Intense UV rays enter through ozone hole. The cause the planktons to die. This then causes global warming.
Approximately 70% of the biomass produced by plants in oceans is accounted for by phytoplankton. Phytoplankton are tiny, photosynthetic organisms that form the base of the marine food chain and play a crucial role in marine ecosystems.
Increased UV radiation in oceans can lead to the breakdown of organic matter, such as phytoplankton and algae. This results in the release of nutrients and compounds that can trigger a chain reaction, affecting marine ecosystems by altering food webs, species interactions, and overall biodiversity.
Plant planktons, or phytoplankton, require sunlight to perform photosynthesis and produce energy. In deep oceans, sunlight does not penetrate to the same extent as in shallower waters, making it challenging for phytoplankton to survive and thrive due to limited light availability. Consequently, phytoplankton are typically found in surface waters where sunlight can reach them for photosynthesis.
Yes, solar radiation warms the surface of the ocean. Warmth rises from the ocean in the form of infrared radiation.
Yes, phytoplankton is considered marine life. They are microscopic organisms that live in aquatic environments like oceans and seas, playing a critical role in the marine ecosystem as primary producers at the base of the food chain.
The tropics receive the most solar radiation due to their location near the equator, where sunlight is more direct and intense. The polar zones receive the least solar radiation because of their location near the poles, where sunlight is more spread out and less intense. Oceans and temperate zones fall somewhere in between, depending on their latitude and proximity to the equator.
No, phytoplankton are not heterotrophs. They are the autotrophic components of the plankton community and a key factor of oceans, seas and freshwater basins ecosystems
The color of the ocean appears blue or green based on the amount of phytoplankton and the depth of the water. Oceans with less phytoplankton and deeper water tend to appear blue, while those with more phytoplankton and shallower water tend to appear green.
Approximately 70% of the biomass produced by plants in oceans is accounted for by phytoplankton. Phytoplankton are tiny, photosynthetic organisms that form the base of the marine food chain and play a crucial role in marine ecosystems.
They are called phytoplankton. These microscopic algae are crucial to the marine food web as they serve as the primary producers, converting sunlight into energy through photosynthesis.
Increased UV radiation in oceans can lead to the breakdown of organic matter, such as phytoplankton and algae. This results in the release of nutrients and compounds that can trigger a chain reaction, affecting marine ecosystems by altering food webs, species interactions, and overall biodiversity.
Yes they do. Plankton inhabit oceans, seas and freshwater bodies such as lakes and ponds.
The bulk of atmospheric oxygen originates from photosynthesis by plants and phytoplankton in the oceans.
Plant planktons, or phytoplankton, require sunlight to perform photosynthesis and produce energy. In deep oceans, sunlight does not penetrate to the same extent as in shallower waters, making it challenging for phytoplankton to survive and thrive due to limited light availability. Consequently, phytoplankton are typically found in surface waters where sunlight can reach them for photosynthesis.
Around 80 percent of oxygen on Earth is produced by phytoplankton in the oceans. These microscopic organisms undergo photosynthesis, absorbing carbon dioxide and releasing oxygen into the atmosphere. Forests and other terrestrial plants also contribute significantly to oxygen production.
Yes, solar radiation warms the surface of the ocean. Warmth rises from the ocean in the form of infrared radiation.
Almost all green plants, but especially the cyanobacteria and phytoplankton (microscopic plants) that occur in the oceans.