生物量(9:1)条件下，由于光照不足，导致螺旋藻生长速度下降。然而，白光LED有助于维持细胞内的光适应过程。光谱能提高生长生物量。而白光包含了所有的光谱，对生物质的生产贡献很大。由于最小的培养密度，最大的光穿透到培养物中。细胞观察到更多的光。在自然环境中，光合微藻可能经常经历一到两个数量级的辐照度波动。微藻已经创造了几种适应机制来应对这种变化。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Maejo International Journal of Energy and Environmental Communication

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