Answer:
Explanation:
No as they are freshwater fish and the ocean is saltwater.
Because goldfish are a freshwater species, they would not be able to survive in the ocean. The high salt content of seawater would negatively affect their bodily functions, leading to dehydration and salt imbalance.
Goldfish, a freshwater species, would face significant challenges in an ocean environment due to the high osmolarity—high salt concentration—of seawater. Goldfish have gills adapted for freshwater, meaning the osmolarity in their bodies is higher than their surroundings. Therefore, water naturally diffuses into their bodies to balance out the ionic concentration and they filter out excess water through their gills.
However, if a goldfish were to live in the ocean, the surrounding osmolarity would be higher than its body's. The high osmolarity of seawater would cause water to constantly diffuse out of the fish’s body, leading to dehydration. Simultaneously, additional salts from the seawater would accumulate in the fish's body, causing a salt imbalance that would be detrimental to the goldfish's health.
#SPJ11
Atmospheric nitrogen, despite being abundant, is largely unusable by most living organisms due to its non-reactive nature. It can only be used after it's converted into reactive forms like nitrates or ammonia, a process carried out by certain bacteria through nitrogen fixation.
Atmospheric nitrogen is largely inaccessible to most living organisms, including plants and animals, due to its stable, triple-bonded molecular structure. However, it can be used by most living things after it has been converted into more reactive forms such as amino acids, nitrates, or ammonia, a process known as nitrogen fixation.
Nitrogen-fixing bacteria, which live freely in the soil or in symbiotic relationships with certain plants, play a fundamental role in transforming atmospheric nitrogen into a form that other living organisms can use for their growth and survival. This process is a vital part of the nitrogen cycle, a crucial ecological system that regulates the amount of nitrogen in the environment.
#SPJ2