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Often, two or more species co-adapt and co-evolve as they develop adaptations that interlock with those of the other species, such as with flowering plants and pollinating insects. In mimicry , species evolve to resemble other species; in mimicry this is a mutually beneficial co-evolution as each of a group of strongly defended species (such as ...
In the life sciences the term adaptability is used variously. At one end of the spectrum, the ordinary meaning of the word suffices for understanding. At the other end, there is the term as introduced by Conrad, [3] referring to a particular information entropy measure of the biota of an ecosystem, or of any subsystem of the biota, such as a population of a single species, a single individual ...
The need for adaptation varies from place to place. Different regions must adapt differently because they each face particular sets of climate risks. [4]: 2417 For instance, coastal regions might prioritize sea-level rise defenses and mangrove restoration. Arid areas could focus on water scarcity solutions, land restoration and heat management.
Humans adapted to heat early on. In Africa, the climate selected for traits that helped them stay cool. Also, humans had physiological mechanisms that reduced the rate of metabolism and that modified the sensitivity of sweat glands to provide an adequate amount for cooldown without the individual becoming dehydrated. [17] [20]
In the age of AI, when any business can find itself relegated to the history books if it doesn’t adapt, it’s an important lesson for us all. Alex Wood Morton Executive Editor, Europe, Fortune
Adaptive capacity confers resilience to perturbation, giving ecological and human social systems the ability to reconfigure themselves with minimum loss of function.In ecological systems, this resilience shows as net primary productivity and maintenance of biomass and biodiversity, and the stability of hydrological cycles.
accessiBe examined studies and spoke to experts about how colleges are adapting to meet students' accessibility needs.
Seminal examples of local adaptation come from plants that adapted to different elevations [10] or to tolerate heavy metals in soils. [11] Interactions among species (e.g. herbivore-plant interactions) can also drive local adaptation, though do not seem to be as important as abiotic factors, at least for plants in temperate ecosystems. [12]