The recent surge in industrialization has intensified the accumulation of various types of
organic and inorganic pollutants due to the illegal dumping of partially and/or untreated …

Microalgae and blue mussels are known to accumulate undesirable substances from the
environment, including arsenic (As). Microalgae can biotransform inorganic As (iAs) to …

In this study, the microalgae Haematococcus pluvialis were cultivated in wastewater
inoculated into low-density polypropylene plastic air pillows (LDPE-PAPs) under a light …

The effects of nutrient phosphate (P) at environmentally relevant levels on the toxicity of
arsenic (As) in marine microalgae have been rarely known. In the present study, we …

Microalgae have been widely employed in water pollution treatment since they are eco-
friendly and economical. However, the relatively slow treatment rate and low toxic tolerance …

Bioremediation became a promising technology to resolve arsenic (As) contamination in
aquatic environment. Since monoculture such as microalgae or bacteria was sensitive to …

Abstract Indicators signaling Arsenic (As) stress through physiology of microalgae using non-
destructive methods like variable fluorescence are rare but requisite. This study reports …

Addressing geogenic and anthropogenic arsenic (As) pollution is critical for environmental
health. This study explored arsenite [As (III)] removal using Cyanidiales, particularly …

The present study develops a novel concept of using waste media as an algal nutrient
resource compared to the usual growth media with the aid of growth kinetics study and …

Arsenic (As) pollution seriously threatens human and ecological health. Microalgal cell wall
and extracellular polymeric substances (EPS) are known to interact with As, but their roles in …