7.0 is a neutral PH level. Lower than this makes the water more acidic and higher makes the water more alkaline.
Mangroves are typically found in salty or brackish water, as they are adapted to tolerate high salinity levels. While some species of mangroves can survive in slightly lower salinity levels, they are not well-suited for purely freshwater environments.
A frog can typically survive in a pool of water for several hours to a few days, depending on factors such as water temperature, oxygen levels, and the frog's health.
The pond water must contain high nitrogen levels.
Diarrhea
There are a number of different reasons why an animal that lives on land may be unable to live in water. The main reason is that their bodies are not adapted to such an environment, rendering them unable to survive in those conditions.Other reasons may include:Being unable to hunt or consume water-dwelling creatures.Being unable to swim for long enough periods of time (if at all).Being unable to breath sustainably when swimming.
Answer this question… Because the water levels are constantly changing
Animals survive in mangrove swamps by adapting to the brackish water, fluctuating water levels, and salty soil. They have specialized adaptations such as breathing roots, salt glands, and the ability to tolerate varying levels of salinity. These adaptations help them thrive in the unique environment of mangrove swamps.
Usually fish need high oxygen levels. Sure they live in water, however they often hide near rocks and corals, places were they are able to get alternating levels of oxygen. Some creatures live near underwater volcanoes where the temperature and oxygen levels are altered. Other fish need to surface to the water in order to capture a breath of air before they dive down into the water again. Some fish species who are unable to collect water can drown from suffocation when unable to get enough oxygen.
Trout are fresh, cold water fish that need high oxygen levels.
Plants that can survive underwater have adaptations such as thin leaves to allow for efficient gas exchange, specialized tissue to transport oxygen and nutrients, and the ability to perform photosynthesis using low light levels. Some plants also have the ability to store oxygen in special structures to help them survive in oxygen-depleted water.
Snapping turtles can survive for a few hours to a couple of days without water, depending on the temperature and humidity levels. However, it is essential for their overall health and well-being to have access to water regularly.
Swamp plants have adaptations such as specialized root systems that help them to obtain oxygen in waterlogged soils, porous tissues that allow for gas exchange, and the ability to tolerate low oxygen levels. These adaptations help them survive the unique conditions of swamps where water levels fluctuate and oxygen availability is limited.