WATCHING OUT FOR CORAL REEFS WITH FORAMS

Lots of creatures live in coral reefs, including some tiny ones you might never have heard of. In this article, we will tell you about the importance of Foraminifera (also called forams), unicellular organisms with shells, that contribute to coral reefs in many ways. Just like corals, some forams living on the seafloor live closely together with microalgae. Some forams also thrive in similar environmental conditions (sunlight, temperature, salt) as corals. For this reason, forams can be used as reef “sensors”, to keep track of the overall health of coral reefs. They can even help to detect poor environmental conditions that might harm coral growth in the future. In this article, we will look at a study of an Indonesian reef ecosystem in which the foram communities living on the seafloor were monitored between 1997 and 2018.

Girard and Renema sea feathers, sea stars, and turtles.Coral reefs also are home to many tiny creatures, like sea slugs, sea horses, shrimps, and a group you may not have heard of, called Foraminifera.Foraminifera (also called forams) are unicellular organisms with animal-like cells.Most forams have shells shaped like a cone, ball, star, coin, or swirl, while others have no shells.Forams are not limited to coral reefs.Some live floating in the ocean, known as planktonic forams.Others, known as benthic PLANKTONIC Organism that lives in the water column.

BENTHIC
Organism that lives on the seafloor.forams, live on the seafloor, from the deepest part of the ocean to the shoreline.Benthic forams are divided in two groups: small and large.The large benthic forams can range from .mm to cm.They can grow to large sizes because they have a special relationship with microalgae.This relationship likely benefits both the microalgae and

MICROALGAE
Microscopic algae consisting of a single cell.the forams.Microalgae use sunlight for photosynthesis to produce sugars, just like plants.The sugars provided by the microalgae give the foram energy to make its shell [ ].In exchange, the foram o ers shelter and nutrients to the microalgae.However, scientists still do not fully understand this relationship and how it is a ected by the surrounding environment, so they are still actively researching it.
Large benthic forams and reef-building corals need similar temperatures, nutrients, and amounts of sunlight to thrive, because both rely on their relationship with microalgae.Foram communities change faster than corals because they are unicellular organisms and have a shorter life span.As environmental conditions change, some foram species will survive better than others, and changes can be seen in their communities.If environmental conditions are not good for coral COMMUNITY Group of populations of two or more di erent species that occupy the same geographical area at the same time.
growth, an e ect can be seen in the foram community first.Early after the environment changes, corals might not yet show any signs of deteriorating health.This means that the number of species and quantity of large benthic foram species that form a community can be used to monitor the health of coral reefs [ ].

A STUDY OF FORAMS IN THE SPERMONDE ARCHIPELAGO IN INDONESIA
To figure out for sure whether changes in large benthic foram communities can predict upcoming coral reef damage, researchers did a -year study ( -) of large benthic foram communities in the Spermonde Archipelago, Sulawesi, Indonesia, located in the middle of the Coral Triangle [ ].They sampled the foram communities

CORAL TRIANGLE
The region of the Indo-Pacific grouping of the Philippines, Malaysia, Indonesia, Papua-New-Guinea, and Solomon Islands where the highest density of species present in coral reefs is found.at islands across the Spermonde Archipelago five times during the course of the study.A total of large benthic foram species were identified by examining their shells with a microscope (Figure ).Next, the forams were counted, to know how many shells of each species were in each sample (called the abundance).Samples were foram species was higher (meaning there were more species) on the reef slope than on the reef flat.The diversity also depended on how far the island was from the mainland.This study also showed that the composition of the large benthic foram communities changed from one year to another over the -year study period (Figure ).Corals were more abundant in , especially on the reef flat.At that time, the seafloor was dominated by some lentil-shaped forams (Amphistegina).The algal component on the seafloor increased greatly between and , so did some star-shaped forams (Neorotalia and Calcarina).Those  star-shaped forams like to live in environments where algae also grow.Usually, when the environment is suited for algal growth, it is not for coral growth.The shift in the foram community over time therefore indicated a deterioration of the coral reef system in the Spermonde Archipelago.
The research showed us that many things can shape the composition of the foram communities: the type of material they grow on (called the substrate), island population, and distance from mainland, to name SUBSTRATE A natural or artificial material that organisms can settle, grow, and live on or in.only a few [ , ].

MORE ALGAE GROWING IN THE SPERMONDE ARCHIPELAGO
Large benthic forams live on multiple substrates.Some thrive on the sand or algae.Others prefer coral rubble, made of dead pieces of coral skeleton.On coral rubble, there are lots of little cracks and holes to take refuge and settle in.Over the course of the -year study, the substrate in the Spermonde Archipelago changed (Figure ).It started o in with more than % coral rubble, clean of algae.From on, more than % of the substrate became covered by small algae [ ].Despite the change in the substrate type over time, the amount of surface covered by living corals did not drastically decrease and even seems to have slightly increased in recent years [ ]. .The y axis shows the abundance of each type of substrate in the samples taken during the study.On the x axis, you can see the years when the samples were collected.With time, there is a decrease in the abundance of clean coral rubble (orange) and an increase in the abundance substrates with algae (various shades of green).This gives us the indication that the environment in the reef is more suited to algal growth, which might impact coral growth negatively.Communities of algae are primarily shaped by how much they grow and how much they are eaten by herbivores (animals that feed on algae and plants).Algae grow faster when there are a lot of nutrients in the water, especially phosphorus and nitrogen.Algae also thrive when they get a lot of sunlight, like they do in shallow water [ ].The more people live on an island, the more pollution enters the water.Because pollution often contains phosphorus and nitrogen, the more pollution is in the water, the faster algae will grow-especially in the sunny, shallow parts of the reef.Pollution also decreases the number of fish eating the algae.Thus, the combination of faster growth and less algae being eaten results in more algae in the reef habitat.This sequence of events most likely changed the benthic habitats on the reef flat, which then a ected the composition of large benthic foram communities.Indeed, many foram species seem to prefer a type of substrate [ ].Some foram species seemed to have strong preferences about which island they grew on, island's population, and where the island is located.The distribution of these forams is probably related to the water quality and amount of man-made pollution present in various areas of the Spermonde Archipelago.Scientists still do not fully understand the e ects of substrate type and water quality on forams [ , ].

FORAM MONITORING COULD HELP CORAL REEFS
Based on the study we just described, and previous studies from di erent regions of the world, we know that large benthic forams are very sensitive to both water quality and substrate type.Their community shifts can tell us about changes in environmental conditions that sensitive coral reefs are exposed to.Monitoring large benthic forams on a regular basis may help scientists to detect early stages of coral reef deterioration, as seen in the Coral Triangle and the Great Barrier Reef.
Coral reefs are hotspots of ocean biodiversity.Many human populations rely on reefs for food and tourist activities.When they are well managed, reefs can be sustainably used and preserved.Thus, it is very important to monitor the health of coral reefs.Closely monitoring communities of large benthic forams gives us a good estimate of coral reef health.Additionally, monitoring foram communities may also be used as a warning signal for early coral reef deterioration-hopefully in time to take action against whatever is damaging the reefs.

ABUNDANCE
Number of individuals for a given species.taken in two di erent reef habitats: the reef flat (very shallow, -m deep) and the reef slope (ranging from to m deep) (Figure ).The researchers found that the foram community composition was Girard and Renema very di erent between the reef flat and the reef slope.The diversity of DIVERSITY Quality of including di erent organisms in a group.

Figure
Figure

Figure
FigureEighteen of the most common foram species found on the reef slope and the reef flat habitats in Indonesia.The sizes of the forams vary between .and mm in diameter, with Neorotalia being the smallest and Parasorites, Marginopora vertebralis and Amphisorus being the biggest.Images were not all taken at the same scale.

Figure
Figure

Figure
Figure (A) A reef is divided in three zones: the reef flat, the reef crest and the reef slope (divided by dashed lines).A reef community consists of many organisms, including corals, sponges, fish, and forams.(B) Between -, changes were seen in the composition of the foram community, especially on the reef flat where the number of star-shaped foram increased exponentially.Every foram species has its own shape and color.Figure adapted from Girard et al. [ ]. Figure Figure adapted from Girard et al. [ ].