Category Archives: Prepara

Climate change could push tropical diseases to Alaska, according to a new study

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Nearly a billion people could be newly at risk of tropical diseases like dengue fever and Zika as climate change shifts the range of mosquitoes, according to a new study.

Since the life cycle of mosquitoes is temperature sensitive, scientists have long been concerned about how their prevalence might spread as the world continues to warm. The study is one of the first to examine in detail how that might happen by using an overlap of two disease-carrying mosquitoes’ range and projected monthly temperature changes under a variety of future warming scenarios.

In the most extreme scenario of more than 4 degrees C (7.2 degrees F) warming by 2080, certain tropical disease-carrying species of mosquitoes currently found only seasonally in the U.S. South and southern Europe could greatly expand their range, as far north as Alaska and northern Finland — north of the Arctic Circle. That would force a redefinition of the term “tropical” diseases.

The sheer enormity of people who could be exposed gave the lead author pause. “It’s rather shocking,” said Sadie Ryan, a disease ecologist at the University of Florida’s Emerging Pathogens Institute, in an interview with Grist.

In Europe alone, the number of people exposed to the dengue-carrying Aedes egypti and Aedes albopictus mosquitoes could roughly double within the next 30 years. In currently warm climates like the Caribbean, West Africa, and Southeast Asia, tropical disease incedence could actually decrease as those climates become so warm that they “exceed the upper thermal limits for transmission.” In other words: It will be too hot for the mosquitoes to effectively carry dengue.

On the whole, “climate change will dramatically increase the potential for expansion and intensification of Aedes-borne virus transmission,” according to the study.

“Climate change is one of the biggest threats to global health,” Ryan said. “There are many more vector-borne diseases out there that are temperature sensitive.” Ryan also cautioned that mosquitoes, ticks, bark beetles, and invasive fungus threaten animals and plants as well as human health, and climate change is making many of them worse.

Malaria, which was not considered in this study, already affects nearly half of the world’s population, according to the World Health Organization, killing more than 400,000 people each year — one of the leading causes of death for children in Africa. Previous studies have shown that hundreds of millions of people could be newly exposed to malaria by the end of the century, which is carried by a different species of mosquito. Dengue is one of the most common tropical diseases, but it is far less deadly than malaria — out of 100 million infections, it causes about 22,000 deaths each year.

According to the work from Ryan and her colleagues, Europe could be hardest hit because it sits on the leading edge of where mosquitoes can now survive. The worst-case scenario that Ryan and her colleagues explore is actually worse than business-as-usual — it’s a world where civilization doubles down on fossil fuels and planetary systems cause the world to heat beyond the 3.4 degrees C (6.1 degrees F) currently projected.

Ryan said her results should send a clear message to public health departments to boost their budgets in preparation.

There are countless reasons to be scared of climate change, and invading mosquitos might be one of the most tangible. Still, Ryan points out that it’d probably be among the least of our worries — sea-level rise, food shortages, mass migration, and financial collapse would probably pose a much greater risk to civilization.

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Climate change could push tropical diseases to Alaska, according to a new study

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EPA nominee Andrew Wheeler wasn’t ready for the Senate’s questions on climate change

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This story was originally published by Mother Jones and is reproduced here as part of the Climate Desk collaboration.

It was clear about halfway through Andrew Wheeler’s confirmation hearing to lead the Environmental Protection Agency that he wasn’t prepared for the number of questions he was getting on climate change.

Senator Ed Markey (a Democrat from Massachusetts) asked Wheeler on Wednesday whether he agreed with the fourth National Climate Assessment’s conclusions on how Americans will be affected by the world’s relative inaction on climate change, a report that was vetted by 13 federal agencies including the EPA.

Wheeler didn’t exactly answer, saying that he had not been fully briefed on the report because much of his agency’s staff isn’t working right now. “We’ve been shut down the last few weeks,” he said, explaining that he had only been briefed once by staff since the report was published in late November. He said his additional briefings were postponed; about 95 percent of his agency is furloughed.

The Republican majority gave Wheeler an unsurprising pass, defending his record as a lobbyist for an assortment of industries he now regulates, including his main old client, coal baron Bob Murray. But most of the Democratic members, which included several potential 2020 presidential contenders, grilled Wheeler on climate change.

Senator Bernie Sanders asked Wheeler if he considered climate change to be “one of the great crises that face our planet.”

“I would not call it the greatest crisis, no sir,” he answered. “I would call it a huge issue that needs to be addressed globally.”

When senators grilled him on climate change, Wheeler attempted to walk a fine line to sound more reasonable than the president’s talk of a “hoax,” but not go too far to suggest he would do much to crack down on rising greenhouse gas pollution.

“On a one to 10 scale, how concerned are you about the impact of climate change?” Senator Jeff Merkley (a Democrat from Oregon) asked Wheeler, saying that 10 would be an issue that keeps him “up at night.”

“I stay awake at night worrying about a lot of things at the agency,” Wheeler said, before volunteering an “eight or nine.”

Merkley didn’t hide his surprise. “Really?”

The senator challenged Wheeler on his go-to talking point that the EPA was taking action on pollution via its Affordable Clean Energy rule replacement for an Obama-era coal plant regulation and fuel efficiency standards. ACE doesn’t reduce carbon emissions from coal any more than market forces, and the EPA is weakening car standards and considering ending a waiver for California that implements more aggressive targets.

These policies already didn’t come close to the reductions needed to limit warming below a disastrous 2 degrees C (3.6 degrees F). But reversing them risks even more. Last year, greenhouse emissions continued to rise globally, including by 3.4 percent in the United States.

There was an even sharper focus on climate change than in past Trump-era EPA hearings. The conversation around climate change has shifted quite a bit since Wheeler last appeared before the Senate in August, a few weeks after he took the helm of the agency. Now Trump officials face more questions from the opposing party that dig deeper than the usual “Do you believe in climate change?”

The three senators who are considering presidential bids, Cory Booker of New Jersey, Sanders, and Merkley, all centered their questions around climate change. Since August, the issue has become a top item for the House Democratic majority, and progressives have talked of an ambitious “Green New Deal.” Meanwhile, the science has grown more alarming: In addition to the National Climate Assessment, an October report from the Intergovernmental Panel on Climate Change looked at the damaging effects from 1.5 degrees C (2.7 degrees F) of warming.

A protest interrupted Wheeler when he began on Wednesday, which never once mentioned the words “climate change,” as he ran through his greatest hits — deregulatory and otherwise — from his first year at the EPA.

The protests could still be heard faintly from the hallway when he continued his introductory remarks. “Shut down Wheeler! Not the EPA!”

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EPA nominee Andrew Wheeler wasn’t ready for the Senate’s questions on climate change

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Cod – Mark Kurlansky

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Cod

A Biography of the Fish that Changed the World

Mark Kurlansky

Genre: Nature

Price: $1.99

Publish Date: July 1, 1998

Publisher: Penguin Publishing Group

Seller: PENGUIN GROUP USA, INC.


An unexpected, energetic look at world history on sea and land from the bestselling author of Salt and The Basque History of the World Cod , Mark Kurlansky’s third work of nonfiction and winner of the 1999 James Beard Award , is the biography of a single species of fish, but it may as well be a world history with this humble fish as its recurring main character. Cod, it turns out, is the reason Europeans set sail across the Atlantic, and it is the only reason they could. What did the Vikings eat in icy Greenland and on the five expeditions to America recorded in the Icelandic sagas? Cod, frozen and dried in the frosty air, then broken into pieces and eaten like hardtack. What was the staple of the medieval diet? Cod again, sold salted by the Basques, an enigmatic people with a mysterious, unlimited supply of cod. As we make our way through the centuries of cod history, we also find a delicious legacy of recipes, and the tragic story of environmental failure, of depleted fishing stocks where once their numbers were legendary. In this lovely, thoughtful history, Mark Kurlansky ponders the question: Is the fish that changed the world forever changed by the world's folly? “Every once in a while a writer of particular skill takes a fresh, seemingly improbable idea and turns out a book of pure delight. Such is the case of Mark Kurlansky and the codfish.” –David McCullough, author of The Wright Brothers and 1776 From the Trade Paperback edition.

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Cod – Mark Kurlansky

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In natural disasters, a disability can be a death sentence

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This story was originally published by the HuffPost and is reproduced here as part of the Climate Desk collaboration.

Several of the 88 people killed in the Camp Fire that devastated Butte County, California, in November had disabilities.

Their deaths were only the latest example of a tragic reality: When disaster strikes, people with disabilities are disproportionately affected. There are no statistics that show how many disabled people in the U.S. say they could easily evacuate in an emergency, but around the world, just 20 percent of disabled people say they would be able to do so. And only 31 percent said they would have someone to help them in an emergency, according to a 2013 United Nations global survey.

Surviving a disaster is a complicated process for disabled people, with barriers every step of the way. For visually and hearing impaired people, even being alerted to an emergency isn’t as simple as it is for everyone else. For physically disabled and low-mobility individuals, a quick evacuation is extremely difficult, if not impossible — especially in a natural disaster like the Camp Fire, which raged at the rate of destroying the equivalent of one football field per second.

But it doesn’t have to be that way. By inviting disabled people into conversations about disaster preparedness and response, investing in important equipment, and mandating that disaster response teams be knowledgeable on these issues, communities can reduce fatalities and offer a more humane and inclusive response to disasters.

Relying on luck

The Americans With Disabilities Act devotes chapters to emergency planning and recovery. However, states institute their own policies and codes for evacuation and emergency planning, and those policies aren’t always enforced, said Hector M. Ramirez, a Ventura County, California-based disabled man and board member of Disability Rights California.

Evacuation plans can be outdated, he said. And community members often aren’t aware of what those plans are even if they do exist. In fact, only 17 percent of disabled people were aware of their community’s emergency evacuation plan, according to the U.N. survey.

Some federal institutions, like the Federal Emergency Management Agency and the Centers for Disease Control and Prevention, have created online resources about emergency preparedness and response. But disabled people are both frequently left out of developing emergency preparation plans and not made aware of the ones that are put in place, Ramirez said.

Plus, on-the-ground disaster response is often facilitated by well-meaning volunteers who might not be well-versed in the specific needs of the disabled community.

Federal, state, county, and nonprofit institutions all provide emergency response, and Ramirez said they all “need to familiarize themselves with our issues.”

And for many disabled people, getting out of their homes is only the beginning. Shelters often lack necessary equipment and medications for disabled people who do evacuate, like hearing aids, walkers, wheelchairs, or ventilators, Ramirez said. The prospect of rebuilding a home that had been built around an individual disability can also be daunting and expensive — particularly considering disabled workers typically earn significantly less than their able-bodied counterparts.

Mobility is the top issue in preparing disabled people for a disaster, said Evan LeVang, director of Butte County’s Disability Action Center. He recalled a horrifying phone call during the Camp Fire, during which a quadriplegic man was stuck in his second-floor apartment with a broken elevator. The caller said his goodbyes because he thought he was going to die.

“You could hear the propane tanks going off in the background,” LeVang said. “It was emotional.”

LeVang’s team managed to contact a first responder on the ground in the town of Paradise, and the man was saved — but there had been no system in place to make that rescue happen, other than the luck of getting through to that first responder.

There were plenty of “heroic acts” in Paradise during the fire, but LeVang said the disabled community shouldn’t have to solely rely on individual acts of heroism to survive.

For now, though, he said, the unfortunate reality is that disabled people may be left to do their own emergency planning.

‘Disabled people need to be part of the planning’

Some communities have taken steps to support disabled people, but there’s still a tremendous need for wider inclusion.

In 2007, the city of Oakland implemented a Functional Needs Annex to its Mass Care and Shelter plan, ensuring that disabled community members weren’t left out in an emergency. The annex is updated every few years to stay relevant to the community, and initial reports show the program helped identify more accessible shelters and more accessible alert notification systems. Kentucky has updated its disaster alerts systems by incorporating community training and committing to notifying disabled people in-person at the onset of a disaster. Arizona’s state health department purchased equipment to meet the needs of 1,000 disabled people in an emergency.

These are small and important steps, but “planning for this level of natural disasters hasn’t really begun,” Ramirez said. And until it does, the disabled community will continue to suffer — especially, Ramirez said, as climate change makes these incidents more frequent and more severe.

“I think it’s really important for us to ask [ourselves]: Can we really afford to not be doing this, knowing what we know now?” Ramirez asked.

Systemic change certainly needs to happen, but advocates like Ramirez and LeVang also want to encourage able-bodied people to show up for their disabled friends, family, neighbors, and loved ones whenever there’s an emergency.

“Always ask people if they need help,” he said, noting that not every disability is apparent. “Recognize that that’s going to be a transitional phase. There’s going to be need for support on the long term, a continuum of care.”

Ultimately, inclusion — on both a systemic and individual level — matters most.

“I really think it’s important that people with disabilities be at the table making some of the decisions that impact our lives,” Ramirez said, “because when it doesn’t happen … a lot of the work falls short.”

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In natural disasters, a disability can be a death sentence

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More trouble in Paradise: Camp Fire region braces for floods and mudslides

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Northern California faces a new threat in the aftermath of the disastrous Camp Fire: Weather forecasters are growing more confident that downpours, which could bring flash floods and mudslides, are headed for the fragile, scorched terrain.

On Monday night, the National Weather Service issued flash-flood watches for recent burn areas, in preparation for a series of heavy rainfall events arriving between Wednesday and Friday.

The forecast prompted an escalation of ongoing search and recovery efforts in Paradise, with fears that the rains could wash away the remains of fire victims, reducing the chances of families of the hundreds of residents still listed as missing finding closure.

Kory Honea, the sheriff of Butte County, told the Associated Press that the looming rains means that it’s within the “realm of possibility” that officials might never be able to determine the fire’s exact death toll.

As of Tuesday afternoon, at least 79 people are known to have died, 699 are still unaccounted for, and more than 40,000 displaced. The Camp Fire is already one of the deadliest U.S. disasters of any kind in the 21st century. It is the deadliest U.S. fire in 100 years, and the sixth-deadliest worldwide in that same timespan, according to numbers compiled by meteorologist Jeff Masters. The 17,148 buildings destroyed in and around the town of Paradise are nearly equal to all those lost in each of the other top-10 most destructive fires in California history, combined.

Current forecasts call for as much as six inches of rain near Paradise — about as much as the region gets in an average November — arriving in the span of just a few days. That kind of a deluge would not only frustrate recovery efforts, but it could also spawn mudslides and flash floods by turning the newly barren soil into a roiling, debris-filled torrent. That the still-burning fire that started this whole mess could be extinguished in the process is almost an afterthought.

Survivors’ stories are still emerging two weeks after a wall of flames burned through Paradise in mere hours. While the cause of the fire is yet to be officially determined, it’s nearly certain that climate change played a crucial role in how quickly it grew and spread.

It’s worth noting that climate change is likely playing a role in intensifying heavy rainfall in California, too. More rain can fall in a shorter period of time in a warmer atmosphere that’s becoming more efficient at evaporation. In California, most heavy rainstorms, including those in the forecast this week, come via such atmospheric rivers — tropical conveyor belts of moisture streaming directly ashore — and these are growing wider and more intense as the planet heats up.

The fact that two of the extremes of climate change — drier and hotter droughts, and wetter and wider floods — are manifesting as part of the same disaster is a sign of the urgency of the crisis. The Camp Fire is the latest example of the compound, complex tragedy of climate change.

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More trouble in Paradise: Camp Fire region braces for floods and mudslides

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Animal Communication Made Easy – Pea Horsely

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Animal Communication Made Easy
Strengthen Your Bond and Deepen Your Connection with Animals
Pea Horsely

Genre: Nature

Price: $1.99

Publish Date: September 18, 2018

Publisher: Hay House

Seller: Penguin Random House LLC


A practical and inspiring introductory guide to communicating with pets and wild animals. Your step-by-step guide to forming a deeper connection with animals. Do you love animals but wish you could understand what they’re trying to tell you? Do some of their behaviours leave you baffled? In this book, world-renowned animal communicator Pea Horsley teaches you the essentials of animal communication to enable you to communicate intuitively with the animals you love. Pea leads you through grounding preparation processes to calm your body and release your mind, and then her effective five-step method to create a deep, spiritual connection with your animal. Drawing on her many years of experience teaching people to communicate with both wild and domesticated creatures, Pea’s unique blend of exercises, affirmations and meditations will empower you to connect with all living beings. Communicating with animals is fun, profound and healing. It’s the best thing you can do for both yourself and your animals, and will transform how you experience life.

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Animal Communication Made Easy – Pea Horsely

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Floridians who missed voter registration deadline because of Hurricane Michael are out of luck

Hurricane Michael slammed into the Florida Panhandle Wednesday afternoon. The third strongest storm to ever hit the United States, it brought 155 mph winds, heavy rainfall, and towering storm surges. While Floridians in Michael’s path were searching for refuge from the storm’s imminent fury, thousands of would-be voters missed the state’s October 9 voter-registration deadline.

In response, a coalition of civil rights groups including the Advancement Project, the Lawyers’ Committee for Civil Rights Under Law, and the American Civil Liberties Union has filed an injunction in federal court against the state. Florida officials refused to further extend the registration deadline, despite issuing mass evacuations and closing down offices in preparation for Hurricane Michael. There have also been mounting complaints about “a mess” in the online registration system — with glitches that could have disenfranchised thousands of eligible voters. The lawsuit calls for the voter-registration deadline to be extended by at least one week statewide.

“Our lawsuit is about protecting the right to vote for people impacted by Hurricane Michael in a moment where state officials have been unresponsive and unwilling to do the right things,” Kristen Clarke, president and executive director of the Lawyers’ Committee for Civil Rights Under Law, told Grist. “It is unreasonable to expect that anyone in Florida will have an opportunity to register and vote when you’re in the storm’s path.”

Considering Florida has a long-standing history of razor-close elections, as well as the high stakes of November’s upcoming election — where climate-related issues like toxic algae blooms and now Hurricane Michael are expected to take center stage — voters who were unable to register could have some political influence on the environmental burdens they and other Floridians face.

According to a new analysis by the Union of Concerned Scientists out earlier this month, the same communities that suffer from the burden of socioeconomic distress and environmental segregation — such as exposure to air toxins — also often face restrictive electoral laws. Researchers made the connection by examining Congressional election turnout and compared the effect of both socioeconomic, environment, as well as institutional factors on turnout.

“These cumulative inequalities add up and make it very difficult for those who are most in need of protecting their interests in their community from actually having a voice in the political process,” said Michael Latner, lead author of the analysis and a Union of Concerned Scientists fellow.

Researchers found that the lowest voter turnout happens in vulnerable communities and communities of color. “You get this cumulative effect such that you’ve got environmental injustice inequalities — that is, the burdens of environmental pollution and degradation — more concentrated among people of color and economically burdened communities,” Latner told Grist.

The areas affected by Hurricane Michael are some of Florida’s poorest. Gulf County and Franklin County have some of the highest poverty rates in the state at 23.5 percent and 23.1 percent, respectively. (Florida’s overall poverty rate stands at 14 percent, per the U.S. Census.) Calhoun County, just inland of where the storm made landfall, has a poverty rate of 21 percent. It’s also the county with the lowest median household income in the state — less than $32,000 per year.

“People who are economically depressed, in many ways, have less of a voice,” said Donita Judge, senior attorney and co-director of the Power and Democracy Program at the Advancement Project, one of the groups that brought suit against the state. “When some communities catch a cold, poor communities catch pneumonia. It’s always worse for them to overcome.”

This is not an isolated instance. Back in 2016, civil rights groups also sued the state after its refusal to extend the voter registration deadline during Hurricane Matthew. “Everybody has had a lot of time to register,” said Florida Governor Rick Scott at the time. Scott is currently on the ballot for one of the state’s two seats in the Senate.

But Scott’s response ignores the fact that, historically, there are spikes in voter registration rates right as a deadline approaches. In 2016, after a court ordered an additional one-week extension of the statewide deadline to accommodate those affected by Matthew, more than 100,000 additional Floridians registered.

Of course, Florida is not the only state facing allegations of voter suppression. Texas, which has some of the worst voter registration and voter participation rates, rejected 2,400 online voter registrations before the October 9 deadline. In Georgia, 53,000 voter registrations — of which nearly 70 percent belonged to African-Americans — are in limbo after the state’s Republican candidate for governor, who is also its current secretary of state, began overseeing an “exact match” registration verification process.

On Sunday, Florida’s Secretary of State Ken Detzner authorized election supervisors in select counties to accept paper registration applications whenever their offices reopen. But considering that prolonged recovery efforts follow soon after devastating hurricanes, civil rights groups feel this “limited, confusing, and inconsistent” solution was insufficient.

As human-induced climate change continues unchecked, disasters the likes of Michael are becoming the norm. “From Hurricane Katrina to Hurricane Michael, these past few years make clear that climate change is having an impact on our country,” Clarke of the Lawyers’ Committee for Civil Rights Under Law said. “Election officials should do a better job at having emergency plans in place that safeguard the rights of voters.”

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Floridians who missed voter registration deadline because of Hurricane Michael are out of luck

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Michael could be the worst hurricane to ever hit the Florida Panhandle

With Hurricane Michael bearing down on the Gulf Coast, the state of Florida is just hours away from America’s latest hurricane disaster.

As of Tuesday evening, Michael was a Category 3 hurricane, and was expected to intensify even further before landfall on Wednesday afternoon near Panama City, where mandatory evacuations are underway. On Tuesday, President Trump signed a pre-landfall emergency declaration to help speed the flow of aid to Florida.

With Michael’s impending landfall, America is bracing for its fourth major hurricane in just 15 months. Last year’s trio of Harvey, Irma, and Maria made landfall with sustained winds above 115 mph, the criteria for a “major” hurricane.

In the Panhandle region of Florida, a storm like this is exceedingly rare. There have been only nine major hurricanes to approach the region in all of weather recordkeeping dating back to 1850. If Michael strengthens even a bit more than forecast, it could eclipse them all.

But wind speeds aren’t the only important factor here: 2012’s Sandy, which devastated the New York City region, and last month’s Hurricane Florence, which created all-time record flooding in North Carolina, had winds well below that threshold when they hit land. They still caused massive damage due to their large size.

Michael will be a relatively large hurricane, too, and is hitting a region of the Florida coast that’s particularly vulnerable to storm surge and coastal flooding. A huge swath of the northern Gulf Coast, from near New Orleans to Tampa, is currently under either tropical storm or hurricane warnings. Storm surge could be as high as 13 feet, depending on exactly where Michael makes landfall. Just offshore, waves in the normally docile Gulf of Mexico will be up to 40 feet high. The combination of extremely powerful winds and coastal flooding could prove devastating for the Florida Panhandle’s beach communities, like Fort Walton Beach and Panama City, which are set to take the brunt of Michael’s force.

In the past year since Hurricane Maria devastated Puerto Rico, tens of thousands of people have moved to central and northern Florida — and Michael is likely to bring repeat trauma for some. During Irma, half of the region lost power as the storm weakened. Michael is now gearing for a direct hit, while strengthening.

Southwest Florida, which is outside the warning area, is already seeing flooding — in one case, threatening a sea wall that has just been reconstructed after last year’s Irma. Michael is so large, it could even cause coastal flooding on the other side of Florida — in combination with the King Tide, an astronomical oddity that makes October 9 the highest high tide of the year, and the influence of long-term sea-level rise linked to climate change.

It’s impossible to think of record-setting hurricanes like Michael as freak aberrations from “normal” weather. Six of the seven most damaging hurricanes in U.S. history have hit in the past 10 years. In an era of rapid climate change, every weather event — including Michael — is a partial product of current and historical greenhouse gas emissions, and should come as a warning of yet worse hurricanes in the coming decades if we continue on a business as usual path.

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Michael could be the worst hurricane to ever hit the Florida Panhandle

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Spawning an intervention

This story originally appeared in bioGraphic, an online magazine about nature and sustainability powered by the California Academy of Sciences. 

Valérie Chamberland swims like a dolphin, quickly and fluidly, and for most of the past hour she has been darting through the warm, shallow water off the Caribbean island of Curaçao. Now, she is dangling upside down, hovering above a pillow-sized brain coral. Her rubber fins twitch steadily overhead, and as she sips air from the aluminum tank on her back, a stream of bubbles rises from her regulator’s mouthpiece.

The reef spread below Chamberland isn’t one of those flashy, fluorescent gardens seen in calendar photos and nature documentaries. Only a few dozen yards from shore, it lies almost literally in the shadows of a stone jetty, a busy casino, and a Denny’s restaurant. The waters that surround it are murky, and most of its corals are brown and lumpy, sparsely accessorized with bright-purple vase sponges and waving, rusty-red sea fans.

But as anyone who studies coral reefs will tell you, beauty doesn’t necessarily equal health, and this reef has good vital signs. It retains plenty of what reef scientists call “structure” — meaning that it’s three-dimensional, not flattened into rubble or sand — and most of its unlovely lumps are formed by brain coral, one of the sturdiest types of coral in the Caribbean. The reef is lively with fish, and it lies on the outer edge of Curaçao’s wing-shaped coastline, where fast-moving currents sweep out at least some of the island’s pollution and slow the growth of coral-suffocating green algae. It’s also sheltered from major storm damage: Curaçao, which is only 40 miles north of Venezuela, rarely experiences hurricanes.

Chamberland flicks away an agitated crowd of silvery butterflyfish, then descends slightly for a closer look at the mound of brain coral. She inspects the meandering grooves on its surface, looking for the tiny white bumps that appear immediately before its annual spawning. For the butterflyfish, the pinhead-sized bundles of sperm and eggs released during a spawning event are a calorie-rich feast; for Chamberland, they’re the raw materials she needs to further a long-running mission.

Valérie Chamberland descends over a coral reef. bioGraphic. 

Over the past two decades, Chamberland and other scientists throughout the Caribbean — many of them now associated with a research and conservation group called SECORE, which stands for Sexual Coral Reproduction — have stubbornly advanced the art and science of raising coral babies. Through trial and error, these researchers have learned to better predict the quiet, hidden phenomenon of coral spawning, to fertilize coral eggs in the lab, and to foster young corals until they’re ready to grow in the open sea, on a living reef.

Newborn corals are, in their way, as high-maintenance and idiosyncratic as their human counterparts, and the process of raising and releasing them, formally known as “assisted recruitment,” is full of frustrations and disappointments. Thanks to some recent successes and to rising interest from conservationists, however, the job is becoming easier and cheaper. The progress is such that on Curaçao this past June, Chamberland and her colleagues hosted an intensive workshop in assisted recruitment for 10 park rangers, conservationists, biologists, and others from a half-dozen Caribbean islands, intending to both share the techniques they’ve developed and, in time, learn from the experiences of new practitioners.

Chamberland, who moved to Curaçao from Québec nearly a decade ago, sometimes feels as if she’s counting down to a rocket launch: After years of careful preparation, assisted recruitment is nearly ready to blast off into new territory.

On the reef, Chamberland finishes her inspection of the brain coral and leaves the butterflyfish to their vigil. She surfaces and takes off her mask, freeing its rubber strap from her dark hair. The setting sun pinkens her often serious face, and she grins. “Tomorrow night,” she says, her consonants softened by her native French. “It’ll happen tomorrow night.”

Gamete

On the first morning of the Curaçao workshop, Mark Vermeij wants to make two things clear: Raising coral from larvae isn’t easy, and baby corals are not, on their own, going to save the world’s coral reefs. “People have approached us and said, ‘Ah, that’s nice, because now the Great Barrier Reef is fine,’” he tells the participants. “And it’s like, ‘What on earth are you f-ing talking about?’”

Vermeij is a professor at the University of Amsterdam and the research director of CARMABI, a longstanding marine research and conservation center on Curaçao and a key supporter of SECORE. Originally from the Netherlands, he has studied coral spawning here and elsewhere in the Caribbean since the early 1990s. His imposing bulk, gray curls, and often-furrowed brow give him a piratical air, and his blunt opinions, delivered in fluent English, are punctuated with the occasional Dutch exclamation.

In a narrow, air-conditioned classroom at CARMABI headquarters, below a faded photograph of the Dutch king and queen, Vermeij reminds the participants that restoring coral reefs isn’t just about putting more coral in the ocean. It’s about dealing with chronic local problems like coastal development and water pollution — not to mention the multilayered, and increasingly obvious, effects of climate change on ocean habitats worldwide. “This is not a wonder tool,” he says sternly, glaring at the participants. “It will greatly depend on everything else you are doing, and everything else you are doing will depend on where you’re from.”

Despite his gruff manner, it’s clear that Vermeij is as pleased as Chamberland to be hosting this workshop. As the participants introduce themselves and describe their own attempts at coral restoration, Vermeij listens closely, asking questions and offering brusque encouragement.

Workshop organizers and attendees discuss the challenges and potential of sexual coral restoration techniques in various locations around the Caribbean. bioGraphic. 

Most people in this group are new to assisted recruitment, but everyone is familiar with the extraordinary — and extraordinarily complicated — life cycle of coral. That makes them unusual among humans, and unusual in human history, too. Not until the 1980s, after all, did researchers confirm that most corals can reproduce in two distinct ways: sexually and asexually.

Coral polyps, the tiny, tentacled invertebrate animals that, along with their symbiotic algae, form the living part of a coral reef, can reproduce asexually by budding off, or dividing, to form genetically identical versions of themselves. (What most of us think of as one coral — a ball, a column, a branching bouquet — is not a single organism but a colony of cloned polyps, nestled into a calcium carbonate skeleton formed over time by secretions from multiple generations of polyps.) Finger-sized bits of coral colonies can grow quite quickly via asexual reproduction, and conservationists around the Caribbean are beginning to “garden” these fragments: Francesca Virdis, the project coordinator of the Coral Restoration Foundation Bonaire, tells her fellow Curaçao workshop participants that her organization is encouraging the clonal growth of some 12,000 colonies of staghorn and elkhorn coral (Acropora cervicornis and Acropora palmata, respectively) by anchoring fragments on submerged scaffolds made of PVC pipe.

Once these cultivated colonies reach a certain size, they can be relocated and used to supplement the structure of reefs damaged by hurricanes, disease, or human activity. But Virdis and the other workshop participants know that coral gardening isn’t a wonder tool, either. To survive long-term, corals need not only structure but also genetic diversity, which is enhanced through sexual reproduction — the chance combination of sperm and eggs, or gametes, from different colonies. In most coral species, this cross-fertilization takes place during periodic spawning events, when colonies simultaneously release a brief blizzard of eggs and sperm into the open water. While colonies cultivated from fragments can eventually spawn and cross-fertilize, it takes years for any coral colony to reach maturity; the SECORE scientists believe that by cross-fertilizing coral at the beginning of the restoration process, they can bolster the variation corals need to evolve new defenses against changing conditions.

Many of the workshop participants live face to face with these changing conditions. Rita Sellares, the cheerfully determined executive director of FUNDEMAR, a small marine conservation nonprofit in the Dominican Republic, reports that several of her group’s coral gardens were smashed by recent hurricanes. Erik Houtepen, a young park ranger on the tiny island of Sint-Eustatius, says that his park’s gardens, which contained about 500 fragments, were completely destroyed in late 2017 by a double hit from hurricanes Irma and Maria; a few months later, after a laborious reconstruction, the gardens were again knocked flat, this time by a large storm surge. The park is experimenting with tying and gluing fragments directly to its reefs, and with scaffolds that can be sunk to deeper depths, further out of reach of storms. “If any one of you wants to be an intern for us, we could use you,” Houtepen says dryly.

Conservation of any sort is difficult work, and coral reef conservation can test the most optimistic soul: In the Caribbean alone, reefs are beset not only by destructive storms, but also by local pollution, rising ocean temperatures, at least 40 different infectious diseases, and the effects of worldwide ocean acidification. There is evidence that dust storms from the African Sahel region, exacerbated by climate change, carried a type of fungus into the Caribbean that now kills Gorgonian sea fans. Over the past 45 years, the overall extent of coral in the Caribbean has shrunk by more than half, both because colonies are dying off and, for reasons scientists don’t entirely understand, they’re not reproducing very well; in Florida, the extent of some coral species has declined by 90 percent.

While Pacific reefs have long been markedly healthier than those in the Caribbean, a series of enormous bleaching events, beginning in 2016, have affected massive swaths of the Great Barrier Reef and wiped out any remaining complacency among Pacific coral conservationists. (As seen in this earlier bioGraphic feature, Coral “bleaching” happens when ocean temperatures rise to levels that cause polyps to expel the symbiotic algae that give the hosts both their color and their main source of food.) Every experienced coral biologist, no matter where he or she works, has a story about a favorite reef that is forever changed.

Kara Rising, SECORE’s administrative manager, recently closed her psychotherapy practice in Ohio in order to devote herself to ocean conservation, and she’s often struck by the unrelenting emotional toll of conservation work. “There are times when I think, ‘Hey, should we have a bit of group therapy here?’” she says with a laugh.

Yet the grimmest story about the world’s coral reefs is also the simplest. For the conservationists in the Curaçao workshop, hope lies in complexity, in the many overlooked departures from the mean. Some corals are killed outright by bleaching, for instance, but not all; some species withstand it better or recover from it more quickly, and some colonies within species seem to be more resilient, too. Some species, like the Caribbean’s threatened staghorn and elkhorn corals, grow very quickly but are particularly vulnerable to stress; other species, like the brain corals, grow slowly but can tolerate a lot.

bioGraphic.

“Corals are in a critical situation, but they’re not as flimsy as we think,” says Chamberland. “If we give them a chance to deal with just one or two stresses instead of six, some can survive, and those that do are the ones we should be studying. We should be asking, ‘What do they do that makes them win?’”

Chamberland, Vermeij, and the other researchers associated with SECORE have concluded that if they can help preserve variation, they can help preserve hope. And their first step toward preserving hope is to catch some corals in the act — to collect a few hundred thousand coral eggs and sperm as they’re released into the ocean.

In the CARMABI classroom, Chamberland explains the protocol for gamete collection, laying out the cone-shaped nets that will be draped over the coral colonies and the plastic collection tubes that will catch gametes from Diploria labyrinthiformis, the species of brain coral affectionately known as D. lab. The nets are made from tarps, and none of the gear is high-tech — in fact, it’s deliberately designed to be low-tech, accessible to conservationists with even fewer resources than those at this modest field station.

Chamberland describes how gametes are handled back in the lab, long after dark, and how researchers sometimes keep watch on the embryos until the next morning. When she asks if there are any questions, Houtepen raises his hand. “So,” he says hesitantly, “do you sleep during this process?”

Chamberland laughs, but doesn’t answer. “Let’s do this,” she says.

Embryo

The D. labs near Curaçao are most likely to spawn at sunset on Friday, and as the hour approaches, the group’s collective agitation grows. Conversations are louder and an octave higher; the next cigarette is lit by the last. Pickup trucks are loaded with heavy plastic tubs of dive gear, air tanks are stacked and secured, and the collecting tubes and nets are checked and recounted. The bursts of friendly laughter turn jagged.

The phenomenon of mass coral spawning was unknown to science until 1981, when a group of Australian graduate students witnessed a spawning during a nighttime dive on the Great Barrier Reef. Ever since, scientists have been trying to work out the spawning schedules of different species, but it’s not easy. Spawning generally happens at night, and generally about a week after the full moon — corals are thought to have primitive photoreceptors that can detect moonlight — but the precise timing varies by species and location, and some species are more predictable than others. Some, like D. lab, spawn at regular monthly intervals, with only a few colonies spawning each time. Others, like staghorn and elkhorn corals, release their annual hoard of gametes all at once, in the fall, on a date that changes from year to year.

It’s easy to be a day early, or an hour late, and miss a spawning completely, and over the years researchers have spent evening after evening shivering in the ocean, waiting for a spawn they may never see. “It’s a little bit addictive,” says SECORE research director Margaret Miller, who was involved in some of the first studies of coral spawning in the Caribbean. Swimming through a spawning can be oddly exhilarating, and missing one can be agonizing — especially for scientists whose research depends on a decent haul of gametes. “Every year, you’re at risk of getting skunked,” says Miller.

The conservationists in Curaçao are thoroughly infected with the drama of spawning, partly because at some point in their lives, each has been infected with a passion for coral reefs. Every coral enthusiast remembers when he or she discovered the hidden world of reefs, whether it was through Jacques Cousteau television specials (a surprisingly common route, even for younger reef conservationists), with a borrowed mask and snorkel on an idle childhood afternoon, or during a college course taken on a whim. Some were struck first by the colorful beauty of the reefs, or by the abundance and weird variety of its life forms; some were enchanted by scuba diving, which allows even the clumsiest human to float gracefully through an alien world. Some consider the coral life cycle as beautiful and complex as great art. “I find it elegant,” says Vermeij.

Everyone here has also gone to some trouble to look more closely at corals. Few people get near them by accident, even those who grow up by the beach. Coral reefs are very rarely as close to shore as they are in Curaçao, and we air-breathing humans are, of course, perpetual strangers in coral habitat.

Elvira Alvarado, one of the workshop participants, is a professor at the University of Bogotá in Colombia who has been studying coral reproduction since the early 1990s. She learned to dive in the 1970s when she and a group of university friends, after being entranced by the coral reefs on Colombia’s Caribbean coast during a snorkeling trip, rigged up primitive dive gear with borrowed tanks and repurposed life vests. Their methods and equipment would give any modern-day dive instructor the vapors: “We didn’t have gauges, so we’d just guess our depth by the species we saw, and go up when breathing started to get hard,” she remembers with a smile. Dive gear and training are widely available today, but it’s costly, and inaccessible to most people on Earth — including many of those who live closest to coral reefs, and whose lives depend most directly on the fish these ecosystems shelter and the coastal protection they provide.

Given all the time, energy, and passion invested in them, coral spawning dives practically vibrate with nerves, and this one is no exception. Chamberland warns the group against “dive panic” and “drive panic,” which can lead otherwise sober-minded researchers to abandon basic water safety and road rules. Some, in their elated rush back to the lab, have knocked precious vials of gametes off pickup tailgates.

The group splits into two teams, and one heads for the stone jetty where Chamberland dove the previous evening. After donning wetsuits and tanks and checking their gauges, the divers wade into the surf, collection nets and tubes in hand, and swim beyond the jetty. At a signal from Chamberland, they descend, and the noise of waves and traffic abruptly stops, replaced by the rhythmic whoosh of their own breathing and a distant, staticky crackle — the sound of hundreds of fish feeding along the reef.

Valérie Chamberland places a net over a colony of grooved brain coral. bioGraphic. 

Working in pairs, the group takes its cue from the swarms of butterflyfish that have again gathered in hopes of a gamete meal. The divers drape nets over the most popular mounds of D. lab, check the time on the dive computers on their wrists, and wait. Fifteen minutes pass, then 30. One pair of divers points excitedly to the tube at the top of one net: pinkish-gray spheres are floating into the tip. It’s happening! Another pair spots gametes rising out of a net, and then another. As the sun sets and the water starts to darken, the divers cap and detach the collection tubes and gather up the nets, making their way back to shore by the beams of their dive lights.

At the surface, the mood is subdued. The spawn wasn’t as big as everyone hoped it would be; this team has only a few vials of gametes, and none is full. Maybe the other team got more; maybe there will be more tomorrow evening. Maybe it’s just a bad month.

Back in the CARMABI lab, though, spirits rise. The divers argue good-naturedly over which team, and which pair, returned with the most gametes, and when all the tubes are lined up on the lab bench, it turns out that there are more eggs and sperm than the equipment on hand can handle. “A lot of dribbles adds up to a pretty good catch,” says Chamberland. Even more important than volume is variety, and the group has managed to collect gametes from a lot of different colonies. “We have 18 parents!” Chamberland exclaims to Vermeij, who raises his eyebrows comically. “I’m … jealous?” he says. The variation among the gametes is obvious, even to the untrained eye; the batches of egg and sperm bundles range in color from purplish-gray to pink to beige.

The SECORE researchers and workshop participants, who are crowded into the small lab, are still wet from the dive; some are in their swimsuits, with lingering pressure marks from their masks on their faces. But everyone is carefully obeying the laboratory rules: no touching or even leaning over the vials, since sweat and sunscreen can disrupt fertilization. No mosquito repellent anywhere near the lab. The room is closed and muggy — 83 degrees Fahrenheit, to be exact, the current surface temperature of the ocean — and as Chamberland uncaps the vials and mixes the bundles into laboratory pitchers filled with seawater, the group is almost reverently quiet. “You’re making me nervous,” Chamberland jokes. In the pitchers, the bundles are already breaking up, and the sperm and eggs are floating freely.

Assisted recruitment is, in some ways, as much art as science, and some of its steps can’t be precisely expressed in a lab protocol. The SECORE researchers have learned, for instance, to dilute the concentration of sperm in the pitchers so that the resulting larvae have the room — and oxygen — they need to develop. “The water in the pitchers should look like fogged-up glasses,” Vermeij says. When Chamberland says, “I think of it as looking like weak lemonade,” Vermeij, who was her Ph.D. adviser and has worked alongside her for years, looks genuinely puzzled. No two people handle coral gametes in exactly the same way.

“Anybody thinking of trying this at home, so to speak?” Vermeij asks the group. Rita Sellares, of FUNDEMAR, says that one of her graduate students recently made a bare-bones attempt at assisted recruitment, turning Sellares’s office into a makeshift lab and filtering seawater through a swimsuit. To everyone’s astonishment, the larvae survived. “Hey, if it works, it works,” says Vermeij. Coral gametes are frustratingly finicky, but once in a while, they’re not; during a trip to Mexico a few years ago, Vermeij collected a few gamete bundles in a coffee cup, and the resulting larvae did just fine.

Chamberland stands back from the lab bench, satisfied with her weak lemonade. “This is pretty much where we wait for the magic to happen,” she says. Over the next few hours, the gametes will combine to form embryos, and overnight, the embryos will develop into larvae. The spectators wish the gametes luck and adjourn to a late dinner, which they eat at a row of surfside picnic tables and wash down with bottles of Venezuelan pilsner. On the balcony above, cleaned and drying collection nets hang over the railing like so many gray ghosts.

Late that night, restoration technician Kelly Latijnhouwers pours about half of the brand-new embryos — about 100,000 nearly invisible specks — into a plastic water jug and, with a number of workshop participants in tow, drives them across town to the Curaçao Seaquarium. There, in a quiet channel not far from the dolphin show and the shark tank, SECORE has set up a floating coral nursery, an experimental design that looks something like a very sturdy, highly engineered kiddie pool. If it works, it could eventually eliminate the need for a temperature-controlled laboratory, making assisted recruitment more affordable and accessible for small conservation groups.

Latijnhouwers lies belly down on the dock next to the nursery, hoists up the jug of embryos, and carefully tips it in. The workshop participants, seated on the seawall nearby, applaud, and Latijnhouwers scrambles to her feet with a smile, mockingly acknowledging the cheers. It’s close to midnight, and there’s still work to do.

Larva

The SECORE researchers have learned to resist dive panic and drive panic, but they can’t stand to be separated from their coral babies. The morning after the gamete dive, the streets around the CARMABI lab are unexpectedly blocked; hundreds of people are ambling along the main road, merrily throwing colored powder at one another as part of a community charity walk. Latijnhouwers arrives at the lab late, short on sleep, and grumpy about having had to shoulder her way through the crowd. She grew up on Curaçao and likes the informality of island life, but not when tens of thousands of larvae are waiting for her care. “They were f-ing tossing colors on me!” she says, laughing but still outraged.

The larvae in the lab, though, are doing well. They’re now distributed among 64 plastic deli containers, which the scientists refer to as “swimming pools,” and they’re moving slowly through their small puddles of seawater, barely visible but full of potential. “Every one of them could become a great big brain coral. That’s insane, right?” Chamberland says happily.

This morning, teams of workshop participants are using sheets of plastic cling wrap to skim dead sperm off the surface of the swimming pools. It’s fussy, tedious work, and Latijnhouwers soon pulls out her phone and fills the lab with the reggae-soul sound of local musician Stanley Clementina.

Researchers prepare settlement tiles that will be provided to a new generation of coral larvae. bioGraphic. 

Such a large and willing crew of helpers was unimaginable in 2002, when SECORE was founded by German coral researcher Dirk Petersen. Petersen, then working at the Rotterdam Zoo, initially focused on helping zoos and aquariums boost the genetic diversity of their coral collections, but he soon began to consider how assisted recruitment could be used to restore reefs in the open ocean, on a large scale.

Petersen knew that any such large-scale undertaking was a long way off, not only because of the technical challenges but also because at the time, the notion of active restoration was viewed with suspicion, even hostility, by many conservationists. Some thought it just wouldn’t work; some feared it would distract from the more immediate job of protecting reefs; and more than a few disliked the idea of tinkering with a natural process, especially the elegant intricacy of coral reproduction.

In Australia, where the reefs were relatively healthy, restoration was “a dirty word,” says marine biologist and workshop co-organizer Joe Pollock, who spent several years studying corals on the Great Barrier Reef before moving to the Caribbean. “The attitude was, ‘That’s something they do in the Caribbean, because they’re really messed up and don’t have any other options.’” Australian conservationists talked instead about “managing for resilience” — protecting reefs so that corals could, on their own, evolve defenses against new stresses.

In Florida, where the reefs were already desperately degraded, conservationists wondered if any kind of reef restoration was worth pursuing; in an academic journal in 2005, managers of several marine protected areas published an opinion piece called “The Folly of Coral Restoration Programs Following Natural Disturbances in the Florida Keys National Marine Sanctuary.”

Today, the conversation is different. “The paradigm has changed blindingly fast because the decline has happened blindingly fast,” says Miller. “Now, everything is on the table.” In the wake of the 2016 bleaching event, Australian conservationists began asking Caribbean researchers for help with assisted recruitment, and SECORE and other coral reproduction researchers received funding from sources including The Nature Conservancy, the California Academy of Sciences, and Microsoft founder Paul Allen.

“We’re trying to figure out how this fits within the solutions we have at our disposal,” says Pollock, who now heads The Nature Conservancy’s Caribbean coral conservation program. “We’re working on regional issues, trying to increase protection, getting involved with work that’s happening on a local scale, and at the same time trying to develop and disseminate these promising technologies that — I’ll be the first to tell you — are not the solution right now, but could be part of the solution down the line.”

Although discussions of the risks of “tinkering” with reefs continue, resistance has begun to fade. While managers and conservation groups alike continue to manage for resilience, they are seriously considering interventions once considered heretical, from assisted recruitment to the transplantation of corals into new ecosystems to the inoculation of coral polyps with symbiotic algae known to be heat-resistant.

In a quieter but perhaps even more significant departure from conservation tradition, SECORE has expanded its focus beyond critically threatened corals, and its researchers are now developing assisted recruitment techniques for a dozen different species, many of them still common.

“Most of the funds for this kind of work go to endangered species, and that’s a pity, because over and over and over again people are failing with the same species,” says Chamberland. “It’s just not feasible to bring everything back everywhere — some reefs are too degraded.”

The primary goal of reef conservation, these days, isn’t to preserve pristine reefs — most of those are gone — but to preserve at least some reef structure, some habitat for fish and other marine species, some ability to evolve. It’s to help protect Caribbean shorelines from strengthening Atlantic hurricanes, and to beat back the toxic bacteria and reef-suffocating green algae that thrive on degraded reefs. It’s to prevent wholesale coral loss as global temperatures rise, in the hopes of having some diversity left if and when climate stability is restored.

“If we want anything that resembles a coral reef in the future, we’re going to have to put our thumbs in the dike for the next 10 or 20 or 30 years,” says Miller. “We’re going to have to be very actively engaged for decades just to maintain the puzzle pieces, just so we have something to work with when the environment gets fixed.”

While interest in assisted recruitment swells, SECORE researchers are still trying to perfect their techniques — and in the humid warmth of the CARMABI lab, the young D. lab corals are about to enter the riskiest phase of their development.

Polyp

Coral larvae are, basically, tiny blobs of fat. When they finish consuming their fat stores and sink to the bottom of the ocean — a process called “settling” — they metamorphose into polyps, the initially-transparent micro-critters that make up coral colonies. (In some species of coral, polyps produced through internal fertilization are released from their parents with their symbiotic algae already in place; in others, polyps must take up symbionts from the surrounding water.) When polyps mature, they can reproduce asexually by dividing or budding off, or they can reproduce sexually by releasing gametes.

Before polyps can reproduce, though, they have to make it to adulthood, and even in the most successful SECORE experiments, the survival rate of lab-raised polyps during their first year on the reef is about the same as that of their ocean-raised cousins: 10 percent. Improving lab-raised polyps’ chances of survival is the biggest remaining technical challenge for assisted recruitment. “You can upscale all you want, but if you don’t manage to have high enough survivorship, you’re not going to get the end result you’re looking for,” says Chamberland.

The problem could be that lab-raised larvae aren’t as healthy as they might be; the SECORE researchers are careful when mixing gametes not only because they want the resulting larvae to survive, but also because they want the larvae to be in top form before beginning their dangerous journey through polyphood to maturity. Raphael Ritson-Williams, a researcher at the California Academy of Sciences who studies larval settlement, says, “There’s no physical thing you can see in larvae that will tell you they’re not healthy. They’re not sneezing or blowing their noses. But if they’re under stress, it can manifest itself later, and break the cycle of reproduction.”

Survival may also have a lot to do with the neighborhood in which coral larvae choose to settle. And they do, in fact, choose. Even though larvae have no arms, legs, or fins, they can swim, using their tiny hairlike cilia; even though they have no brains, eyes, noses, or mouths, they are surprisingly opinionated.

Colony of brain coral. bioGraphic.

Vermeij and his colleagues have found that in the open water, coral larvae swim toward reef sounds; other researchers have discovered that larvae can sense chemical cues and even perceive color, favoring a particular shade of red — a shade that matches the species of rock-hard red algae, known as crustose coralline algae, they most like to settle next to. Larvae also seem to prefer certain textures, choosing to settle on surfaces that are rough but not too rough. (Since a coral colony can occupy a chosen location for hundreds or even thousands of years — essentially indefinitely, as long as no one interferes with it and its polyps keep multiplying — maybe it’s not all that surprising that larvae are selected to be selective.)

So, like fretful parents of picky children, the SECORE researchers keep presenting their lab-raised larvae with choices, hoping to hit on the ideal menu. Ritson-Williams has found that while larvae like to settle near some species of coralline algae, other species inhibit larval growth. Unfortunately, the helpful and unhelpful species of algae look exactly alike — unless you happen to be a coral larva, or a coral scientist with a microscope and a lot of algal expertise.

Early SECORE experiments used hand-cut clay tiles as a surface for settlement, but soon found that clay tetrapods gave the larvae additional surfaces on which to settle and a better shot at survival. Chamberland and other SECORE scientists are now working with the design-software company Autodesk to develop 3D-printed settlement tiles in a variety of textures and fantastical shapes.

In the CARMABI lab, the D. lab swimming pools have been furnished with an array of clay settlement tiles, and the larvae are starting to make their choices. Though they’re still almost too small to see, Chamberland uses an ultraviolet flashlight to illuminate the corals’ fluorescent pigments, and finds that several glowing green dots have come to rest on the submerged tiles — the first of what she hopes will eventually be thousands of settlers. The odds are daunting, and so are the number of variables. No matter how carefully and thoroughly the SECORE researchers tweak the conditions in these swimming pools, it sometimes seems impossible that one of these pinhead-sized dots could survive to adulthood — much less multiply into a thriving colony. Robert Steneck is a marine biologist at the University of Maine who has helped the Caribbean island of Bonaire improve the resilience of its reefs by protecting the fish species that control algae growth. He cautions that lab-raised corals may never be able to make a cost-effective contribution to reef resilience. “You have to be mindful of natural mortality rates, and of what small fraction of a lot of effort is going to be successful 10 or 20 years down the road,” he says. “And you have to be mindful of the scale at which you’re going to be able to implement these very money- and time- intensive activities.”

But in the shallow ocean near the Seaquarium, just a few hundred yards from the floating coral nursery where Latijnhouwers deposited the rest of the D. lab larvae, is a bright-yellow elkhorn coral colony, a broad, scallop-edged funnel about a meter (3 feet) across. Seven years ago, this colony was a lone dot on a tetrapod in the CARMABI lab; just four years after the tetrapod was planted on the reef, Latijnhouwers was finishing a routine spawning dive when she checked the young colony and saw that it was releasing gametes.

For the first time, she realized, a SECORE-raised colony had completed the coral life cycle, and was contributing to the genetic stock of a living reef. Latijnhouwers, elated, surfaced into the warm night air, tossed aside her regulator, and called out to Chamberland, who was waiting on shore.

“Val!!” she yelled. “Your babies are spawning!!”

Colony

The D. lab corals, if they make it to adulthood, will have to survive in the world as it is: a world in which the climate is changing, the ocean is acidifying, and the forces of politics and history affect both land and sea. Curaçao, a former Dutch colony, became a separate country in 2010, but it remains part of the Kingdom of the Netherlands, which oversees its foreign policy.

For almost two centuries, the island was a hub of the Dutch slave trade, and like other Caribbean countries, its multiracial, multilingual society continues to struggle with the painful legacies of slavery and colonialism. Political corruption is commonplace, and political violence is not unknown. But politics, not science, will ultimately determine the future of reefs; most of the work of coral conservation has to happen on land, and in cooperation with policymakers.

Vermeij, who as the director of CARMABI is deeply involved in local conservation efforts, is impatient with the dire story still told by many prominent marine scientists. “The story that comes out of science is such a dark one that a lot of people are like, ‘Well, that was nice — like the dinosaurs, coral reefs were once there, but now they’re over, they’re done.’ If science only paints the obituary of coral reefs, no one’s going to throw money at them.”

He’d like to see conservationists talk less about the very real problem and more about what he sees as the solution: finding and encouraging the variation that will help reefs persist. He also thinks coral advocates should choose where they can do the most good, and, on occasion, concede defeat. “Scientists would be more credible if they would at some point say, ‘Reefs like this no longer deserve attention, let them go,’” he says.

On the last day of the workshop, the group readies its gear for one last dive. This time, they wade into the surf in front of the local Marriott. Latijnhouwers steps on a sea urchin and gets a long spine in her foot, but remains calm as she paddles beyond the waves. “You’re hard as nails,” says Rising.

“Not really,” says Latijnhouwers with a grimace. “This one actually hurts.”

Valérie Chamberland and Erik Houtepen, a park ranger on the island of Sint-Eustatius, look for signs of spawning in grooved brain coral colonies (Diploria labyrinthiformis). bioGraphic. 

When the group descends below the surface, it is confronted with one of the island’s most degraded reefs. There’s little coral here, and there’s a great deal of sand, pebbles, and green, leafy algae. Much has been lost, and much is unlikely to be recovered. But tucked into the crevices of the rocky seawall are a few dozen clay tetrapods — part of an experiment started by the SECORE team last year.

The colonies of threatened elkhorn coral polyps on the tetrapods are just dark smudges, each barely bigger than a thumbprint, but they’re alive and growing. If they can persist until they’re taller than the surrounding banks of green algae, their long-term chances will be good. Some evening years from now, under a waning moon, one or more of these colonies might spawn.

SECORE founder Dirk Petersen hasn’t yet realized his vision of large-scale reef restoration, but these tetrapods are, in fact, a small step toward it. Since they can tumble into a stable position on a reef instead of needing to be hand-placed, they could one day be tossed from boats in bulk, allowing conservationists to sow coral polyps far and wide. However, Petersen emphasizes, there is no ideal technique. “The goal is to create resilience at scale,” he says. “Whatever leads us to that goal is great.”

At the end of the workshop, as the participants get ready to depart for their respective islands, Rita Sellares of FUNDEMAR adds an extra item to her baggage: a box packed with 200 clay settlement tiles. Following her team’s DIY experiments with assisted recruitment in the Dominican Republic, she’s secured funding for a small wet lab and basic equipment, and plans to start a coral nursery.

For the rest of the summer, the participants keep in touch via a long string of WhatsApp messages, exchanging birthday greetings and coral spawning reports. On Sunday, September 2, Kimani Kitson-Walters, a native of Jamaica who works at the Caribbean Netherlands Science Institute on Sint-Eustatius, reports — with celebratory emojis — that Sint-Eustatius’s elkhorn coral colonies were spawning. And the Acropora palmata weren’t finished: “MASSIVE APAL spawning,” he writes excitedly the next night. Early the following morning, he posts photographs of the Petri dishes in his lab. “Is this bundle debris?” he asks, indicating a popcorn-shaped white blob. “Noooo,” replies Latijnhowers. “Your ‘debris’ are two fertilized eggs going through development. Congratulations! You’re an Acropora dad!”

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Spawning an intervention

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Weathering the next Florence

As the country watched floodwaters rise across the Carolinas in the wake of Hurricane Florence this month, Puerto Ricans were still reeling from a storm that tore through the island a year ago.

The grim statistics from Hurricane Maria are well known: thousands of deaths, the largest power outage in U.S. history, and $90 billion in damages — a heavy toll for an island already in dire financial straits. But we still don’t know the extent of the wreckage from Hurricane Florence’s record-shattering rainfall.

Increasingly, there’s little space to breathe between catastrophes. And as climate change brings higher sea-level rise, more punishing winds, and heavier rains, super-charged storms are likely to get worse. But these natural disasters are partly human-made, which means that humans can also work to avoid future disasters.

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How do we prepare for a future filled with Florences and Marias? And when the next big hurricane does inevitably hit, how do we rebuild, not just our houses, but also our sense of community?

Grist surveyed experts in hurricane preparedness and relief efforts for their suggestions on making our coastal towns more resilient. Here’s how they responded, edited for length and clarity.

“Aid delayed is aid denied.”

Richard Burroughs, professor of coastal science and policy, Yale School of Forestry and Environmental Studies

Waves, storm surge, wind, and rain coexist on dynamic natural coasts: We know how nature works. Adding in people with their homes, businesses, roads, and recreation always causes problems. The fixed structures and people are periodically overwhelmed by the hurricanes.

Adequate hurricane preparation consists of identifying zones of high risk and incentivizing people and businesses to move away from those zones. Insuring people so that they can stay in high-risk areas will ultimately fail because natural forces coupled with sea-level rise will win in the end. I recognize that major cities will not get up and move, but for other areas retreat is the preferred option.

Puerto Rico is a very important case where Hurricane Maria further exposed the vulnerability of not just individuals but whole governmental systems. Since hurricanes test both our physical infrastructure and the resilience of government, all Americans have a special stake in effectively addressing the issues Puerto Rico is facing. Houston and New Orleans have a lot to learn from San Juan and vice versa.

Maria Lopez cries while walking from her house that was flooded by Hurricane Maria.HECTOR RETAMAL / AFP / Getty Images

As the Puerto Rico case illustrates, we are woefully slow in making decisions related to individual claims because we have dispersed responsibility among many governmental agencies. After a flood, FEMA inspectors, National Flood Insurance Program adjusters, Small Business Administration loss verifiers, private flood insurance adjusters, and others may assess damage to the property. It’s both time-consuming and costly. The challenge for us all is to coordinate responses so that payouts can occur in a timely fashion. Aid delayed is aid denied.

“We need to have those communities at the table”

Mikki Sager, vice president of The Conservation Fund

We work with a tremendous number of community groups, particularly in areas rich in natural resources, but that have a lot of economic challenges, persistent poverty, and social and environmental justice issues. When we are trying to prepare for hurricanes, we have to look at the socio-economic aspect.

The Centers for Disease Control has social vulnerability index maps and data. The mid-Atlantic down across to Texas has huge areas of persistent poverty that are also the most vulnerable to climate change. The challenge that we face is that, for many reasons, the most vulnerable folks are not part of conversations about how to address the impacts of a natural disaster. We need to have those communities at the table. And we need to increase the flow of funding, both public and private, to help them set priorities for rebuilding.

We also need to increase the capacity of local government, businesses, and families in those vulnerable areas. Historically, especially here in the South, low-income folks and people of color have been pushed to the low-lying areas, to the wetland areas, to the floodplains.

We have several communities in the southeastern part of North Carolina right now that are still underwater, totally cut off. They don’t have access to the most basic supplies, but community groups and faith groups are pulling together funding to go out and buy tarps so that houses can start to dry out when the water has receded.

In Puerto Rico, we provided a grant for a group called Americas for Conservation and the Arts to focus on engaging the community and restructuring their food systems, putting it back to where it was [before Hurricane Maria]. They are doing some amazing work because they have local community folks leading the process. They’re both organizing and engaging the community in coming up with a solution, leaning heavily on what has worked in the past, and working towards addressing the economic issues, the social justice issues, and the environmental issues simultaneously through that project.

“It’s just really hard to establish [community cohesion] when the physical environment is pockmarked.”

Kofi Boone, associate professor of landscape architecture at North Carolina State University in the College of Design

Before a hurricane or a flood comes, we still have a very big pre-disaster education job to do to help communities understand what floodplains are and how they work, where they’re located, and what those risk factors happen to be.

After Hurricane Matthew, we all had a chance to work with the town of Princeville, which is the oldest chartered black town in North Carolina. That town was built in the floodplain of the Tar River, primarily because that was the available land that African American people could buy at the end of the Civil War. You find that a lot, where the most vulnerable populations have existed for generations in places that have had a series of crises and disasters, and so the recurring trauma and disruption that happens every time a flood comes prevents them from building wealth, equity, and a tax base.

There really isn’t a mechanism to encourage a community-level conversation to talk about the impacts that all of those individual actors have on the long-term sustainability of communities. It’s just really hard to establish a sense of community cohesion and maintain social networks when the physical environment is pockmarked.

I think it’s also about finding ways for people to do what they can. And a lot of the time, when we talk about [hurricane resilience] we’re thinking about you know, billion-dollar, 10-year long-range things when sometimes it’s the day-to-day stuff that makes the difference to a community that’s had this recurring trauma from losing, property, losing loved ones like over and over and over again.

James Howell Jr. sizes up how to protect his home from the approaching Hurricane Florence. The house was damaged by Hurricane Matthew in 2016. Howell said the furniture on his porch is there because he had to go out and rebuild the living room.AP Photo / Emery Dalesio

There is a need for healing and remembering what makes them special and why they’re important. It’s one thing if all you know about Princeville was that it’s in the low-lying area and it floods all the time. It’s another when you think about it as the first free black town in the United States that’s situated in a district that gave birth to many generations of political leaders, not just in North Carolina, but around the country. It alters how you see yourself.

“Everybody’s working together and everybody’s well informed”

Hanadi Rifai, director of the Hurricane Resilience Research Institute (HURRI) at the University of Houston

Education and coordination, especially with disadvantaged communities, would help areas be more resilient.

We always talk about education because the most important thing is for people to be continually reminded and educated about what could happen to them. Coordination — amongst all organizations, communities, and agencies at the state and federal level — is one of the most important things. When everybody’s working together and everybody’s well informed, they’re able to be more responsive not only in evacuating people but also in getting people back into their homes after the event has passed.

It’s especially important with disadvantaged populations — meaning, people that perhaps don’t have the resources and the means to undertake actions they need to.

Being able to sustain economic development and economic growth, and balancing the risks and rewards of having industrial, commercial, and economic activities would be really important for coastal communities. We talk a lot about hazards from industrial activities, chemicals, and storage of byproducts. If we’re able to get our coastlines more aware of that and find ways that we can manage the risks from those types of activities, we would truly have more resilient coasts. When the event comes, you can recover quickly and you don’t have these lingering environmental effects left to deal with which may prevent things from going back to normal for a while.

It’s like when you buy a car and see that label about fuel economy. We need a similar thing for buildings.”

Jeremy Gregory, research scientist and executive director of the Concrete Sustainability Hub at MIT.

The key thing is building structures that are not just designed to withstand normal weather events, but built to last longer and withstand more extreme events. Part of the challenge with that is a lot of structures built a long time ago aren’t adequately prepared to sustain the increasing severity of storms.

We’re not even talking about entirely rebuilding structures. Sometimes it’s just about making sure that homes have a good connection between the roof and the walls and that you have protection for windows and doors. Because after the wind breaks that pressure seal, then a lot of the damage comes from the water.

Kenan Chance’s home is surrounded by flood water as the Lumberton river continues to rise in the aftermath of Hurricane Florence in North Carolina.RJ Sangosti / The Denver Post via Getty Images

So it’s really the flooding that’s a lot worse than the wind, but a lot of times that’s wind level is what we design for. Heating and cooling units for buildings are often placed on the ground, down low.

A lot of the research that we do is about the quantitative, life cycle costs of a building, considering the hazards that it’s exposed to. People need to understand that the building they are investing in not only has an initial cost, it’s also going to have some costs due to hazards. As the  severity of storms increase, those costs are going to go up. And so we need to make that more transparent. It’s kinda like when you buy a car and see that label about fuel economy. We need a similar thing for buildings.

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Weathering the next Florence

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