MR. PEACHES STORY
Words by Nancy Forrester
Graphics collaboration by Nancy Forrester &
Artificial Intelligence (Midjourney, Dall-E and Firefly.
Words by Nancy Forrester
Graphics collaboration by Nancy Forrester &
Artificial Intelligence (Midjourney, Dall-E and Firefly.
Mr. Peaches says, it's fun imaging what my proposed trip might look like from up above!
Mr. Peaches lifelong dream of visiting Indonesia comes true!
This trip requires extensive preparations on his part.
This trip requires extensive preparations on his part.
Hello! I am Mr. Peaches an American born Moluccan Cockatoo; I want to visit the Spice Islands in Indonesia to experience my native country. I want to visit the rainforest there and find and socialize with parrots just like me, I want to find Bonnie Zimmerman and others at the Indonesian Parrot Project to thank them for the work they do to save all the parrots of the region from poaching for the pet trade and other human activities that are leading to their extinction. I understand the importance of the conservation work they do to save my cousins the Abbattoo cockatoos on Masalambu Island, only 17 remain, making them the rarest parrot on Earth! http://indonesian-parrot-project.org
My trip requires careful planning. Here are the steps I am taking for my safe passage from Key West, Florida to the Spice Islands, Indonesia.
Step 1. Plan my route by looking at Earth as a globe from outer space and study maps of the Spice Islands.
Step 2. Learn about flying. Learn to fly by taking flying lessons with the world's best flyers, the dragon fly, falcon, albatross, and lessor-tail bat.
Step 3. Study navigation. Learn natural ways to navigate by day and night by using constellations, Earth's magnetic fields of energy and wind tunnels from the worlds most experienced navigators, the monarch butterfly, the Indigo bunting and the Dung beetle.
Step 4. Design and have built a solar powered high altitude flying Cargo-Freight Drone with retractable landing wheels and pontoons. This high-tech freight drone will accompany me on my trip providing me with on board access to food, water, necessary supplies safety and rest.
Step 5, Special paraphernalia designed and manufacture for my trip, like foot and eye wear
Step 6, Arrival!!
Step 7, Party!
Step 8. Summation
Step 1. Plan my route by looking at Earth as a globe from outer space and study maps of the Spice Islands.
Step 2. Learn about flying. Learn to fly by taking flying lessons with the world's best flyers, the dragon fly, falcon, albatross, and lessor-tail bat.
Step 3. Study navigation. Learn natural ways to navigate by day and night by using constellations, Earth's magnetic fields of energy and wind tunnels from the worlds most experienced navigators, the monarch butterfly, the Indigo bunting and the Dung beetle.
Step 4. Design and have built a solar powered high altitude flying Cargo-Freight Drone with retractable landing wheels and pontoons. This high-tech freight drone will accompany me on my trip providing me with on board access to food, water, necessary supplies safety and rest.
Step 5, Special paraphernalia designed and manufacture for my trip, like foot and eye wear
Step 6, Arrival!!
Step 7, Party!
Step 8. Summation
STEP 1, PLAN MY ROUTE
My journey begins by visualizing my ariel route from a global perspective here are several envisioned routes thanks to the Satellite Wonders of Technology
Southern US to Northern Indonesia,
The Florida Keys to The Spice Islands,
Key West to Ambon
Southern US to Northern Indonesia,
The Florida Keys to The Spice Islands,
Key West to Ambon
International Space Station, Earth observation, altitude 245 miles up
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Satellite Hubble Space Telescope (orbit 380 miles) LEO
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Nasa Landsat series
Observation, Voyage of discovery |
My earthly destination is far away.
It is 9,986 miles from Key West to the Spice Islands.
It is 9,986 miles from Key West to the Spice Islands.
I'm have searched for my ancestral homeland in the Java Sea, the Spice Islands, City of Ambon, Islands of Sernam and Masakambing. These are the islands where my kind (Moluccan Cockatoos) evolved and still exist today. The Antique maps of Indonesia are pretty, but I cannot find the places I am looking for! The language on the maps is foreign to me. It is either Dutch or Portuguese. I understand English only. These maps were drawn by sailors who participated in the spice trade in the 17th Century.
Searching for the Java Sea
Seram Archipelago |
Searching for the Spice Islands
Seram, Ambon, Saparua |
Searching for Maluku Islands
the Southern Maluku Islands |
"After visualizing my global route and studying the maps of the Maluku Islands it is clear that there are only two ways to get there by air or sea, by flying or sailing.
Spice Islands History
The Spice Islands, also known as the Maluku Islands, are a group of islands in Indonesia that are famous for their spices such as cloves and nutmeg. The introduction of clove, nutmeg, and mace into world trade was dependent on Indonesian sailors, Clove, nutmeg, and mace were native to only a handful of tiny islands in the middle of the vast Indonesian archipelago – cloves on five Maluku Islands, and nutmeg on the ten Banda Islands The Portuguese were the first Europeans to discover the Spice Islands in the early 16th century. After defeating the threat from the Spanish, the Portuguese Empire controlled most of the spice trade for almost a century. Eventually the Dutch and English made it a three-way struggle for control, which the Dutch won, they dominated the spice industry until the late 18th Century. The Spice Islands are now called the Maluku Islands. This archipelago consists of over 1000 islands with a combined land mass of about 387 square miles. Indonesians won their independence in 1945 Two provinces were formed North Maluku Province and Melaku Province with Ambon its capital.
The Spice Islands, also known as the Maluku Islands, are a group of islands in Indonesia that are famous for their spices such as cloves and nutmeg. The introduction of clove, nutmeg, and mace into world trade was dependent on Indonesian sailors, Clove, nutmeg, and mace were native to only a handful of tiny islands in the middle of the vast Indonesian archipelago – cloves on five Maluku Islands, and nutmeg on the ten Banda Islands The Portuguese were the first Europeans to discover the Spice Islands in the early 16th century. After defeating the threat from the Spanish, the Portuguese Empire controlled most of the spice trade for almost a century. Eventually the Dutch and English made it a three-way struggle for control, which the Dutch won, they dominated the spice industry until the late 18th Century. The Spice Islands are now called the Maluku Islands. This archipelago consists of over 1000 islands with a combined land mass of about 387 square miles. Indonesians won their independence in 1945 Two provinces were formed North Maluku Province and Melaku Province with Ambon its capital.
STEP 2, " MR. PEACHES DECIDES TO FLY
I am 27 years old. I have never flown.
IT IS NEVER TOO LATE TO LEARN
IT IS NEVER TOO LATE TO LEARN
Treatise on Flying for Mr. Peaches
PARROTS ARE NOT GREAT FLYERS; Mr. Peaches wants to be informed knowledgeable and practice to develope his full flight potentil. I am 27 years old and like a huge number of birds in captivity I never was taught to fly. his wing and chest muscles are atrophied because he has never flapped them. his flight feathers and toenails have been trimmed every 3 months his whole life. he is doing wing flapping exercises to build up hischest and wing muscles. he is excited to be receiving instructions on flying maneuvers from the top flyers in the world, the dragonfly, peregrine falcon, albatross, and Brazilian free-tailed bat. He wants to be skillful at ascending, descending, speeding up, slowing down, gliding, hovering, changing course, banking, dropping and other flying maneuvers necessary for astute flying.
PARROTS ARE NOT GREAT FLYERS; Mr. Peaches wants to be informed knowledgeable and practice to develope his full flight potentil. I am 27 years old and like a huge number of birds in captivity I never was taught to fly. his wing and chest muscles are atrophied because he has never flapped them. his flight feathers and toenails have been trimmed every 3 months his whole life. he is doing wing flapping exercises to build up hischest and wing muscles. he is excited to be receiving instructions on flying maneuvers from the top flyers in the world, the dragonfly, peregrine falcon, albatross, and Brazilian free-tailed bat. He wants to be skillful at ascending, descending, speeding up, slowing down, gliding, hovering, changing course, banking, dropping and other flying maneuvers necessary for astute flying.
A List of the names of some Aeronautic maneuvers Mr. Peaches is interested in understanding
Some of my teaches have demonstrated the following maneuverers and I try to replicate some of them
Ascend – Rise upward. Ascend Bank – Tilt in turns. Circle – Fly in loops. Coast – Glide without effort. Dash –Move suddenly and fast. Descend - move downwards Dive – Plunge downwards rapidly. Drift – Move gently with air currents. Flap – Wing movement for lift. Flit – Move quickly and lightly. Flutter – Rapid wing beats. Glide – Fly without flapping. Glide – Smooth, steady flight. Graceful – Smooth and elegant. Hover – Stay in place midair. Loop –Make circular motions. Maneuver – Skillful movement. Migrate – Long-distance travel. Plummet – Drop sharply. Rocket – Shoot up swiftly. Sail – Glide with minimal flapping. Skim – Fly close to surface. Soaring – Gliding high effortlessly. Spiral – Fly in a helix pattern. Stall – Slow down and hover. Sweep – Move smoothly and quickly. Stooping - a steep and sudden descent towards the prey with wings partially spread. Swoop – Descend swiftly. Tumble – Fall in a somersault. Weave – Fly in zigzags. Wobble – Unsteady flight. Zigzag – Change directions sharply Predators birds do plunge-diving, stooping, and drop-diving.
Some of my teaches have demonstrated the following maneuverers and I try to replicate some of them
Ascend – Rise upward. Ascend Bank – Tilt in turns. Circle – Fly in loops. Coast – Glide without effort. Dash –Move suddenly and fast. Descend - move downwards Dive – Plunge downwards rapidly. Drift – Move gently with air currents. Flap – Wing movement for lift. Flit – Move quickly and lightly. Flutter – Rapid wing beats. Glide – Fly without flapping. Glide – Smooth, steady flight. Graceful – Smooth and elegant. Hover – Stay in place midair. Loop –Make circular motions. Maneuver – Skillful movement. Migrate – Long-distance travel. Plummet – Drop sharply. Rocket – Shoot up swiftly. Sail – Glide with minimal flapping. Skim – Fly close to surface. Soaring – Gliding high effortlessly. Spiral – Fly in a helix pattern. Stall – Slow down and hover. Sweep – Move smoothly and quickly. Stooping - a steep and sudden descent towards the prey with wings partially spread. Swoop – Descend swiftly. Tumble – Fall in a somersault. Weave – Fly in zigzags. Wobble – Unsteady flight. Zigzag – Change directions sharply Predators birds do plunge-diving, stooping, and drop-diving.
"Fly like a helicopter."
Dragonflies are incredible flying machines!
Dragonflies are incredible flying machines!
Mr. Peaches Dragonfly Lessons
"The Green Darner" is the strongest and fastest flyer in the insect world. clocking speeds of over 35 mph! some can fly to 60 miles per hour, Dragonflies have outstanding ability to fly in any direction with ease and efficiency (up, down, forward, backward sideways ) or simply hover. They can stop and hover in one place for more than a minute. All four wings move independently and can rotate on an axis for incredible flight efficiency. Each of their four wings is controlled by separate muscles, giving them precise control over their flight They can do hairpin turns mid-flight at full speed or slow motion,
Fastest insect in the world
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cruising 60 miles per hour
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hairpin turns mid flight.
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they are spectacularly agile flyers. They can propel themselves upwards, downwards, backwards, forwards, side to side, and they can even hover in midair! This is due to the magnificent construction of their two sets of wings. Each wing can move independently of each other, allowing dragonflies to fly in all directions. Their wings are both strong and flexible, giving them the ability to curve, cut through the air and hover even in the strongest headwind.
The physiology of dragonfly wings facilitates their acrobatic flight. At the leading edge of each wing, dragonflies have a "wing mark" or pterostigma; it acts like a weight that helps stabilize the wing during flight. The weight prevents the ultrathin wings from vibrating which would interfere with the dragonfly's ability to glide quickly through the air. In addition, the strongest part of the wing is a long vein (costa) along the leading edge that allows the dragonfly to cut through the air during flight.
Dragonfly flight is powered by muscles that are attached to the base of each wing. These muscles control wing shape and wing angle. What is truly remarkable is that, at any one time, each wing can do different things, even using different methods to generate thrust! To achieve the desired flight pattern, dragonflies can: adjust wing shape, wing angle, move a wing more forward or backward from its usual position, stop one or two wings, or change the relative relationship between any two wings on either side of the body.
Dragonflies fly by using muscles below their exoskeleton to move their four wings independently.
The physiology of dragonfly wings facilitates their acrobatic flight. At the leading edge of each wing, dragonflies have a "wing mark" or pterostigma; it acts like a weight that helps stabilize the wing during flight. The weight prevents the ultrathin wings from vibrating which would interfere with the dragonfly's ability to glide quickly through the air. In addition, the strongest part of the wing is a long vein (costa) along the leading edge that allows the dragonfly to cut through the air during flight.
Dragonfly flight is powered by muscles that are attached to the base of each wing. These muscles control wing shape and wing angle. What is truly remarkable is that, at any one time, each wing can do different things, even using different methods to generate thrust! To achieve the desired flight pattern, dragonflies can: adjust wing shape, wing angle, move a wing more forward or backward from its usual position, stop one or two wings, or change the relative relationship between any two wings on either side of the body.
Dragonflies fly by using muscles below their exoskeleton to move their four wings independently.
Cruising at 10 miles per hour
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two sets of wings, can fly up, down, backwards
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each wing can do different things.
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four wings move independently
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migratory 87 miles per day
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Agile flyer, hover
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Preparing to meet danger
Flight lessons with A Peregrine Falcon
Flight lessons with A Peregrine Falcon
The peregrine falcon is considered one of the fastest in-level flights among all birds. Its average flight speed (when flying horizontally) is about 40 to 56 mph. When diving down (stooping} for prey their top speed is 200 t0 240 mph making it the fastest bird in the world
Meeting Preadotors along the way is envitable The predators include raptors, hawks, falcons and eagles. Birds of prey or predatory birds, also known as raptors, are hypercarnivores bird species that actively hunt and feed on other bird species
Mr. Peaches, Dangerous Flying lessons with a Peregrine Falcon
The peregrine falcon is an exceptional flying bird. It is considered one of the fastest in-level flights among all birds. Its average flight speed (when flying horizontally) is about 40 to 56 mph.
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one of the fastest in level flight birds
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. Safe observation capsul
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Safe observation capsule
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Mr. Peaches designs an "air bell" or safe observation capsule for viewing and protective metal suiting to wear when flying with raptures.
Helmut to protect head
Metal head cap with neck mail |
Body and neck armor
Body armor |
Wing bone protectionFull Predator body armor
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Testing Full Body armour
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Falcon body and wing armor
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Flying Lessons with an Albatross
Part of the secret is locking elbow joints, which enable the bird to keep its wings extended for long periods at no energy cost from its muscles. Additionally, the birds have mastered dynamic soaring, which involves flying along a continually curving path in a way that extracts energy from the gradient of wind velocity, or wind shear.
wing span 12 feet across
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largest winged bird wing apan 12 feet across maintain speeds of nearly 80 mph for eight hours straight without even having to flap its wings.
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Mr, Peaches My Flying Lessons with the free-tailed bat
This Brazilian or Mexican tiny in length (3.5 inch) bat can reach speeds of up to 100 miles per hour. They are the fastest flying animals in the world, flying at much higher heights than most other types of bat. They hold the record for the fastest verified flying speed in level flight of any animal.
fastest flying animal in the world
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Fastest flying animal
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level flight speed 100 mpr
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top speed 100 miles per hour
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can fly at height of 10,000 feet
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100 miles round trip one evening
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Soar at high altitudes
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High flying Canadian Geese & Golden Eagle
Some birds can fly at an altitude of 20 thousand feet, where it is cold and there is very little oxygen
Some birds can fly at an altitude of 20 thousand feet, where it is cold and there is very little oxygen
Assessing my and parrots flying abilities
Learning navigational skills from Earths best navigators
Learning Celestial navigation
Their stellar compass complements other cues like visual landmarks, moon position, wind direction, and Earth’s magnetic field1.From dung beetles to seals, these animals navigate by the stars Indigo buntings Like many migratory songbirds, indigo buntings of North America fly south for winter—and prefer to do so at night. ...Harbor seals Polynesian sailors have relied on guiding stars, called lodestars, to find their way at sea for thousands of years, but harbor seals may have beat them to it. ...Dung beetles ...Nocturnal animals can use the stars and the Milky Way to find their way during the darkest hours. While animal navigation is studied all over the world, some of the leading researchers are based at Lund University in Sweden. In a recent article they sum up the research so far and give their thoughts on challenges to come.For animals that migrate or search for food over vast distances in particular, the cooler hours of the night are preferable to the heat of the sun.
A key requirement for nocturnal animals is that they can hold their course in the dark.
Migrating birds that take off at sunset rely on their magnetic compass, but also the star compass when they use individual stars for orientation. Dung beetles do not use individual stars. Instead they
travel through the night with the help of the light from the Milky Way, which contrasts to the surrounding dark sky.
Studies also support that seals, moths, frogs and other animals use the starry sky to navigate at night.
"Animals with camera eyes, the type of eyes that we humans possess, can discern individual stars. Insects with compound eyes most likely cannot, but we believe that they can interpret the starry sky and the Milky Way as patterns of light," says James Foster, a biologist in the Faculty of Science at Lund University.Dung beetles that are active during the day use the sun, while those active at night use the moon and the Milky Way as their guide Their stellar compass complements other cues like visual landmarks, moon position, wind direction, and Earth’s magnetic field a celestial body (e.g., the Sun, the Moon, a planet, or a star) and the visible horizon
A key requirement for nocturnal animals is that they can hold their course in the dark.
Migrating birds that take off at sunset rely on their magnetic compass, but also the star compass when they use individual stars for orientation. Dung beetles do not use individual stars. Instead they
travel through the night with the help of the light from the Milky Way, which contrasts to the surrounding dark sky.
Studies also support that seals, moths, frogs and other animals use the starry sky to navigate at night.
"Animals with camera eyes, the type of eyes that we humans possess, can discern individual stars. Insects with compound eyes most likely cannot, but we believe that they can interpret the starry sky and the Milky Way as patterns of light," says James Foster, a biologist in the Faculty of Science at Lund University.Dung beetles that are active during the day use the sun, while those active at night use the moon and the Milky Way as their guide Their stellar compass complements other cues like visual landmarks, moon position, wind direction, and Earth’s magnetic field a celestial body (e.g., the Sun, the Moon, a planet, or a star) and the visible horizon
Yellow under wing moths, cricket frogs, starry night
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Harbor seals Polynesian sailors have relied on guiding stars, called lodestars,
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European robins milky way
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Milky way, nebulas
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Monach Butterflies
The annual migration of North America’s monarch butterfly is a unique and amazing phenomenon. The monarch is the only butterfly known to make a two-way migration as birds do. Unlike other butterflies that can overwinter as larvae, pupae, or even as adults in some species, monarchs cannot survive the cold winters of northern climates. Using environmental cues, the monarchs know when it is time to travel south for the winter. Monarchs use a combination of air currents and thermals to travel long distances. Some fly as far as 3,000 miles to reach their winter home! Researchers are still investigating what directional aids monarchs use to find their overwintering location. It appears to be a combination of directional aids such as the magnetic pull of the earth and the position of the sun among others, not one in particular. a combination of directional aids such as the magnetic pull of the earth and the position of the sun among others, not one in particular.
Thermal updraft
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Canada to Mexico
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NAVAGATION INDIGO BUNTING
Migrating by night
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information
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NAVAGATION DUNG BEETLE
The Dung Beetle uses the Milkyway to find it path home
. These beetles are good planetary citizens and clean up what animals leave behind.Their entire lives revolve around interacting with dung in some way. They bury or feed upon much of the leftover waste of other animals, which has numerous environmental benefits.
It from the environment, controls the fly population, and also helps to enrich the soil. Dung beetles are one of nature’s major scavengers in just about every ecosystem on the planet.Most dung beetles search for dung using their sensitive sense of smell. Some smaller species simply attach themselves to the dung-providers to wait for the dung. After capturing the dung, a dung beetle rolls it, following a straight line despite all obstacles. Sometimes, dung beetles try to steal the dung ball from another beetle, so the dung beetles have to move rapidly away from a dung pile once they have rolled their ball to prevent it from being stolen. Dung beetles can roll up to 10 times their weight. Male Onthophagus taurus beetles can pull 1,141 times their own body weight: the equivalent of an average person pulling six double-decker buses full of people
A species of dung beetle (the African Scarabaeus zambesianus) navigates by polarization patterns in moonlight,[15] the first animal known to do so.[16][17][18][19] Dung beetles can also navigate when only the Milky Way or clusters of bright stars are visible,[20] making them the only insects known to orient themselves by the Milky Way.[21][20] The eyes of dung beetles are superposition compound eyes typical of many scarabaeid beetles;[22][23] The sequence of images shows a sequence of the beetle rolling a dung ball. It does this to navigate..[14
In fact, it’s the sun that steers the movement of dung beetles. And so does light from the moon, and from the distant stars of the Milky Way. With a life devoted to excrement but guided by the heavens, dung beetles might embody the famed Oscar Wilde quote, “We are all in the gutter, but some of us are looking at the stars.”And the beetles ignore the wind entirely as a navigational cue when the sun is not directly overhead. “They have all these fallback mechanisms — if one system fails, they can switch over to another,” Byrne says.
It from the environment, controls the fly population, and also helps to enrich the soil. Dung beetles are one of nature’s major scavengers in just about every ecosystem on the planet.Most dung beetles search for dung using their sensitive sense of smell. Some smaller species simply attach themselves to the dung-providers to wait for the dung. After capturing the dung, a dung beetle rolls it, following a straight line despite all obstacles. Sometimes, dung beetles try to steal the dung ball from another beetle, so the dung beetles have to move rapidly away from a dung pile once they have rolled their ball to prevent it from being stolen. Dung beetles can roll up to 10 times their weight. Male Onthophagus taurus beetles can pull 1,141 times their own body weight: the equivalent of an average person pulling six double-decker buses full of people
A species of dung beetle (the African Scarabaeus zambesianus) navigates by polarization patterns in moonlight,[15] the first animal known to do so.[16][17][18][19] Dung beetles can also navigate when only the Milky Way or clusters of bright stars are visible,[20] making them the only insects known to orient themselves by the Milky Way.[21][20] The eyes of dung beetles are superposition compound eyes typical of many scarabaeid beetles;[22][23] The sequence of images shows a sequence of the beetle rolling a dung ball. It does this to navigate..[14
In fact, it’s the sun that steers the movement of dung beetles. And so does light from the moon, and from the distant stars of the Milky Way. With a life devoted to excrement but guided by the heavens, dung beetles might embody the famed Oscar Wilde quote, “We are all in the gutter, but some of us are looking at the stars.”And the beetles ignore the wind entirely as a navigational cue when the sun is not directly overhead. “They have all these fallback mechanisms — if one system fails, they can switch over to another,” Byrne says.
Beetle, Family Scarabaeoidea
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Orients by using the milky way
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Roolar Betle
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Poop cleaner
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Milky way
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cleans up the excrement.
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Navigation using Earths magnetic fields
Earths Molten Core gives rise to Magnetic Fields of Energy
The ability to detect and orient using the magnetic field is common in the animal kingdom, Scientists have observed this type of behavior in bacteria, algae, earthworms, mud snails, lobsters, eels, stingrays, honeybees, mole rats, newts, birds, tuna, salmon, dolphins, whales, sharks and turtles.
Molten core
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Outer crust to inner core
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Swirling iron
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Mr. Peaches practices seeing magnetic fields of energy using his retinal photosensors.
Peaches Riding Magnetic Fields
Nearly 2,000 miles below Earth's surface, swirling iron in the planet's outer core conducts electricity that generates a magnetic field. This field stretches all the way from the planet's interior to the space surrounding the Earth. It's what protects the world from deadly solar radiation.
But the direction that the electromagnetic energy flows, as well as the strength of the resulting protective sheath, depends on where on the planet's surface you are. So animals that use the magnetic field to orient themselves do so by detecting these differences in field strength and flow. They then use that information to figure out where they are and where to go.
Scientists long suspected sharks could navigate using the field, since the animals can sense electromagnetic fields in general. But that hypothesis had been difficult to confirm until Keller's study. bacteria, algae, mud snails, lobsters, eels, stingrays, honey bees, mole rats, newts, birds, fish like tuna and salmon, dolphins, and whales.
But the direction that the electromagnetic energy flows, as well as the strength of the resulting protective sheath, depends on where on the planet's surface you are. So animals that use the magnetic field to orient themselves do so by detecting these differences in field strength and flow. They then use that information to figure out where they are and where to go.
Scientists long suspected sharks could navigate using the field, since the animals can sense electromagnetic fields in general. But that hypothesis had been difficult to confirm until Keller's study. bacteria, algae, mud snails, lobsters, eels, stingrays, honey bees, mole rats, newts, birds, fish like tuna and salmon, dolphins, and whales.
perhaps photoreceptor cells in the retina of a bird are able to see the magnetic field just like we can see colour,
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magnetic field to orient himself
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DESIGNS FOR A CARGO DRONE
A Cargo-Freight Drone will accompany Mr. Peaches on his trip
A personalized custom designed and manufactured high flying solar powered eco-friendly Fright/Cargo Drone with solar panels, retractable landing wheels & pontoons, storage compartments for supplies, agricultural growing containors for live food and a live aboard robot butler to service Mr. Peaches needs. wth retractile wheels and pontoonsDrone control Ankle bracelet, Cell phone and
Mr. Peaches support eco-drone, is a state-of-the-art high tech smart sun powdered drone that packs provisions for his trip, fresh water, dried food, live food, predator protective paraphernalia armor, water gear, webbed feet Flippers, ocean flotation device, auto pilot. protective eye goggles for irritating Sahara dust and cold temperatures, an ascending propulsion devise for water take offs from water fresh water, food rations, supplies and gear. Mr Peaches needs to eat small amounts of food throughout the day to keep his energy level high. He needs prtection from the cold temperatures turbulent air currents alerts for approaching predators. He needs time to don armor when predators show up. He needs storage for his duck feet flippers for emergency aquatic landings at sea. Indoor protection from hot cold dark light. on course
Drone prototype (1)
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Plant Growing Container
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Mealworm Farm Container
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Drone protype (2)
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Drone prototype (3)
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Drone prototype (4)
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Drone prototype for solar panels pontoon landing gear
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Drone prototype for pontoons for ocean landing.
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Drone prototype solar panels and for wheels for dry landing
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Drone prototype solar panels
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Drone prototype solar panels.
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Drone prototype solar panels
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Solar-powered, high-performance drone. The crewed by a robot aerial vehicle wing design that increases both its lift and the number of solar panels drinking up rays that drive the craft. faster, more efficient, and more accurate.design, manufacture, and deploy his personal frieght drone to accompany him on his flight to Indonesia. Our aircraft operate autonomously. Advanced vision allows them to understand their surroundings, and our flight planning and navigation systems allow them to plan their own routes, check their own systems for errors, and respond to delivery requests on demand. safe, sustainable, and easy to integrate with existing delivery approaches This drone is a robot manned aerial vehicle (UAV), typically controlled by someone on the ground using a remote control or computer. Drones used for various purposes, photography, surveying, Drones have been around for centuries, Mr Peaches wears remote control technology on his leg. , this drone has with the ability to fly for long periods and carry a variety of payloads. Drones used for photography and videography. It gets get shots that would otherwise be impossible, such as from a bird’s-eye view. Drones survey land at Indonesia . drones are used warn attacks by predators. . . There are also concerns about the safety of drones, as they can sometimes crash. needs flotation device
The drones would be able to fly at speeds of up to 50 mph and would be able to avoid obstacles. F. Drones can be equipped with GPS technology, which means that they can be directed to specific locations with high accuracy. beneficial for trip to difficult-to-reach areas, . cost of the drones themselves, the cost of operating and maintaining the drones, the cost of insurance, and the cost of compliance with regulations. Cargo Drone . the battery life, specifically how long a the drone can last on a single charge, weather resistance, safety features like obstacle avoidance, and integrated software solutions. Now, if waterproofing and extended flight time pique your interest For those prioritizing impeccable visual quality alongside Solar-powered, high-performance drone. The uncrewed aerial vehicle (UAV) features a tandem wing design that increases both its lift and the number of solar panels drinking up rays that drive the craft. the drones to stay up for long periods pesticide free compost for insects
The drones would be able to fly at speeds of up to 50 mph and would be able to avoid obstacles. F. Drones can be equipped with GPS technology, which means that they can be directed to specific locations with high accuracy. beneficial for trip to difficult-to-reach areas, . cost of the drones themselves, the cost of operating and maintaining the drones, the cost of insurance, and the cost of compliance with regulations. Cargo Drone . the battery life, specifically how long a the drone can last on a single charge, weather resistance, safety features like obstacle avoidance, and integrated software solutions. Now, if waterproofing and extended flight time pique your interest For those prioritizing impeccable visual quality alongside Solar-powered, high-performance drone. The uncrewed aerial vehicle (UAV) features a tandem wing design that increases both its lift and the number of solar panels drinking up rays that drive the craft. the drones to stay up for long periods pesticide free compost for insects
prototype high performance drone
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thermal imagining
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phototype for trip
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Drone protype needs flotation device
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faster, efficient, and accurate.
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Prototype landing wheels
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Prototype solar panels
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Prototype landing pontoons
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Prototype landing pontoons
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Prototype landing wheels
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Prototype poontoons
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Prototypes compartments
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mealworms contain the most protein
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Farming mealworms
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Farming mealworms
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Farming mealworms
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Food for the trip, freeze dried fruit & veggies, wholenuts, livestock, grasshoppers and mealworms growing leafy greens in greenhiose containers etc
Raising mealworms in space
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container of mealworms
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Mealworms
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Insect husbandry protein
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Farming mealworms
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Farming mealworms
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Farming mealworns
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Farming mealworms
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Farming mealworms
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Growing mealworms on potatoes
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Growing house flys
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House fly husbandry
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Growing food, house flys
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Livestock Cricket and Larvae
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Livestock Cricket and larvae
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Liestock Cricket with Larvae
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Soldier Fly Larvae
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Eat Soldier Fly Larvae
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Soldier Fly Larvae on compost
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Soldier Fly Larvae on compost
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High in protein
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grasshoppers high in protein
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High in protein
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In case I half to land in the Ocean, I need Duck Web foot Flippers, apersonal flotation device, drone with pontoons and powerful ascending devise to help me lift off of water device to help me to become airbone from water.
Webbed foot Flipper pull ons for landing on the water
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high altitude Dust goggles to protect the eyes. a mass of dusty air known as the Saharan Air Layer (SAL) forms over the Sahara Desert and moves westward across the tropical North Atlantic. The SAL, which extends about 5,000 to 20,000 feet into the atmosphere, can be transported several thousand miles, reaching as far as the Caribbean,
Mr. Peaches first glimpse of the Spice Islands
It is estimated there are 1027 Maluku Islands (Spice Islands) Many are tiny islands Most are steep sided volcanic islands covered with dense tropical rainforest vegetation. The largest two islands, Halmahera and Seram, are sparsely populated, while the most developed, Ambon and Ternate, are small. (Mount Binaiya) 9,931 ft) on Seram is the highest mountain. Several islands, such as Ternate (5,646 ft) and the TNS islands, are volcanoes emerging from the sea with villages sited around their coasts. Volcanic eruptions and earthquakes are common.
Mr. Peaches meets his wild Relatives
Cockatoos in the wild
Wild Moluccan Cockatoos are primarily found in southern Molucca Islands in eastern Indonesia. They are found on the islands of Seram, Ambon Haruku and adjacent islands in Maluku province of Indonesia. They prefer lowland rainforests and forested areas. They prefer lowland mature rainforests canopy forests along rivers and forest edges. Early morning and late afternoon are their most active feeding times. This is when they feed on nuts and fruits,, various seeds, berries, leafy greens, flowers, insects and a variety of tropical fruits such as figs mangos papaya, durian, langsat, rambutan and young coconuts They also eat large insects, such as crickets They are strong climbers, using their beaks and feet to maneuver through the treetops in search of food.
Wild Moluccan Cockatoos are primarily found in southern Molucca Islands in eastern Indonesia. They are found on the islands of Seram, Ambon Haruku and adjacent islands in Maluku province of Indonesia. They prefer lowland rainforests and forested areas. They prefer lowland mature rainforests canopy forests along rivers and forest edges. Early morning and late afternoon are their most active feeding times. This is when they feed on nuts and fruits,, various seeds, berries, leafy greens, flowers, insects and a variety of tropical fruits such as figs mangos papaya, durian, langsat, rambutan and young coconuts They also eat large insects, such as crickets They are strong climbers, using their beaks and feet to maneuver through the treetops in search of food.
- Dacryodes rostrata (Sawo Kecik):
- Sawo kecik is a rare fruit found in the Maluku region.
- The fruit resembles a small pear and has a sweet, juicy flesh.
Mr. Peaches Distributes presents.
Mr. Peaches Learns how to forage.
Visits The Indonesian Parrot Project
Meets Bonnie Zimmerman and presents her with an award
I Would Love to Have You Visit Soon!
Nancy Forrester's Secret Garden
Home of Key West Parrots
518 Elizabeth Street, Key West, Florida 33040
HoursEveryday: Including Holidays 10 am - 3 pm
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Telephone305-294-0015
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