My paper on the Digital Restoration of Da Vinci's Sketches has been selected by
Chops 'n' changes
The best of the rest from the Physics arXiv this week
Sunday, May 1, 2011
Digital restoration of ancient papyri
My paper on the Digital Restoration of Ancient Papyri has been selected by
Drives 'n' droves
The best of the rest from the physics arXiv this week
http://www.technologyreview.com/blog/arxiv/23293/
Drives 'n' droves
The best of the rest from the physics arXiv this week
http://www.technologyreview.com/blog/arxiv/23293/
Saturday, April 30, 2011
Egyptian faience
"Egyptian faience is a non-clay based ceramic displaying surface vitrification which creates a bright lustre of various blue-green colours. Having not been made from clay it is often not classed as pottery. It is called "Egyptian faience" to distinguish it from faience, the tin glazed pottery associated with Faenza in northern Italy. Egyptian faience, both locally produced and exported from Egypt, occurs widely in the ancient world, and is well known from Mesopotamia, the Mediterranean and in northern Europe as far away as Scotland." Wiki
Egyptian Museum, Turin.
Faience bowl blue-glazed decorated with lotus flowers and the face of the goddess Hathor, symbol of rebirth are the decoration.
Faience. Provenance unknown. New Kingdom, dynasty XVIII-XX (1350-1070 B.C.)Egyptian Museum, Turin.
Fishes and flowers
Ciotola decorata con pesci e fiori di loto
Faience azzurra con decorazioni nere, provenienza sconosciuta
Bowl decorated with fishes and flowers.
Blue faience, unknown origin.
First period of XVIII Dinasty (XV century BC)
Berlino, Aegyptisches Museum und Papyrussammling
Three-fold rotational symmetry in the decoration of this bowl.
Note the eye of the fishes at the center of the bowl.
It seems a Escher's creation!
It is amazing that very old creations (pottery and seals) show symmetry in their decorations.
Note the eye of the fishes at the center of the bowl.
It seems a Escher's creation!
It is amazing that very old creations (pottery and seals) show symmetry in their decorations.
For a discussion on symmetry of the engraved images on seals, see:
Symmetries in Images on Ancient Seals, Amelia Carolina Sparavigna
Abstract: We discuss the presence of symmetries in images engraved on ancient seals, in particular on stamp seals. Used to stamp decorations, to secure the containers from
tampering and for owner's identification, we can find seals that can be dated from Neolithic times. Earliest seals were engraved with lines, dots and spirals. Nevertheless, these very ancient stamp seals, in the small circular or ovoid space of their bases, possess bilateral and rotational symmetries. The shape of the base seems to determine the symmetries of images engraved on it. We will also discuss what could be the meaning of antisymmetry and broken symmetry for images on seals.
Abstract: We discuss the presence of symmetries in images engraved on ancient seals, in particular on stamp seals. Used to stamp decorations, to secure the containers from
tampering and for owner's identification, we can find seals that can be dated from Neolithic times. Earliest seals were engraved with lines, dots and spirals. Nevertheless, these very ancient stamp seals, in the small circular or ovoid space of their bases, possess bilateral and rotational symmetries. The shape of the base seems to determine the symmetries of images engraved on it. We will also discuss what could be the meaning of antisymmetry and broken symmetry for images on seals.
Friday, April 29, 2011
Michael Archangel and his balance
Chemistry and Materials Science Journal of Thermal Analysis and Calorimetry
Volume 62, Number 2, 579-580, DOI: 10.1023/A:1010151912165
Michael Archangel and Balance , by E. Robens
Volume 62, Number 2, 579-580, DOI: 10.1023/A:1010151912165
Michael Archangel and Balance , by E. Robens
"Michael escorts the deceased to God's throne and acts as a weigher of the soul at the Last Judgement."
Weighing of the Heart
"In Egyptian religion, the heart was the key to the afterlife. It was conceived as surviving death in the nether world, where it gave evidence for, or against, its possessor. It was thought that the heart was examined by Anubis and the deities during the Weighing of the Heart ceremony. If the heart weighed more than the feather of Maat, it was immediately consumed by the monster Ammit."
Wiki
Wiki
Egyptian Museum Torino
Four sons of Horus
Statuette dei quattro figli di Horus: Duamutef, a testa di sciacallo, Hapi, a testa di babbuino, Qebehsebuf, a testa di falco, Amset, a testa umana erano i protettori delle viscere del defunto, XXV-XXXI dinastia. Statuettes of the four sons of Horus: Duamutef, jackal headed, Hapi, baboon headed, Qebehsebuf, falcon headed, and human headed Amset, protectors of the deceased's viscera, Dinasty XXV-XXXI
(712-332 BC)
(712-332 BC)
Alcohol haze at galactic heart
BBC NEWS, Tuesday, 9 October, 2001, 14:34 GMT 15:34 UK
Alcohol haze at galactic heart
Online science editor Dr David Whitehouse
"The detection of yet more alcohol in a giant molecular cloud near the centre of our galaxy could give clues to the origin of complex organic molecules in space.Astronomers have long been seeking evidence of this particular alcohol to help explain how these life-promoting substances got started. ... Vinyl alcohol, actually a non-inebriating complex organic molecule, is an important part of many chemical reactions on Earth, and the last of the three stable members of the C2H4O group of molecules to be discovered in interstellar space. It was detected in a massive molecular cloud called Sagittarius B2, located 26,000 light-years from Earth, near the centre of our galaxy....The specific radio signature of vinyl alcohol was first detected using a 12-metre radio telescope during May and June of 2001. Results from the observations will soon be published in Astrophysical Journal Letters. Of the approximately 125 molecules so far detected in interstellar space, scientists believe that most are formed by a simple process in which smaller molecules (and occasionally atoms) stick together after they collide. Since the 1970s, scientists have speculated that molecules could form on the microscopic dust grains that drift in interstellar clouds. These dust grains are thought to trap the fast-moving molecules. The surface of these grains could act as a catalyst enabling the chemical reactions that form vinyl alcohol and other complex molecules. "Scientists speculate that since the dust lies near an area where young stars are forming, the energy from these stars could evaporate the icy surface layers of the grains, liberating the molecules from their chilly nurseries, depositing them into interstellar space where they can be detected by sensitive radio antennae on Earth.
Alcohol haze at galactic heart
Online science editor Dr David Whitehouse
"The detection of yet more alcohol in a giant molecular cloud near the centre of our galaxy could give clues to the origin of complex organic molecules in space.Astronomers have long been seeking evidence of this particular alcohol to help explain how these life-promoting substances got started. ... Vinyl alcohol, actually a non-inebriating complex organic molecule, is an important part of many chemical reactions on Earth, and the last of the three stable members of the C2H4O group of molecules to be discovered in interstellar space. It was detected in a massive molecular cloud called Sagittarius B2, located 26,000 light-years from Earth, near the centre of our galaxy....The specific radio signature of vinyl alcohol was first detected using a 12-metre radio telescope during May and June of 2001. Results from the observations will soon be published in Astrophysical Journal Letters. Of the approximately 125 molecules so far detected in interstellar space, scientists believe that most are formed by a simple process in which smaller molecules (and occasionally atoms) stick together after they collide. Since the 1970s, scientists have speculated that molecules could form on the microscopic dust grains that drift in interstellar clouds. These dust grains are thought to trap the fast-moving molecules. The surface of these grains could act as a catalyst enabling the chemical reactions that form vinyl alcohol and other complex molecules. "Scientists speculate that since the dust lies near an area where young stars are forming, the energy from these stars could evaporate the icy surface layers of the grains, liberating the molecules from their chilly nurseries, depositing them into interstellar space where they can be detected by sensitive radio antennae on Earth.
Dark matter and galactic haze
"Annihilating dark matter at the heart of the Milky Way could account for signals detected by two space telescopes, according to a pair of US physicists. If true, the theory provides a new indirect measurement of one of astronomy's most elusive entities. However, some physicists believe that we don't know enough about the galactic core – or dark matter – to come to this conclusion."
Does dark matter link gamma rays to galactic haze? - physicsworld.com
Transparent materials for solar energy
"Researchers in the US have developed a new kind of organic solar cell that converts a small but significant fraction of the sunlight that falls onto it into electricity, while still allowing most of the visible part of that light to pass through. Thanks to this transparency, the team says that the cell could be mounted onto windows in buildings or cars in order to tap a currently under-exploited source of energy."
Spherical symmetry
Da un libro sulle simmetrie
Noether's (first) theorem
"Noether's (first) theorem states that any differentiable symmetry of the action of a physical system has a corresponding conservation law. The theorem was proved by German mathematician Emmy Noether in 1915 and published in 1918.[1] The action of a physical system is the integral over time of a Lagrangian function (which may or may not be an integral over space of a Lagrangian density function), from which the system's behavior can be determined by the principle of least action.
Noether's theorem has become a fundamental tool of modern theoretical physics and the calculus of variations. A generalization of the seminal formulations on constants of motion in Lagrangian and Hamiltonian mechanics (1788 and 1833, respectively), it does not apply to systems that cannot be modeled with a Lagrangian; for example,dissipative systems with continuous symmetries need not have a corresponding conservation law." Wikipedia, l'enciclopedia libera.
Noether's theorem has become a fundamental tool of modern theoretical physics and the calculus of variations. A generalization of the seminal formulations on constants of motion in Lagrangian and Hamiltonian mechanics (1788 and 1833, respectively), it does not apply to systems that cannot be modeled with a Lagrangian; for example,dissipative systems with continuous symmetries need not have a corresponding conservation law." Wikipedia, l'enciclopedia libera.
Emmy Noether
Professor Einstein Writes in Appreciation of a Fellow-Mathematician.
To the Editor of The New York Times:
The efforts of most human-beings are consumed in the struggle for their daily bread, but most of those who are, either through fortune or some special gift, relieved of this struggle are largely absorbed in further improving their worldly lot. Beneath the effort directed toward the accumulation of worldly goods lies all too frequently the illusion that this is the most substantial and desirable end to be achieved; but there is, fortunately, a minority composed of those who recognize early in their lives that the most beautiful and satisfying experiences open to humankind are not derived from the outside, but are bound up with the development of the individual's own feeling, thinking and acting. The genuine artists, investigators and thinkers have always been persons of this kind. However inconspicuously the life of these individuals runs its course, none the less the fruits of their endeavors are the most valuable contributions which one generation can make to its successors.
Within the past few days a distinguished mathematician, Professor Emmy Noether, formerly connected with the University of Göttingen and for the past two years at Bryn Mawr College, died in her fifty-third year. In the judgment of the most competent living mathematicians, Fräulein Noether was the most significant creative mathematical genius thus far produced since the higher education of women began. In the realm of algebra, in which the most gifted mathematicians have been busy for centuries, she discovered methods which have proved of enormous importance in the development of the present-day younger generation of mathematicians. Pure mathematics is, in its way, the poetry of logical ideas. One seeks the most general ideas of operation which will bring together in simple, logical and unified form the largest possible circle of formal relationships. In this effort toward logical beauty spiritual formulas are discovered necessary for the deeper penetration into the laws of nature.
Born in a Jewish family distinguished for the love of learning, Emmy Noether, who, in spite of the efforts of the great Göttingen mathematician, Hilbert, never reached the academic standing due her in her own country, none the less surrounded herself with a group of students and investigators at Göttingen, who have already become distinguished as teachers and investigators. Her unselfish, significant work over a period of many years was rewarded by the new rulers of Germany with a dismissal, which cost her the means of maintaining her simple life and the opportunity to carry on her mathematical studies. Farsighted friends of science in this country were fortunately able to make such arrangements at Bryn Mawr College and at Princeton that she found in America up to the day of her death not only colleagues who esteemed her friendship but grateful pupils whose enthusiasm made her last years the happiest and perhaps the most fruitful of her entire career.
Albert Einstein.
Princeton University, May 1, 1935.
[The New York Times May 5, 1935]
The efforts of most human-beings are consumed in the struggle for their daily bread, but most of those who are, either through fortune or some special gift, relieved of this struggle are largely absorbed in further improving their worldly lot. Beneath the effort directed toward the accumulation of worldly goods lies all too frequently the illusion that this is the most substantial and desirable end to be achieved; but there is, fortunately, a minority composed of those who recognize early in their lives that the most beautiful and satisfying experiences open to humankind are not derived from the outside, but are bound up with the development of the individual's own feeling, thinking and acting. The genuine artists, investigators and thinkers have always been persons of this kind. However inconspicuously the life of these individuals runs its course, none the less the fruits of their endeavors are the most valuable contributions which one generation can make to its successors.
Within the past few days a distinguished mathematician, Professor Emmy Noether, formerly connected with the University of Göttingen and for the past two years at Bryn Mawr College, died in her fifty-third year. In the judgment of the most competent living mathematicians, Fräulein Noether was the most significant creative mathematical genius thus far produced since the higher education of women began. In the realm of algebra, in which the most gifted mathematicians have been busy for centuries, she discovered methods which have proved of enormous importance in the development of the present-day younger generation of mathematicians. Pure mathematics is, in its way, the poetry of logical ideas. One seeks the most general ideas of operation which will bring together in simple, logical and unified form the largest possible circle of formal relationships. In this effort toward logical beauty spiritual formulas are discovered necessary for the deeper penetration into the laws of nature.
Born in a Jewish family distinguished for the love of learning, Emmy Noether, who, in spite of the efforts of the great Göttingen mathematician, Hilbert, never reached the academic standing due her in her own country, none the less surrounded herself with a group of students and investigators at Göttingen, who have already become distinguished as teachers and investigators. Her unselfish, significant work over a period of many years was rewarded by the new rulers of Germany with a dismissal, which cost her the means of maintaining her simple life and the opportunity to carry on her mathematical studies. Farsighted friends of science in this country were fortunately able to make such arrangements at Bryn Mawr College and at Princeton that she found in America up to the day of her death not only colleagues who esteemed her friendship but grateful pupils whose enthusiasm made her last years the happiest and perhaps the most fruitful of her entire career.
Albert Einstein.
Princeton University, May 1, 1935.
[The New York Times May 5, 1935]
Thursday, April 28, 2011
Four actors
A group of four actors
Tang Dinasty, first half of the 8th century AD
Museo Arte Orientale, Torino
Padmapani
Padmapani
Gandhara, II-III secolo d.C.
Il Bodhisattva Padmapani siede su un alto trono con il piede sinistro posato a terra e la gamba destra piegata a appoggiata sul ginocchio opposto. L’alto seggio su cui Padmapani è seduto ha una spessa base su cui si appoggiano i sandali (infradito!). Il Bodhisattva indossa paridhana e uttariya. Porta un turbante a fascia, grandi orecchini a testa di leone, collane e un cordone con piccoli involucri porta-preghiere, portato di traverso dalla spalla sinistra al fianco destro. Padmapani tiene nella mano sinistra un grosso bocciolo di fiore di loto, mentre l’altra, mancante, era rivolta verso la testa.
Museo Arte Orientale, Torino
Il funzionario
Funzionario militare
Dinastia Tang, VIII secolo D.C.
Terracotta rossa, ingobbio bianco, pigmenti e oro
Military official
Tang Dinasty 8th centry A.D.
Red earthenware with white engobe, pigments and gold
Museo Arte Orientale, Torino
Dinastia Tang, VIII secolo D.C.
Terracotta rossa, ingobbio bianco, pigmenti e oro
Military official
Tang Dinasty 8th centry A.D.
Red earthenware with white engobe, pigments and gold
Museo Arte Orientale, Torino
Thermal barrier coating could boost efficiency of gas turbines
"A spin-out company from Imperial College London has developed a thermal barrier coating for gas turbine parts that can optically feed back its temperature and ageing status even while the engine is running at full speed.
The main application for the technology is in power-generating gas turbines, where the coating could help to achieve significant efficiency savings.
Ceramic thermal barrier coatings, including yttria-stabilised zirconia, are used for the so-called ‘hot section components’ of gas turbines, such as the blades." Thermal barrier coating could boost efficiency of gas turbines | News | The Engineer
The main application for the technology is in power-generating gas turbines, where the coating could help to achieve significant efficiency savings.
Ceramic thermal barrier coatings, including yttria-stabilised zirconia, are used for the so-called ‘hot section components’ of gas turbines, such as the blades." Thermal barrier coating could boost efficiency of gas turbines | News | The Engineer
Tuesday, April 26, 2011
Crabs use stats
News in Science
Crabs use stats to dodge predators
Monday, 18 April 2011 Anna Salleh
ABC
Fiddler crabs can't see very well so they have to use statistical calculations to distinguish between swooping predators and harmless passing insects, say researchers.
Crabs use stats to dodge predators
Monday, 18 April 2011 Anna Salleh
ABC
Fiddler crabs can't see very well so they have to use statistical calculations to distinguish between swooping predators and harmless passing insects, say researchers.
I granchi e la statistica
"I granchi della famiglia Ocypodidae, per via della loro scarsa capacità visiva, sono in grado di calcolare la probabilità che l'oggetto che stanno osservando possa essere un predatore... Gli occhi di questi granchi sono dotati di una bassissima risoluzione, pari a circa un totale di 8.000 pixel per ogni occhio.... A questa risoluzione, un predatore come un uccello è visibile sotto forma di un semplice e insignificante puntino scuro, e non è possibile distinguere se si tratta di un animale innocuo o potenzialmente pericoloso. Per ovviare alla loro ridotta capacità visiva, i granchi hanno quindi elaborato una strategia che consente loro di calcolare la probabilità che uno di questi puntini scuri possa essere un predatore." by Dita di Fulmine
http://www.ditadifulmine.com/2011/04/granchi-usano-statistica-per-rilevare.html
http://www.ditadifulmine.com/2011/04/granchi-usano-statistica-per-rilevare.html
Raised fields in Bolivia
The image shows the "raised fields" near the Titicaca Lake, in Bolivia.
Note the "snake": eye, tongue and teeth.
This image, obtained after processing a Google Maps image, shows the network of waru-warus, that is, of the "raised fields" - earthworks separated by canals - near Tiwanaku. This is an ancient agricultural technique used by Andean people starting from the first millennium BC. Each raised field is approximately 10 meters large and more than one hundred long.
More on waru-waru
Just lines?
Near the shore of the Titicaca Lake, the raised fields are well preserved.
They are arranged to form symbols, not just parallel lines!
A bird and a lamb? Or other animals?
This image, obtained after processing a Google Maps image, shows some waru-warus, that is, the "raised fields" - earthworks separated by canals. This is an ancient agricultural technique used by Andean people starting from the first millennium BC. Each raised field is approximately 10 meters large and more than one hundred long.
More on waru-waru
arXiv:1009.4602 [pdf] Geoglyphs of Titicaca as an ancient example of graphic design, Amelia Carolina Sparavigna
arXiv:1009.2231 [pdf] Symbolic landforms created by ancient earthworks near Lake Titicaca, Amelia Carolina Sparavigna
Andenes
Andenes are an ancient method to cultivate the Andean highlands.
Here an image from Google Maps.
Ringed Hills
A beautiful collection of images from Google Maps.
http://www.atlantisbolivia.org/ringedhills.htm
Very interesting the top of the hill with concentric rings!
"Many of the hilltops on the Bolivian altiplano have at some time been surrounded by concentric ringed walls and/or irrigation channels and many of these hilltops in turn seem to have suffered from earthquake damage. Closer study suggests that many hilltops originally had concentric ringed irrigation canals, but in many zones these appear to have been destroyed by earthquakes and later generations have reoccupied the land and built walls alongside the former irrigation ditches."
I have searched the "ringed feature south of volcan Quemado". Here it is after processing.
http://www.atlantisbolivia.org/ringedhills.htm
Very interesting the top of the hill with concentric rings!
"Many of the hilltops on the Bolivian altiplano have at some time been surrounded by concentric ringed walls and/or irrigation channels and many of these hilltops in turn seem to have suffered from earthquake damage. Closer study suggests that many hilltops originally had concentric ringed irrigation canals, but in many zones these appear to have been destroyed by earthquakes and later generations have reoccupied the land and built walls alongside the former irrigation ditches."
I have searched the "ringed feature south of volcan Quemado". Here it is after processing.
Another ringed structure
Images obtained by Google Maps
Alpaca
In the "The Continuum encyclopedia of animal symbolism in art", by Hope B. Werness, we can find a very interesting discussion on Alpaca.
Waru-warus near the lake
This image, obtained after processing a Google Maps image, shows the network of waru-warus, that is, of the "raised fields" - earthworks separated by canals - near the Titicaca Lake (Huata, Puno, Peru). This is an ancient agricultural technique used by Andean people starting from the first millennium BC. Note that the structure of the network is created after a careful planning.
Each raised field is approximately 10 meters large and more than one hundred long.
arXiv:1009.4602 [pdf] Geoglyphs of Titicaca as an ancient example of graphic design, Amelia Carolina Sparavigna
arXiv:1009.2231 [pdf] Symbolic landforms created by ancient earthworks near Lake Titicaca, Amelia Carolina Sparavigna
Radial structures at Rodadero
As discussed in some previous posts on "qochas", these structures had and have an agricultural function. Some qochas had a ceremonial use too. At Rodadero (Cusco) we find the huge Qocha Chincanas.
Near the parking of this archaeological site, where it is placed the statue of the White Christ, the satellite imagery (Google Maps) shows two radial/circular structures as those used for agricultural purposed near Titicaca lake.
Near the parking of this archaeological site, where it is placed the statue of the White Christ, the satellite imagery (Google Maps) shows two radial/circular structures as those used for agricultural purposed near Titicaca lake.
Near Qenko and Rodadero
One of the beautiful examples of the Incaic culture in the Cusco region are the ruins of Qenko, located approximately 6 kilometers from the capital of the area, Cusco. Qenko is near the Rodadero, a giant rock hill with numerous stairwells and benches carved into the stone. The hills near Qenko and Rodadero are used as cropfields. During this weekend I was studying qochas (lakes, ponds) and searching for ceremonial qochas in Peru, when I saw by means of Google Maps this hill. After image processing to enhance details, it seems that this hill possesses many concentric structures, as a qocha. May be it is another ceremonial qochas near Cusco.
Geoglyphs of Titicaca
28 p. Book Geoglyphs Titicaca SparavignaImages of geoglyphs near Titicaca Lake. The ancient artificial landscape
with geoglyphs is an important example of an engineering graphic design
for an age and place where no written documents existed. Geoglyphs
are created by a network of earthworks, which constitute the remains
of an extensive ancient agricultural system. It can be seen by means
of the Google satellite imagery on the Peruvian region near the Titicaca Lake.
Public Category: Research Reads: 2657 Published: 10 / 09 / 2010 Share Add to Collections
Public Category: Research Reads: 2657 Published: 10 / 09 / 2010 Share Add to Collections
Landforms of Titicaca: Near Sillustani
18 p. Landforms of Titicaca: Near Sillustani, Book by A.C. SparavignaTerraced hills, a network of earthworks, sometimes creating geoglyphs,
and ancient ruins are the structures we can observe with the satellites
imagery of Google Maps. After the previous publications on the
earthworks and geoglyphs , let us survey specific area with more
details. Here we show satellite imagery, enhanced with freely
available image processing software, of the area near Sillustani,
the peninsula of the Laguna Umayo, in Puno region of Peru.
Besides Sillustani, interesting places are the
Mesa Isla and Atuncalla.
Public Category: Research Reads: 286 Published: 10 / 27 / 2010
Public Category: Research Reads: 286 Published: 10 / 27 / 2010
Landforms of Titicaca: Amazing land
18 p. Landforms Titicaca Amazing Land by AC SparavignaThe areas of Huata, Coata and Paucarcolla, near the Titicaca Lake,
are covered by amazing drawings. For these regions, Google Maps
has enough high resolution to have a detailed survey.
In the book, the reader can see a show of images obtained
by enhancing the satellite imagery.
Each image has coordinates and scale.
Public Category: Research Reads: 207 Published: 10 / 28 / 2010
Share Add to Collections
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Monday, April 25, 2011
Gutenberg printing goes nanoscale
"Gutenberg printing goes nanoscale
Researchers in Australia and the US have developed a new way to print nanoparticle arrays. The technique, which is inspired by Gutenberg book printing, could be used to mass-produce nanotechnology components for solar cells, biosensors and other electronics devices."
Researchers in Australia and the US have developed a new way to print nanoparticle arrays. The technique, which is inspired by Gutenberg book printing, could be used to mass-produce nanotechnology components for solar cells, biosensors and other electronics devices."
Sunday, April 24, 2011
Llama near Titicaca
Near the shore of Titicaca Lake, we find a large area covered by the "raised fields", which are earthworks of an ancent agricultural system, created in the Pukara period, quite before the Inca domination. The raised fields are arranged in a complex hydraulic system. We can observed it with the satellite (Google Maps).
With an image processing of the maps, the ancient agricultural system appears with all its beautiful structure and complexitiy.
Sometimes the raised fields assume symbolic forms.
For instance, the muzzle of a llama
It is seems a mouth touching the river (the white bend, white because the water is reflecting the light of sun), the nose, eye and ears. For comparison, a llama picture.
arXiv:1009.4602 [pdf] Geoglyphs of Titicaca as an ancient example of graphic design, Amelia Carolina Sparavigna
arXiv:1009.2231 [pdf] Symbolic landforms created by ancient earthworks near Lake Titicaca, Amelia Carolina Sparavigna
Snake
Image from Google Maps after processing to enhance details.
Near the Titicaca Lake, Peru.
It seems a snake, the pond as its eye and a bifid tongue.
To see the forked tongue it is necessary a zoom on the head and a filtering with wavelets to enhance the details.
More on waru-waru
arXiv:1009.4602 [pdf] Geoglyphs of Titicaca as an ancient example of graphic design, Amelia Carolina Sparavigna
arXiv:1009.2231 [pdf] Symbolic landforms created by ancient earthworks near Lake Titicaca, Amelia Carolina Sparavigna
Friday, April 22, 2011
"Around the World" in ancient agriculture
There is a beautiful book by Éric Mollard, Annie Walter, Éditeurs scientifiques. The title is "Agricultures singulières", IRD Éditions, Institut de recherche pour le développement, Paris, 2008.
It is an "around the world" in ancient agricultural techniques.
Let me report a small part of this book.
Les qochas de l’Altiplano
En langue quechua, le terme qocha désigne les lacs, les cuvettes, les étangs et, de façongénérale, tout bassin inondé artificiel ou naturel, toute dépression à la surface du sol. C’est également le nom donné à un type d’assiette cérémonielle en céramique. Les qochas (ou cochas suivant les graphies) sont des cuvettes naturelles ou creusées par les hommes, reliées entre elles pour former un véritable système hydraulique. Le terme
désigne à la fois un unique bassin et le système dans son ensemble. Les terrains qui les séparent ne sont pas cultivés mais dédiés à l’élevage. Les qochas sont l’un des nombreux systèmes de gestion des eaux et du sol qui ont permis aux anciennes populations andines de cultiver la terre et de survivre. On trouve les qochas dans de rares régions des Altiplanos péruvien et bolivien, à une altitude moyenne de 4 000 mètres. Ils sont très nombreux et denses dans le département de Puno (Pérou) où ils ont été découverts et bien documentés...
Les qochas sont des dépressions, aménagées par les hommes selon trois formes de base. Les plus fréquentes sont rondes et mesurent de 30 mètres à 200 mètres de diamètre pour une superficie moyenne de 6 000 m2. ...La qocha sert alternativement de champ de culture, de pâturage et de réservoir d’eau. ... On y cultive avant tout la pomme de terre ainsi que la cañihua (Chenopodium pallidicaule) et la quinoa (Chenopodium quinoa), l’avoine, l’orge et le bléparfois en rotation. La qocha supporte des cultures de pomme de terre la première année, de quinoa la deuxième année, d’avoine et d’orge la troisième année puis suit une jachère pâturée de durée variable. La taille d’une qocha est généralement exprimée en masa, c’est-à-dire en surface labourée en un jour par une équipe constituée de deux hommes et d’une femme. Le rendement est d’environ une tonne par masa. Le système permet une régulation souple de l’eau de pluie dans une région qui doit faire face à une succession de fortes sécheresses suivies d’inondations....
Le système des qochas est sans doute l’agriculture de l’Altiplano, autour du lac Titicaca, la moins étudiée si bien qu’il existe peu de références à son sujet. Cela s’explique en partie par le fait qu’au XVI e siècle, elles étaient situées en dehors des voies de passage principales. Plus tard, les lignes de chemin de fer ont traversé ces larges dépressions peu profondes, sans que les voyageurs puissent les remarquer, au premier coup d’œil. Ce n’est qu’en 1962 qu’elles ont été mentionnées pour la première fois, par des étudiants en archéologie qui travaillaient dans le Puno, alors même que beaucoup d’entre elles étaient encore en activité. Elles sont d’origine préincaïque comme en témoignent les tessons découverts à proximité. Bien que le système soit vraisemblablement antérieur, il est associé au site Pukara.
Pukara a été un centre de peuplement important durant des centaines d’années depuis 1 300 avant J.-C. puis il est devenu, entre 250 avant J.-C. et 380 après J.-C., un important site religieux, densément peuplé. Une société fortement hiérarchisée y tenait de grandes cérémonies et a été capable d’assurer une gestion centralisée de l’eau. Mais certains auteurs suggèrent que l’aménagement et la maintenance des structures agricoles, dont les qochas, ont été tout aussi bien mis en œuvre par des groupements communautaires locaux. Même en supposant que les paysans aient utilisé des
dépressions existantes dans lesquelles l’eau de pluie s’accumulait, il est certain qu’une grande maind’œuvre et une longue période de temps ont été nécessaires pour aménager ce système complexe sur une grande étendue. Outre les qochas, cette civilisation a aussi construit d’importants ensembles de champs surélevés (ERICKSON, 1994). Puis, le site a été progressivement abandonné avec la montée en puissance de Tihuanacu avec laquelle Pukara a entretenu des liens commerciaux et sociaux. Cette civilisation andine qui a étendu son influence jusqu’au nord du Chili, a pratiqué une agriculture fondée sur la construction des terrasses (andenes), des champs surélevés (camellones) et aussi quelques qochas. Mais elles sont peu développées dans la vallée de Tihuanacu, sans doute parce que leur capacité de production est insuffisante pour une nombreuse population. Après la chute de Tihuanacu, en l’an 1000, le site de Pukara a été de nouveau occupé et les qochas utilisées. La région a traversé à
cette époque une longue période de sécheresse qui a pu rendre l’utilisation des qochas indispensable pour la survie des populations locales. Plus tard, les Huari puis les Incas ont développé des systèmes renommés de terrasses mais les qochas ont continué à être cultivées, en complément de l’agriculture de pente. La conquête espagnole a par la suite entraîné une grave dépopulation locale qui a conduit à l’abandon partiel de toutes les structures agricoles mais les qochas, toujours utilisées par quelques groupes, ont réussi à traverser les siècles, les guerres et la colonisation. Elles apparaissent donc comme des structures complémentaires à celles qui soutiennent l’agriculture principale et se développent quand les conditions environnementales (naturelles ou sociales) fragilisent l’agriculture et les communautés locales.
Aujourd’hui, des secteurs entiers de qochas ont été abandonnés ou détériorés soit pour des raisons de salinité des sols, soit à cause d’une mécanisation imprudente dans les secteurs d’haciendas. Mais elles occupent encore plus de 250 km2, avec une densité d’environ 100 qochas au kilomètre carré. Au total, plus de 20 000 cuvettes sont actuellement utilisées de façon intensive par les populations andines
contemporaines. Elles ne sont pas les seules structures agricoles de la région et les communautés locales cultivent aussi les pentes, aménagées en terrasses (andenes) et construisent des camellones (ici appelés waru-waru).
It is an "around the world" in ancient agricultural techniques.
Let me report a small part of this book.
Les qochas de l’Altiplano
En langue quechua, le terme qocha désigne les lacs, les cuvettes, les étangs et, de façongénérale, tout bassin inondé artificiel ou naturel, toute dépression à la surface du sol. C’est également le nom donné à un type d’assiette cérémonielle en céramique. Les qochas (ou cochas suivant les graphies) sont des cuvettes naturelles ou creusées par les hommes, reliées entre elles pour former un véritable système hydraulique. Le terme
désigne à la fois un unique bassin et le système dans son ensemble. Les terrains qui les séparent ne sont pas cultivés mais dédiés à l’élevage. Les qochas sont l’un des nombreux systèmes de gestion des eaux et du sol qui ont permis aux anciennes populations andines de cultiver la terre et de survivre. On trouve les qochas dans de rares régions des Altiplanos péruvien et bolivien, à une altitude moyenne de 4 000 mètres. Ils sont très nombreux et denses dans le département de Puno (Pérou) où ils ont été découverts et bien documentés...
Les qochas sont des dépressions, aménagées par les hommes selon trois formes de base. Les plus fréquentes sont rondes et mesurent de 30 mètres à 200 mètres de diamètre pour une superficie moyenne de 6 000 m2. ...La qocha sert alternativement de champ de culture, de pâturage et de réservoir d’eau. ... On y cultive avant tout la pomme de terre ainsi que la cañihua (Chenopodium pallidicaule) et la quinoa (Chenopodium quinoa), l’avoine, l’orge et le bléparfois en rotation. La qocha supporte des cultures de pomme de terre la première année, de quinoa la deuxième année, d’avoine et d’orge la troisième année puis suit une jachère pâturée de durée variable. La taille d’une qocha est généralement exprimée en masa, c’est-à-dire en surface labourée en un jour par une équipe constituée de deux hommes et d’une femme. Le rendement est d’environ une tonne par masa. Le système permet une régulation souple de l’eau de pluie dans une région qui doit faire face à une succession de fortes sécheresses suivies d’inondations....
Le système des qochas est sans doute l’agriculture de l’Altiplano, autour du lac Titicaca, la moins étudiée si bien qu’il existe peu de références à son sujet. Cela s’explique en partie par le fait qu’au XVI e siècle, elles étaient situées en dehors des voies de passage principales. Plus tard, les lignes de chemin de fer ont traversé ces larges dépressions peu profondes, sans que les voyageurs puissent les remarquer, au premier coup d’œil. Ce n’est qu’en 1962 qu’elles ont été mentionnées pour la première fois, par des étudiants en archéologie qui travaillaient dans le Puno, alors même que beaucoup d’entre elles étaient encore en activité. Elles sont d’origine préincaïque comme en témoignent les tessons découverts à proximité. Bien que le système soit vraisemblablement antérieur, il est associé au site Pukara.
Pukara a été un centre de peuplement important durant des centaines d’années depuis 1 300 avant J.-C. puis il est devenu, entre 250 avant J.-C. et 380 après J.-C., un important site religieux, densément peuplé. Une société fortement hiérarchisée y tenait de grandes cérémonies et a été capable d’assurer une gestion centralisée de l’eau. Mais certains auteurs suggèrent que l’aménagement et la maintenance des structures agricoles, dont les qochas, ont été tout aussi bien mis en œuvre par des groupements communautaires locaux. Même en supposant que les paysans aient utilisé des
dépressions existantes dans lesquelles l’eau de pluie s’accumulait, il est certain qu’une grande maind’œuvre et une longue période de temps ont été nécessaires pour aménager ce système complexe sur une grande étendue. Outre les qochas, cette civilisation a aussi construit d’importants ensembles de champs surélevés (ERICKSON, 1994). Puis, le site a été progressivement abandonné avec la montée en puissance de Tihuanacu avec laquelle Pukara a entretenu des liens commerciaux et sociaux. Cette civilisation andine qui a étendu son influence jusqu’au nord du Chili, a pratiqué une agriculture fondée sur la construction des terrasses (andenes), des champs surélevés (camellones) et aussi quelques qochas. Mais elles sont peu développées dans la vallée de Tihuanacu, sans doute parce que leur capacité de production est insuffisante pour une nombreuse population. Après la chute de Tihuanacu, en l’an 1000, le site de Pukara a été de nouveau occupé et les qochas utilisées. La région a traversé à
cette époque une longue période de sécheresse qui a pu rendre l’utilisation des qochas indispensable pour la survie des populations locales. Plus tard, les Huari puis les Incas ont développé des systèmes renommés de terrasses mais les qochas ont continué à être cultivées, en complément de l’agriculture de pente. La conquête espagnole a par la suite entraîné une grave dépopulation locale qui a conduit à l’abandon partiel de toutes les structures agricoles mais les qochas, toujours utilisées par quelques groupes, ont réussi à traverser les siècles, les guerres et la colonisation. Elles apparaissent donc comme des structures complémentaires à celles qui soutiennent l’agriculture principale et se développent quand les conditions environnementales (naturelles ou sociales) fragilisent l’agriculture et les communautés locales.
Aujourd’hui, des secteurs entiers de qochas ont été abandonnés ou détériorés soit pour des raisons de salinité des sols, soit à cause d’une mécanisation imprudente dans les secteurs d’haciendas. Mais elles occupent encore plus de 250 km2, avec une densité d’environ 100 qochas au kilomètre carré. Au total, plus de 20 000 cuvettes sont actuellement utilisées de façon intensive par les populations andines
contemporaines. Elles ne sont pas les seules structures agricoles de la région et les communautés locales cultivent aussi les pentes, aménagées en terrasses (andenes) et construisent des camellones (ici appelés waru-waru).
Ñawis
L'Associazione Liberi Viandanti propone un'interessante sintesi dell'arte spirituale andina, a cura di Gianmichele Ferrero et al. alla pagina
http://www.liberiviandanti.it/liberiviandanti/?page_id=12
"Il nostro corpo energetico possiede una serie di centri di percezione. Nella Tradizione andina sono chiamati Ñawis, che letteralmente significa “occhio”. Le potenzialità latenti relative agli Ñawis vengono attivate con precisi riti.
Ogni centro si connette con una qualità particolare di energia del cosmo.
Il Pujyu non è considerato un occhio vero e proprio, ma piuttosto una fonte. Si trova nel luogo dov’è la fontanella dei neonati e riceve il Kausay sotto forma di luce bianca
Il Siki ñawi, è situato sull’osso sacro, alla base della colonna vertebrale, ed è collegato con Unu, l’energia dell’acqua di colore verde.
Il Qosqo ñawi, nella regione ombelicale, è collegato a Allpa, l’energia della terra, che ha un colore rosso.
Il Sonqo ñawi, si trova sul petto all’altezza del cuore, ed è collegato ad Inti, il sole con una luce dorata.
Il Kunka ñawi, è nella zona della gola ed è collegato all’energia argentata di Wayra, il vento.
I due occhi fisici, anch’essi considerati centri, sono collegati il destro al potere della visione mistica e il sinistro al potere della visione magica.
Leggermente in alto fra le sopracciglia, è il Qanchis ñawi, che riceve normalmente un’energia viola proveniente dall’Hanaq Pacha, che da accesso al mondo della visione superiore ."
http://www.liberiviandanti.it/liberiviandanti/?page_id=12
"Il nostro corpo energetico possiede una serie di centri di percezione. Nella Tradizione andina sono chiamati Ñawis, che letteralmente significa “occhio”. Le potenzialità latenti relative agli Ñawis vengono attivate con precisi riti.
Ogni centro si connette con una qualità particolare di energia del cosmo.
Il Pujyu non è considerato un occhio vero e proprio, ma piuttosto una fonte. Si trova nel luogo dov’è la fontanella dei neonati e riceve il Kausay sotto forma di luce bianca
Il Siki ñawi, è situato sull’osso sacro, alla base della colonna vertebrale, ed è collegato con Unu, l’energia dell’acqua di colore verde.
Il Qosqo ñawi, nella regione ombelicale, è collegato a Allpa, l’energia della terra, che ha un colore rosso.
Il Sonqo ñawi, si trova sul petto all’altezza del cuore, ed è collegato ad Inti, il sole con una luce dorata.
Il Kunka ñawi, è nella zona della gola ed è collegato all’energia argentata di Wayra, il vento.
I due occhi fisici, anch’essi considerati centri, sono collegati il destro al potere della visione mistica e il sinistro al potere della visione magica.
Leggermente in alto fra le sopracciglia, è il Qanchis ñawi, che riceve normalmente un’energia viola proveniente dall’Hanaq Pacha, che da accesso al mondo della visione superiore ."
Kausay Puriy
L'Associazione Liberi Viandanti propone un'interessante sintesi dell'arte spirituale andina, a cura di Gianmichele Ferrero et al. alla pagina
http://www.liberiviandanti.it/liberiviandanti/?page_id=12
"La Tradizione andina prende il nome di Kausay Puriy che significa “imparare a camminare insieme all’energia vivente”. che significa “imparare a camminare insieme all’energia vivente”. L’energia vivente è sovrabbondante, tutti i fattori della realtà la emanano secondo la loro propria fisionomia. Semplicemente aprendoci a percepirla, il nostro essere può arrivare a nutrirsi a sufficienza per poter sviluppare le sue potenzialità più elevate.... La Tradizione andina supera il malinteso della dualità positivo-negativo interpretando l’energia scomoda di un’altra persona o la propria in termini di differenza di spessore e di gravità, usando il nome di samiy per l’aspetto leggero e sottile dell’energia e di per l’aspetto leggero e sottile dell’energia e di jucha per quello pesante. Tutti gli esseri viventi e gli elementi della natura producono samiy. Noi umani siamo gli unici a generare jucha quando ostacoliamo il flusso dell’energia vivente."
Molto interessante.
http://www.liberiviandanti.it/liberiviandanti/?page_id=12
"La Tradizione andina prende il nome di Kausay Puriy che significa “imparare a camminare insieme all’energia vivente”. che significa “imparare a camminare insieme all’energia vivente”. L’energia vivente è sovrabbondante, tutti i fattori della realtà la emanano secondo la loro propria fisionomia. Semplicemente aprendoci a percepirla, il nostro essere può arrivare a nutrirsi a sufficienza per poter sviluppare le sue potenzialità più elevate.... La Tradizione andina supera il malinteso della dualità positivo-negativo interpretando l’energia scomoda di un’altra persona o la propria in termini di differenza di spessore e di gravità, usando il nome di samiy per l’aspetto leggero e sottile dell’energia e di per l’aspetto leggero e sottile dell’energia e di jucha per quello pesante. Tutti gli esseri viventi e gli elementi della natura producono samiy. Noi umani siamo gli unici a generare jucha quando ostacoliamo il flusso dell’energia vivente."
Molto interessante.
Hands on earthworks
Earthworks near Titicaca Lake
These earthworks are known as "raised fields" and "waru-warus".
Let us rotate a part of the image and enhance it.
A "hand"?
More on waru-waru
arXiv:1009.4602 [pdf] Geoglyphs of Titicaca as an ancient example of graphic design, Amelia Carolina Sparavigna
Solar power without solar cells - physicsworld.com
"Physicists in the US believe that it is possible to generate solar power without solar cells. Their "optical battery" idea, which would involve performing the energy conversion inside insulators rather than semiconductors, could make for a far cheaper alternative energy source than existing solar-cell technologies."
Solar power without solar cells - physicsworld.com