Yes, nitrogen serves as a limiting element for plant development since there is a finite amount of nitrogen in the soil, and plants compete for it.
my bio book (human body systems -structure, function, and environment) says the limiting factor is Phosphate (page 124 under ecosystems)
The major limiting factor in Mono Lake algae is phosphorus availability. Phosphorus is essential for algae growth, and the low levels of phosphorus in Mono Lake limit the algal population, which in turn affects the entire ecosystem as algae form the base of the food web.
Two examples of abiotic factors in a lake ecosystem are temperature and dissolved oxygen levels. Temperature can affect the metabolic rates of organisms, while dissolved oxygen is essential for aquatic organisms to respire.
Water level fluctuations brought on by drought or flooding.
Non-living factors that can affect carrying capacity in a lake include nutrient availability (such as phosphorus and nitrogen levels), water temperature, oxygen concentration, and the physical structure of the lake (such as depth and shoreline complexity). These factors can influence the availability of resources for organisms and thus impact the population size a lake can support.
Temperatures
Factors that limit aquatic life are - Temperature - Access to sunlight - Dissolved oxygen concentrations - Availability of nutrients, such as nitrogen and phosphorus
Phosphate
my bio book (human body systems -structure, function, and environment) says the limiting factor is Phosphate (page 124 under ecosystems)
The major limiting factor in Mono Lake algae is phosphorus availability. Phosphorus is essential for algae growth, and the low levels of phosphorus in Mono Lake limit the algal population, which in turn affects the entire ecosystem as algae form the base of the food web.
After a lake receives a large input of a limiting nutrient such as phosphorus or nitrogen, excessive algal growth can occur. This can lead to algal blooms which deplete oxygen levels in the water, harm aquatic life, and disrupt the ecosystem balance. Additionally, the increased algal growth can lead to a phenomenon known as eutrophication, where the lake becomes overly enriched with nutrients and can become turbid and inhospitable to many organisms.
An algae bloom occurs.
nutrients, particularly nitrogen and phosphorus. High levels of dissolved nutrients can lead to excessive algae growth, a phenomenon known as eutrophication, which can have negative impacts on water quality and ecosystem health. Controlling nutrient inputs can help manage algae growth in aquatic systems.
Respiration. Also, if the fish die, they slowly return the nitrogen to the air.
an algal bloom.
Add nutrients (phosphorus, nitrogen, etc.)
Two examples of abiotic factors in a lake ecosystem are temperature and dissolved oxygen levels. Temperature can affect the metabolic rates of organisms, while dissolved oxygen is essential for aquatic organisms to respire.