Threats posed to humans-including environmental pollution, water scarcity, food shortages,
and resource crises drive a new concept to think about wastewater and its treatment …

Anthropogenic activities are altering total nutrient loads to many estuaries and freshwaters,
resulting in high loads not only of total nitrogen (N), but in some cases, of chemically …

Nitrogen is one of the important components for algae and is available in nature in various
redox states. Regulation in transport and assimilation of forms or compounds varies …

A number of lines of evidence (Mr, number of‐OH groups, measured fluxes at inner
mitochondrial membranes) suggest the intrinsic PSi (OH) 4 of about 10‐10 ms‐1 in the plant …

Due to the nature of coastal and estuarine systems, seagrasses must be able to tolerate
short-term salinity fluctuations including both hyposaline and hypersaline conditions. Salt …

Nitrogen and sulfur are abundant constituents of plant and algal cells that are assimilated at
the lowest oxidation number, as NH 4+ and S 2−, although they can (in the case of sulfur …

Algae can use a wide range of combined N sources. All of them can use NH 4+, and
probably also use urea and one of more amino acids; most of them can also use NO 2− and …

The mobility of dinophytes allows them to migrate dielly, in a vertically stratified environment,
between deeper regions where concentrations of nutrients (principally nitrate) are higher but …

Extensive amounts of organic and inorganic substances are discharged into the
environment, and they have been ascribed to a number of anthropogenic activities including …

High salinity is an environmental factor that inhibits plant growth and development, leading
to large losses in crop yields. We report here that mutations in SIZ1 or PHO2, which cause …