Marine organisms continue to amaze scientists with their physiological adaptations that allow them to live and thrive in the largest unexplored habitat known to man. Carl Zimmer argues that “most fish without lungs die” because “lungless fish pump their blood in a simple loop.” Therefore, fish are restrained by a lack of oxygenated blood flow that the heart can receive and will die if they exercise too hard because the heart simply won’t receive enough oxygen to sustain intense exercise. In order to solve this problem many species of teleosts and chondrichthyes possess adaptations that allow them to continue exercising at extremely high speeds without necessarily dying. Tunas, for example, are pelagic thunniform swimmers that have evolved these special adaptations that allow them to maintain high cruising speeds and high metabolic rates. They possess special adaptations in muscle, cardiovascular, and respiratory physiology that set them apart from many other species of teleosts.
Tuna, like many lungless fish, do not possess a structure that pumps water over their gills in order to obtain oxygen. Instead they are obligate ram ventilators, meaning they must swim with their mouth open allowing water to flow into their mouth and across their gills without the aid of muscular pumping action. The downside however is that tuna must maintain this forward swimming motion in order to obtain oxygen. The upside however is that because tuna must remain swimming to obtain oxygen, this constant movement in turn keeps their blood flowing consistently and efficiently and therefore provides the heart with a steady flow of oxygenated blood. The gills of tuna are also significantly larger than gills of other fish allowing them to absorb and utiliz...
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...ocardium that is extremely well vascularized and composed of extensive coronary arteries that are critical to maintain an elevated coronary blood flow rate.
Tuna are apex predators renowned for their high metabolic rates, endothermy, and physiological and biochemical adaptations that allow them to maintain intense exercise for prolonged periods of time. They continue to challenge scientists with these unique adaptations that allow them to circumvent problems trout and other teleosts face. Ironically however, while tuna will not die if they are pushed to swim at extreme speeds for long periods of time, they can perish if they are restrained and prevented from swimming because they must keep moving in order to obtain oxygen and keep blood flowing. It would seem that even tuna are not entirely immune to all of the problems and limitations of exercise in the ocean.
For this experiment, it is important to be familiar with the diving reflex. The diving reflex is found in all mammals and is mainly focused with the preservation of oxygen. The diving reflex refers to an animal surviving underwater without oxygen. They survive longer underwater than on dry land. In order for animals to remain under water for a longer period of time, they use their stored oxygen, decrease oxygen consumption, use anaerobic metabolism, as well as aquatic respiration (Usenko 2017). As stated by Michael Panneton, the size of oxygen stores in animals will also limit aerobic dive capacity (Panneton 2013). The temperature of the water also plays a role. The colder the water is, the larger the diving reflex of oxygen.
The documentary Blackfish by Gabriela Cowperthwaite is a gripping documentary about orca whales in captivity at SeaWorld and other sea parks around the world that shows the disturbing effects that can be caused from having these animals in a place where they shouldn’t be.
The experiment studies the effects of Red Bull and its major components on the heart rate of a Daphnia. The experiment focuses on the effects of conditions on the cardiovascular system. The Cardiovascular system is responsible for the transport of blood, oxygen, nutrients and waste circulating the body. It consists of the heart, vessels, and blood as in closed circulatory system and hemolymph in open circulatory system, the cardiovascular system is also responsible for thermoregulation in the body. (Gonzalez, 2012). The heart helps pump blood to the lungs and rest of the body. The pumping of heart or the contraction and relaxation of heart determines the heart rate and depends on multiple chemicals that we could influence by using stimulants, depressants, varying temperatures, aerobic, and anaerobic
The Red Lionfish (Pterois volitans) is an invasive saltwater predator that is increasing exponentially in the tropics of the western Atlantic (Benkwitt, 2013). The Lionfish invasion is causing a dramatic decline in native marine reef species due the gluttony of the lionfish.
“Just show me the tackle and give me some bait. Then watch me go fishing, the rest can wait.” Fishing is one of my favorite things to do. It is catching a fish for either food or simply for fun. You can do it by yourself to enjoy the peace and quiet or fish with others to pass the time. Many people think fishing is an old man's sport but I think of it differently. It has helped to form my values, most importantly patience.
A Bottle-nosed dolphin skeletal system is believed to be originated from the basic mammalian skeleton, but has gone through a number of changes. Firstly the forelimbs have been modified into flippers and the bones of the hind limbs have disappeared altogether. Such bones as the rib cage and the spin have also undergone transformation in the fact that they have cured and caved-in due to water pressure. These creatures hold their breath for about 15 minutes before having to submerge for air. The Bottle-nosed dolphin is an amazingly strong creature. Because it never stops swimming, the Bottle-nosed dolphin has a very powerful tail, which is capable of supporting its weight of about 400 kg.
Although they are fish, seahorses are not great swimmers. In fact, they prefer to rest in one area, sometimes holding on to the same coral or seaweed for days.
In The Rainbow Fish by Marcus Pfister tells how a beautiful, extraordinary, yet, self-centered blue fish learns that being beautiful isn’t the key to happiness. The blue fish came to find this lesson when he lost his friends. Pfister takes a simple ocean setting and explores the consequences of an individual’s arrogance toward their peers, the process of humbling of oneself, and the tremendous reward one feels when they learn to share. The story achieves these morals by the author’s use of detailed imager and also, the influence of minor characters on the antihero in order to reveal to the audience the true thematic message; selfish actions bring true happiness.
Salmon are in huge demand all over the world. In 2014, over 146,000 were caught statewide. Even though it may seem as though catching all of these salmon will cause them to go endangered, they still thrive. There are many ways that humans also contribute to keeping the salmon population high. We raise them ourselves and also help out the ones in the wild. One of the ways we do this is by creating fish ladders. Fish ladders are like stairs underwater that fish like salmon can use to get over an obstacle that is in the way. Salmon can travel up to 1,000 miles and can not be stopped by different things such as water falls for dams. These ladders have helped them out tremendously.
The heart serves as a powerful function in the human body through two main jobs. It pumps oxygen-rich blood throughout the body and “blood vessels called coronary arteries that carry oxygenated blood straight into the heart muscle” (Katzenstein and Pinã, 2). There are four chambers and valves inside the heart that “help regulate the flow of blood as it travels through the heart’s chambers and out to the lungs and body” (Katzenstein Pinã, 2). Within the heart there is the upper chamber known as the atrium (atria) and the lower chamber known as the ventricles. “The atrium receive blood from the lu...
The cold water experimental group had the lowest respiration rate with an average of 85 operculum contracts per minute. When the temperature of water is decreased, the metabolic rate of the goldfish also decreases since they are ectothermic, meaning their regulation of body temperature depends on external sources from the environment. Since they are metabolizing at a slow pace, their need for oxygen is
From the surface to its deepest depth the ocean is 11km deep, and with this distance comes a vast change in physiological feature of fish as they try to survive the changing conditions.
The availability of saltwater fish products in the market was depend on the coastal fishing vessels operation. One species that is widely consumed around the globe is Tuna (Thunnus sp.). Tuna is widely available both in Pasific and Atlantic ocean. The nutritional content of tuna, both bluefin tuna and yellowfin tuna according to the USDA National Nutrient Database can be seen in Table 1 (1). Fish nutritional composition is varied between species. It is likely the variety of nutritional composition were based on gender, age, season, water temperature, type, and abundance of available food (2). Recent fisheries study indicated that fishing method can impact the freshness of cod flesh (3). Those fishing methods including haul size, haul duration, and direct gutting before storage period. Olsen et al. (2013) also concluded that the fishing method will affect the muscle pH, blood pH, glucose and lactase concentration during rigor period (3). It is likely those factors also responsible for the number of microflora in saltwater fish flesh.
The purpose of this experiment is to observe the mammalian dive reflex in 2 subjects’ measuring their heart rate, blood pressure, and % arterial oxygen saturation (SpO2).
Most reptiles have ventricles that are mostly separated, but still allow right to left shunting of the blood. Crocodiles have ventricles that are completely separated, but can still shunt blood between the pulmonary and systemic circuits (Axellson, Franklin). This shunting can be completed using the foramen of Panizza, which allows and regulates blood flow from either the left or right ventricle into the left or right aorta. Blood flows from the left ventricle to the right aorta, dorsal aorta, right subclavian artery and the common carotid artery. The right ventricle moves blood into the pulmonary trunk which then separates blood into the left and right pulmonary arteries (Axellson, Franklin). During diving, crocodiles develop a slight bradycardia and develop a right to left shunt once right ventricular pressure rises to a certain threshold. Resting rates of oxygen consumption are maintained and muscular lactate levels do not increase (Grigg). This ability to dive for extended periods of time is made possible by right to left shunting by way of the foramen of Panizza, in addition to the ability to maintain muscular lactate levels. Crocodilian hearts have the ability to keep oxygenated and deoxygenated blood within the heart. Blood pressures are also kept higher in the systemic circuit than the pulmonary circuit (Grigg). These heart adaptations are not seen in other reptiles, but rather in mammalian and avian