An ecosystem can respond to change either disastrously or greatly. If an ecosystem is treated responsibly, the ecosystem will respond greatly, but if it's irresponsibly treated the ecosystem will surely be destroyed and respond insignificantly.
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β 13y agoWiki User
β 12y agowalang sagot hindi ko alm pwede b wag n kau mag search d2
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β 13y agoone way is when is like when global warming happens animals move out of their ecosystem in search of other foods thus creating a ripple afffect
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β 13y agoit responds to it because it is s
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β 11y agoThey "generaly" restore balance
A long-term environmental change refers to a gradual alteration in the natural environment over an extended period of time, such as decades or centuries. This could include phenomena like climate change, deforestation, or ocean acidification, which have lasting impacts on ecosystems and biodiversity.
what is homeostasis
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This refers to the variations in temperature, vegetation, precipitation, and oxygen levels as altitude increases or decreases. These changes can significantly impact ecosystems and the species that inhabit them.
Environmental imbalance refers to a disruption in the natural equilibrium of ecosystems caused by human activities such as pollution, deforestation, and climate change. This imbalance can lead to negative consequences for biodiversity, water quality, air pollution, and human health. Efforts to restore balance involve conservation, sustainable practices, and reducing our ecological footprint.
Biogeography is important in environmental studies as it helps us understand the distribution of species, biodiversity patterns, and ecosystems. By studying how organisms are distributed across different geographical regions, we can gain insights into the impact of environmental factors, such as climate change and habitat fragmentation, on ecosystems and species. This knowledge is crucial for conservation efforts and understanding how ecosystems may respond to environmental changes.
Ecosystems can respond to environmental change by adapting, such as through changes in species composition or behavior. Alternatively, ecosystems can also be resilient, maintaining their structure and function despite the change. In extreme cases, ecosystems may become unstable or collapse if the change is too severe.
Just about everything is able to respond to change. Living things respond to various stimuli. Inorganic matter, such as rock, responds to environmental change. Only living thing will make some kind of decision to change.
abiotic factors
Ecology is the study of relationships between living organisms and their environment, focusing on how they interact and influence each other. Environmental science, on the other hand, is a broader field that encompasses the study of the environment and how human activities impact it. Ecology plays a key role in environmental science as it provides the foundation for understanding how ecosystems function and how human activities can affect them.
Environmental protection is very important. This is because all the ecosystems and food chains are connected. If one ecosystem dies off it can destroy all the ecosystems.
What can cause ecosystems to change including natural disasters
biosphere- it is where all ecosystems are found - it is the sum of all ecosystems, communities and interrelationships
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Environmental imbalance refers to a disruption in the natural equilibrium of ecosystems caused by human activities such as pollution, deforestation, and climate change. This imbalance can lead to negative consequences for biodiversity, water quality, air pollution, and human health. Efforts to restore balance involve conservation, sustainable practices, and reducing our ecological footprint.
Studying ecozones is useful because it helps us understand the distribution of different species, ecosystems, and ecological processes around the world. This knowledge can assist in conservation efforts, management of natural resources, and predicting how ecosystems may respond to environmental changes such as climate change. It also provides insight into the interconnectedness of global ecosystems and the importance of biodiversity.
This refers to the variations in temperature, vegetation, precipitation, and oxygen levels as altitude increases or decreases. These changes can significantly impact ecosystems and the species that inhabit them.