Yes, there have been many organisms classified as extremophiles, in which can live in environments with temperatures exceeding that of boiling water.
Archaea are capable of living anywhere on the planet - everything from a record-breaking 230 degrees Fahrenheit area underwater, to the coldness of the journey between planets. They can also survive at 137 degrees Fahrenheit in underground hot springs, and in places of extremely high levels of radiation. Archaea grow in salty brine pools (often several times saltier than the ocean), and have been discovered eating into volcanic rock 1,200 feet below the ocean floor.
Unicellular would imply organisms that thrive as an individual as one cell, like bacterium (E. coli., amoeba). Multicellular would imply organisms that only live successfully as a whole group of cells (humans, fish).
Technically, all bacteria is ancient and has developed over billions of years. The bacteria we find today all comes from a common ancestor. Some ancient bacteria had to thrive in extreme environments, they are known as Extremophiles. These Extremophiles live in environments that other organisms can not, such as high temperatures, extreme pH ranges.
There are certain types of plants ( for e.g.) usually in very heavliy canopyed Jungles/Forests that require no sunlight? 1) Organisms that do not require O2 are generally poisoned by it - the Anaerobes - and 2) Organisms that thrive without sunlight are called Chemoautotrophs.
No, all organisms do not respond to the environment in exactly the same ways. Each organism must respond by whatever methods are best suited for the survival of the organism. There are a variety of requirements for optimum response to the environment, and the requirements for divergent organisms could be diametrically opposed.
Different germs thrive on different temperatures.
Sarracenia purpurea is divided into two separate sub species. The northern variety, purpurea, can tolerate cooler temperatures. The southern variety, venosa, can tolerate warmer temperatures. Venosa is located in the areas along the east Atlantic coast of north America, and down to the gulf of Mexico. The northern variety is located in southeastern to mid west Canada. This plant can be grown outside anywhere. Summer temperatures should be in the range of 70-100 degrees, Fahrenheit. Winter should be 40 degrees to negative 15 Fahrenheit, as to allow temporary dormancy.
The Bartlett, Bosc, D'anjou, Kieffer and Shinko pears prefer climates where the average low temperature is between -30 degrees Fahrenheit and 30 degrees Fahrenheit, while the Shinseiki, Blakes Pride and Potomac varieties prefer slightly warmer conditions and can thrive with averages only as low as -20 degrees Fahrenheit.
A group of organisms that thrive in an anaerobic environment are microorganisms.
Hyperthermophiles are organisms that thrive in extremely hot temperatures (>100 degrees Celsius) and are commonly found at hydrothermal vents where they obtain their energy through chemosynthesis, a process whereby hydrogen sulfide reacts with oxygen to yield water and sulfur. Because these organisms feed on hydrogen, they are classified in the Archaea domain.
A tadpole needs warm water in order to thrive and be healthy. The ideal temperature for them is between 65-75 degrees Fahrenheit.
Mosquitoes can thrive in any hot temperature, as long as they have a water source to lay eggs in. As far as the cold, mosquitoes can no longer function if the temperature goes below 50 degrees Fahrenheit. However, it has been shown that in Canada, a female mosquito can put themselves into a hibernation and survive temperatures as low as -42 degrees Celsius.
100000000000 BC to now.
They can thrive in temperatures ranging from 30 C to -20 C.
Yes, becasue like most living organisms, they thrive in warm, moist areas.
Extremophiles belong to the kingdom Archaea. These organisms thrive in extreme environmental conditions such as high temperatures, acidity, or salinity, where most other life forms cannot survive.
the desert