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Essay on ocean acidification with its consequences
Essay on ocean acidification with its consequences on marine ecosystem and food sources
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Ocean acidification is one of the highest environmental concerns that involve the change in climate. Ocean acidification is caused by uptake of rising atmospheric CO2. This increase in CO2 is from burning fossil fuels. Not only does it affect humans it affects numerous marine ecosystems. Coral reefs are one of the most affected systems by ocean acidification. Coral is one of the main ecosystem engineers in these ecosystems without them; the ecosystem will not be as healthy or sustainable for other organisms. The species richness and evenness will decrease tremendously due to this. Corals help set the structure for the ecosystem so fish can use it for protection against predators. This structure allows many organisms to come in and make it there home, because of the thriving biodiversity that there is in these ecosystems. This CO2 driven ocean acidification leads to reduction in calcification and has potential impact on calcifiers. Calcification is the process where coral produce calcium carbonate. This decrease in calcium carbonate would lead to loss of reefs because the construction rates would fall bellow natural destruction rates. Echinoderms are vital in a marine environment and are present in almost every ecosystem. They are vital ecosystem engineers as well. Adult Echinoderms are more tolerant to ocean acidification then larvae.
In this review I will discuss how coral reefs modify the chemistry to deal with the advancement. How the algal abundance will increase due to this ocean acidification and may lead to improved conditions of calcification. What causes CO2 from this source and how exactly it gets into the water, as well as how this leads to reduction in calcium carbonate and the potential for calcifiers and other orga...
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...t for echinoderms but for other species that feed on them or species they feed on. The species richness will go down along with the diversity of that ecosystem. This will change the entire food web that coral reefs and other ecosystems use today. Some key predators may be too abundant or there may not be enough predators having a top down and bottom up effect on the trophic system. I believe Kurihara’s work and findings is the most important because it shows the most direct impacts of ocean acidification on organisms and that this is a problem that needs to dealt with now before it gets worst and completely destroys the coral reefs and marine ecosystem. Seawater pH is expected to rise worldwide and many species will have very little chance to avoid these acidic conditions. These species will have to either have to adapt to this change or disappear due to extinction.
The Industrial Revolution was not only a turning point in the progress of human history, but the start of a great change in the Earth’s environment. Technological advances in industry and mass migration into urban areas led to a rising demand for energy sources, a demand met by fossil fuels. Casper, J. (2010) describes coal as ‘symbolic of the beginning of the Industrial Revolution’, the increased combustion of these ‘dirty’ fossil fuels further polluted the air and enhanced the volume of Carbon Dioxide (CO2) in the atmosphere. Changes in land use attributed to population rise, reduced the amount of photosynthesising biomass on Earth, diminished an important ‘carbon sink’ and concluded to enhance the Greenhouse Effect.
Climate change has been affecting coral reefs in a negative way. If the climate continues to get warmer more of our coral reef become bleached, the structure of the reefs will become weak, and algae that keeps coral healthy will die. In the essay, “A framework for understanding Climate change impacts on Coral Reefs” by Joshua Clinner (2016), he emphasizes our climate change has become one of the long-term threats to coral reef. The article “Climate change and human impacts are damaging the world’s coral reefs”, which didn’t include an author (2001), states that the sea temperatures throughout the tropics has increased dramatically leaving much of the coral unhealthy. Spencer Hall (2008), discussed in his article “Coral Reefs and Climate Change”, how the increase in climate change puts a lot of stress on coral reefs because they are very sensitive to the change of temperature. Rigel B (2003) states in his essay, “Climate Change and Coral Reefs”, that coral reef has already been negatively impacted by
Given how important coral reefs are, the increasingly disappearance of our coral reef ecosystems will continue to have a detrimental impact on marine biodiversity with in these ecosystems. In addition to the decline of the animal species, job opportunities for many staff members that keep our parks open and healthy for everyone to enjoy, revenue be lost due to the decline in coral reefs. To help ensure this downward spiral in eliminated before it is too late, park officials and scientist conduct continuous research on the effects of ocean acidification and global warming on marine organisms and overall health and longevity of these ecosystems. Ultimately, the goal is to develop ways to intervene before it is to late in hopes that we can reverse the damage already inflicted on our coral reefs and allow these ecosystems to re grow once
Ocean acidification is the decrease of pH in the oceans due to absorption of CO2 in the atmosphere (Fabry, 2008). Over the past three hundred million years ocean pH levels have been 8.3, however in the past 200 years the pH level of oceans’ have reduced to 8.1, an increase of 25% in the acidity level (Bednaršek, 2012). The CO2 in the ocean reacts with water to form carbonic acid and consume carbonate ions. As a result a lot of marine species are suffering high mortality rate, lower reproduction and the disruption of ecosystems and food chains. Moreover, over 22 million tons of carbon dioxide goes to the ocean every day (Buffie and Carr, 2010). If the rate of CO2 emission in the ocean is not reduced, the predicted ocean CO2 concentration will be 200% by the end of this century (Buffie and Carr, 2010). This paper will explain two major lines of evidence for ocean acidification. The first evidence is based on the impacts of acidity of ocean on calcifying organisms and the second one is acidosis and impact of CO2 on the physiological process of marine species (Silver Sunbream Fish). Lastly the paper will also touch on the potential pitfall correlated with the conducted experiments, which might have hindered t...
Even though the study of the deterioration of pteropods in high acidity water may seem unimportant in the grand scheme of the ocean, it is crucial to start somewhere. In this case the pteropods happen to be one of the most obvious examples of marine life that will be influenced by the ocean acidification. It is without a doubt clear that ocean acidification is an up and coming problem that will change the chemistry of the ocean and not only the effect the ocean’s ecosystem and creatures, but most likely the rest of the environment as well. Even though there is copious amounts of research available concerning ocean acidification, it is unclear whether model predictions will come to fruition in the future, or if actual results will completely differ from projections. Currently, the only clear path to try to delay the progression of ocean acidification is to reduce carbon dioxide emissions exponentially. The chart below (Fig. 5) gives a concise and detailed account of what is happening, what will happen and what needs to happen if ocean acidification is going to be
In absence of calcium carbonate, coral and shellfish can’t survive. The ecosystem of ocean depends on these organisms because they offer a large source of food at the bottom of the food chain. They need to be abundant in order t...
Carbon dioxide disturbs ecosystems candidly, both positively and negatively. On land it increases growth in various trees and plants, an influence occasionally called ‘CO2 fertilisation’. Absorption of CO2 into the oceans triggers ‘ocean acidification’, obstructing shell formation by organisms like corals and affecting coral deterioration or
is the ongoing decrease in the pH of the Earth's oceans, caused by the uptake of carbon dioxide (CO2) from the atmosphere
Guinotte, J. M. and Fabry, V. J. (2008), Ocean Acidification and Its Potential Effects on Marine Ecosystems. Annals of the New York Academy of Sciences, 1134: 320–342. doi: 10.1196/annals.1439.013
1. (10 points) There's many examples of Global Climate Change. Choose two of the 4 processes listed below and explain the evidence available as to how this process is contributing to climate change.
Coral reefs, which are underwater structures created by calcium carbonate secretions, are some of the richest interdependent ecosystems on Earth. According to Wikipedia, coral reefs occupy less than 0.1% of Earth’s ocean surface, yet they provide a home for 25% of all marine species. Often referred to as the “rainforests of the ocean,” coral reefs are home to thousands upon thousands of species of plants and animals (“Coral Reef”). Not only are they an important part of ocean environments, but coral reefs are also extremely important and beneficial to humans; these reefs protect shorelines and provide countless people with food, jobs, and income sources. However, coral reefs are disappearing at an extremely alarming rate. From overfishing to pollution to sedimentation, the world’s coral reefs are in grave danger and humans must actively work to protect and restore these oceanic rainforests.
In “Chapter 6 – The Sea Around Us” of Elizabeth Kolbert’s The Sixth Extinction: An Unnatural History, the author reveals the fact that the ocean is acidifying due to human activities, such as burning fossil fuels and deforestation. In this chapter, Kolbert notes that there was a lack of biodiversity near the vents at Castello Aragonese in order to present the oceans’ future possibility. One of the types of sea creatures that ocean acidification would devastate are the calcifiers, which are organisms that create shells or skeletons made of calcium carbonate (Kolbert 117-122). Credible sources of information, such as the EPA and the Smithsonian Institution, agree that ocean acidification poses a serious threat to marine calcifiers,
The coral reefs of the world are of vast importance because they host 25% of all marine life on the planet. Now that corals have been briefly described, we can see why the effects of climate change damage coral reef systems. Ocean acidification is a result of climate change. Acidification is caused by an increase in carbon dioxide in our oceans and leads to a decrease in the pH levels of seawater. This pH decrease reduces the ability of corals to make their hard skeletons.
This article discusses how important the organisms symbiotic with coral reefs are, as well as how important coral reefs are to our environment. Also explained is how natural and non natural things things like hurricanes and overfishing affects them. A study is quoted about how water acidity also plays a role in the bleaching of corals. Lastly, restoration and conservation efforts are discussed and how we could possibly help our oceans.
"On a recent afternoon, Scott McKenzie watched torrential rains and a murky tide swallow the street outside his dog-grooming salon. Within minutes, much of this stretch of chic South Beach was flooded ankle-deep in a fetid mix of rain and sea.