Abstract
Cadmium (Cd) is highly toxic, even at very low concentrations, to both animals and plants. Pollen is extremely sensitive to heavy metal pollutants; however, less attention has been paid to the protection of this vital part under heavy metal stress. A pot experiment was designed to investigate the effect of foliar application of Se (1 mg/L) and Mo (0.3 mg/L) either alone or in combination on their absorption, translocation, and their impact on Cd uptake and its further distribution in Brassica napus, as well as the impact of these fertilizers on the pollen grains morphology, viability, and germination rate in B. napus under Cd stress. Foliar application of either Se or Mo could counteract Cd toxicity and increase the plant biomass, while combined application of Se and Mo solutions on B. napus has no significant promotional effect on plant root and stem, but reduces the seeds’ weight by 10–11%. Se and Mo have decreased the accumulated Cd in seeds by 6.8% and 9.7%, respectively. Microscopic studies, SEM, and pollen viability tests demonstrated that pollen grains could be negatively affected by Cd, thus disturbing the plant fertility. Se and Mo foliar application could reduce the toxic symptoms in pollen grains when the one or the other was sprayed alone on plants. In an in vitro pollen germination test, 500 μM Cd stress could strongly inhibit the pollen germination rate to less than 2.5%, however, when Se (10 μM) or Mo (1.0 μM) was added to the germination medium, the rate increased, reaching 66.2% and 39.4%, respectively. At the molecular level, Se and Mo could greatly affect the expression levels of some genes related to Cd uptake by roots (IRT1), Cd transport (HMA2 and HMA4), Cd sequestration in plant vacuoles (HMA3), and the final Cd distribution in plant tissue at the physiological level (PCS1).
Highlights
Cadmium (Cd) as one of the most toxic metals to both vertebrates and vascular plants is widespread in soil, water, and the atmosphere due to industrial emissions, sewage sludge, as well as phosphate fertilizers applications, and public waste disposal containing Cd [1,2]
Mo and Se deficiency are very popular in arable land of South China, in the area where B. napus grows. The objectives of this present study are to (i) evaluate the effect of foliar application of Mo and Se, either alone or in combination, on Cd uptake and translocation in B. napus which is the third-largest source of vegetable oil in the world, and it is used as a vegetable [36], (ii) investigate whether Mo and Se can restrain transferring of Cd to reproductive parts such as pollens and seeds, (iii) explore the effect of applying Se and Mo on pollen morphology and viability in Cd-stressed B. napus, and (iv) to study the protective role of Se and Mo at the molecular level via studying some metal transporters that might play a role in Cd-uptake and translocation
Combined application of Se and Mo under Cd stress has no significant promotional effect on plant root and stem, significantly decreased glume and seed dry mass. These results suggest that Se and Mo separately enhance plant growth and could alleviate the toxic effect of Cd
Summary
Cadmium (Cd) as one of the most toxic metals to both vertebrates and vascular plants is widespread in soil, water, and the atmosphere due to industrial emissions, sewage sludge, as well as phosphate fertilizers applications, and public waste disposal containing Cd [1,2]. Cd interferes with many cellular functions leading to retardation of plant growth, leaf chlorosis and a decrease in photosynthesis rate, diminishing water and nutrient uptake, which might result in the plant death [4]. It can cause oxidative stress and alter the functionality of membranes and the nitrogen metabolism [5]. In B. napus, Cd is reported to cause suppressed growth, decrease in the photosynthetic pigments content, as well as the activities of antioxidant enzymes, and increases in malondialdehyde and reactive oxygen species (ROS) It severely damages the leaf and root tip cell [7]. Cd negatively affects plant reproduction by inhibiting pollen germination and ovule growth and, induces invalid flowers and shriveled grains [14]
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