Charley and Max Coral Conservation Project - Planhotel

As you can see from the picture, your coral frame are colonized by some little, brown and green organisms called Ascidia. The species is called Didemnum molle (also known as the green barrel sea squirt or the green reef sea-squirt.) and is very common in the Indo-Pacific area. Ascidia is a filter-feeder, feeding on suspended plankton and detritus and its green color is given by the algae living in symbiosis with them, in this way the algae is protected by the predation and the Ascidia can receive energy from its little hosts. Luckily they don’t possess any threat to the corals when they are few in numbers, however they can colonize quite quickly on the frames through asexual budding, as such they are regularly removed to minimize competition with growing corals.

Do you know that even under the water we can find cobwebs? The invertebrate responsible for this mesh is not a spider, but rather a gastropod mollusk called Ceraesignum maximum. As all Vermeidae, this mollusk species is sessile and houses themselves within tubular shells. They are common dwellers of shallow water in coral reefs and rocky shores. These nets are called mucus nets that can expand around the individual up to 10 cm in diameter. Waves and currents fill the net with tiny particles. After a few hours the mollusk will inhale the net with all of its yummy goods caught inside.

Coral reefs for the most part appear to be static environments, despite the presence of ever busy fish life, that is because most of the activities happening within corals are invisible to our eyes. In fact, coral reefs are a dynamic environment where every cm² may hide beauty or a fight for survival! Among the invisible, corals are surely the most active, by building the amazing structure which allow us to see paradise tropical islands! However, they are continuously fighting for the survival, against predators, disease and environmental changes, and even between them. They are supplied with microscopic needles and venomous tentacles to kill any other corals and ejecting their stomach to digest them. The battle-zones when two different corals are easy to spot, there is often a cleared band between the two where they’ve killed each other off. They use similar tactics when they are fighting off invading algae. On healthy reefs, corals can maintain their territory, often beating back and even killing various types of algae. Here you will notice the two types ….

Coral reefs are built and made up of thousands of tiny animals called coral “polyps” that  can live individually (like many mushroom corals do) or in large colonies that comprise an entire reef structure. A polyp has a sac-like body and an opening, or mouth, encircled by stinging tentacles called nematocysts or cnidae (imagine an upside down jellyfish). The polyp extracts calcium and carbonate ions from seawater to build itself a hard, cup-shaped skeleton made of calcium carbonate (limestone). This limestone skeleton protects the soft, delicate body of the polyp. Coral polyps are usually nocturnal, meaning that they stay inside their skeletons during the day. At night, polyps extend their tentacles to feed. Most coral polyps have clear bodies whereas their skeletons are completely white, like human bones. Generally, their brilliant color comes from the zooxanthellae (tiny algae) living inside their tissues. Several million zooxanthellae live and produce pigments in just one square inch of coral. These pigments are visible through the clear body of the polyp and are what gives coral its beautiful color.

This is your 6 month frame progress update. Your frame is doing fantastic!

Looking at your frame, we can see lots of new growth, especially of the acropora corals (the branching & fast growing corals). We can see some of the corals are competing for space, which is a good problem to have, it means your frame is thriving. We can also see that your frame is contributing to the overall health of the coral ecosystem. We see lots of life such as little fish, crabs, worms and mollusks around your frame. Overall your frame has survived the warm months of March, April and May just fine, unfortunately some of the other frames in our colony weren’t so lucky.

Over the following months we will continue with maintenance to keep harmful algae and predators off your frame and to give your frame the best chance for successful growth.

We have some unfortunate news this month as we are starting to see some evidence of bleaching around the coral frames. Coral bleaching can be ascribed to warming ocean waters for extended periods of time where the symbiotic algae (Zooxanthellae) living inside the tissue coral is expelled by their host and in turn leave behind a bleaching white skeleton. This algae shares a mutualistic relationship with the corals; the coral provides shelter to the algae and in turn the algae can provide as much as 90% of the nutrients produced by photosynthesis which is used towards their growth. Corals can survive bleaching events such as this, but if they are subject to more stress or prolonged heated waters, they will surely die. Unfortunately, your frame is also showing moderate signs of bleaching of around 40%. This is a rough estimate based on the amount of bleaching fragments of the entire frame.  As you can see from the images, their white skeletons are not something anyone can miss, especially in the water. The degree of bleaching on your frame varies from fragment to fragment and ranges anything between minor bleaching on the branching tips, those bleached on the surface (those directly exposed to the sun’s rays), intermediate bleaching (still some symbiotic algae present) and completely bleached.

Unfortunately, there is not much we can do at this stage, but wait to see whether they recover or not in the next months. Should they not recover and they are completely dead, they will be removed from the frame and replaced with new live ones. This is of course a major setback for our coral conservation project, but it is also the reality we are dealing with today.

Look at this small visitor of your coral frame; it’s a Sand-Reef Wrasse. This group of Wrasse is mainly found on reefs, but burrows into the sand to sleep. Male Wrasse dominate a part of the reef and all female wrasse living within that territory. These fish are bottom feeders and find most of their invertebrate prey in the sandy seafloor. The Sand-Reef Wrasse are relatively small (10cm – 20cm) compared to their larger cousin the common Sand Wrasse (10cm – 50cm).

We would like to introduce the species Acropora robusta, which is growing massively on your coral frame. Colonies are often irregular in shape with an encrusting bases and thick conical branches in the middle, and with thinner prostrate branches with upturned ends at the periphery. Branches from the central and peripheral part of the same colony have completely dissimilar shapes. This species is usually yellow-brown or cream in color, and common in the shallow reefs of the Indian Ocean, especially reef margins exposed to strong wave action.

Looking at your frame, we can often see these “black mats” forming on the frame or on the corals, in this case, the steel bar to the left. This is commonly known as red slime algae, also frequently found in aquariums. This in fact is not algae, but rather an oxy-photosynthetic bacterium which have dominated marine environments for more than three million years, commonly known as cyanobacteria. Usually corals can prevent algal settlement on the live tissue, however newly settled recruits or broken fragments and juveniles seem to be the most vulnerable due to their small size and vulnerability to physio-logical challenges. Tissue death can often follow due to the exposure of hypoxic, sulfide-rich microenvironments that is associated with this bacterium. During frame maintenance we remove these with a toothbrush to minimize any association with the fragments.

When corals are stressed by changes in water conditions such as temperature, light intensity, or nutrients, they expel the symbiotic algae living inside their tissues, causing them to turn completely white, this is also known as coral bleaching. When a coral bleaches, it is not dead, but may soon starve if conditions persist. If their stress levels are not severe, corals may recover. If the algae loss is prolonged and the stress continues, coral eventually dies. Here in the Maldives, the peak temperature is around March – June, when we also see some of the corals turn white, usually their colors return soon after if conditions don’t persist.

The coral fragments that we used to make the frames are collected from the coral reefs around the Thudufushi lagoon. Through waves or storm action, many corals brake down and fall on the sand where they are unlikely to survive. Picking them up and reattaching them to a solid structure such as the frames, we increase their chance to recover, but sometimes corals are already stressed and some of them can die over time. Luckily, we constantly do maintenance on the frames and add other coral fragments in order to obtain a nice coral cover on the structures.