ectothermic
As temperatures rise, the body temperatures of heterotherms also rise. This is in contrast to homeotherms, who have a constant body temperature.
Thermophilic bacteria have growth temperatures that range from 45C to 85C, with an optimum temperature of about 60C. Thermoduric organisms can survive at extreme temperatures, e.g. pasteurization, but cannot grow.
Yes, there have been many organisms classified as extremophiles, in which can live in environments with temperatures exceeding that of boiling water.
Since the last answer frustrated me because i needed the answer i had to correct it. lol One example of why high heat of vaporization is important to living organisms is because it makes a good fire extinguisher. This can be used for any fire but a good example would be in the case of forest fires. In turn, animals or other organisms and any unharmed area of the habitat are are protected from further harm as well as preserved.
Warm blooded animals make their own heat, so as long as they are well fed, they can regulate their temperature well. Cold blooded animals don't do this (which is why they eat less and live longer), so their temperature could fluctuate with environmental changes. This would be bad for them (think of the optimum temperatures for enzymes etc.) so they need to regulate this. Water's high specific heat capacity means that it needs a lot of energy to warm up, or it needs to lose a lot of energy to cool down. Animals that have a lot of water in them need larger environmental temperature changes to effect their body temperature.
Aquatic organisms or terrestrial organisms do not adapt better when there are temperature fluctuations. Changes in temperatures will a direct affect on the organisms which may hinder proper adaptations.
It's Ectothermic .....For Plato users
Temperature regulating mechanisms are very important in organisms. This is because cells in organisms can only survive and be productive in certain temperatures.
an animal capable of tolerating substantial fluctuations in environmental temperature. Eurytherms include most terrestrial animals that inhabit temperate latitudes, as well as many representatives of marine littoral fauna. Stenothermal animals are the opposite of eurythermal animals.
As temperatures rise, the body temperatures of heterotherms also rise. This is in contrast to homeotherms, who have a constant body temperature.
pressure, temperature, light and salinity
Most organisms have an ideal temperature range in which they can live. If temperatures are too hot or too cold for any length of time, then the organism may not be able to survive.
Not usually. A larger range of temperatures would mean that organisms would have to have adaptations to survive or else risk perishing in temperatures that their bodies cannot handle. Some fragile types of plants, etc. require a very small static temperature temperature range.
bacteria r of 3 types accd to temperaturepsychrophilicmesophilicthermophilicthey may b also gram + and gram -enzyme activity depends on the temperature of the environment, and microorganisms are classified in three groups according to their temperature preferences: psychrophilicorganisms (psychrophiles) prefer cold temperatures of about 0°C to 20°C; mesophilic organisms (mesophiles) prefer temperatures at 20°C to 40°C; thermophilic organisms (thermophiles) prefer temperatures higher than 40°C (Figure 1 ). A minimum and a maximum growth temperature range exist for each species. The temperature at which best growth occurs is the optimum growth temperature.
If the temperature is too low, the yeast will remain dormant. If the temperature becomes too hot, the yeast organisms will be overwhelmed and killed before they can respire.
Thermophilic bacteria have growth temperatures that range from 45C to 85C, with an optimum temperature of about 60C. Thermoduric organisms can survive at extreme temperatures, e.g. pasteurization, but cannot grow.
no. water only exists as a liquid between the temperatures of 32 and 212 degrees Fahrenheit.