Oceans For Dummies. Joseph Kraynak
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Название: Oceans For Dummies
Автор: Joseph Kraynak
Издательство: John Wiley & Sons Limited
Жанр: География
isbn: 9781119654452
isbn:
Source: Woods Hole Oceanographic Institution, P. Caiger – www.whoi.edu
FIGURE 4-8: The gulper eel; say ahh!
Source: Schmidt Ocean Institute – www.schmidtocean.org
FIGURE 4-9: Dumbo Octopus; isn’t she (or he) cute?
Generally, the farther down you go, the fewer species you encounter, because these are tough environmental conditions to adapt to. Life here is thought to have changed little over millions of years. Some abyssal species include the common fangtooth, the tripod fish shown in Figure 4-10 (they’re hermaphroditic, meaning they have both male and female reproductive organs, which means they can produce young either with another fish or on their own!), hagfish, cusk eels, grenadiers, and viperfish (Figure 4-11). In some places, you can find deep-sea corals, which don’t need sunlight to survive.
Source: Schmidt Ocean Institute – www.schmidtocean.org
FIGURE 4-10: The tripod fish.
How low can you go? The hadalpelagic zone
The deepest zone in the ocean is the hadalpelagic zone (also called the trenches), which is anything deeper than 6,000 meters (about 20,000 feet) below the surface, such as in the deep ocean trenches. This realm is named after Hades, the Greek god of the underworld. We don’t know much about this zone, because it’s hard to get to and requires super specialized technology to cope with the immense pressure.
Source: Woods Hole Oceanographic Institution, P. Caiger – www.whoi.edu
FIGURE 4-11: Viperfish (Chauliodus sloani) — look at those teeth!!!
Life becomes very limited in this zone. You can find giant, single-celled xenophyophores, deep-sea microbial mats, amphipods, sea cucumbers (see Figure 4-12), jellyfish, and other invertebrates such as tube worms (see Figure 4-13), decapods, bivalves, and sea-anemones. Species of snailfish, cusk eels, and eelpouts can also be found in this region but are limited to relatively shallow areas, and usually closer to the seafloor. And even though it is really hard for people to venture this far down, our trash manages to find a way — namely, our plastic. Yup, even here in the deepest part of the ocean, recent expeditions found a plastic bag at one of the deepest points of the Mariana Trench, nearly 11 kilometers (about 7 miles) down. Ugh.
Source: Schmidt Ocean Institute – www.schmidtocean.org
FIGURE 4-12: A sea cucumber.
Source: Woods Hole Oceanographic Institution, P. Caiger – www.whoi.edu
FIGURE 4-13: Tube worms.
Acknowledging the Existence of Other Zones
Oceanographers have come up with other terms and concepts for understanding ocean zones that may be more useful in certain contexts. These other zones don’t contradict the horizontal or vertical zones we present in the previous sections. They just provide a more general breakdown that may be easier to remember and use in dinner conversations. Knowing a little about these zones is also useful in case you encounter the terminology in the context of other discussions.
From light to dark: The photic and aphotic zones
The photic zone is basically the same as the epipelagic zone — the topmost 200-meter (650-foot) layer of the ocean. Personally, we prefer the term photic over epipelagic, because it’s more descriptive (photic means related to light), easier to remember, and easier to pronounce. As with the epipelagic zone, the photic zone describes the layer of the ocean that has enough light for plants to grow.
Aphotic is the opposite of photic. It is the absence of light or, more precisely, insufficient light for plants to grow, which describes about 90 percent of ocean water from 200 meters deep to the seafloor. In the aphotic zone, animals can’t rely on plants to anchor the food web. If they want to eat, they have three options:
Eat the table scraps that drop down from the photic zone.
Eat their neighbors (prey tell!)
Move to vent systems on the bottom (these are few and far between) where chemosynthetic bacteria (instead of plants) called chemoautotrophs anchor the food web. (Chemoautotrophs get their energy from oxidizing inorganic compounds instead of capturing energy from the sun through photosynthesis. Photoautotrophs capture energy from the sun through photosynthesis.)
From top to bottom: The pelagic and benthic zone
One of the simplest ways to section off the ocean is to divide it into СКАЧАТЬ