TITLE:
Fluorescence Emission Spectrum of Elodea Leaves Exposed to Nanoparticles
AUTHORS:
A. M. Maharramov, I. S. Ahmadov, M. A. Ramazanov, S. Q. Aliyeva, V. N. Ramazanli
KEYWORDS:
Chlorophyll, Nanoparticles, Fluorescence, Emission Spectra, Chlorophyll Content
JOURNAL NAME:
Journal of Biomaterials and Nanobiotechnology,
Vol.6 No.3,
June
16,
2015
ABSTRACT: The intensive use of engineered nanoparticles (NPs) in industrial, agricultural and household applications
will very likely lead to the release of such materials into the environment, especially
water ecosystems. Water plants are an integral part of ecosystems; hence their interaction with
NPs is inevitable. It is important to understand the consequences of this interaction and assess its
potential effects. There are different types of approaches for investigating the toxic effects of NPs
on plants. Chlorophyll fluorescence (ChlF) is one of interesting biophysical methods for testing the
effects NPs on plants in vivo. ChlF is a suitable technique and a very powerful tool for the in vivo
studying of photochemical and non-photochemical processes within thylakoid membranes, chloroplasts,
plant tissues, and whole plants. The present work reports the in vivo observation of
chlorophyll a fluorescence quenching induced by the iron (Fe3O4, Fe2O3) and aluminum oxide
(Al2O3) nanoparticles. Excitation and emission spectra of intact leaves of Elodea were acquired by
fluorescence spectrophotometer (Cary Eclipse) at room temperature. It was shown that the intensity
of the ChlF decreased in the solution of Fe3O4 and Al2O3 nanoparticles on the light. Fe2O3 affected
slightly and the toxicity of nanoparticles depended on dose and exposure period. It was
clear from these experiments that the given nanoparticles penetrated into the cell and might decrease
the chlorophyll content of leaves.