We interviewed Thomas Changeux last year in October when he and his team from the Mediterranean Institute of Oceanology from Aix-Marseille University began their mission across the Atlantic Ocean with Monaco Explorations.
After arriving in Martinique and giving a presentation with HSH Prince Albert of Monaco, the team went back to their laboratories in their beautiful new green building at the university and began to catalogue and analyze the samples they took from the 18 stations across the Atlantic.
To give you an idea of what the team is researching, Thomas answered a few questions again.
Why is studying Sargassum important?
Sargassum, which are brown algae, have begun to multiply in a tremendous way in tropical Atlantic since 2011. This is recent enough that we can say it is a new phenomenon, which has big repercussions, particularly in the French West Indies. These islands have seen many large masses stranded on their beaches starting in 2011. The masses severely affect the coastal marine ecosystem. Standing at the surface it prevents light coming through, and alter the photosynthesis process. After a few days accumulating in the water, the masses have also a deoxygenating effect, which can kill the fish and fauna. When accumulated at beach, the Sargassum starts to ferment and emit high levels of hydrogen sulfide gas, which not only smells terrible, but also is poisonous and corrosive. This presents human health risks at shore communities and the corrosive nature of the gas gets trapped in the water molecules in the air and destroys nearby electrical circuits. For these reasons and more, it is obviously pressing and important to discover why the Sargassum is multiplying at such an alarming rate.
Are the Sargassum only harmful at the shore? What about in the sea?
There are studies that have been done on the Sargasso Sea in the north Atlantic but this new tropical accumulation of Sargassum multiplying since 2011 has not really been studied much. It is a nursery habitat for fish where the can feed on the zooplankton. In facts, Sargassum rafts create a whole ecosystem and we are looking to understand not only why they are growing, but also what the effects are on the open ocean.
We are able to see these growing masses in the sea in satellite images, but it requires a mission like Monaco Explorations to be able to go and collect samples on the field. We are not the only ones doing it, but there are not too many other missions focused on this due to the difficulty of traveling in the open sea, things like availability of vessels with laboratories, cost, etc.
Is there a solution to the Sargassum problem?
We don’t know yet, first we need to understand more of what is going on. There are other teams that work on the valorization of the Sargassum. Perhaps these masses can be used for fertilization but it needs to be rinsed or treated first because it holds a lot of salt, which isn’t compatible with the soil. There are other valorizations opportunities but, like I’ve said, the research is fairly new. It’s quite complicated, and of course this is the long-term goal – to find a solution.
Do you have any idea why the masses are growing?
There are several hypotheses as to why. One of them is that there has been a new proliferation due to the input of the large rivers which have been modified in their basins – the Amazon for example, which is the first basin in the world and has a strong influence on the tropical Atlantic, but it is not the only one that may have an affect. For example, some other parameters may be at stake such as temperature elevation or species dispersion. The only certitude is that it is a large scale phenomenon, where only few species of Sargassum are involved. The genus Sargassum is spread all over the world, with more than 300 different species. A majority of the species are benthic (meaning standing on the sea floor), and only a very few species are pelagic (existing at the surface). In the tropical Atlantic, the benthic species are not responsible for the masses that get stranded at shore but there is a need to precise the species statsus of the pelagic forms.
So, this is what you are doing in the lab?
Yes. We first have to make a genetic analysis because we have found three morphologic forms of Sargassum, meaning they don’t look the same but we want to see if they are the same genetically, or not. We know that the Sargassum do not reproduce, they just multiply. The opportunity we had with Monaco Explorations was unique because we were able to extend the areas in which we sample from, to help us know if these different “looks” are the same everywhere, in which quantities, etc. Finally we made 18 stops while crossing the Atlantic, in which we took samples of fish, zooplankton, etc. – we sampled as much as possible to understand and analyze the entire ecosystem to know whether the whole ecosystem is influenced by strictly oceanic input or also by the input of large streams such as Amazon or other rivers.
[vc_row][vc_column][vc_column_text]Thank you to Azur TV for joining us in the lab at Mediterranean Institute of Oceanology from Aix-Marseille University this week to cover the Sargassum research. Watch the coverage in French here:
https://www.youtube.com/watch?v=5i4MxugPAIs
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About 20 kids from The Prêcheur’s school and Marcel Ravin’s l’Esperance association visited the Yersin and discovered Monaco Explorations.
Maud Fontenoy talked about her experience and her foundation to protect seas, Sandrine Ruitton said a lot about her research on sargassum, Didier Zoccola presented sciences at sea and the boat’s labs, and captain Jean Dumarais offered a tour into the Yersin. Great day !
Somewhere in the Atlantic towards Martinique. Sargassum, the brown algea in open sea.
As the Yersin travels from Cabo Verde to Martinique, a team of researchers led by Thomas Changeux from Aix-Marseille University will be on board to collect samples and observe the occurrences in the deep sea.
What is Sargassum?
Sargassum are brown marine seaweed from the genus Sargassum. Only two species (Sargassum natans and Sargassum fluitans) are known to live in the open ocean, having a strictly pelagic cycle. But there are about 350 other species of Sargassum attached to the bottom of the sea in the coastal zone, part of the benthic habitat.
What is your goal in studying Sargassum?
Everybody knows the Sargasso Sea described by Christopher Columbus during his trip to the New World, close to Bermuda archipelago. Since 2011, unprecedented and repetitive large mass strandings of the pelagic species of Sargassum have been reported in the North Atlantic along the coasts of West Africa, Caribbean, West Indies and the Brazilian coasts. Simultaneously, satellite imagery has revealed new Sargassum blooms further south in the north equatorial current forming what we can call a “new Sargasso sea”. What are the causes of this phenomenon? And what are the consequences for pelagic life of the ocean? These are the two main questions we want to answer.
Why are Sargassum an threat in the Caribbean?
The large mass strandings of Sargassum are deleterious, depriving coastal life of light and creating large amounts of organic matter in putrefaction at shore. These “brown tides” have dramatic consequences on water and air quality, on the health of the population and on the economic life in the Caribbean. Hydrogen sulfide concentration in the air may be so high that it can corrodes metals in the vicinities of the shores, especially electronic circuits.
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