The state of South Carolina hired Blozan and his partners to try to save the state’s 520 Carolina hemlocks, and the men treated nearly every specimen, often while rappelling down a cliff. Most of the Carolina hemlocks across the border in North Carolina were on national forest land, however, and were not being treated.
ONE DAY IN AUGUST, I drove into the Cataloochee Valley with Will Blozan to see what had happened. In the back of his jeep were backpacks full of ropes and tree-climbing gear. We followed a dirt road that switchbacked down into the valley. It was a lush place, lined with meadows at the bottom, rising into ridges and coves blanketed with forest. The forest was streaked with gray areas, as if smoke filled it. We parked in a meadow and put on our packs. It was a hot day, and clouds were piling over the mountains. Blozan looked around. “The truth is, I despise hiking,” he said. “I don’t do it unless there’s a tree to climb somewhere on the hike.” He wrapped a green bandanna around his head. We followed a trail that led into the woods along a creek called Rough Fork, crossing bridges made of single logs.
Big hemlocks, hundreds of years old, appeared. Sunlight seemed to blister its way through them. They were between 50 and 80 percent defoliated, but the national park crews had treated them, and many seemed to be alive, for now. “That one’s looking better,” Blozan noted, squinting at a hemlock that seemed half dead to me. He said that he had a map of the Cataloochee in his mind, with individual trees in it. “I’ve been all over these mountains. Even if I haven’t seen a tree in ten years, I still know exactly where to find it in a crowd of trees,” he said. “I’ve often wondered what a proctologist who’s passionate about his work thinks when he sees a crowd of people.”
He cut away from the trail, and we began bushwhacking up a slope. Here the trees were small, and patches of grass grew among them: the slope had been a cow pasture eighty years earlier. The slope ended on the knee of a ridge covered with rhododendrons. We followed the ridge upward, climbing steadily higher.
The trees got very big, and the forest seemed to get a lot darker. We had passed the edge of the old pasture and entered something like virgin American forest, a stretch of woods that had apparently never been logged. There were massive hardwoods—big yellow poplars, hickory trees, ash trees, mixed with an occasional sick-looking or dead hemlock. The ground was covered with all sorts of plants and shrubs—very high biodiversity, and the plants were all natives. No invading plants here. In various places there were woodland violets, early yellow violets, partridgeberry, masses of doghobble, wild lettuce, a lily called twisted rosy stalk, doll’s-eyes, and Dutchman’s-pipe. There was a brownish plant called squawroot that lives on rotting vegetation; bears eat squawroot in early spring after they come out of hibernation, and it purges their digestive systems.
The invaders were tiny or invisible to the naked eye. We passed hard, blackened stalks of wood: the remains of flowering dogwoods that had died a decade earlier from the invading dogwood fungus. Here and there stood rotting beech trunks and dead standing hulks called snags. The beech trees had gone almost extinct in this part of the Cataloochee within the previous five years. One small beech tree was still alive, its bark dotted with flecks of white fungus. This was the European beech fungus spread by a European insect. The beech tree was still alive, but it was doomed, and it was the last of its kind visible in that part of the forest. Here and there lay huge, moundlike, rotting cylinders of wood: the fallen trunks of American chestnuts, which had most likely died during the 1930s and ’40s, killed by the chestnut blight fungus, which drifted through in the air. Seventy years after dying, they still hadn’t rotted away. The forest was a palimpsest, telling stories of loss and change.
As we went along, I found myself rhodo-wrestling. The rhododendrons won, and Blozan moved ahead. He seemed to slip through them without much effort.
Higher up, we crossed the ridge and looked down into a cove. It was drained by a creek named Jim Branch. As we moved downslope into the cove, sunlight began to flood the area, and the air grew hot and ovenlike. Around and above us extended ghosts, hemlocks that had been treated too late and were dead or mostly beyond saving. The ground was covered with surging plants, coming up in the light, including masses of stinging nettles. I couldn’t see any adelgids; the parasites had died with their host. The air was filled with clouds of gray branches, like giant floating dust bunnies.
We stopped under a tall hemlock that glowed with green, a survivor in the cove. “This may be the healthiest hemlock in the park,” Blozan said. It was known as Jim Branch No. 10, and it was 150 feet tall. One of the ten experimental trees that the park had treated in 2003, it had been treated again in 2005.
Blozan pulled the end of a climbing rope out of his pack and tied it to a cord he’d left strung in the tree. He used the cord to pull the rope into the tree, and he anchored the rope, making it safe for climbing. When you climb a tree, you begin by climbing up a rope into the crown of the tree. This is because most trees don’t have branches near the ground that can be climbed on. The hemlock’s lowest branch was about sixty feet above the ground.
Hemlock skeletons. Old-growth eastern hemlocks in the Cataloochee Valley killed by the hemlock woolly adelgid.
Will Blozan
Blozan put on a helmet and a tree-climbing harness and began ascending along the rope, using rope ascenders—mechanical devices that grab a rope and enable a person to climb up the rope without slipping down it.
I put on my helmet and harness and waited, watching Blozan. He got into the branches and kept moving upward until I could barely see him. Then I started ascending the rope, using ascenders.
Sixty feet above the ground, with Blozan climbing above me, I stopped and stood on a branch. (I was still attached to the rope, so that I couldn’t fall.) Then I opened a bag and took out a complicated rig of ropes called a motion lanyard. The motion lanyard, also called a double-ended lanyard or a spider lanyard, is the principal tool used by some climbers for ascending to the tops of extremely tall trees, including hemlocks and redwoods. Here I will call it the spider lanyard.
The spider lanyard works much like Spider-Man’s silk. You dangle in the air from the spider lanyard, which is attached to branches over your head. While your weight is suspended on the lanyard, you move upward by flinging alternating ends of it over branches overhead, getting it attached to successively higher branches. With a certain technique, using certain sliding knots, you can raise your body upward through the air, suspended on the rope, without touching the tree, or you can lower yourself, or you can hang motionless in midair on the spider lanyard, with your feet and hands touching nothing. More often, though, you hang on it with your feet lightly braced against the tree, for balance. Your life depends on the spider lanyard. If it is incorrectly attached, it can fail or a branch can break, and you will fall to the ground. A skilled tree climber can move from point to point in a tree while suspended entirely on ropes, not touching the tree with any part of his or her body.
Blozan was climbing rapidly above me, moving from branch to branch.
The tree was filled with a spicy tang, the scent of green hemlock, and it was covered with living things. There were rare dark-brown lichens called cyanolichens, which fix nitrogen straight from the air. They fertilize the canopy of old forests. There were beard lichens, horn lichens, shield lichens, and one called ragbag, which looks like rags in a bag. There were small hummocks of aerial moss, spiderwebs, insects associated with hemlock habitat. There were mites, living in patches of moss and soil on the tree, many of which had probably never been classified by biologists. The hemlock forest consists in large part of an aerial region that remains a mystery, even as it is being swept into oblivion by Mrs. Dooley’s bug.
We stopped and rested at 130 feet. Blozan was standing on a small limb. “When these trees die, the nearby streams turn brown,” he said. “The water gets full of tannic acid. As long as I’ve been coming here, these streams were crystal clear. Now they look like they’re coming out of a bog.”
Many insects and fish that live in hemlock streams, such as the stone fly and the brook trout, are also threatened by sunlight and heat pouring into stream environments that were once shady and cool.
Blozan loosened his rope and climbed straight to the top. I followed him, moving more slowly. We spent a while lolling in the top of the tree. A bird landed near my face. It looked at me, hopped toward me, and let out a string of territorial cries. It was a red-breasted nuthatch, a species that feeds in hemlocks. Birds don’t always seem to recognize a human in the top of a tree. Whatever this bird thought I was, it didn’t seem to like having me there. A ruby-throated humming-bird began hovering around us, seemingly attracted to my red shirt. It throbbed off into the distance.
Will Blozan near the top of Jim Branch No. 10, seemingly the last healthy hemlock in Great Smoky Mountains National Park.
Richard Preston
From the top of Jim Branch No. 10, we could see that the forest canopy was a ruin. The crowns of the dead trees were still encrusted with living material—a hemlock rain-forest canopy without the hemlocks. It was a scaffold of lichens and other organisms. The trees that harbored them had died so recently and so suddenly that they were all carrying on, for the moment, as if nothing had happened.
WHEN IT BECAME APPARENT that the eastern hemlock might nearly cease to exist, Blozan and his partners founded the Tsuga Search Project, an effort to identify and measure the world’s tallest and largest eastern hemlocks before they were gone. They spent more than $100,000 of their own money on it. Brian Hinshaw, one of the partners, told me, “We just want to try to understand what we once had in these hemlocks.” In the Cataloochee Valley, Blozan walked into groves where he found what had been among the world’s tallest hemlocks. They were already dead, but he and his partners climbed the skeletons and measured them anyway. “The data are for someone someday,” he said. In October 2007, Blozan and one of his partners, Jason Childs, went into a cove in the Cataloochee to check on the health of the world’s tallest hemlock, Usis. Blozan had treated Usis with the chemical, and they wanted to see how it was doing. It was dead.
A climber (Jason Childs) measuring Usis, the world’s tallest eastern hemlock, soon after its discovery in 2007. It was alive at the time; it died a few months later. The climber is sitting in a tree-climbing harness, suspended from a rig of ropes similar to a spider lanyard.
Will Blozan
Three flagship species of migrating birds make their nests in hemlocks: the Blackburnian warbler, the black-throated green warbler, and the solitary vireo. In spring, they arrive in the Cataloochee before leaves come out on hardwoods; the evergreen hemlocks offer them cover, food, and a place to nest. No one knows what will happen to them when they arrive in the spring. Many other birds feed in hemlocks or nest in them, including the Acadian flycatcher, the Louisiana waterthrush, the winter wren, and the red-breasted nuthatch. The flying squirrel lives in hemlocks, and it feeds on fungi around their roots; the flying squirrel seemed to have gone into a decline. When an old hemlock falls, a world passes away. As for the Cataloochee Valley, most of the eastern hemlocks there were dead.
A doomed canopy. Living masses of lichens clinging to dead hemlock branches in the moribund rain-forest canopy of the Cataloochee Valley.
Will Blozan
The Search for Ebola
1. Disturbed Forest
MONTHS LATER, when the epidemiologists finally arrived, they traced the threads of the horror back to one man, Patient Zero, who became known only by his initials, G.M. The threads converged on one little spot in the world. It was a sinuous patch of forest called Mbwambala. Mbwambala is a fragment of disturbed woodland about three miles long and half a mile wide that wanders along a small stream about six miles southeast of the city of Kikwit, in the Democratic Republic of the Congo. G.M. was forty-two years old at the time of his death. He lived with his extended family in Kikwit, in a family compound consisting of huts made of wattle. Each day, G.M. commuted on a bicycle to his place of work in the little forest of Mbwambala.
Kikwit is situated on the banks of the Kwilu River, 250 miles east of Kinshasa, the capital of Congo. Kikwit stands on a rolling, grassy plateau that is dissected by streams the color of chocolate milk. The streams meander through valleys filled with gallery forest, narrow, snakelike stands of trees nestled along the streams. Most of the plateau had once been covered with tropical rain forest, but 90 percent of it had been cut down in recent decades.
Nobody had a clear idea of how many people lived in Kikwit. Some experts felt that the city had a population of around 150,000, while others had a feeling that the city might contain closer to half a million people. Kikwit had grown into a sprawling agglomeration of houses made of wattle and cinder block, with roofs made of grass or sheets of metal. The city was a transportation center of a sort. Overland trucks passed through the city, moving along the Trans-Africa Highway, a system of dirt roads that crosses Africa from the Atlantic Ocean to the Indian Ocean. This is the same system of roads along which the human immunodeficiency virus, HIV, seems to have moved across Africa after its trans-species jumps from unidentified animal hosts—most likely monkeys and chimpanzees—into the human species.
Congo had been ruled for many years by the dictator Mobutu Sese Seko, who’d maintained control using a corrupt, chaotic army. Many things that had once worked reasonably well in Congo now did not. At one time, it had been possible to drive an automobile from Kikwit to Kinshasa in just four hours over a paved road. Now the drive to the capital lasted anywhere from twelve hours to several days, when the road was passable. It had developed ruts up to ten feet deep.
Kikwit had no running water, no sewage system, no telephone network, no newspaper, and no radio station. At night, the city went dark; there was very little electricity. The city’s main hospital, Kikwit General Hospital, had a diesel generator. It also had an X-ray machine, but the hospital didn’t have running water or toilets. It didn’t even have bed-pans: a family member would provide a clay jar to collect the patient’s body waste. Many people who lived in Kikwit commuted by foot or bicycle to fields of cassava and maize outside the city. The people practiced slash-and-burn agriculture, moving their crops from place to place. The abandoned fields grew up in Christmas bush, an invading shrub from Florida and Central America. People also hunted small animals and gathered wood in the remaining patches of forest.
Just after dawn one day around Christmas 1994, G.M. got on his bicycle and pedaled through the city and down to the Kwilu River, and he crossed it on a bridge. He turned right and followed the river upstream through a valley. It was the rainy season. The weather was hot and wet, and the road was muddy; he threaded his way around puddles. After five miles he parked his bicycle, leaning it against a hollow stump near the road. Then he walked away from the road and away from the river, going uphill toward the east, following a footpath that went through thickets of Christmas bush and through fields of maize and cassava. He crossed a low ridge. The path descended. In about a mile, he came to a chocolate-colored stream. It wound among low hills through the forest of Mbwambala.
Mbwambala was a type of natural habitat that biologists call an ecotone. An ecotone is a transitional zone where two different ecosystems touch and mix. One sort of ecotone, for example, is the dividing line between wild forest and cleared agricultural land. Another ecotone is the meeting of sea with land, along a seashore. Ecotones are often richer in biodiversity. Living things find it easier to survive along edges, margins, boundaries, where different communities come together and mix, and where opportunities for feeding abound. Birds often congregate along ecotones—birds flock and feed along the edges of woods and along shorelines.
Mbwambala was a little ecotone, a narrow stretch of forest in the cleared country, running for a bit more than two miles along the stream. It contained groves of African corkwood trees. They had sprung up rapidly after the old, tall, primeval trees of Mbwambala had mostly been cut down. He walked along the stream, making his way under night
shade bushes the size of rhododendrons. There were small pigeonwood trees growing by the stream. Here and there, a few old forest trees remained—pale Tola trees and heavy, valuable Bomanga trees. These trees were 150 feet tall and maybe a century or two old. They were the remnants of a tropical forest canopy. Their crowns waved and flickered in the sunlight. In their tops lived bats, birds, insects, mites of the canopy—creatures that probably rarely came to the ground, if ever.
G.M.’s main profession was that of charcoalmaker. For years he had been cutting down trees in Mbwambala with an ax. He felled the trees and hacked up their branches and limbs and trunks into pieces, and made charcoal from them. The way he made charcoal was to dig a large pit, five feet deep, and fill it with pieces of wood. He set the wood on fire, then covered the burning wood in the pit with a layer of earth. The wood turned slowly into charcoal under the layer of earth.
Most cooking in Africa is done with charcoal. G.M. sold his charcoal to city people. That day, G.M. had just finished a session of charcoalmaking. He had recently removed a load of charcoal from his pit, and he now wanted to refill the pit. He spent the morning chopping down trees, lopping off their limbs, and moving the pieces of wood closer to his fire pit, in order to refill it with fresh wood.
What lived in the crowns of the trees he was chopping down no one really knows. Roughly half of all the species on earth are thought to live only in forest canopies. No one can say how many species exist on earth. Many biologists believe that most species on earth have not yet been identified and named. Most of these unnamed, undiscovered species (or life-forms) are viruses and bacteria. There are also thought to be many, many arthropods that have never been discovered. An arthropod is a small animal with an exoskeleton and jointed appendages—for example, an insect, a spider, or a shrimp.