In situ photosynthetic yields of cave photoautotrophic biofilms using two different Pulse Amplitude Modulated fluorometers

Félix L. Figueroa*, Félix Álvarez-Gómez, Yolanda del Rosal, Paula S.M. Celis-Plá, Gala Gonzalez, Mariona Hernández, Nathalie Korbee

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

5 Scopus citations

Abstract

In order to evaluate the photosynthetic efficiency of cave photoautotrophic biofilms, in vivo chlorophyll a fluorescence was measured using two different fluorometers, in two biofilms in the touristic karstic Nerja Cave (Spain). The study was done for entire days in summer and in winter during the first year and repeated for a second year, in order to cover the widest range of environmental conditions, i.e., atmospheric CO2, temperature, seeping water and relative humidity levels. Effective quantum yield and relative electron transport rate (rETR) were determined during periods of light whereas maximal quantum yield (Fv/Fm) was determined in situ during dark periods. On summer days, in situ photosynthetic yields in cyanobacterium biofilms (Chroococcidiopsis sp.) increased 7–16 times compared to that of winter days, whereas in biofilms comprised of green and red microalgae and various cyanobacterium species, no seasonal or yearly variations were observed. In contrast, maximal rETR in the two biofilms increased in the periods with the highest values of both CO2 and relative humidity. Positive correlations between all environmental variables and rETR were found. According to Redundancy Analysis, all environmental variables, mainly CO2 and relative humidity were related to photosynthetic variables. The effective quantum yields showed different values depending on the measuring light of the PAM. The values were higher with red light (Diving PAM) compared to blue light (Junior PAM) mainly in the site dominated by cyanobacteria. Nerja Cave is shown as an excellent place to study the effects of light and CO2, among other environmental variables of biofilm photosynthetic activity. The monitoring of photosynthetic activity by in vivo chlorophyll a fluorescence could be used to follow the effects of the treatments applied by the touristic cave managers to reduce the proliferation of biofilms composed of various species, and, consequently, the biodeterioration of speleothems could be reduced.

Original languageEnglish (US)
Pages (from-to)104-115
Number of pages12
JournalAlgal Research
Volume22
DOIs
StatePublished - Mar 1 2017

Keywords

  • Algae
  • Biofilms
  • CO
  • Cyanobacteria
  • In vivo chlorophyll a fluorescence
  • Nerja Cave
  • Photosynthesis

ASJC Scopus subject areas

  • Agronomy and Crop Science

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