Joseph Kraynak

Oceans For Dummies


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the intertidal zone. The good news is that they’re generally well-adapted to getting body slammed by waves that would otherwise push or pull them out to sea. If you’ve ever been rocked by a big wave, you know the feeling … well, actually you don’t really, because you’re a lot bigger than a tiny little crab. Inhabitants of the intertidal zone must feel like the world is crashing down on them every few seconds. But they’re tough, they’ve adapted, and now, for them, it’s just the way life is.

      Wading through the neritic zone

      When you start to need some sort of flotation device (or a boat) to keep your head above water, you’re in the neritic zone (also known as the sublittoral zone). This area starts at the low tide mark and continues to the edge of the continental shelf in the ocean — about 200 meters (660 feet) deep. While that may sound really deep, it’s relatively shallow compared to how deep it gets out in the open ocean, which is much, much, much deeper.

      Biodiversity is at its peak in the neritic zone, and no wonder — everyone wants to live here! Virtually every marine plant and thousands of coastal animal species (vertebrates and invertebrates) call this zone home. Consequently, the neritic zone is where 90 percent of all marine life resides. Diverse ecosystems flourish in and around coral reefs, seagrass beds, and kelp forests, all of which rely on sunlight-powered photosynthesis.

      Why is it such a popular place? Well, conditions in the neritic zone are ideal for supporting diverse marine communities — the presence of sunlight throughout the zone; moderate, stable temperatures, pressures, and salinity; plenty of oxygen and carbon dioxide; and an abundance of nutrients that make their way from the land into the ocean (which under normal circumstances is good but can be bad when it’s too much).

      funfact Even though the neritic zone accounts for only about 10 percent of the ocean, it produces roughly 90 percent of all the fish and shellfish we harvest, making it very valuable for us humans too.

      Heading out to sea: The oceanic zone

      The rest of the ocean that is neither intertidal nor neritic accounts for the oceanic zone. This vast, deep, inground pool comprises a huge chunk of Earth. It actually accounts for 95 percent of all the living space on the planet. Yet, it’s the part of the ocean (and part of the planet) we know the least about.

      It starts from the edge of the continental shelf (the outer edge of the neritic zone) and extends all the way down to the seafloor 11,064 meters (36,300 feet) at its deepest point at the bottom of the Mariana (or Marians) Trench. In fact, it’s so deep, it had to be divided into zones, but let’s not get too deep into that here; depth is the topic of the next section.

      While the diversity of species in the oceanic zone can’t hold a candle to the diversity in the neritic zone, the contrast in how life survives at the top and bottom of this zone can’t be beat. Near the surface, where sunlight penetrates, plants anchor the food webs and ecosystems. In contrast, on the seafloor, where it’s pitch black, ecosystems depend on either the remains of organisms that settle to the bottom or life that develops around hydrothermal vents and the bacteria that dine on the chemicals spewing from those vents.

      So, what sort of life exists in the oceanic zone? Keep reading.

      Funfact White HOW IS THE OCEAN LIKE A DESERT?

Schematic illustration of the ocean’s vertical zones.

      ©John Wiley & Sons, Inc.

      FIGURE 4-2: The ocean’s vertical zones.

      Skimming the surface: The epipelagic zone

      The epipelagic zone (commonly referred to as the sunlight zone) is the top 200 meters (about 650 feet) of the ocean, where enough sunlight is available for plant life to grow and support a large, diverse population of marine life. Because it forms the ocean’s surface, the epipelagic zone experiences greater variations (compared to the other vertical zones) in temperature and other conditions due to climate, local weather patterns, and proximity to large land masses.

Photo depicts Plankton.

      Courtesy of Christian Sardet/CNRS/Tara expeditions, from Plankton—Wonders of the Drifting World, Univ Chicago Press 2015. Licensed under CC BY-SA 4.0

      FIGURE 4-3: Plankton.

      Remember It’s not as though these zones are sectioned off like office cubicles. Plenty of animals roam freely from one zone to another. Animals that need to breathe air, such as sea turtles, dolphins, and whales, generally hang out closer to the surface just so they can get their heads (or noses or blowholes) above water regularly but may dive deep into the other zones to find food. Some deep-sea creatures may do the opposite and venture up from the deep to shallow water for other benefits, such as food, light, warmth, and lower water pressure.

      Dimming the lights in the mesopelagic zone

Photo depicts Sea turtle.

      Source: Cristina Mittermeier – www.sealegacy.org

      FIGURE 4-4: Sea turtle.