Monday, 26 November 2012

Aquarium Observations


         On Thursday, November 22nd, our biology class took a fascinating trip to the Vancouver Aquarium. The purpose of the trip was to learn about the different species of organisms that roam the oceans and get a hands-on experience with these creatures. Also it was to observe the ways of some of the animals and get a closer look in their contribution to the environment. After a long bus ride, I arrived at the aquarium and my first task was to participate in the wet lab where you get to hold and touch different animals of the ocean. 

               In our first session out of the four stations, I started out with the phylum Mollusca. Members of this phylum are known as mollusks. They have been evolving in the sea for more than 600 million years and today there are more than 100,000 mollusk species in the world. Mollusks live everywhere – from deep ocean waters to mountains. One of the most common mollusks we can easily identify is the snail. Some of the mollusks I looked and held were clams, oysters, and chitons which are marine mollusks with a shell made of number of layers of plates. When these shells decay, they reveal beautiful patterns of colors in the inside and this can be used to make jewellery. Many mollusks like oysters are used to make jewellery and other decorations. Moving on to the next section I observe the cnidarians which include sea anemones and jellyfish. This is where I got to feel the texture of a sea anemone which is sticky especially the tentacles themselves. On the tentacles there are tiny barbed spears that are filled with poison and are injected into the pray. The toxins are extremely fatal depending on which species and can cause paralysis and even death. Fortunately, human skin is too thick for the sea anemone to penetrate so it cannot harm us. Also if the sea anemone recognizes the skin cells of a different organism as its own it won’t attack like in the case of the clown fish. The clown fish and the sea anemone have a symbiotic relationship which both benefit from in terms of food and protection. 

         The next two stations included crabs, starfish and even sea cucumbers. The starfish out of them all was the most interesting because it represented itself with radial symmetry. Every part of its body was a mirror image of the other. Also the starfish when taken out of the water, releases its feeders out of its body because it is losing water due to evaporation. Unfortunately I couldn’t get to experience sponges in action but all the rest of the organisms were so intriguing that it kept me wondering about how such tiny creatures form one of the most vital marine ecosystems on earth.  Below I have included some pictures I took on my trip.
Jellies
Jellyfish are my favorite invertebrate and they can repair any tissue damage through regeneration.
There are two beluga whales in the aquarium ( Delphinapterus leucas)
Moon jellies
Pot bellied seahorses use their strong prehensile tails and oscillating dorsal fins to maneuver. ( Google Images)
Starry flounder camouflages well
The color of the crocodile is dark, emerald green, This helps it camouflage with its surrounding habitat like in the swamp or murky areas.
At 4.5 m, the arapaima is the largest fish in the Amazon
This shark has approximately... no bones! Sharks have skeletons made up of cartilage which is also the material that makes up your outer ear. 
Dermochelys coriacea, ( sea turtle) in the tropic zone
Giant red sea urchin has very long spikes for protection from predators
Adult Steller sea lions eat a wide variety of fishes, including Pacific herring, pollock, salmon, cod, and rockfishes. They also eat octopus and some squids
Octopuses use their eight sucker-lined arms to capture their prey and move about on the ocean floor. ( Google Images)
Archerfish locate their food near the surface of water and literally shoot water from their mouths at its pray to make it fall into the water

The symbiotic relationship between the clown fish and the sea anemone is that the clown fish wards off predators of the anemone and in return the fish gets food.
Otters spend a lot of time cleaning their coats becausethey need to maintain the insulating air layer between the water and their skin. . During the 1700s and 1800s, sea otters were hunted to extinction along the B.C. coast. The current B.C. sea otters are descendants of 89 Alaskan sea otters that were relocated to the west coast of Vancouver Island from 1969-72.

1 comment:

  1. Purpose (connections to class)- 4/4
    Quality of Content (info from class)- 4/4
    Personal Reflection- 4/4
    Conventions (writing)- 4/4
    Requirements (questions)- 10/10
    26/26

    Great post Muhammad! I'm so glad i finally got to read it :) no late marks (because we both were struggling with this new technology :)

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