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  • The Baintons celebrate Deb's mother's seventieth birthday. Enjoying some ice cream and pie is Deb's mother, Val, standing with her grandsons, Josh and Tadd, to her right and Deb to her left. Supporting image from the project Hungry Planet: What the World Eats.) The Bainton family of Collingbourne Ducis, Wiltshire, England, is one of the thirty families featured, with a weeks' worth of food, in the book Hungry Planet: What the World Eats.
    GRB02_0023_xf1bs.jpg
  • Friends and family celebrate Josh Bainton's 14th birthday party (he's at center) on Saturday night at The Crown, the neighborhood pub. (Supporting image from the project Hungry Planet: What the World Eats.) The Bainton family of Collingbourne Ducis, Wiltshire, England, is one of the thirty families featured, with a weeks' worth of food, in the book Hungry Planet: What the World Eats.
    GRB02_0021_xf1bs.jpg
  • London Millennium Pedestrian Bridge over the River Thames, links Bankside with the City. At night.  London, England.
    GBR_03_xs.jpg
  • London Millennium Pedestrian Bridge over the River Thames, links Bankside with the City.  At night. London, England.
    GBR_02_xs.jpg
  • Tower Bridge over the Thames River at dusk. London, England.
    GBR_01_xs.jpg
  • Punting on the River Thames in Oxford, England.
    GBR_04_xs.jpg
  • London Millennium Pedestrian Bridge over the River Thames, links Bankside with the City.  At night. London, England.
    GBR_02_xs.jpg
  • (MODEL RELEASED IMAGE). The Baintons, who call themselves the Bees, enjoy a family breakfast at home. Mark cooks breakfast; a task he performs every weekend morning, unless, of course, he can persuade his wife Deb to do it. (Supporting image from the project Hungry Planet: What the World Eats.) The Bainton family of Collingbourne Ducis, Wiltshire, England, is one of the thirty families featured, with a weeks' worth of food, in the book Hungry Planet: What the World Eats.
    GRB02_0026_xf1bs.jpg
  • Three Baintons, Mark, Deb, and Josh, all wait at the checkout counter as they purchase a weeks' worth of food from their local Waitrose supermarket in  Collingbourne Ducis, Wiltshire, England. (Supporting image from the project Hungry Planet: What the World Eats.)
    GRB02_0025_xf1bs.jpg
  • Friends and family celebrate Josh Bainton's 14th birthday party on Saturday night at The Crown, the neighborhood pub. Hungry Planet: What the World Eats (p. 143). /// The Bainton family of Collingbourne Ducis, Wiltshire, England, is one of the thirty families featured, with a weeks' worth of food, in the book Hungry Planet: What the World Eats.
    GRB02_0004_xxf1s.jpg
  • Today's menu at the Bainton house: fried eggs with toast, ham, and mushrooms. Hungry Planet: What the World Eats (p. 142). The Bainton family of Collingbourne Ducis, Wiltshire, England, is one of the thirty families featured, with a weeks' worth of food, in the book Hungry Planet: What the World Eats.
    GRB02_0003_xxf1s.jpg
  • Punting on the River Thames in Oxford, England..
    GBR_04_xs.jpg
  • London Millennium Pedestrian Bridge over the River Thames, links Bankside with the City. At night.  London, England.
    GBR_03_xs.jpg
  • Tower Bridge over the Thames River at dusk. London, England.
    GBR_01_xs.jpg
  • The Bainton family weekend breakfast is generally a cooked one. Cold cereal must suffice on the weekdays as everyone but Mark works to get out of the house to school and work (Mark works the late shift so catches up with everyone on the weekend. On the weekends Mark cooks breakfast; unless, of course, he can persuade his wife Deb to do it. (Supporting image from the project Hungry Planet: What the World Eats.) The Bainton family of Collingbourne Ducis, Wiltshire, England, is one of the thirty families featured, with a weeks' worth of food, in the book Hungry Planet: What the World Eats.
    GRB02_0027_xf1bs.jpg
  • (MODEL RELEASED IMAGE). Mark Bainton brings the groceries for the upcoming photo shoot inside his Collingbourne Ducis, Wiltshire, England home. His dog Polo helps keep an eye on the process. (Supporting image from the project Hungry Planet: What the World Eats.)
    GRB02_0022_xf1bs.jpg
  • Mark Bainton, chooses cheese.(Supporting image from the project Hungry Planet: What the World Eats.) The Bainton family of Collingbourne Ducis, Wiltshire, England, is one of the thirty families featured, with a weeks' worth of food, in the book Hungry Planet: What the World Eats.
    GRB02_0020_xf1bs.jpg
  • (MODEL RELEASED IMAGE). The next morning, Mark Bainton cooks breakfast; a task he performs every weekend morning, unless, of course, he can persuade his wife Deb to do it. Hungry Planet: What the World Eats (p. 142). The Bainton family of Collingbourne Ducis, Wiltshire, England, is one of the thirty families featured, with a weeks' worth of food, in the book Hungry Planet: What the World Eats.
    GRB02_0002_xxf1s.jpg
  • (MODEL RELEASED IMAGE). Production shot for the official family food portrait: The Bainton family in the dining area of their living room in Collingbourne Ducis, Wiltshire, with a week's worth of food. Left to right: Mark Bainton, Deb Bainton (petting Polo the dog), and sons Josh, and Tadd. (Supporting image from the project Hungry Planet: What the World Eats.)
    GRB02_0028_xf1bs.jpg
  • (MODEL RELEASED IMAGE). Deb and Mark discuss their grocery list for one weeks' worth of food, while their son Tadd watches over the second grocery cart behind. (Supporting image from the project Hungry Planet: What the World Eats.)
    GRB02_0024_xf1bs.jpg
  • Sam Tucker, lobsterman and fish buyer at Portland Maine Fish Exchange with a deer he shot near his house on Great Diamond Island, Portland, Maine.  (Samuel Tucker is featured in the book What I Eat: Around the World in 80 Diets.)  MODEL RELEASED
    USA_070324_154_xw.jpg
  • Sam Tucker, lobsterman and fish buyer at Portland Maine Fish Exchange on Great Diamond Island in Portland, Maine, heads to work. (Samuel Tucker is featured in the book What I Eat: Around the World in 80 Diets.)  MODEL RELEASED.
    USA_070321_49_xw.jpg
  • Lobsterman Samuel Tucker's breakfast of fresh shrimp and eggs. (From the book What I Eat: Around the World in 80 Diets.) The caloric value of his day's worth of food in March was 3,800 kcals. He is 50; 6 feet 1 and 1/2 inches and 179 pounds.
    USA_070321_41_xxw.jpg
  • (MODEL RELEASED IMAGE). The Bainton family in the dining area of their living room in Collingbourne Ducis, Wiltshire, with a week's worth of food. Left to right: Mark Bainton, Deb Bainton, (petting Polo the dog), and sons Josh, and Tadd.  The Bainton family is one of the thirty families featured in the book Hungry Planet: What the World Eats (p. 140).
    GRB02_0001_xxf1s.jpg
  • As an auction buyer, lobsterman Samuel Tucker examines sow hake in the nearly empty warehouse before the fish auction at Great Diamond Island, Maine. (From the book What I Eat: Around the World in 80 Diets.) The caloric value of his day's worth of food in March was 3,800 kcals. He is 50; 6 feet 1 and 1/2 inches and 179 pounds. Catches are increasingly sparse, and today's will require only a half hour to auction.
    USA_070321_183_xxw.jpg
  • Karen Tucker, the lobsterman Samuel Tucker's wife, discusses morning logistics with her family over pancakes before heading to the ferry with her sons at Great Diamond Island, Maine..  (From the book What I Eat: Around the World in 80 Diets.) MODEL RELEASED.
    USA_070321_120_xxw.jpg
  • Samuel Tucker, a lobsterman, with his typical day's worth of food in front of his boat at the Great Diamond Island dock in Maine.   (From the book What I Eat: Around the World in 80 Diets.) The caloric value of his day's worth of food in March was 3,800 kcals. He is 50 years of age; 6 feet, 1.5 inches tall; and 179 pounds. Sam works the lobster boat by himself, saving on labor, but in the summertime his son Scout comes along. ?He's a blast,? says Sam. ?I take him and some of his friends out; they're all just leaning over the rail in their life preservers looking to see what's in the trap when it comes up. They're pretty good at saying, 'He's got a keeper.'? Sam's state license restricts his traps to the bay, where he averages only one lobster for every two traps. After paying for fuel and bait, there's not much profit. He supplements his income with fish auction commissions, and his family's diet with venison culled from the island's deer population.  MODEL RELEASED.
    USA_070324_341_xxw.jpg
  • Sam Tucker, lobsterman and fish buyer, working on a lobster boat at the Great Diamond Island in Portland, Maine. (Samuel Tucker is featured in the book What I Eat: Around the World in 80 Diets.)  MODEL RELEASED
    USA_070324_469_xw.jpg
  • Paul Jefferson, a blind amputee in army hospital in England was wounded by a land mine in Kuwait. Paul Jefferson, who had overseen the de-mining of the Falklands. He had also written a manual on defusing Russian land mines. But he stepped on one and lost a leg, his eyes, and parts of his hands. Photographer Peter Menzel visited him in a veterans' hospital for the blind in England a few months later and made a short video on his rehabilitation and recollections of the accident. In this photo he is being taught to type with a computer program that sounds out the letters as he types them.
    KUW_074_xs.jpg
  • Paul Jefferson, a blind amputee in army hospital in England was wounded by a land mine in Kuwait. Paul Jefferson, who had overseen the de-mining of the Falklands. He had also written a manual on defusing Russian land mines. But he stepped on one and lost a leg, his eyes, and parts of his hands. I visited him in a veterans' hospital for the blind in England a few months later and made a short video on his rehabilitation and recollections of the accident. In this photo he is being taught to type with a computer program that sounds out the letters as he types them.
    KUW_073_xs.jpg
  • Tombstone of a French-Indian war soldier with Fall foliage in Farmington, Connecticut, New England, USA.
    USA_NENG_8_xs.jpg
  • Church in Farmington, Connecticut during Fall. New England, USA.
    USA_NENG_7_xs.jpg
  • Albany covered bridge, New Hampshire in the fall.  New England, USA.
    USA_NENG_6_xs.jpg
  • Autumn colorful foliage in New Hampshire. New England, USA.
    USA_NENG_5_xs.jpg
  • Nobska lighthouse on Cape Cod, near Falmouth, Massachusetts.  New England, USA.
    USA_NENG_2_xs.jpg
  • Nobska lighthouse on Cape Cod, near Falmouth, Massachusetts. New England, USA.
    USA_NENG_1_xs.jpg
  • Winter afternoon on Newbury St., Back Bay, Boston, Massachusetts.  New England, USA.
    USA_NENG_10_xs.jpg
  • Kensington Palace sunken gardens in full summer bloom. London, England.
    GBR_06_xs.jpg
  • Tombstone of a French-Indian war soldier with Fall foliage in Farmington, Connecticut, New England, USA.
    USA_NENG_8_xs.jpg
  • Church in Farmington, Connecticut during Fall. New England, USA.
    USA_NENG_7_xs.jpg
  • Autumn colorful foliage in New Hampshire. New England, USA.
    USA_NENG_5_xs.jpg
  • Kensington Palace sunken gardens in full summer bloom. London, England.
    GBR_06_xs.jpg
  • Kensington Palace sunken gardens in full summer bloom. London, England.
    GBR_05_xs.jpg
  • (1992) Nymsfield, England. Badger research center. Peter Mallinson takes sputum & blood samples studying the epidemiology of Tuberculosis in Badgers & how they spread it to cattle. Catheters are stuck down the badgers' throats, anesthetizing them, allowing researchers to take blood samples.  By taking sputum and blood samples that are then DNA fingerprinted, researchers are able to study the epidemiology of tuberculosis in badgers and how they spread it to cattle.  Animals were also weighed, ear tagged, and tattooed. DNA consists of two sugar- phosphate backbones, arranged in a double helix, linked by nucleotide bases. There are 4 types of base; adenine (A), cytosine (C), guanine (G) and thymine (T). Sequences of these bases make up genes, which encode an organism's genetic information. DNA Fingerprinting.
    GBR_SCI_DNA_26_xs.jpg
  • (1992) Computer screen display of DNA analysis at the home office of Forensic Science Service in Aldermaston, England.
    GBR_SCI_DNA_19_xs.jpg
  • (1992) At Cambridge University, Bill Amos prepares sloughed sperm whale skin collected off of the Azores Islands in England. The skin is then DNA analyzed to study relationships among the whale population. DNA consists of two sugar- phosphate backbones, arranged in a double helix, linked by nucleotide bases. There are 4 types of base; adenine (A), cytosine (C), guanine (G) and thymine (T). Sequences of these bases make up genes, which encode an organism's genetic information. DNA Fingerprinting. MODEL RELEASED
    GBR_SCI_DNA_14_xs.jpg
  • (1992) Professor Alec Jeffreys (b. 1950), English molecular biologist and discoverer of DNA fingerprinting. In the background is an image of an autoradiogram, the visualization technique used to compare DNA samples. A DNA fingerprint is a unique genetic sequence, which identifies any individual, human or animal, from a tiny sample of tissue such as blood, hair, or sperm. Its many uses include the identification and conviction of criminals, and the proving of family relationships, such as the paternity of a child. Only monozygotic 'identical' twins share the same DNA. DNA consists of two sugar- phosphate backbones, arranged in a double helix, linked by nucleotide bases. There are 4 types of base; adenine (A), cytosine (C), guanine (G) and thymine (T). Sequences of these bases make up genes, which encode an organism's genetic information. The bands (black) on the autoradiogram show the sequence of bases in a sample of DNA. Jeffreys is a professor in the Department of Genetics at the University of Leicester, England. MODEL RELEASED
    GBR_SCI_DNA_09_xs.jpg
  • (1992) Professor Alec Jeffreys (b. 1950), English molecular biologist and discoverer of DNA fingerprinting. In the background is an image of an autoradiogram, the visualization technique used to compare DNA samples. A DNA fingerprint is a unique genetic sequence, which identifies any individual, human or animal, from a tiny sample of tissue such as blood, hair, or sperm. Its many uses include the identification and conviction of criminals, and the proving of family relationships, such as the paternity of a child. Only monozygotic 'identical' twins share the same DNA. DNA consists of two sugar- phosphate backbones, arranged in a double helix, linked by nucleotide bases. There are 4 types of base; adenine (A), cytosine (C), guanine (G) and thymine (T). Sequences of these bases make up genes, which encode an organism's genetic information. The bands (black) on the autoradiogram show the sequence of bases in a sample of DNA. Jeffreys is a professor in the Department of Genetics at the University of Leicester, England. Backgroung shows Autorad. DNA Fingerprinting. MODEL RELEASED
    GBR_SCI_DNA_08_xs.jpg
  • (1992) Professor Alec Jeffreys (b. 1950), English molecular biologist and discoverer of DNA fingerprinting. In the background is an image of an autoradiogram, the visualization technique used to compare DNA samples. A DNA fingerprint is a unique genetic sequence, which identifies any individual, human or animal, from a tiny sample of tissue such as blood, hair, or sperm. Its many uses include the identification and conviction of criminals, and the proving of family relationships, such as the paternity of a child. Only monozygotic 'identical' twins share the same DNA. DNA consists of two sugar- phosphate backbones, arranged in a double helix, linked by nucleotide bases. There are 4 types of base; adenine (A), cytosine (C), guanine (G) and thymine (T). Sequences of these bases make up genes, which encode an organism's genetic information. The bands (black) on the autoradiogram show the sequence of bases in a sample of DNA. Jeffreys is a professor in the Department of Genetics at the University of Leicester, England. DNA Fingerprinting. MODEL RELEASED
    GBR_SCI_DNA_07_xs.jpg
  • (1992) Alison Thomas loading gel and putting a lid on a gel tank at Cellmark Diagnostics, England's first commercial DNA fingerprinting lab. DNA consists of two sugar- phosphate backbones, arranged in a double helix, linked by nucleotide bases. There are 4 types of base; adenine (A), cytosine (C), guanine (G) and thymine (T). Sequences of these bases make up genes, which encode an organism's genetic information. DNA Fingerprinting. MODEL RELEASED.
    GBR_SCI_DNA_05_xs.jpg
  • Group of homeless people in Boston in winter, keeping warm on a ventilation grill by the Boston Public Library.  New England, USA.
    USA_NENG_9_xs.jpg
  • Autumn leaves in on a rural road in Western Massachusetts. New England, USA.
    USA_NENG_4_xs.jpg
  • Fall in the Berkshire Mountains, Western Massachusetts.  New England, USA.
    USA_NENG_3_xs.jpg
  • Kensington Palace sunken gardens in full summer bloom. London, England.
    GBR_05_xs.jpg
  • Albany covered bridge, New Hampshire in the fall.  New England, USA.
    USA_NENG_6_xs.jpg
  • (1992) A tiny glob of DNA floating in solution in a vial at Cellmark Diagnostics, England's first commercial DNA fingerprinting lab. . DNA consists of two sugar- phosphate backbones, arranged in a double helix, linked by nucleotide bases.
    USA_SCI_DNA_18_xs.jpg
  • (1992) Dave Ford trains for the races with his Siberian husky team by the Santon Parish Church in Thetford, England. The team was DNA tested by Cellmark to determine their paternity. DNA Fingerprinting. MODEL RELEASED.
    GBR_SCI_DNA_21_xs.jpg
  • (1992) A video file search of fingerprints at the Scotland Yard in London, England. DNA Fingerprinting.
    GBR_SCI_DNA_18_xs.jpg
  • (1992) Coding fingerprints by hand in preparation to enter the information in a computer system. Scotland Yard, London, England. DNA Fingerprinting.
    GBR_SCI_DNA_17_xs.jpg
  • (1992) At Cambridge University, Bill Amos prepares sloughed sperm whale skin collected off of the Azores Islands in England. The skin is then DNA analyzed to study relationships among the whale population. DNA consists of two sugar- phosphate backbones, arranged in a double helix, linked by nucleotide bases. There are 4 types of base; adenine (A), cytosine (C), guanine (G) and thymine (T). Sequences of these bases make up genes, which encode an organism's genetic information. DNA Fingerprinting. MODEL RELEASED
    GBR_SCI_DNA_15_xs.jpg
  • (1992) Professor Alec Jeffreys (b. 1950), English molecular biologist and discoverer of DNA fingerprinting. In the background is an image of an autoradiogram, the visualization technique used to compare DNA samples. A DNA fingerprint is a unique genetic sequence, which identifies any individual, human or animal, from a tiny sample of tissue such as blood, hair, or sperm. Its many uses include the identification and conviction of criminals, and the proving of family relationships, such as the paternity of a child. Only monozygotic 'identical' twins share the same DNA. DNA consists of two sugar- phosphate backbones, arranged in a double helix, linked by nucleotide bases. There are 4 types of base; adenine (A), cytosine (C), guanine (G) and thymine (T). Sequences of these bases make up genes, which encode an organism's genetic information. The bands (black) on the autoradiogram show the sequence of bases in a sample of DNA. Jeffreys is a professor in the Department of Genetics at the University of Leicester, England. DNA Fingerprinting. MODEL RELEASED
    GBR_SCI_DNA_10_xs.jpg
  • (1992) A glob of DNA floating in solution in a vial at Cellmark Diagnostics, England's first commercial DNA fingerprinting lab. DNA consists of two sugar- phosphate backbones, arranged in a double helix, linked by nucleotide bases. There are 4 types of base; adenine (A), cytosine (C), guanine (G) and thymine (T). Sequences of these bases make up genes, which encode an organism's genetic information. DNA Fingerprinting. .
    GBR_SCI_DNA_04_xs.jpg
  • (1992) Glona Omodiagbe visually analyzes a DNA (deoxyribonucleic acid) autoradiogram at Cellmark Diagnostics, England's first Commercial DNA fingerprinting lab. MODEL RELEASED
    GBR_SCI_DNA_03_xs.jpg
  • (1992) At the Home Office of the Forensic Science Service in Aldermaston, England, John Bark and Linda Nelson discuss the results of a DNA profile of blood and semen samples taken from a pair of pants. The blood will be removed, and then analyzed using DNA fingerprinting techniques. This will enable the scientist to determine whether the blood belonged to the victim or the assailant. Hanging up in the foreground are various DNA (deoxyribonucleic acid) autoradiograms from other DNA fingerprinting studies. DNA consists of two sugar- phosphate backbones, arranged in a double helix, linked by nucleotide bases. There are 4 types of base; adenine (A), cytosine (C), guanine (G) and thymine (T). Sequences of these bases make up genes, which encode an organism's genetic information. The bands (black) on the autoradiogram show the sequence of bases in a sample of DNA. MODEL RELEASED
    GBR_SCI_DNA_01_xs.jpg
  • (1992) Vivian Emerson, department head of Home Office, looking at DNA radiograms at the Forensic Science Service in Aldermaston, England. DNA consists of two sugar- phosphate backbones, arranged in a double helix, linked by nucleotide bases. There are 4 types of base; adenine (A), cytosine (C), guanine (G) and thymine (T). Sequences of these bases make up genes, which encode an organism's genetic information. The bands (black) on the autoradiogram show the sequence of bases in a sample of DNA. DNA Fingerprinting. MODEL RELEASED
    GBR_SCI_DNA_12_xs.jpg

Peter Menzel Photography

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