4.7 Article

Microalgae-Based Fluorimetric Bioassays for Studying Interferences on Photosynthesis Induced by Environmentally Relevant Concentrations of the Herbicide Diuron

Journal

BIOSENSORS-BASEL
Volume 12, Issue 2, Pages -

Publisher

MDPI
DOI: 10.3390/bios12020067

Keywords

ecosystem health; ecotoxicology; herbicides; microalgae; chlorophyll fluorescence; Kautsky effect

Funding

  1. ALERT program
  2. Italian Ministry for Economic Development [MI 00195]
  3. program 'E-crops-technologies for sustainable digital agriculture' - National Operational Program Research and Innovation 2014-2020 under Axis II Thematic Projects, Action Clusters in the Agrifood specialization area [ARS01_0113]

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Using microalgae-based fluorimetric bioassays, the study investigated the impact of the phenylurea herbicide Diuron on the photosynthesis of a freshwater and soil model microalga. The results showed that Diuron had inhibitory effects on the photosynthetic process of the microalga.
The widespread agricultural use of the phenylurea herbicide Diuron (DCMU) requires the investigation of ecotoxicological risk in freshwater and soil ecosystems in light of potential effects on non-target primary producers and a heavier effect on higher trophic levels. We used microalgae-based fluorimetric bioassays for studying the interferences on the photosynthesis of a freshwater and soil model green microalga (Chlamydomonas reinhardtii) induced by environmentally relevant concentrations of the herbicide DCMU. Measurements of steady-state chlorophyll a (Chl-a) fluorescence emission spectra were performed; as well, the kinetics of the Chl-a fluorescence transient were recorded. Percentage indexes of interference on photosynthesis were calculated after comparison of steady-state and kinetic Chl-a fluorescence measurements of DCMU-exposed and control C. reinhardtii cell suspensions. The results obtained after 30 min exposure to the herbicide DCMU confirmed a significant inhibitory effect of DCMU 2 mu g/L, and no significant differences between %iota values for DCMU 0.2 mu g/L and 0.02 mu g/L exposures. Positive %epsilon values from kinetic measurements of the Chl-a fluorescence transient confirmed the same interfering effect of 2 mu g/L DCMU on PSII photochemistry in the exposed C. reinhardtii cell suspensions. Negative values of %epsilon observed for 0.2 and 0.02 mu g/L DCMU exposures could be attributable to a presumptive 'stimulatory-like' effect in the photochemistry of photosynthesis. Short-term exposure to sub-mu g/L DCMU concentration (<= 0.2 mu g/L) affects the photosynthetic process of the model microalga C. reinhardtii. Similar environmental exposures could affect natural communities of unicellular autotrophs, with hardly predictable cascading secondary effects on higher trophic levels.

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