Add to ORKGFarmington Bay is a nutrient-enriched, highly eutrophic embayment of the Great Salt Lake. The highly variable salinity of the bay influences what species of plankton can survive there. Previous analyses suggested that cyanobacteria (blue-green algae) may not be able to survive or fix atmospheric nitrogen at high salinities, thus maintaining the lake in a nitrogen-limited state. To determine the interacting influence of nutrients and salinity on the growth and nitrogen fixation of plankton we performed a 28-day bioassay with water from Farmington and Gilbert Bays in October 2004. We tested the response of the plankton to additions of nitrogen (N) and phosphorus (P) at salinities of 3%, 5%, 70/0, 9% or 11 %. Algal inocula from a variety of sa...
Harmful algal bloom (HAB) events have become increasingly frequent in coastal and estuarine regions ...
Natural geography and causeways have divided the Great Salt Lake into four bays with limited, but im...
Although the Great Salt Lake is frequently treated as if it were a single body of water, the natural...
The Great Salt Lake is bordered to the south and east by a growing metropolitan area that contribute...
To examine how salinity and nutrient supply interact to control phytoplankton community composition,...
In Fall 2004, the Aquatic Ecology Practicum class at Utah State University finished a third year of ...
Farmington Bay of Great Salt Lake has been studied extensively over the last two decades and observa...
Agricultural, industrial and particularly secondary-treated domestic wastes from metropolitan Salt L...
The Davis Pond Diversion (DPD) was constructed to divert Mississippi River (MR) water into the Barat...
The Great Salt Lake lies in a terminal basin, and thus accumulates nutrients and other pollutants pr...
Farmington Bay of Great Salt Lake receives a significant amount of the nutrient-polluted runoff from...
The factors that directly and indirectly restrict the productivity of the world\u27s lakes, streams,...
An ecosystem-level experiment was conducted to identify the nutrient most limiting to productivity a...
We conducted 158 bioassays to determine phytoplankton growth limitation in the northern Gulf of Mexi...
Harmful algal bloom (HAB) events have become increasingly frequent in coastal and estuarine regions ...
Natural geography and causeways have divided the Great Salt Lake into four bays with limited, but im...
Although the Great Salt Lake is frequently treated as if it were a single body of water, the natural...
The Great Salt Lake is bordered to the south and east by a growing metropolitan area that contribute...
To examine how salinity and nutrient supply interact to control phytoplankton community composition,...
In Fall 2004, the Aquatic Ecology Practicum class at Utah State University finished a third year of ...
Farmington Bay of Great Salt Lake has been studied extensively over the last two decades and observa...
Agricultural, industrial and particularly secondary-treated domestic wastes from metropolitan Salt L...
The Davis Pond Diversion (DPD) was constructed to divert Mississippi River (MR) water into the Barat...
The Great Salt Lake lies in a terminal basin, and thus accumulates nutrients and other pollutants pr...
Farmington Bay of Great Salt Lake receives a significant amount of the nutrient-polluted runoff from...
The factors that directly and indirectly restrict the productivity of the world\u27s lakes, streams,...
An ecosystem-level experiment was conducted to identify the nutrient most limiting to productivity a...
We conducted 158 bioassays to determine phytoplankton growth limitation in the northern Gulf of Mexi...
Harmful algal bloom (HAB) events have become increasingly frequent in coastal and estuarine regions ...
Natural geography and causeways have divided the Great Salt Lake into four bays with limited, but im...
Although the Great Salt Lake is frequently treated as if it were a single body of water, the natural...