Humans modify their surroundings more than any other living organism. Animals change their surroundings when building homes, food storage places, tunnels for escape routes and lots more.
Some microorganisms change their environments by releasing toxins.
If you ask a more specific question...like which organism you want to know about...you will get better answers. Good luck .
Cold blooded animals such as snakes.
There are very many places whose temperatures are within that range.
Thermodynamically stable refers to a chemical stability used in chemistry. It refers to something and its environment being in chemical equilibrium.
conglomerate
Iodine(I)
Iodine, with formula I2.
Animals whose body temperatures do not change much despite the temperature of the environment changing are called ectotherms. This ability allows some animals to live in harsh environments.
The organisms living near hydro thermal vents are cold blooded animals whose body temperature does fluctuate as per the environment. There thermo regulatory receptors are missing and they do not posses any control over their body temperatures.
osmoregulators
ectotherms
The organisms living near hydro thermal vents are cold blooded animals whose body temperature does fluctuate as per the environment. There thermo regulatory receptors are missing and they do not posses any control over their body temperatures.
Prokaryotes are organisms whose cells lack nuclei. An example of a prokaryote is bacteria.
Organisms are adapted to the totality of the conditions in their environment. In aquatic systems, this could include the salinity and pH of the water, as well as the other organisms living in that system. But this would also normally include the temperature of the water. Thermal pollution changes the natural temperature of the system and may result in undesirable effects on the environment. For example, a power plant along a river may release cooling water that is warmer than the natural temperature of the river. This may cause the populations of some fishes to grow there that would not otherwise be there but for the warmer water. You might also increase the incidence of disease, since increased temperatures may be a stress factor for local aquatic organisms. Increased temperatures could also result in the growth of undesirable aquatic plants or algae, whose prior growth was naturally limited by lower temperatures. Generally, there are numerous adverse effects that can result from any change in the natural environmental regime, including thermal pollution. Some are predictable and some are not, but it is usually the ones we cannot predict that may be the most troublesome.
Prokaryotes.
Because box jellyfish, as with all other cnidarians, do not have blood, or a circulatory system, they can not be considered "cold-blooded." However, they are ectotherms whose body temperatures are equal to the temperature of the environment, which is usually very warm, as almost all box jellyfish are restricted to tropical waters.
Eukarya
Prokaryote
Air pollution can be harmful to specific organisms whose habit, or source(s) of sustenance are destroyed. This in turn can have a ripple effect up the ecosystem, because ecosystems are fundamentally interconnected to the level that minute changes at the bottom can have drastic effects on higher organisms.