在中试规模跑道式池塘中培养的微藻培养物中原位测量光合活性。

Photosynthetic Activity Measured In Situ in Microalgae Cultures Grown in Pilot-Scale Raceway Ponds.

作者信息

Masojídek Jiří, Štěrbová Karolína, Robles Carnero Victor A, Torzillo Giuseppe, Gómez-Serrano Cintia, Cicchi Bernardo, Câmara Manoel João Artur, Silva Benavides Ana Margarita, Barceló-Villalobos Marta, Pozo Dengra Joaquín, Ördög Vince, Gómez Pinchetti Juan Luis, Acién Fernándéz Francisco Gabriel, Figueroa Félix L

机构信息

Laboratory of Algal Biotechnology, Centre ALGATECH, Institute of Microbiology, Czech Academy of Sciences, 37901 Třeboň, Czech Republic.

Faculty of Science, University of South Bohemia, 37001 České Budějovice, Czech Republic.

出版信息

Plants (Basel). 2024 Nov 30;13(23):3376. doi: 10.3390/plants13233376.

DOI:10.3390/plants13233376

PMID:39683169

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11644081/

Abstract

The microalga sp. (Chlorophyceae) was cultured in a raceway pond (RWP) placed in a greenhouse. The objective of this case study was to monitor the photosynthesis performance and selected physicochemical variables (irradiance, temperature, dissolved oxygen concentration) of microalgae cultures in situ at various depths of RWP. The data of actual photochemical yield Y(II), the electron transport rate monitored by in vivo chlorophyll fluorescence and photosynthetic oxygen production both in situ and ex situ revealed that (i) even in diluted cultures (0.6 g DW L), the active photic layer in the culture was only about 1 cm, indicating that most of the culture was "photosynthetically" inactive; (ii) the mechanism of non-photochemical quenching may not be fast enough to respond once the cells move from the surface to the deeper layers; and (iii) even when cells were exposed to a high dissolved oxygen concentration of about 200% sat and higher, the cultures retained a relatively high Y(II) > 0.35 when monitored in situ. The presented work can be used as exemplary data to optimize the growth regime of microalgae cultures in large-scale RWPs by understanding the interplay between photosynthetic activity, culture depth and cell concentration.

摘要

微藻 sp.（绿藻纲）在放置于温室中的跑道式池塘（RWP）中培养。本案例研究的目的是监测RWP不同深度处微藻培养物的光合作用性能以及选定的物理化学变量（辐照度、温度、溶解氧浓度）。原位和异位实际光化学量子产率Y(II)、通过体内叶绿素荧光监测的电子传递速率以及光合产氧的数据表明：（i）即使在稀释培养物（0.6 g DW L）中，培养物中的活性光合层也仅约1厘米，这表明大部分培养物“光合”无活性；（ii）一旦细胞从表面移动到较深层，非光化学猝灭机制的响应可能不够快；（iii）即使细胞暴露于约200%饱和及更高的高溶解氧浓度下，原位监测时培养物仍保持相对较高的Y(II)>0.35。通过了解光合活性、培养深度和细胞浓度之间的相互作用，所呈现的工作可作为优化大规模RWP中微藻培养生长模式的示例数据。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ebe3/11644081/d857d07c1fb8/plants-13-03376-g001.jpg

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在中试规模跑道式池塘中培养的微藻培养物中原位测量光合活性。

Photosynthetic Activity Measured In Situ in Microalgae Cultures Grown in Pilot-Scale Raceway Ponds.

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