Uh-oh, it looks like your Internet Explorer is out of date.
For a better shopping experience, please upgrade now.
Meet rufa red knot B95. Scientists call him the Moonbird because, in the course of his astoundingly long lifetime, this robin-sized shorebird has ?own the distance to the moon-and halfway back! Each February he joins a ?ock that lifts off from Tierra del Fuego, headed for breeding grounds in the Canadian Arctic, nine thousand miles away. Late in the summer, he begins the return journey.
B95 can fly for days, but eventually he must descend to refuel and rest. However, recent changes at stopover sites along his migratory circuit-changes caused mostly by human activity-have reduced the food available and made it harder for the birds to reach. During B95's lifetime, the worldwide rufa population has collapsed by nearly 80 percent. Still, the Moonbird wings on; he is now nearly twenty years old. Shaking their heads, scientists ask themselves: How can this one bird make it year after year when so many others fall?
National Book Award-winning author Phillip Hoose shows the obstacles rufa red knots face, introduces a worldwide team of scientists and conservationists trying to save them, and offers insights about what we can do to help shorebirds before it's too late. With inspiring prose, thorough research, and stirring images, Hoose explores the tragedy of extinction through the triumph of a single bird.
Meet rufa red knot B95. Scientists call him the Moonbird because, in the course of his astoundingly long lifetime, this robin-sized shorebird has ?own the distance to the moon-and halfway back! Each February he joins a ?ock that lifts off from Tierra del Fuego, headed for breeding grounds in the Canadian Arctic, nine thousand miles away. Late in the summer, he begins the return journey.
B95 can fly for days, but eventually he must descend to refuel and rest. However, recent changes at stopover sites along his migratory circuit-changes caused mostly by human activity-have reduced the food available and made it harder for the birds to reach. During B95's lifetime, the worldwide rufa population has collapsed by nearly 80 percent. Still, the Moonbird wings on; he is now nearly twenty years old. Shaking their heads, scientists ask themselves: How can this one bird make it year after year when so many others fall?
National Book Award-winning author Phillip Hoose shows the obstacles rufa red knots face, introduces a worldwide team of scientists and conservationists trying to save them, and offers insights about what we can do to help shorebirds before it's too late. With inspiring prose, thorough research, and stirring images, Hoose explores the tragedy of extinction through the triumph of a single bird.
Narrated by Phillip Hoose
Phillip HooseUnabridged — 3 hours, 9 minutes
Narrated by Phillip Hoose
Phillip HooseUnabridged — 3 hours, 9 minutes
Free with a B&N Audiobooks Subscription | Cancel Anytime
Already Subscribed?
Sign in to Your BN.com Account
FREE
with a B&N Audiobooks Subscription
Meet rufa red knot B95. Scientists call him the Moonbird because, in the course of his astoundingly long lifetime, this robin-sized shorebird has ?own the distance to the moon-and halfway back! Each February he joins a ?ock that lifts off from Tierra del Fuego, headed for breeding grounds in the Canadian Arctic, nine thousand miles away. Late in the summer, he begins the return journey.
B95 can fly for days, but eventually he must descend to refuel and rest. However, recent changes at stopover sites along his migratory circuit-changes caused mostly by human activity-have reduced the food available and made it harder for the birds to reach. During B95's lifetime, the worldwide rufa population has collapsed by nearly 80 percent. Still, the Moonbird wings on; he is now nearly twenty years old. Shaking their heads, scientists ask themselves: How can this one bird make it year after year when so many others fall?
National Book Award-winning author Phillip Hoose shows the obstacles rufa red knots face, introduces a worldwide team of scientists and conservationists trying to save them, and offers insights about what we can do to help shorebirds before it's too late. With inspiring prose, thorough research, and stirring images, Hoose explores the tragedy of extinction through the triumph of a single bird.
With an effective mix of facts and conjecture, Hoose conveys B95's wide experience, from the challenges of his first month in Arctic Canada 20 years ago to the physical demands of flying for three days straight. Hoose's vivid prose and the book's close-up photos give a sense of other red-knot talents, like fattening up for a long flight and sleeping while staying alert for predators.
National Book Award–winner Hoose (Claudette Colvin: Twice Toward Justice) introduces readers to the small rufa red knot shorebird known as B95, which makes an 18,000-mile migratory circuit from the bottom of the world to the top and back again each year. “Something about this bird was exceptional; he seemed to possess some extraordinary combination of physical toughness, navigational skill, judgment, and luck,” writes Hoose. Eight chapters offer an extraordinarily detailed look at everything red knot, from a description of its migratory paths and the food found at each stopover to the physiology of its bill and factors that threaten the species with extinction. Profiles of bird scientists or activists conclude most chapters. The information-packed narrative jumps between past and present as it follows a postulated migration of B95, accompanied by numerous sidebars, diagrams, maps, and full-color photographs. Readers will appreciate Hoose’s thorough approach in contextualizing this amazing, itinerant creature that was last spotted in 2011. Those motivated to action will find an appendix of ways to get involved. An index, extensive source notes, and bibliography are included. Ages 10–up. (July)
[A] deeply researched, engaging account…” —School Library Journal, starred
“Putting an actual beaked face to the problem of animal endangerment makes the story of the species' peril all the more compelling, and only the truly hard of heart could resist cheering for B95 to make it through one more trip.” —BCCB, Starred
“With an effective mix of facts and conjecture, Hoose conveys B95's wide experience, from the challenges of his first month in Arctic Canada 20 years ago to the physical demands of flying for three days straight. Hoose's vivid prose and the book's close-up photos give a sense of other red-knot talents, like fattening up for a long flight and sleeping while staying alert for predators. And there's recent good news: B95 was photographed in late May, feasting on horseshoe crab eggs in Delaware Bay. ” —The Washington Post
“Hoose's fascinating account concerns much more than this one bird.” —Horn Book, starred
“...beautiful and vivid…” —VOYA
“Hoose's stature as a preeminent nonfiction author combined with the high-interest animal hook will generate hearty attention and enthusiasm for this one.” —Booklist, starred
“Readers will appreciate Hoose's thorough approach in contextualizing this amazing, itinerant creature…” —Publishers Weekly, starred
“Meticulously researched and told with inspiring prose and stirring images, this is a gripping, triumphant story of science and survival. ” —Kirkus, starred
The rufa, one of six species of red knots, is a tiny shore bird that makes a great trek between Patagonia at the bottom of South America to the Arctic every year on its migratory path. Even though this "superbird" accomplishes this amazing task, covering approximately 18,000 miles each year, its population is struggling. The numbers of the rufa red knot have been drastically declining. More than 80% of the population has disappeared in recent years. Hoose researched the species and spent time with scientists who have studied these red knots, particularly one hardy specimen numbered B95, and shares their plight in Moonbird: A Year On The Wind With The Great Survivor B95. Hoose's writing is beautiful and vivid, which is hard to come by in many nonfiction selections. Not only are the descriptions well written, but Hoose also tells the story of B95 in a personified way, following the awe-inspiring migration path, called the Great Circuit, that it makes each year. This makes readers root for the little bird and raises awareness of the difficulty that the entire subspecies is having. The final chapter and appendix include information about what readers can do to take action to support the red knots and help prevent extinction. Maps and photographs are plentiful, adding to the enjoyment. Boxes of additional information are found throughout, as well as profiles of the scientists that study these shore birds. Overall, Moonbird is a great nonfiction selection for those interested in shorebirds or ecology. Reviewer: Dawn Talbott
This is the story of a moonbird—an athletic red knot (that is a type of bird) that has flown 325,000 miles in his recorded life. That four-ounce bird has gone the distance to the moon and half way back. Red Knot B95 is an athlete, but what makes this story worth the time is not the bird itself, but the passion that people bring to it. This is the story of the scientists (and a writer) who become enamored with the red knots, study them, and try to preserve their habitat. The more Hoose explores his topic—explaining the physiology of a bird that allows it to fly so well, the places they land, and the teams that come out to meet the red knots—the more we learn about the scientists who want to know how this bird functions. The adventure comes close to reading like a novel, as the reader is drawn into the question of whether B95 will survive another migration. Hoose interrupts his story with profiles of interesting scientists in sidebars. The photos and maps are abundant and well explained. This book should appeal to nonfiction readers and adventure readers alike. Reviewer: Amy S. Hansen
Before devouring Phillip Hoose’s The Race To Save the Lord God Bird in 2004, this reader had no idea how compelling a book about a bird could be. In Race To Save, the author described the tragedy of a species’ extinction. In this year’s Moonbird, Hoose again tells a riveting story of avian survival, this time through the lens of a single bird, tagged B95, who has flown enough miles in its 20 year lifetime to have gone to the moon, and halfway back. B95 is a rufa, a shorebird, who migrates from South America to the Canadian Arctic. His survival is all the more amazing because during his lifetime, his species’ numbers have been reduced by 80 percent owing to human activity. A beautiful and engaging story of a bird that is so much more than meets the eye.
(c) Copyright 2011. Library Journals LLC, a wholly owned subsidiary of Media Source, Inc. No redistribution permitted.
Gr 6 Up—Phillip Hoose describes a year in the life of a rufa red knot (shorebird)—how they fatten themselves during the Argentinean winters, fly to the Canadian arctic to breed, and mate and raise their young in the far north before making the long trip back to Tierra del Fuego in the fall. He offers, in sidebars, short profiles of biologists who study these birds, descriptions of specific environments, and portraits of ecological programs that work to protect shorebirds. Hoose paints a fascinating portrait of one tough little red knot called B95, who is probably almost 20 years old. It is highly unusual for a wild bird to survive for so long, especially one who migrates almost 18,000 miles each year. B95 has been nicknamed "Moonbird" since he has flown the distance to the moon and part way back. Hoose reads his own book (Farrar, Straus, 2012) in a clear, friendly voice, easily conveying emotions and animating the text. Have the book available so listeners can peruse the many wonderful photographs as well as the URLs of many interesting websites since the recitation of this information is not the most effective means of presentation. A delightful audiobook.—Geri Diorio, Ridgefield Library, CT
Gr 6 Up—Moonbird is a nickname scientists have given to a small Eastern shorebird known for both his unusually long life and his enormously long annual migration. Hoose intertwines the story of this bird's remarkable survival with detailed accounts of the rufa red knot's physical changes through its yearlong cycle of migrating from the bottom of the world (usually Tierra del Fuego) to its Arctic breeding grounds and back again at summer's end-a round trip of some 18,000 miles. Moonbird, known usually by the identifying label "B95" on his orange leg band, was first banded in 1995, when it was thought that he was at least three years old, and Hoose notes sightings of him through early 2011 just as the book was reaching completion. At that point it was estimated that over 20 years' time, B95 had flown "more than 325,000 miles in his life-the distance to the moon and nearly halfway back." The feat is particularly celebrated among bird scientists because this species is rapidly declining as humans use and misuse its feeding grounds and food supply. The threatened state of the species and the personal work being done by scientists and conservationists are strong themes throughout the book. Hoose describes his own experiences participating in study trips and introduces children and teens engaged in study, conservation, and lobbying projects in Canada, the United States, and Argentina. This deeply researched, engaging account is a substantial and well-designed package of information illustrated with handsome color photographs, ample maps, appended descriptions of the conservation work, and thorough source notes.—Margaret Bush, Simmons College, Boston
As he did in The Race to Save the Lord God Bird (2004), Hoose explores the tragedy of extinction through a single bird species, but there is hope for survival in this story, and that hope is pinned on understanding the remarkable longevity of a single bird. B95 is a 4-ounce, robin-sized shorebird, a red knot of the subspecies rufa. Each February he joins a flock that lifts off from Tierra del Fuego and heads for breeding grounds in the Canadian Arctic, 9,000 miles away. Late in the summer, he begins the return journey. Scientists call him Moonbird because, in the course of his astoundingly long lifetime of nearly 20 years, he has flown the distance to the moon and halfway back. B95 can fly for days without eating or sleeping but eventually must land to refuel and rest. Recent changes, however, at refueling stations along his migratory circuit, most caused by human activity, have reduced the available food. Since 1995, when B95 was captured and banded, the rufa population has collapsed by nearly 80 percent. Scientists want to know why this one bird survives year after year when so many others do not. In a compelling, vividly detailed narrative, Hoose takes readers around the hemisphere, showing them the obstacles rufa red knots face, introducing a global team of scientists and conservationists, and offering insights about what can be done to save them before it's too late. Meticulously researched and told with inspiring prose and stirring images, this is a gripping, triumphant story of science and survival. (photographs, source notes, bibliography, index) (Nonfiction. 10 & up)
| BN ID: | 2940172530555 |
|---|---|
| Publisher: | Brilliance Audio |
| Publication date: | 11/15/2019 |
| Edition description: | Unabridged |
| Age Range: | 8 - 11 Years |
CHAPTER 1
Superbird
October 2009 through February 2010: Beaches near Rio Grande, Tierra del Fuego, Argentina
To watch the flight of shore birds that have swept up and down the surf lines of the continents for untold thousands of years ... is to have knowledge of things that are as nearly eternal as any earthly life can be.
— Rachel Carson
DECEMBER 8, 2009, RIO GRANDE, TIERRA DEL FUEGO, ARGENTINA
My laptop says I am 6,811 miles from home. I have just arrived at Rio Grande, a small city in Tierra del Fuego, an archipelago at the southern tip of South America. I'm here to join an international group of scientists in the wintering grounds of rufa red knots.
I have never been this far from home. The night before last I slept in the southernmost city in the world, Ushuaia, Argentina, where tourist attractions include penguin watching, glacial hiking, catamaran trips to Antarctica, and the End of the World Museum. Small herds of llamalike guanacos looked up from patches of shrubs as our rental car rattled by. Condors soared high overhead on kitelike wings. Though I am sleep-deprived from twenty-four hours of flying and running to make tight airplane connections, I remind myself that I have traveled barely a third of the distance a red knot flies each year.
Even though it is December everywhere, it is not winter everywhere. Winter is a relative term for a bird that spends its year moving along an eighteen-thousand-mile circuit throughout the western hemisphere. Here, at the bottom of Argentina, it is austral (meaning southern) summer. Pale light bleeds around my window shade all night long, and by 6:00 a.m. the sun is glaring. A stubborn wind shakes the shrubs outside at all hours and rattles the tin sign out front.
TIERRA DEL FUEGO: LAND OF FIRE
Rufa red knots have chosen a famously remote place to pass the months October to February. Tierra del Fuego is an archipelago (group of islands) separated from mainland South America by a navigable channel called the Strait of Magellan, featuring bitter winds and treacherous currents. The biggest island, Isla Grande — partly in Chile and partly in Argentina — contains the only two major settlements, Rio Grande and Ushuaia, both in Argentina. In 1520, Ferdinand Magellan, seeking a passage to the spice islands of Asia, passed through the strait and saw fires set by indigenous peoples. He named the land Tierra del Fuego, or "Land of Fire."
In 1831, HMS Beagle, with the naturalist Charles Darwin aboard, made a closer study of the land, but the first European colonists did not settle on Tierra del Fuego until 1871. Indigenous peoples quickly died of diseases such as measles and smallpox, against which they had no immunity. Others were imprisoned. Today the main language is Spanish. Ushuaia has become a major tourist destination for adventurers, and is a jumping-off point for Antarctica, some six hundred miles to the south.
After breeding in the faraway Arctic, thousands of red knots — an estimated 60 percent of the entire rufa population — gather here, on the shores of this barren, windswept region, between the months of October and February. I have been invited to join a research team organized by Dr. Allan Baker, professor of ecology and evolutionary biology at the University of Toronto, and Patricia González, a noted Argentine shorebird biologist. Here in Tierra del Fuego, we will attempt a "catch," banding and studying knots on the Atlantic shoreline near the town of Rio Grande. Because the rufa red knot population has crashed so drastically in such a short time, scientists are keen to discover how many knots are here and what percentage of them are juveniles. They're hoping for a higher-than-normal percentage of young birds within a catch, as that would indicate a successful breeding season.
After breakfast, Allan and Patricia announce that we will attempt a catch this very morning. A large flock of knots has been spotted on a beach near the Naval Prefecture — a fortresslike building that functions as a coast guard station — a few miles away. With luck, we'll be able to briefly capture birds with a cannon-fired net, band those not already banded, and record measurements indicating their age, gender, weight, feather condition, bill length, and overall health before releasing them.
We pack up the net, cannons, and assorted instruments and drive to the target beach. The tenacious offshore wind tears at our clothing as we struggle to haul the red-mesh net onto the shore. I climb to a ridge of sand and shield my eyes to squint at the beach and the glittering sea beyond. The tide is halfway out now, but returning rapidly, channels filling with water. The exposed ocean floor is unlike anything I have ever seen. It looks like a pavement composed of flat, overlapping reddish-brown shelves that are pocked with thousands of holes still gleaming with water from the last high tide.
WHY DO RED KNOTS GO SO FAR?
"The lives of all wild creatures revolve around food," says Dr. Clive Minton, shorebird expert. "Knots go to the Arctic because there's an incredible volume of food there for a few short weeks. Also, there is enough space up there for each pair to have a separate breeding territory with enough food for their own chicks. And it is light nearly all the time, so they can see their food. It's worth it to risk the hazards of migration to gain that food resource. But they have to be out of there before winter returns in early August.
"Knots have learned to find food along the tidal shores of the world. After breeding, most return to places far south, like Tierra del Fuego. There they can find invertebrate shellfish and worms in the mudflats, and since it is summer there, they have plenty of daylight to see their prey.
"If you could ban birds from the southern hemisphere, there wouldn't be enough food to support them in the north. So they've learned to spread out. And by spreading out, they've maximized the world population of their species."
Experts say the lure of Tierra del Fuego to red knots — the reason they fly all this way — is the food locked within this seascape. The seafloor here is called restinga, formed when reddish dust swept seaward by the wind off the treeless plains is packed down into a hard pavement by the weight of the tides. Throughout the restinga shelves lie dense beds of mussels, whose young are known as spat. Their shells are not yet fully formed, making them soft enough for knots to digest. The spat are just strong enough to cling to the restinga as waves wash over them, but no match for the tug of a ravenous red knot's bill. Red knots work the pitted restinga shelves quickly during low tide, picking off spat with mechanical efficiency and also feeding on populations of worms and clams that peak here between November and January.
B95: CALIDRIS CANUTUS RUFA
In 1753 the Swedish biologist Carl von Linné, better known as Linnaeus, developed a system that gave every species of plant and animal in the world a unique sequence of Latin names. The framework had seven parts. A red knot belongs to the kingdom Animalia — the animal kingdom — and the phylum Chordata — meaning it has a spine with vertebrae. Like all birds, knots are of the class Aves. They belong to the order Charadriiformes — a large group of shorebirds with 16 families and 314 species — and to the family Scolopacidae, shorebirds with long legs and bills, and slender bodies. The genus is Calidris — sandpipers of the seashore and tundra. Linnaeus himself named the species canutus after the Danish king Canute, who was said to be so powerful that he could hold back the tides with a simple command.
There are six red knot subspecies, named rogersi, piersmai, canutus,roselaari, islandica, and rufa. B95 belongs to rufa — meaning "red." Scientists believe all six subspecies came from a single red knot species that lived near the North Pole until the earth's climate got so cold that they were forced to migrate southward to warmer places. Over thousands of years they sorted themselves into six different migratory routes, until they became permanently separated into subspecies. As of this writing, rufa is the only one of the six red knot subspecies with a population crashing toward extinction.
There's another reason that Tierra del Fuego Lures rufa knots: daylight is almost constant here at this time of year. Because there are more hours of daylight at this extreme southern latitude than, say, the typical twelve hours at the equator, birds have more time to see their prey. So in Tierra del Fuego food is often uncovered by seawater and in plain sight during two low tides instead of just one. Here, the birds not only have more food, but more time to find it.
One reason for the excitement the shorebird researchers and I feel, as we finally attach the long net to the rockets that will propel it, is the chance to meet the most famous shorebird in the world. The legendary B95 has been captured four times, always on the restinga of Rio Grande during austral summer. We can almost feel his presence. As we conceal ourselves in nearby beach grass and wait hopefully for the cannons' muffled roar, many of us wonder: Can B95 still be alive?
1995: THE BLACK BAND
B95 made his debut to science on February 20, 1995, within sight of where we are right now. That year, a Canadian research team, organized and led by Dr. Baker, flew to Tierra del Fuego to band red knots. Baker wondered why these birds would bother to fly so far each year and what their exact routes were. How had these pathways developed? Some of Dr. Baker's Toronto colleagues balked at traveling great distances to trap birds in the wild. They preferred instead to learn the old-fashioned way — by shooting birds when they came through Canada and then examining the dead creatures as specimens in a laboratory. Dr. Baker made it clear that he would have none of it. "I said to them, 'How can you talk about conservation biology when you are killing thousands of animals?'?"
Dr. Baker took to the field — unarmed. He devoted his energy to trapping knots briefly and marking individuals with lightweight, color-coded leg bands — and then releasing them. If researchers could band enough shorebirds and see them again and again atvarious places throughout their migratory circuit, the pathways and stopping places would become apparent. The more birds they could catch and band — and then release — the more data would pile up and the more clues they would have.
But red knots are very hard to catch. Knots aren't like ducks, which can be baited with bread crumbs or decoyed in. They are notoriously wary. They feed, sleep, and travel in cliquishly tight flocks. While feeding they post sentinels, birds that send the whole flock flashing away with one warning cry. Dr. Baker hoped to catch at least three hundred knots, but he didn't know how. To increase his chances, his team flew in the famed Dr. Clive Minton from Australia. Minton, a metals scientist by profession, had spent much of his life perfecting techniques to trap shorebirds. He pioneered the art of using cannons to shoot rockets attached to nets over the feeding flocks. After decades of experimentation, Dr. Minton had become the unquestioned world expert. If anyone could catch red knots, Clive Minton could.
Because the early-morning air was unusually warm, workers stripped to their shorts and T-shirts. At ten o'clock the incoming tide pushed a huge group of shorebirds squarely into target range. Dr. Minton fired off his tennis-court-size net, which whizzed through the air and came down upon a mammoth group of shorebirds, mostly red knots. It was a spectacular catch, much bigger than they had anticipated. Team members sprinted through the sand and plunged into the surf to gather up the front edge of the net and save the trapped birds from drowning.
It took two hours just to untangle all the birds, during which time the temperature steadily dropped. Local teenagers jumped in to help carry birds to cloth-covered cages where they would remain calm until they were measured, weighed, and released. By the third hour the researchers were shivering in wet clothes. A violent storm welled up, pelting everyone with hailstones that soon turned to snowflakes. Freezing workers struggled to move their stiff, numb fingers enough to band the birds, take measurements, and record data.
The Argentine navy sent two canvas-covered trucks out to the beach so that the scientists could climb in and finish their work. They labored for hours in a crouched position, their backs bent under the low roof. The team captured so many birds that they quickly ran out of colored bands. Improvising, they fired up a camp stove to heat thin strips of black plastic found in one of the trucks until the strips were pliable enough to bend into bands. Repeatedly scorching their fingers on the stove's flame, the researchers carefully wrapped the black strips around each bird's lower right leg and joined the end with a soldering iron. They also applied a yellow band to the lower left leg.
The bird we know as B95 was among 850 red knots caught that day. His now-iconic black band was applied to his lower right leg by a shivering worker with stiff fingers and an aching back. Of the hundreds of knots that received black bands in the trucks that day, he is the lone survivor that scientists can identify. Records show that this knot had adult plumage even then, which means he had to have been at least three years old in 1995, and could have been older.
MOLT
The process of exchanging used and worn flight feathers for new feathers is called molt. A knot's feathers are replaced in a regular sequence. Primary feathers — the long feathers on the outside portion of the wing — are replaced feather by feather from the inside out. Secondary feathers — those closer to the body — are replaced from the outside in. The feathers die and regrow in a careful order, so that the bird always has enough feathers to fly. It takes about sixty days for a knot to replace its primary feathers. Flight feathers are renewed once a year and body feathers twice, first in autumn to produce the gray winter plumage, and again in spring to create a bright red breeding plumage.
2001: AN IDENTITY
Six years later, on November 17, 2001, one of the black-banded birds from 1995 was snared in a cannon net catch, just miles from where he was originally caught. Both bands were still on his legs. Patricia González added a new flag to his upper left leg, bearing the inscription B95. "On that day we used laser-inscribed flags for the first time," recalls González. "We inscribed one letter and two numbers on each band to give each individual bird a distinct identity. The figures were big and clear and easy to read through a spotting scope. We used up all one hundred of the bands in series A and we still had more birds to band, so we started the B series. This bird got a flag reading B95. The 95 doesn't represent the year he was caught. We just happened to be at that number when we banded him. It's a coincidence that '95 was the year when he was first captured."
2003: A SURVIVOR
Now he was — and always would be — B95. And when he turned up again at Tierra del Fuego in 2003 it was clear he was more than just an extraordinary pilot who could find his way back year after year. He was a survivor, for the entire rufa subspecies of red knots was plunging toward extinction. Researchers in the United States, Chile, Canada, Brazil, and Argentina were all reporting significantly fewer knots. Some estimates indicated that half of all adult birds had died in just two years, between 2000 and 2002. Yet in 2003, B95, at least eleven years old, was still completing marathon migratory flights. Something about this bird was exceptional; he seemed to possess some extraordinary combination of physical toughness, navigational skill, judgment, and luck.
(Continues…)
Excerpted from "Moonbird"
by .
Copyright © 2012 Phillip Hoose.
Excerpted by permission of Farrar, Straus and Giroux.
All rights reserved. No part of this excerpt may be reproduced or reprinted without permission in writing from the publisher.
Excerpts are provided by Dial-A-Book Inc. solely for the personal use of visitors to this web site.
