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Do camels change habitats?
Yes, camels can change habitats, particularly in response to seasonal variations in food and water availability. They are highly adaptable animals, able to thrive in arid desert environments as well as semi-arid regions. While they typically inhabit areas with limited vegetation and extreme temperatures, they may migrate to more favorable areas as conditions change. This adaptability helps them survive in harsh climates where resources fluctuate.
How can water temperatures influence the plants and animals in an aquatic ecosystem?
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What were the first animals and plants limited to?
The first animals and plants were limited to aquatic environments, such as oceans and seas. They gradually evolved to adapt to different habitats as they developed more sophisticated structures and functions.
Why lichen species are higher in cooler habitats?
Lichen species are more abundant in cooler habitats because they can better withstand the cold temperatures and have adapted to survive in such environments. The slow growth rate of lichens in colder climates also allows them to compete more effectively for resources. Furthermore, cooler habitats tend to have lower levels of competition from other plant species, allowing lichens to thrive.
Where are more aquatic plants found?
More aquatic plants are found at marshy places of subtropical zones.
Why do terrestrial organisms evolve tolerances to broader temperature ranges than aquatic organisms do?
Terrestrial organisms have to deal with more variable temperature fluctuations due to factors like day-night cycles and seasons, leading to selection pressure for broader temperature tolerances. In contrast, aquatic environments tend to have more stable temperatures which may result in aquatic organisms evolving narrower temperature tolerances.
What is the difference between terrestrial biome and aquatic biome?
Differences between Terrestrial and Aquatic systemsbecause aquatic environments are so rich in nutrients they support more live than equivalent terrestrial ecosystems. The small drifting photosynthetic organisms of the oceans, referred to collectively as phytoplankton are regarded as the major photosynthesizers, or primary producers, of the earth,aquatic environments are much more stable than terrestrial environments, with smaller fluctuations in temperature and other variables,aquatic organisms are seldom exposed to desiccationwhile terrestrial organisms are often exposed to desiccation and are usually relatively resistant to drying out,oxygen (because there is very much less present) is sometimes a limiting factor an aquatic habitats but this is seldom the case in terrestrial habitats,light can be a limiting factor in some aquatic habitats, but in most terrestrial environments there is hardly ever a a shortage of light,terrestrial animals are influenced far more by gravity, while water supports aquatic organisms.
How does acid rain effect organisms in aquatic biomes?
Acid rain can lower the pH of the water in aquatic biomes, making it more acidic. This can harm aquatic organisms such as fish, amphibians, and invertebrates by disrupting their physiological functions, damaging their gills, and affecting their reproductive success. It can also degrade habitats and reduce biodiversity in these ecosystems.
Where does mudpuppies sleep?
Mudpuppies, which are aquatic salamanders, typically rest in underwater habitats such as rocky crevices, submerged logs, or among aquatic vegetation. They prefer areas with plenty of cover to protect themselves from predators. During the day, they may hide in these locations to avoid light and conserve energy, becoming more active at night when they hunt for food.
If turbidity levels are the water is more what?
If turbidity levels are high, the water is more cloudy or murky due to suspended particles like sediment, silt, or organic matter. This can affect water quality by reducing light penetration and oxygen levels, which can impact aquatic life and habitats.
What will happen to hydrosphere when air temperatures increase?
As air temperatures increase, it can lead to increased rates of evaporation from bodies of water. This can contribute to changes in the water cycle, including potentially more intense precipitation events and altered patterns of runoff. Additionally, rising temperatures can also impact the thermal properties of water, affecting aquatic ecosystems and biodiversity.
Why is aquatic food chain longer than those of land animals?
Aquatic food chains tend to be longer than land food chains because aquatic ecosystems often have more diverse and abundant species at each trophic level. The availability of different habitats and a greater variety of food sources in aquatic environments allows for more complex interactions and energy transfer among organisms, resulting in longer food chains. Additionally, the presence of phytoplankton, which form the base of many aquatic food chains, supports a larger number of higher trophic levels.
