SOLUTIONS | 05.08.18
Farm to Reef
Cuba’s sustainable farming practices could provide a recipe for restoring struggling coral reefs around the world.
). Aburto has spent enough time diving the world’s coral reefs to realize in that moment, with those incredible creatures swirling around him, just how special a place this was.
Gardens of the Queen National Park—orJardines de la Reina
, as it’s known in Spanish—is widely heralded as one of most intact marine ecosystems in the Caribbean. The vast and varied underwater wilderness lies about 100 kilometers (60 miles) offshore from Cuba’s southeastern coast and is filled with elkhorn coral (Acropora palmata
) forests, towering reefs, hawksbill turtles (Eretmochelys imbricate
), and goliath groupers (Epinephelus itajara
) the size of small cars. Aburto, a scientist at UC San Diego’s Scripps Institution of Oceanography, has documented reef and mangrove ecosystems throughout the Americas. “What I saw inJardines de la Reina
,” he says, “it’s impressive.”
The remarkably healthy and diverse crown jewel of the Caribbean, as the archipelago of barrier reefs, keys, and mangroves is sometimes called, has been a rare bright spot in an otherwise brutal spate of bad news about sick and dying coral reefs around the world.
Given the high biodiversity of Cuba’s reefs, there’s also a lot to lose. Cuba’s coastal mangroves, wetlands, and waters host more than half of the Caribbean region’s endemic marine species and provide critical spawning sites for commercially important fish such as mutton snapper (Lutjanus analis
). The island nation’s marine environments also serve as migration corridors for sharks, manatees, and other animals traveling between the Gulf of Mexico and the Atlantic Ocean. “Every coral reef species is affected by a healthy coral reef environment, and will replenish species downstream,” says Daria Siciliano, a coral expert at UC Santa Cruz’s Marine Science Institute. Cuba’s extensive reefs, she explains, harbor coral larvae and other inhabitants that may travel with the prevailing ocean currents to help “reseed” depleted populations to the north.
Some reefs have certainly fared better than others, but recent expeditions around the island’s coastline have found few signs of the large-scale coral bleaching, disease, and destruction that have ravaged reefs from the Florida Keys to Australia’s Great Barrier Reef. Understanding why so many of Cuba’s reefs have thrived while many elsewhere have not could prove pivotal in the fight to preserve the marine wonders here and around the globe. Among the potential contributing factors that scientists have identified, new research efforts are revealing connections between the country’s farming practices and its flourishing seas.
The U.S.-imposed embargo of Cuba, too, may have further dampened large-scale coastal development and the associated pollution that can harm marine environments. El bloqueo, as the embargo is known, has kept a lid on development since it was instituted and expanded in the early 1960s, though scientists argue that the restricted access to foreign loans and technology has also stymied environmental research and management.
A third major factor that may have worked in favor of Cuban corals, scientists say, was a dramatic drop in nitrogen- and phosphorus-rich farm runoff beginning in the early 1990s. A decade before, thanks to cheap fertilizer from the Soviet Union, introduced nitrogen compounds flowed into the Cuban environment at one of the highest rates in the world. From 1961 until the country’s peak usage in 1989, inorganic fertilizer use in Cuba rose by nearly 800 percent.
Gardens of the Queen National Park, Cuba
But when the Soviet bloc fell in the early 90s, it abruptly turned off the spigot for Cuba’s sugar subsidies and regular shipments of food, gasoline, farming equipment, synthetic fertilizers, and pesticides. With the U.S. trade embargo cutting off other supply routes, Cuba’s fishing and sugarcane industries collapsed. Inorganic fertilizer use plunged and agricultural production quickly followed, down more than 50 percent in just five years. In the difficult years that followed, which Cubans euphemistically call “The Special Period,” per-capita calorie intake dropped by more than a third.
The lack of capital and chemicals led, by default, to lower-impact agricultural methods at many of Cuba’s state-owned sugarcane plantations and other farms, explains Margarita Fernandez, executive director of the Vermont Caribbean Institute, a non-profit that works to support sustainable agroecology and organic farming principles. University of Vermont conservation biologist Joe Roman also works in Cuba and says, “Basically, what people in Vermont want to do electively, they did by force.”
But the small-scale organic farming model that was initially adopted out of sheer necessity became integral to the local ethos. It has since been championed by farmers, politicians, and scientists, and has won plaudits from agronomists around the world. Despite the continuing debate over food security here, many experts say the shift in Cuban agriculture is working. Among other gains, per-capita calorie levels have almost doubled from their low point in 1993.
“Every decision you make on land affects the ocean as well.”
—Joe Roman, conservation biologist
A report on the status and trends of Caribbean coral reefs from 1970 to 2012 suggested that threats from both land and sea have wiped out more than half of the region’s corals since 1970. In Cuba, though, the decline in the extent of live corals covering its reefs began to reverse course in the mid-90s. Although data are limited, the apparent recovery roughly coincided with an uptick in the biomass of parrotfish and grouper—two key indicators of reef health; parrotfish, for example, graze on and help prevent the overgrowth of the corals’ algae competitors. Subsequently, the average percentage of each reef covered by algae began to drop.
Gardens of the Queen offers one model for a path forward—one that bolsters local economies while fostering a lighter environmental footprint. The popular park provides jobs to scuba, snorkeling, and recreational fishing tour operators; suppliers; and nearby hoteliers. The industry, in turn, pays for regular patrols to prevent illegal commercial fishing. By giving residents an economic stake in the park, “people see the advantages they are getting by protecting nature,” Angulo-Valdés says.
By attaching a hand-held pneumatic drill to a scuba tank, the scientists extracted a lengthy core from a massive starlet coral in a patch reef within the Gulf of Ana María, between the Cuban coast and Gardens of the Queen. This time capsule, roughly the diameter of a coffee mug and the length of a broomstick, includes growth layers dating back to the late 1700s, when slaves toiled in the nearby sugarcane plantations of Camagüey Province.
Siciliano’s lab is initially extracting information about water temperature and salinity to reconstruct the historical climate. In the project’s second phase, her lab will use a state-of-the-art mass spectrometer—like a sensitive scale for molecules—to analyze tiny amounts of nitrogen trapped in the calcium carbonate, and capture any trends in the quantity and quality of nitrogen that seeped into the gulf. Based on the ratio of two nitrogen isotopes, or stable variants of the element, the technique can differentiate among sources such as sewage, organic fertilizers, and synthetics. By comparing fluctuations in the fertilizer levels with ocean conditions and the coral’s annual growth bands, the research might help correlate pollution levels with the health of the reef at specific points in time.
In 2013, Australian scientists used a different method to calculate phosphorus levels in a 60-year core taken from a coral on the Great Barrier Reef. Phosphorus content in the coral skeleton increased eight-fold between 1949 and 2008. The rise coincided with heightened sugarcane production and fertilizer use along a nearby river, suggesting that the core had captured an annual record of the phosphorus runoff.
Cuba’s natural laboratories may provide a rare glimpse of how restricting pollution from agricultural runoff can help corals rebound. With the mounting threats buffeting reefs around the world, they’ll need all the help they can get.
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ABOUT THE Photographer
Octavio Aburto is an associate professor at Scripps Institution of Oceanography, a National Geographic Explorer, and a professional photographer associate with the International League of Conservation Photographers. His research and photographs have focused on critical habitats for wildlife, marine reserves, and exploited marine species and their fisheries in Mexico, the U.S., and Latin American. Aburto’s photographs have been part of several conservation projects worldwide. He is the 2017 Artist in Exploration Rolex Fellow through the N.Y. Explorers Club, a grantee of SunLight Time Foundation, and a 2018 PEW Fellow for his work in mangrove conservation.
ABOUT THE Writer
Bryn Nelson is a freelance science writer and editor based in Seattle. He is a contributor to The Science Writers’ Handbook and his stories have appeared inThe New York Times, Nature, NBCNews.com, High Country News, Mosaic, ENSIA, Science News for Students
and other publications. You can find more of his work at www.brynnelson.com.
Octavio Aburto Bryn Nelson
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