From birth, the storm was destined to become a monster.

It formed from air that was hot, moist and thick with clouds. It incubated in the sultry Gulf of Mexico, drawing power from water that was unusually warm.

By the time Hurricane Ida made landfall in Port Fourchon, La., on Sunday, it was the poster child for a climate change-driven disaster. The fast-growing, ferocious storm brought 150-mile-per-hour wind, torrential rain and several feet of storm surge to the most vulnerable part of the U.S. coast. It rivals the most powerful storm ever to strike the state.

“People there are going to get blasted,” said Kerry Emanuel, an atmospheric scientist at the Massachusetts Institute of Technology who studies the physics of hurricanes and their connection to the climate. “This is exactly the kind of thing we’re going to have to get used to as the planet warms.”

Hurricane Ida is just the latest storm to batter the United States this summer. Tropical Storm Henri weakened as it inundated coastal communities in New England earlier this month, but it still knocked out power to more than 120,000 homes in three states and dumped a record 1.89 inches of rain on New York City.

And the hurricane season is far from over, as five other tropical systems are now sweeping over the Atlantic Ocean.

But for now, all eyes are on Ida.

Scientists had been bracing for the worst since the moment forecasters identified a tropical depression forming last week. The Gulf of Mexico in August is always a hotbed of hurricane formation. “This time of year, it’s like bathtub water,” said Brian Tang, an atmospheric scientist at the University at Albany in New York.

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Lately, conditions in the ocean have been exceptionally bad. According to the National Oceanic and Atmospheric Administration, parts of the Gulf are three to five degrees Fahrenheit higher than the average for the end of the 20th century. Research shows that human greenhouse gas emissions have caused the ocean to warm faster in recent years than at any point since the end of the last ice age.

All this warm water is to hurricanes what gasoline is to a car engine, Tang said. A powerful storm takes energy from the ocean and converts it into roiling clouds and roaring winds.

As Ida developed, it traveled over the hottest parts of the Gulf, sucking up energy to fuel its rapid growth. With no shifting upper atmosphere winds to disrupt it, the ring of thunderstorms around the hurricane’s center – called the eyewall – started to churn faster and faster.

Even worse, the sea surface temperature became higher as the hurricane got closer to the coast.

“That’s really like stepping on the accelerator,” Tang said. “Flooring it, basically.”

Barely 24 hours after it was identified as an unnamed tropical depression in the Caribbean on Thursday, its wind speeds reached 75 miles per hour – enough for the storm to be upgraded to a hurricane. By Saturday night, winds were hitting 105 miles per hour, making Ida a Category 2 storm.

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Kimberly Wood, an atmospheric scientist at Mississippi State University, went to bed with a sinking feeling in her gut.

Then she woke Sunday to reports from the National Hurricane Center that peak winds were now 150 miles per hour. She thought of all the people who would not have time to evacuate in response to the sudden escalation.

She looked again at satellite images showing what scientists call a “well-organized” storm.

Wood wishes that the scientific terminology didn’t sound so much like a compliment. “It sounds like we’re cheering it on, but we’re not,” she said. “I feel sick to my stomach.”

Emanuel calls such rapid intensification a “canary in the mine” for climate change. Warmer conditions raise the “potential intensity” for storms – in other words, how bad they can get if nothing disrupts them. Climate change has also widened the disparity between the amount of heat in the ocean and the amount of moisture the atmosphere can hold, which accelerates the process of evaporation and energy transfer.

“Things happen faster,” he said. “It’s getting to a larger velocity and it’s taking less time to get there.”

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In a 2017 paper published in the Bulletin of the American Meteorological Society, Emanuel found that once-in-a-century intensification events – in which wind speeds accelerate 70 miles per hour in just 24 hours – could happen every five to 10 years by 2100. Human-caused warming could lead to never-before-seen escalation of hurricanes, causing unheard-of surge in wind speeds of 100 miles per hour or more.

Climate change not only sets the stage for bigger, fiercer, faster storms; it makes the deadliest aspect of hurricanes – a deluge of water – even more intense.

For each degree Celsius that air heats up, it is able to hold 7 percent more moisture. This leads to exponentially heavier precipitation during storms.

Rainfall from Hurricane Harvey, which hit Houston in 2017, was infamously made at least 15 percent worse by human-caused warming. Emanuel has found that events like it could become six times more frequent by the end of the century.

“It’s hard to say for any one thing, ‘Yes, for sure this is climate change,’ ” Wood said. “But the warmer waters and the amount of moisture in the air, this in general is going to increase as the climate warms.”

Torrential rain can worsen the effects of hurricanes even when the wind isn’t very strong. Wood noted that Hurricane Henri had deteriorated to a tropical storm by the time it made landfall in Rhode Island, but its torrential rain triggered widespread flooding and caused about $1.5 billion in damage.

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In a small stroke of luck for residents of coastal Louisiana and Mississippi, Hurricane Ida is not expected to slow down significantly as it moves across the land – a behavior that made rainfall from Harvey and Henri especially extreme. But meteorologists have still forecast as much as 20 inches of rain for areas in Ida’s path.

Rising sea levels linked to global warming will also exacerbate the storm’s effect. Few places in the United States have suffered more from rising waters as Louisiana, where seas in some areas are 24 inches above their 1950 levels. This is partly because of development that has eroded the coastline and caused land to sink. But it is made worse by faraway melting glaciers, and the fact that ocean water expands as it warms.

The higher the baseline sea level, the more water will be pushed on shore by wind during hurricanes.

Wood urged residents not to underestimate the potential power of all this water. Just six inches of moving water can knock a healthy adult to the ground. Two feet is enough to float a car, sweeping away the vehicle and anyone inside it.

A 2014 study in the Bulletin of the American Meteorological Society found that 76 percent of fatalities from hurricanes between 1963 and 2012 were caused by storm surge or flooding.

“Those who are hunkering down on the coast are going to be pretty battered from this,” Wood said.

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In an era when climate change has raised the bar for how bad hurricanes can become, Emanuel said, Hurricane Ida is a hint of what can happen when a storm reaches its “full potential.”

Energized by hot water, unobstructed by landforms or disruptive wind, Ida surged ashore Sunday with overwhelming force. Towering waves have ripped boats from their moorings and threatened to sweep people out to sea. Trees toppled and roofs went flying amid brutal blasts of wind.

With conditions too dangerous to attempt rescue operations, officials pleaded with people in flooded areas to stay in their homes and wait for the storm to pass.

This monster could not be battled or outrun. As night fell on Louisiana and Ida plowed inland, all people could do was endure.

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