Each organism has adaptations for its specific environment. Those adaptations will allow it to survive easily in one environment, but may make it impossible for that organism to survive in another environment. For example, a polar bear can live in the Arctic, but it would die of heat stroke within hours if you took it the Sahara Desert. Because each environment supports different adaptations, different organisms live in each environment, and each environment adds to the variety of organisms on Earth.
True. With some notable exceptions, plants and animals are limited in their ability to survive varying temperatures and other climatic conditions. Many have adapted to a specific climate and food chain.
A schoolyard, being a diverse microhabitat, can support different organisms by providing various resources like food, shelter, and water. For example, plants can offer food and shelter for insects, which in turn can attract birds and small mammals. The structure of the schoolyard, such as trees, bushes, and grassy areas, can create different niches for a variety of organisms to thrive. Additionally, human activities in the schoolyard can introduce new resources, like food scraps, that certain organisms may exploit.
Different kinds of cells exist in the world because they have evolved over time to perform specialized functions that contribute to the survival and function of multicellular organisms. These specialized functions allow cells to work together in complex ways to support the overall health and functioning of an organism. The diversity of cell types also enables organisms to adapt to different environments and challenges.
Comparing embryos of different organisms can reveal similarities in their development, suggesting a common ancestry. These similarities in early development provide evidence for evolution by showing that different species share a common evolutionary history. Studying embryonic development can help trace the evolutionary relationships between different species and support the idea of descent with modification.
This scenario likely represents an oligotrophic environment, where the water lacks essential nutrients for supporting a large population of organisms. Consequently, only specialized or adapted organisms may survive in such conditions, leading to lower biodiversity compared to more nutrient-rich environments.
Different environments support different organisms by using cycles that each organism needs for example, paralism, mutatilism, and comensilism.
Different conditions support different organisms.
True. With some notable exceptions, plants and animals are limited in their ability to survive varying temperatures and other climatic conditions. Many have adapted to a specific climate and food chain.
It doesn't. It supports creation.
Living things can dwell in various habitats such as forests, oceans, deserts, grasslands, and even urban environments. Each habitat provides different resources and conditions that support the survival and adaptation of different types of organisms.
by using different cycles each organism needs
A schoolyard, being a diverse microhabitat, can support different organisms by providing various resources like food, shelter, and water. For example, plants can offer food and shelter for insects, which in turn can attract birds and small mammals. The structure of the schoolyard, such as trees, bushes, and grassy areas, can create different niches for a variety of organisms to thrive. Additionally, human activities in the schoolyard can introduce new resources, like food scraps, that certain organisms may exploit.
Different conditions support different organisms.
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.
The condation
It is one of a few that are able to support living organisms.
Different kinds of cells exist in the world because they have evolved over time to perform specialized functions that contribute to the survival and function of multicellular organisms. These specialized functions allow cells to work together in complex ways to support the overall health and functioning of an organism. The diversity of cell types also enables organisms to adapt to different environments and challenges.