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Part of "The Living Oceans" series. Captures the ecological balance established between animals and plants on a Caribbean coral reef. Details the symbiotic and commensally symbiotic relationships along with the predator/prey relationship.
(Source: DCMP)
Corals get much of their energy from symbiotic algae that live inside their cells. When ocean temperatures rise beyond a certain threshold, the algae’s photosynthetic machinery may be damaged and produce harmful reactive oxygen molecules. This animation shows how corals subsequently eject their algae in a process called coral bleaching, which causes the corals to turn white and often eventually die.
This animation zooms into a coral reef to explore the tiny animals that build reefs, the photosynthetic algae inside their cells, and the damaging process of coral bleaching. Corals get much of their energy from symbiotic algae that live inside their cells. When ocean temperatures rise beyond a certain threshold, the algae’s photosynthetic machinery may be damaged and produce harmful reactive oxygen molecules. This animation shows how corals subsequently eject their algae in a process called coral bleaching, which causes the corals to turn white and often eventually die.
The bobtail squid is no bigger than a walnut and is a tasty mouthful for predators in the coastal waters of Hawaii. However, the species continues to thrive in these waters in part because of its symbiotic relationship with a bioluminescent bacteria, which renders the squid virtually invisible to predators. Part of the "I Contain Multitudes" series.
In this episode, scientists try to uncover what makes 25 percent of individual corals tolerant of warmer water. Can these "super corals" be strategically planted to help reefs withstand climate change? Part of the "Super Corals" series.
In this episode, marine biologists take a close look at microscopic images of "super corals." The images reveal a dynamic interaction between colorful algae and the coral they inhabit. Part of the "Super Corals" series.
Marine biologists in Hawaii investigate “super corals,” which thrive even as ocean temperatures rise. In this episode, the scientists reveal how corals create underwater cities bustling with life and explain how healthy and dying corals live side by side. Part of the "Super Corals" series.
Termites are responsible for the disappearance of many tons of decaying wood, thanks to the myriad of microscopic beings inhabiting their intestines. These microscopic inhabitants are able to breakdown cellulose, which cannot be digested by most animals. After these symbionts digest the molecules of cellulose, they provide the sugar that termites need for nourishment.
All animal species undergo a process of constant change. Those that survive do so because they perfect certain strategies that enable them to develop successfully in their environment. Discovers that conditions in the environment determine which abilities animals develop, and introduces survival strategies such as camouflage, poison, symbiosis, parasitism, and adaptation. NOTE: Contains nudity.
Leaf cutter ants could be called the overachievers of the insect world. They are farmers, medicine makers, and green energy producers. With support from the National Science Foundation, bacteriologist Cameron Currie studies the complex evolutionary relationships between the ants, the fungi they cultivate and eat, and the bacteria that influence this symbiosis. At the University of Wisconsin-Madison, Currie works with the Great Lakes Bioenergy Research Center on campus to explore how the ants manage to degrade cellulose. Her goal is to discover new ways humans might break down biomass into biofuels. The bacteria component of the ant colony could also help scientists develop more effective antibiotics for human health and agriculture.
