Marine plants had tp overcome the obstacles presented by a dry enviorment by making adaptations to their structures. They developed an outer, waxy surface to reduce water loss, they developed seeds and spores in order to facilitate reproduction, and they deleopled mycorrhizae to help absorb nutrients from soil.
deciduous forests
Marine biology can be challenging in college due to its interdisciplinary nature, combining elements of biology, chemistry, physics, and ecology. Students are often required to understand complex marine ecosystems and the unique adaptations of marine organisms. Success in marine biology classes typically involves strong critical thinking, problem-solving skills, and a solid foundation in scientific principles.
Like all sciences, a broader knowledge of mathematics is almost always better to have. If you a pursuing a degree in Marine Biology, then you will require high level mathematics to complete your B.S. degree.
That's correct, marine protozoa do not have contractile vacuoles. Contractile vacuoles are typically found in freshwater protozoa and serve to regulate water balance by expelling excess water from the cell. Marine protozoa have adaptations to maintain water balance in a high-salt environment without the need for contractile vacuoles.
Genetics is used in marine life for various purposes, including conservation, species identification, and understanding evolutionary relationships. By analyzing genetic material, researchers can assess the diversity and population structure of marine species, which is crucial for effective management and conservation efforts. Additionally, genetics aids in studying the adaptations of marine organisms to their environments, helping to predict responses to climate change and habitat alterations. Overall, genetic tools enhance our understanding of marine ecosystems and inform strategies for their sustainability.
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A degree in marine biology or general biology.
Check Bureau of Shipping and marine engineering
It would depend on your definition of success
The saltwater millipede has adapted to its marine environment by having a waterproof exoskeleton, specialized respiratory structures, and the ability to tolerate high levels of salt in its body. These adaptations help the millipede thrive in the salty conditions of the ocean.
Marine biologists have to study hard to get into the competitive field. It may require relocating to areas near an ocean with lots of marine life and traveling.
deciduous forests
Sea creatures with shells have evolved various adaptations to protect themselves from predators in their marine environment. These adaptations include hard shells that provide physical protection, camouflage to blend in with their surroundings, and the ability to retreat into their shells when threatened. Some species also have spines or other deterrents to ward off potential predators. Overall, these adaptations help sea creatures with shells survive and thrive in their underwater habitats.
Anomalocaris, a prehistoric predator, exhibited adaptations such as large compound eyes for enhanced vision and specialized appendages for grasping prey, allowing it to thrive in Cambrian marine environments. Haikouichthys, considered one of the earliest chordates, had a streamlined body and a notochord, which provided structural support and flexibility, aiding in swimming. Additionally, its primitive eyes and potential gill structures suggest adaptations for a more active lifestyle in the water. Together, these adaptations highlight their roles in early marine ecosystems.
The salt water millipede has adapted to its marine environment by developing a waterproof exoskeleton, specialized respiratory structures called tracheae, and the ability to tolerate high levels of salt in its body. These adaptations help the millipede survive and thrive in the salty waters where it lives.
Don't see any men being inducted into the US Army or Marine Corps, right? Then it was successful.
sub marine, under surface , sport