adaptive radiation- I'm sure its correct. I just entered that answer in my "masteringbiology" hw. good luck :)
the adaptive approach
Human Environmental Interactions can be defined as interactions between the human social system and (the "rest" of) the ecosystem.Human social systems and ecosystems are complex adaptive systems (Marten, 2001). Complex because ecosystems and human social systems have many parts and many connections between these parts. Adaptive because they have feedback structures that promote survival in a constantly changing environment.
Well Battle Jacket is an adaptive material that is made up of three layers, the base, a bead like substance, and a second coating of the base on top of it. It is sprayed on the gas tanks in particular. This way it works by like a rubber stopper and travel with the bullet to a certain point and then snap back in to place leaving a small entry-hole and then some amount of the fuel goes through the small hole it cause this bead like material to swell up like a cork and thus stopping the leak.
Darwin's theory was that beneficial traits would be favored in a population by a mechanism called natural selection. Lamarck proposed that acquired traits would be passed on to the offspring. Darwin's theory is favored over Lamarck's because there is no identified mechanism for passing on acquired traits e.g., your baby will not be born with pierced ears even though yours are pierced. In Darwin's theory, the traits that are favorable for an organism offer some adaptive advantage to those members of the population that possess it. Having the advantage allows them to produce more offspring e.g., rabbits range in color from black to white--in a snowy environment, the white ones have the advantage over the darker ones so they breed, well, like rabbits.
Adaptive Radiation :)
Adaptive radiation is the term for biodiversity that results from few ancestral species.
An adaptive zone is an environment which allows the development of adaptive radiation.
An effect of adaptive radiation is the diversification of a single ancestral species into a variety of different forms to exploit different ecological niches. This can lead to the evolution of new species with specialized adaptations for specific environments or resources. Adaptive radiation is often associated with rapid speciation and can result in an increase in biodiversity within a relatively short period of time.
Divergent evolution is also known as adaptive radiation.
Darwin's finches are a great example of adaptive radiation, where a common ancestor species diversifies into multiple species to exploit different ecological niches. This process of adaptive radiation is a key mechanism in evolutionary biology to explain the diversity of life forms.
Adaptive radiation is the rapid diversification of a common ancestor into a variety of different species that occupy different ecological niches. This process is often driven by the availability of new ecological opportunities.
Adaptive radiation is the diversification of a single ancestral species into multiple species that occupy different ecological niches. An example of this is the finches of the Galapagos Islands, which evolved into different species with various beak shapes to exploit different food sources, leading to their adaptation to different environments on the islands.
Species evolve during adaptive radiation to exploit new environmental niches and resources that become available. This allows them to diversify and specialize in different ecological roles, increasing their chances of survival and reproductive success. Adaptive radiation often occurs in response to significant environmental changes or when new habitats are colonized.
Adaptive Radiation is likely to produce a cluster of species in a short period of time.
Adaptive radiation, where a single species diversifies into multiple forms to exploit different niches within their environment. This process allows for the evolution of various adaptations that improve their survival and reproduction in specific habitats.
Polymorphism in cnidarians, such as having different body forms like medusae and polyps, allowed for niche differentiation and exploitation. This increased the ecological diversity within the group, facilitating adaptive radiation into various habitats and lifestyles. These different forms allowed cnidarians to occupy different ecological niches, promoting speciation and diversification.