{"id":112897,"date":"2021-02-19T09:41:47","date_gmt":"2021-02-19T14:41:47","guid":{"rendered":"http:\/\/savethewater.org\/?p=112897"},"modified":"2022-02-24T19:12:31","modified_gmt":"2022-02-25T00:12:31","slug":"ocean-acidification-and-red-tide-whats-beneath-the-surface","status":"publish","type":"post","link":"https:\/\/savethewater.org\/ocean-acidification-and-red-tide-whats-beneath-the-surface\/","title":{"rendered":"Ocean Acidification and “Red Tide”: What\u2019s beneath the surface?"},"content":{"rendered":"
Lauren Hansen, Staff Researcher\/Writer<\/span><\/i><\/p>\n Have you ever visited Florida\u2019s Gulf Coast only to find that beaches were closed and smell a fishy odor hanging in the air even a few miles inland? These are consequences of the so-called \u201cRed Tide,\u201d a harmful algal bloom (HAB) in the water. And there is more to this than meets the eye–and nose. Inconvenient at best, the effects of HABs on nature and nearby residents can be life-threatening. HABs are one of many disastrous consequences of ocean acidification, especially to marine life.<\/span><\/p>\n Ocean acidification is a growing problem affecting coastal communities and marine ecosystems, particularly in Florida. Ocean acidification (OA) means that ocean <\/span>water chemistry is changing<\/span><\/a> as<\/span> it absorbs increasing amounts of<\/span> carbon dioxide. The oceans on our planet have<\/span> slowly become more acidic over the last 5,000 to 10,000 years<\/span><\/a>. But with increased industrialization, this acidification has<\/span> sped up to an unsustainable rate<\/span><\/a> that we need to slow down.\u00a0<\/span><\/p>\n Oceans<\/span> absorb carbon dioxide like a sponge<\/span><\/a>. Emissions in the atmosphere from<\/span> burning fossil fuels<\/span><\/a> mean that our oceans are absorbing enormous amounts of carbon dioxide. Oceans absorb<\/span> up to 30%<\/span><\/a> of human-caused carbon dioxide emissions each year, with ocean plant life serving as a big part of this cleanup effort. Some types of algae help<\/span> counteract OA<\/span><\/a> by absorbing carbon dioxide. But if there is too much CO2, algae cannot keep up, and the water becomes more acidic. Human-related carbon dioxide is outpacing oceans\u2019 absorption.<\/span> Deforestation<\/span><\/a> also contributes to more carbon dioxide in the air and in our oceans.\u00a0<\/span><\/p>\n The effects of ocean acidification are wide-ranging. Firstly,<\/span> OA affects, among other things, seagrasses and marine macroalgae. Researchers in Japan have found in a<\/span> study<\/span><\/a> that<\/span> ocean acidification keeps algae in a state of low biodiversity<\/span><\/a>.\u00a0<\/span><\/p>\n In addition to this,<\/span> ocean acidification erodes coral reefs, such as those seen in the Florida Keys.<\/span> As little as 2%<\/span><\/a> of Florida\u2019s original coral cover still remains. Coral reefs<\/span> provide food security and shoreline protection, enhance tourism, and encourage biodiversity<\/span><\/a>.<\/span><\/p>\n Lastly,<\/span> ocean acidification is a contributing factor to harmful algal blooms<\/span><\/a> (HABs) that affect our coastlines and those who live near them. HABs occur around the United States, and<\/span> Florida is one of the areas that frequently sees HABs<\/span><\/a>. Florida is particularly vulnerable to effects of climate change because of its<\/span> low topography, extensive coastline, and frequency of large storms<\/span><\/a>. The so-called<\/span> Red Tide<\/span><\/a> is a well-known type of HAB that affects its western coast.<\/span><\/p>\nWhat is ocean acidification?<\/span><\/h2>\n
What are the causes?<\/span><\/h2>\n
What are the effects?<\/span><\/h2>\n