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Bloom and Bust: How Phytoplankton’s Life Cycle Affects Global Carbon Levels

Written by Tin | Jul 12, 2023 2:06:33 PM
Let's take a moment to appreciate a tiny marvel of our world that we often overlook: phytoplankton. These microscopic organisms that inhabit our oceans are a fascinating testament to the power of some of nature’s smallest beings and their significant roles in our environment. As the unsung heroes of the sea, they help to keep our planet’s carbon balance in check.
 
What makes phytoplankton so special? Just like trees in a forest, phytoplankton undergo photosynthesis. They soak up sunlight and carbon dioxide (CO2) to create energy, giving off oxygen as a byproduct - and under the right conditions, with ample sunlight and nutrients, these minuscule plant-like creatures can multiply rapidly, creating vast 'blooms' that paint the ocean with beautiful hues. These blooms can be so extensive that they are visible from space, creating natural artwork that both dazzles the eye and benefits the planet. During bloom times, the phytoplankton absorb enormous amounts of CO2; in fact, they are said to absorb roughly as much carbon dioxide each year as all the Earth's forests combined! That is perhaps one of the best examples of the phrase   small but mighty.
 

However, like all living beings, phytoplankton have a finite lifespan – and when they die, they sink to the ocean floor, taking the carbon they've absorbed with them, effectively removing it from the atmosphere. This carbon can remain stored in the deep sea for hundreds or even thousands of years, a process often referred to as the "biological pump." At times, large blooms can exhaust nutrients in the water, leading to a "bust," where many phytoplankton die off. This highlights the need for a balance – for blooms that are bountiful enough to help with carbon absorption but not so extensive they deplete resources and harm other marine life.
 
Understanding and preserving the delicate balance of the phytoplankton life cycle is crucial for our planet. Changes in sea temperatures, nutrient availability, or light conditions due to climate change could alter the timing, location, and size of these blooms, affecting our global carbon balance. 
 
 
Phytoplankton serve as an essential reminder that every organism, no matter how small, plays a critical part in our interconnected web of life. We appreciate and strive to protect our oceans, not just for the charismatic whales and colorful corals, but for all marine life, not least the tiniest of plankton that tirelessly work just beneath the waves. Let's ensure these little wonders continue their work, helping us breathe easier and live better on our beautiful blue planet.
 
At IMARCS, we're inspired by nature's smallest creatures, like phytoplankton, in our efforts to mitigate climate change. We explore how marine science and mariculture can help in this mission, focusing not only on carbon sequestration, but also on promoting marine awareness and sustainable food sources. Your support for IMARCS endorses a future where economic growth aligns with environmental responsibility.
 
 
 
 
 
Sources:
Averett, N., & Averett, N. (2022, September 14).   The Ocean Is Still Sucking Up Carbon—Maybe More Than We Think. Eos.   https://eos.org/articles/the-ocean-is-still-sucking-up-carbon-maybe-more-than-we-think
 
How much oxygen comes from the ocean? (n.d.). Retrieved from   https://oceanservice.noaa.gov/facts/ocean-oxygen.html

What is “marine snow”? : Ocean Exploration Facts: NOAA Office of Ocean Exploration and Research. (n.d.).  Retrieved from   https://oceanexplorer.noaa.gov/facts/marinesnow.html#:~:text=Marine%20snow%20originates%20in%20the,produced%20through%20photosynthesis%20and%20microbes.