Ectotherms cannot live in a great variety of environments because they cannot produce their own body heat and rely on their environment (like the sun) to maintain their body temperatures. Therefore, ectotherms have to live in relatively warm climates. Endotherms, on the other hand, produce their own body heat and do not rely on the environment as much to maintain their body heat, so endotherms can live in a greater variety of environments.
The human body is an exquisite machine, partly because it maintains functionality in a variety of environments. Humans can thrive in conditions ranging from the arctic to the equator, and with a variety of diets and lifestyles. Part of the reason for this adaptability is the body's ability to maintain homeostasis.
The Answer Is Reproductive Success I Am 100% Positive Because I Just Took A Test On It And Am A Psychology Student
there is a variety
For one thing, there's lots more of it. There are many more environmental niches to be occupied in salt-water bodies, and importantly, they're all connected, making it easier for species to migrate and adapt to new habitats. Conversely, fresh-water habitats are often more isolated, confining species to a single habitat and decreasing the likelihood that they'll be able to migrate and adapt.
Proteins are made of 20 amino acids while DNA is made of four nucleotides; Proteins have a greater variety of three dimensional forms than does DNA.
That is not usually true. The environments that have the greatest biodiversity are typically found in the tropics. The tropics receive a consistant supply of solar radiation and are more humid than environments elsewhere. This allows greater ecological complexity in tropical environments.
A variety of environments. Crustaceans live in watery places, etc.
moss
settlement patterns
There was a lot of noisy debate of this question, both in scientific literature and the popular media, during the 1990s. While is it no longer so frequently discussed, the question is still not conclusively resolved. The truth is, we really don't have enough knowledge of dinosaur physiology to be certain. It is quite possible that they were not really warmblooded (endotherms), but they could regulate their body temperature quite a lot more than modern reptiles. Also, the term "dinosaur" covers an enormous variety of species, that existed at different times in geologic history, under different conditions. While it is plausible that some dinosaurs were warmblooded, it is extremely unlikely that all of them were, so the only reasonable answer, given our current knowledge, is "many dinosaurs were ectotherms".
A generalist species is a species that is the ultimate survivor. A generalist species can thrive in a variety of environments and make use of a variety of resources.
Where genetic information is shared by gametes from two parents it produces variety in the offspring. This variety can then allow a species to evolve to exploit different environments.
Where genetic information is shared by gametes from two parents it produces variety in the offspring. This variety can then allow a species to evolve to exploit different environments.
they are important becuz they protect the shorline and provide environments for a variety of sea lifep
The characteristics they use is Adaption,They have to get use to their natural community.
Where genetic information is shared by gametes from two parents it produces variety in the offspring. This variety can then allow a species to evolve to exploit different environments.
tectonic plates