When big fish "pee"...

By wildgirl -

Jahson Alemu, Marine Biologist, talks about coral reef health, and the important balance that some species contribute in unimagined ways. This feature was first published in the Tobago Newsday on Thursday, 19th January 2017.

It’s relatively common knowledge that beautiful white sand beaches and reefs of tropical areas around the world exist largely thanks to parrotfish droppings. But fish urine is also important for maintaining a healthy reef.

Corals thrive in low nutrient environments and the conservation of these globally imperilled ecosystems is largely dependent on mitigating the effects of anthropogenic nutrient enrichment. A recent study published in Nature Communications provides a novel perspective on the connectivity between corals and reef fish, where reef fish act as suppliers of key nutrients (nitrogen and phosphorus) to corals. When fish urinate, they release phosphorus and nitrogen into the water (both of which are crucial to the survival and growth of coral reefs). Most of this is supplied by large, carnivorous fish such as groupers, snappers and barracudas. The authors argue that fish hold a large proportion, if not most, of the nutrients in a coral reef in their tissue, and they're also in charge of recycling them. If you take the big fish out, you're removing all of those nutrients from the ecosystem. The increasing scarcity of large, carnivorous fish on coral reefs today does not bode well for nutrient supply for our reefs. In fact large-bodied predatory fish have been estimated to account for less than 3% of total fish biomass in Tobago.




The removal of rare and endangered species of large fish like this Goliath grouper deprives our coral reefs of needed nutrients. This one was on sale at the Grange fish market, Tobago. Photo courtesy Jahson Alemu I

The study looked at links between fishing pressure and i) fish community structure; and ii) nutrient production over 143 species of fish at 110 sites across 43 Caribbean coral reefs ranging from no-fishing marine reserves to heavily fished reefs with few large predatory fish. While fishing did not have a significant effect on the number of species on the reefs, it did result in the significant reduction in the biomass of fish available on the reef, i.e. heavily fished sites supported very few large bodied predatory fish. Further, reefs with more large, predator fish had healthy levels of nutrients, while reefs depleted of large fish had nearly 50 percent fewer nutrients, including phosphorus and nitrogen, essential to coral survival. Simply put, the lead author of the paper states that “fish biomass in coral reefs is being reduced by fishing pressure. If biomass is shrinking, there are fewer fish to pee.”

Grouper and snapper are top predators that are important components of our reefs, our fisheries and part of our culinary heritage. Unfortunately, slow growth rates, late maturity, strong habitat dependence and susceptibility to coastal impacts make these fish particularly vulnerable to overfishing throughout the region. But restoring key fish populations (such as large bodied predators and parrotfish) and improving protection from overfishing and pollution could help the reefs recover and make them more resilient to the impacts of climate change. Already one possible approach for achieving this balance, called ecosystem based fisheries management (EBFM) is being encouraged throughout the region. Compared to traditional fisheries management that has focused on maximizing fisheries yields (MSY), EBFM focuses on dialogue among stakeholders and maintaining a healthy ecosystem to ensure long term productivity of the fisheries which are themselves an integral part of the ecosystem.

Talk to any fisher these days and you’ll hear the cry that fishing has become harder, and the fish they are catching are smaller and fewer. Basically, there are fewer and smaller large fish available (both to us as consumers and to the coral reefs as a source of nutrients and ecosystem balance) and the potential yield is decreasing. Moving forward, only by understanding and managing the effects of fishing as well as other impacts on the ecosystem can managers ensure sustainable use of coral reef fisheries.
A High-hat fish is placed in a plastic bag for half an hour during fieldwork in The Bahamas. Scientists measured the nutrient content in the water before and after to determine the fish’s nutrient output. Photo courtesy Jacob Allgeier/University of Washington

References:
Alemu, I., Jahson, B. (2014). Fish assemblages on fringing reefs in the southern Caribbean: biodiversity, biomass and feeding types. Revista de Biología Tropical, 62, 418-431.
Allgeier, J. E., Valdivia, A., Cox, C., & Layman, C. A. (2016). Fishing down nutrients on coral reefs. Nature communications, 7. (http://www.nature.com/articles/ncomms12461#s1)
Mumby, P. J., Hastings, A., & Edwards, H. J. (2007). Thresholds and the resilience of Caribbean coral reefs. Nature, 450(7166), 98-101.

Comments

Post a Comment

Popular posts from this blog

12 Birds of Tobago

By wildgirl -
Image
Faraaz Abdool brings you twelve of Tobago’s birds. Enjoy these stunning photos of island residents in their common habitats. All photos courtesy Faraaz Abdool; Trinidad Motmot by Joanne Husain   Tobago boasts some of the bird world’s most incredible representatives –   a mixture of South America and the Caribbean with seasonal migrants from as far as the Arctic Circle. Coincidental confluences of southward migration and the Atlantic hurricane season bring to Tobago some Europeans as well. Exciting rarities aside, let’s look at some of the island’s most familiar inhabitants.  Although Red-billed Tropicbirds don’t quite look like grizzled seafarers, they spend most of their life at sea. Dainty and delicate, they touch land only to breed, preferring uninhabited and often inhospitable offshore islands for protection from predators.. Lacking sharp talons or even an aggressive personality, Red-billed Tropicbirds are extremely vulnerable to human activity on their nesting grounds s
Read more

Eels of the Caribbean

By wildgirl -
Image
Dr Anjani Ganase, marine ecologist, tells us about the eels that inhabit our coral reefs. Research shows, she says that "... eel species that occur in different coral reefs around the world have strikingly similar genetics, even though their distances apart..." Eels have an unfortunate association with snakes because they look like them. However, eels are not related to snakes at all; rather they are specially adapted fish that have developed without fins. To move in their underwater world, they undulate their long bodies to create propulsion which moves them through the water. This means that they swim easily in the water column and do not just slither along the bottom. They have flattened bodies and tails that allow them to swim with considerable grace - like a colourful ribbon rippling in the wind. On coral reefs around the world, eels are a common sight in bright colours - greens, yellows with exotic spotted or reticulated patterns. Unl
Read more

The Parrot and the Parrotlet

By wildgirl -
Image
Faraaz Abdool, photographer and birder, tells us about the members of the parrot family that are native to Tobago. All photos courtesy Faraaz Abdool In this season, look up into the immortelles blooming on the hills, you are sure to see these parrots. Some Orange-winged Parrots have brown faces. Some theorize it is a variant of the plumage, others are of the view that the brown is a result of pollen staining while eating immortelle flowers.   Widespread across tropical and subtropical regions around the world, members of the parrot family have charmed humans with their vivid coloration, extraordinary intelligence and charismatic personalities. Whether we’re speaking of cockatoos, lorikeets, macaws or budgerigars, members of this family are immensely popular and immediately recognizable. It is theorized that ancient parrots have been present on the earth for up to 66 million years. Indeed, this would mean that our feathered friends were present during th
Read more