Ocean acidification, caused by increased carbon dioxide absorption in seawater, negatively impacts zooplankton by altering their physiological processes and habitats. Lower pH levels can affect their growth, reproduction, and survival rates, particularly for calcifying species that rely on calcium carbonate for shell formation. Changes in zooplankton populations can disrupt marine food webs, affecting larger organisms that depend on them for nourishment. Additionally, shifts in species composition may influence nutrient cycling and ecosystem dynamics in the ocean.
It is not certain what the effect ocean acidification has on dolphins, though it is suspected that it could lead to them being deafened. It could also lead to them having a shortage of food, as all marine life especially fish are effected by ocean acidification.
Ocean Acidification: The declining pH (increased acidification) of the oceans due to increased CO2 emissions globally.
Carbon dioxide (CO2) dissolves in seawater to form carbonic acid, which lowers the pH levels of the ocean. This process is known as ocean acidification and can have harmful effects on marine life and ecosystems.
Zooplankton.
Zooplankton
probably zooplankton
Small fish eat zooplankton along with many other things
The process of the ocean absorbing CO2 leads to ocean acidification, causing a drop in pH. This can have negative impacts on marine life, particularly organisms that rely on calcium carbonate to build their shells and skeletons. Ocean acidification can disrupt the ocean's ecosystem and biodiversity.
Ocean acidification
crack open lots of eggs and throw them in the ocean. OR the more blood in the ocean, the less acidic it is :) youre welcome
Changes in CO2 concentration in seawater can affect pH levels by increasing the amount of carbonic acid in the water, which lowers the pH and makes it more acidic. This process is known as ocean acidification.
Carbon dioxide in the ocean can undergo several processes, including dissolving into the water to form carbonic acid, being taken up by marine organisms for photosynthesis, and participating in chemical reactions that can affect the ocean's pH levels. This can contribute to ocean acidification, which can have negative impacts on marine life.