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Je ne pouvais pas ne pas photographier cette belle jeune femme Hmong au marché de Meo Vac (Nord du Vietnam) sur ce beau fond de mur rouge, dans cette belle harmonie de couleurs complémentaires.
Les Hmong encore appelés Méo, ou Miao , sont originaires des régions montagneuses du sud de la Chine (principalement la province du Guizhou), où ils sont encore présents ainsi qu'au nord du Viêt Nam et du Laos.
Le souci de préserver leur identité culturelle et leur indépendance les ont amenés à s'engager dans divers conflits. Au XXe siècle, en particulier, ils aidèrent les Français pendant la guerre d'Indochine puis les Américains pendant la la guerre du Vietnam. A l’avènement des régimes communistes dans ces pays un nombre important de Hmong se sont réfugiés dans des pays d'accueil, principalement les États-Unis, la France et l'Australie. Mais la majeure partie d’entre eux vit encore en Asie du Sud-Est
Les Hmongs sont animistes ou chrétiens. La langue hmong appartient à la famille des langues hmong-mien, encore appelée « miao-yao »
Les costumes traditionnels de cette ethnie sont très polymorphes mais ils ont en commun la richesse du décor brodé. J'aurai l'occasion d'en présenter plusieurs exemples. La sobre tenue de cette jeune fille n'est pas vraiment une tenue traditionnelle même si le tissu de son vêtement semblait avoir les faveurs de nombreuses personnes de cette ethnie sur le marché..
Since my parents have also gone through the 23andMe DNA analysis, we can compare genes.
Thanks for the endurance mom! For those who know her, this is a strong point. =)
The genome-wide comparison above covers almost a million SNPs (Single Nucleotide Polymorphisms), which are point letter mutations (like A → G or T → C swaps) that have accumulated in relatively recent generations and vary across the peoples of the planet.
For each of the traits, I added a note with explanatory text from 23andMe. For example, the 135 SNPs related to endurance cover “genes that have been associated with different endurance phenotypes, including VO2max (your maximum capacity to transport and utilize oxygen), running distance, exercise time, and power output.”
Immune System Compatibility is also pretty interesting as it is almost entirely genetic, and relates to organ transplant potential and mate preference (we have a natural aversion to people with immune systems too similar to our own). Whew!
The analysis above is on the 22 autosomal chromosomes which are a blend from mom and dad. To look at a segment of DNA that we know only came from Mom, we look at the mitochondrial DNA (mtDNA) which is outside the nucleus and resident in each of the mitochondria, or “power plants” of our cells. When you were a single cell, that cell came from mom. Dad’s genetic contribution went straight to the nucleus. And as that cell proceeded to divide, the mtDNA was copied as well, now replicated in all of the cells of your body, and entirely derived from mom. The sperm’s mitochondria are mainly in the tail, and the egg cell destroys any that might make it across. And it is abundant. Your liver cells, for example, have about 1500 mitochondria and about 10 thousand copies of mom’s mtDNA per cell.
By the way, this snippet of code is a clue to the endosymbiosis of the distant past where our cells engulfed energetic bacteria to power our much larger cells. The mtDNA forms a circle, instead of a strand, as found in viruses, bacteria and archaea. It also has a high mutation rate, like bacteria, which makes it useful for genetic archaeology.
So, for Mother's Day, it seemed appropriate to look at my mom and all of the moms in her maternal line. Our mtDNA pegs us as Maternal Haplogroup H11a, which is common to Nicolaus Copernicus and Marie Antoinette. =)
23andMe summarizes: "H originated in the Near East and then expanded after the peak of the Ice Age into Europe, where it is the most prevalent haplogroup today. It is present in about half of the Scandinavian population...
H originated about 40,000 years ago in the Near East, where favorable climate conditions allowed it to flourish. About 10,000 years later it spread westward all the way to the Atlantic coast and east into central Asia as far as the Altay Mountains.
About 21,000 years ago an intensification of Ice Age conditions blanketed much of Eurasia with mile-thick glaciers and squeezed people into a handful of ice-free refuges in Iberia, Italy, the Balkans and the Caucasus. Several branches of haplogroup H arose during that time, and after the glaciers began receding about 15,000 years ago most of them played a prominent role in the repopulation of the continent.
Haplogroup H achieved an even wider distribution later on with the spread of agriculture and the rise of organized military campaigns.
Recent research indicates Haplogroup H made its way into the deserts of northern Africa via the Strait of Gibraltar."
And for those wondering how we know Copernicus’ mtDNA, we turn to The Spittoon: "Even though DNA begins degrading immediately following death, the genetic material is often preserved in the teeth for hundreds or thousands of years. Scientists studying ancient DNA (aDNA) usually focus on the type of DNA that has the greatest chance of surviving: mitochondrial DNA (mtDNA), which is passed exclusively from mother to children. The sheer abundance of mtDNA makes it much more likely to survive; each cell contains hundreds of copies."
Apothécie courtement stipitée ou très étroitement sessile, jusqu’à 0,36 mm de diam., 0,24 mm de hauteur totale (exsiccata)
Asques cylindriques, un peu élargis sur le tiers supérieur, à 8 spores bisériées, avec crochet basal et appareil apical amyloïde, 39,7-45 x 5-6,1 µm
Paraphyses cylindriques, parfois légèrement élargies à l’apex, ramifiés à la base et parfois aussi sur la partie médiane, à contenu finement granuleux (spécimens réhydratés), 30,5- 50,1 x 1,52-1,9 µm, ne dépassant pas les asques ou très peu
Spores ellipsoïdes, parfois légèrement plus étroites à une extrémité, lisses, possiblement fugacement septées entre les 2 guttules (difficile à préciser), biguttulées, hyalines ou à réfringence verdâtre, 4,5- 5,4 x 2,2-2,4 µm, Q = 2,1
Excipulum ectal en textura porrecta, formé d’hyphes verticales vers la base et obliques vers les bords, assez minces, septées, à paroi épaissie, brunâtres, 7-18,4 x 1,9-4,8 µm.
Médulla en textura intricata(?), difficile à préciser, formée de cellules polymorphe à subglobuleuses, 5,4-5,7 x 4,3-5,3 µm
Revêtement externe formé de cellules subglobuleuses à ellipsoïdes, hyalines, 7,3-11,6 x 5,7-7,1 µm
Poils externes cylindriques, renflés à la base, parfois légèrement élargis à l’apex, septés, à paroi légèrement épaissie, finement échinulés (?), brunâtres, couverts d’incrustations brunâtres, longs, jusqu’à 5,3 µm de diam. à l’apex, avec aspérités jusqu’à 0,5 µm de longueur
Récolteur: Jules Cimon
Identification du genre: Hans-Otto Baral (AscoFrance)
Recherche et consultation: Roland Labbé
Micrographie: Jacqueline Labrecque
Chairlift @ Lollapalooza 2016, Grant Park, Chicago, IL, on Saturday, July 30, 2016.
Lollapalooza 2016 Setlist:
Look Up
Polymorphing
Amanaemonesia
I Belong in Your Arms
Show U Off
Romeo
Crying In Public
Moth to the Flame
Ch-Ching
Get Real
(~2.8 centimeters across at its widest)
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Igneous rocks form by the cooling & crystallization of hot, molten rock (magma & lava). If this happens at or near the land surface, or on the seafloor, they are extrusive igneous rocks. If this happens deep underground, they are intrusive igneous rocks. Most igneous rocks have a crystalline texture, but some are clastic, vesicular, frothy, or glassy.
Obsidian is readily identifiable. It is a glassy-textured, extrusive igneous rock. Obsidian is natural glass - it lacks crystals, and therefore lacks minerals. Obsidian is typically black in color, but most obsidians have a felsic to intermediate chemistry. Felsic igneous rocks are generally light-colored, so a felsic obsidian seems a paradox. Mafic obsidians are scarce, but they are also black and glassy.
Obsidian is an uncommon rock, but can be examined at several famous localities in America, such as Obsidian Cliff at the Yellowstone Hotspot (northwestern Wyoming, USA) and Big Obsidian Flow at the Newberry Volcano (central Oregon, USA).
Obsidian is moderately hard and has a conchoidal fracture (smooth and curved fracture surface), with sharp broken edges. Freshly-broken obsidian has the sharpest edges of any material known, natural or man-made (as seen under a scanning electron microscope).
Obsidian forms two ways: 1) very rapid cooling of lava, which prevents the formation of crystals; 2) cooling of high-viscosity lava, which prevents easy movement of atoms to form crystals. An example of obsidian that formed the first way is along the margins of basaltic lava flows at Kilaeua Volcano (Hawaii Hotspot, central Pacific Ocean). The obsidian sample seen here formed the second way.
Obsidian is unstable on geologic time scales - it will slowly convert to material that is not obsidian. A partially-converted obsidian is a distinctive rock called snowflake obsidian. The black portions of the rock seen here are rhyolitic obsidian (glass). The white patches ("snowflakes") are devitrification spots composed of cristobalite (SiO2, a polymorph of quartz).
Austrelaps superbus are quite variable in dorsal colouration, and this photo illustrates two different ends of that spectrum of variation (black to orange) in this species of venomous snake. These snakes were captured and photographed as part of permitted scientific research.
Pictured are the atomic-resolution structures of three amyloid polymorphs against a (falsely coloured) background image of the fibrils taken with a transmission electron microscope. Determining the fibril structures, and defining the major structural elements and interactions contributing to their hierarchical self-assembly, provides insight into the formation of polymorphic amyloid in a range of protein deposition disorders including Alzheimer’s and Parkinson’s diseases. Image courtesy of Anthony W. P. Fitzpatrick, Christopher A. Waudby, Daniel K. Clare, Michele Vendruscolo and Christopher M. Dobson.
Courtesy of Dr. Anthony Fitzpatrick
Image Details
Instrument used: Tecnai
Chairlift @ Lollapalooza 2016, Grant Park, Chicago, IL, on Saturday, July 30, 2016.
Lollapalooza 2016 Setlist:
Look Up
Polymorphing
Amanaemonesia
I Belong in Your Arms
Show U Off
Romeo
Crying In Public
Moth to the Flame
Ch-Ching
Get Real
FR Luzerne polymorphe - EN Toothed medick - ES Mielga de camino
Medicago polymorpha L. (tiges avec feuilles et fruits)
Friche (alt. 120 m)
Fraipont (province de Liège, Wallonie, Belgique)
Adventice (Ouest et Sud de l'Europe, Nord de l'Afrique, Érythrée, Éthiopie, Sud-Ouest de l'Asie, Ouest de l'Himalaya)
Cuculus canorus
[order] Cuculiformes | [family] Cuculidae | [latin] Cuculus canorus | [UK] Cuckoo | [FR] Coucou gris | [DE] Kuckuck | [ES] Cuco Europeo | [IT] Cuculo eurasiatico | [NL] Koekoek | [IRL] Cuach
Status: Widespread summer visitor to Ireland from April to August.
Conservation Concern: Green-listed in Ireland. The European population is currently evaluated as secure.
Identification: Despite its obvious song, relatively infrequently seen. In flight, can be mistaken for a bird of prey such as Sparrowhawk, but has rapid wingbeats below the horizontal plane - ie. the wings are not raised above the body. Adult male Cuckoos are a uniform grey on the head, neck, back, wings and tail. The underparts are white with black barring. Adult females can appear in one of two forms. The so-called grey-morph resembles the adult male plumage, but has throat and breast barred black and white with yellowish wash. The rufous-morph has the grey replaced by rufous, with strong black barring on the wings, back and tail. Juvenile Cuckoos resemble the female rufous-morph, but are darker brown above.
Similar Species: Sparrowhawk
Call: The song is probably one of the most recognisable and well-known of all Irish bird species. The male gives a distinctive “wuck-oo”, which is occasionally doubled “wuck-uck-ooo”. The female has a distinctive bubbling “pupupupu”. The song period is late April to late June.
Diet: Mainly caterpillars and other insects.
Breeding: Widespread in Ireland, favouring open areas which hold their main Irish host species – Meadow Pipit. Has a remarkable breeding biology unlike any other Irish breeding species.
Wintering: Cuckoos winter in central and southern Africa.
To minimise the chance of being recognised and thus attacked by the birds they are trying to parasitize, female cuckoos have evolved different guises.
The common cuckoo (Cuculus canorus) lays its eggs in the nests of other birds. On hatching, the young cuckoo ejects the host's eggs and chicks from the nest, so the hosts end up raising a cuckoo chick rather than a brood of their own. To fight back, reed warblers (a common host across Europe) have a first line of defence: they attack, or ‘mob’, the female cuckoo, which reduces the chance that their nest is parasitized.
To deter the warbler from attacking, the colouring of the grey cuckoo mimics sparrow hawks, a common predator of reed warblers. However, other females are bright rufous (brownish-red). The presence of alternate colour morphs in the same species is rare in birds, but frequent among the females of parasitic cuckoo species. The new research shows that this is another cuckoo trick: cuckoos combat reed warbler mobbing by coming in different guises.
In the study, the researchers manipulated local frequencies of the more common grey colour cuckoo and the less common (in the United Kingdom) rufous colour cuckoo by placing models of the birds at neighbouring nests. They then recorded how the experience of watching their neighbours mob changed reed warbler responses to both cuckoos and a sparrow hawk at their own nest.
They found that reed warblers increased their mobbing, but only to the cuckoo morph that their neighbours had mobbed. Therefore, as one cuckoo morph increases in frequency, local host populations will become alerted specifically to that morph. This means the alternate morph will be more likely to slip past host defences and lay undetected. This is the first time that ‘social learning’ has been documented in the evolution of mimicry as well as the evolution of different observable characteristics - such as colour - in the same species (called polymorphism).
From the University of Cambridge “When mimicry becomes less effective, evolving to look completely different can be a successful trick. Our research shows that individuals assess disguises not only from personal experience, but also by observing others. However, because their learning is so specific, this social learning then selects for alternative cuckoo disguises and the arms race continues.”.
“It’s well known that cuckoos have evolved various egg types which mimic those of their hosts in order to combat rejection. This research shows that cuckoos have also evolved alternate female morphs to sneak through the hosts' defences. This explains why many species which use mimicry, such as the cuckoo, evolve different guises.”
Ipê Amarelo, Tabebuia [chrysotricha or ochracea].
Ipê-amarelo em Brasília, Brasil.
This tree is in Brasília, Capital of Brazil.
Text, in english, from Wikipedia, the free encyclopedia
"Trumpet tree" redirects here. This term is occasionally used for the Shield-leaved Pumpwood (Cecropia peltata).
Tabebuia
Flowering Araguaney or ipê-amarelo (Tabebuia chrysantha) in central Brazil
Scientific classification
Kingdom: Plantae
(unranked): Angiosperms
(unranked): Eudicots
(unranked): Asterids
Order: Lamiales
Family: Bignoniaceae
Tribe: Tecomeae
Genus: Tabebuia
Gomez
Species
Nearly 100.
Tabebuia is a neotropical genus of about 100 species in the tribe Tecomeae of the family Bignoniaceae. The species range from northern Mexico and the Antilles south to northern Argentina and central Venezuela, including the Caribbean islands of Hispaniola (Dominican Republic and Haiti) and Cuba. Well-known common names include Ipê, Poui, trumpet trees and pau d'arco.
They are large shrubs and trees growing to 5 to 50 m (16 to 160 ft.) tall depending on the species; many species are dry-season deciduous but some are evergreen. The leaves are opposite pairs, complex or palmately compound with 3–7 leaflets.
Tabebuia is a notable flowering tree. The flowers are 3 to 11 cm (1 to 4 in.) wide and are produced in dense clusters. They present a cupular calyx campanulate to tubular, truncate, bilabiate or 5-lobed. Corolla colors vary between species ranging from white, light pink, yellow, lavender, magenta, or red. The outside texture of the flower tube is either glabrous or pubescentThe fruit is a dehiscent pod, 10 to 50 cm (4 to 20 in.) long, containing numerous—in some species winged—seeds. These pods often remain on the tree through dry season until the beginning of the rainy.
Species in this genus are important as timber trees. The wood is used for furniture, decking, and other outdoor uses. It is increasingly popular as a decking material due to its insect resistance and durability. By 2007, FSC-certified ipê wood had become readily available on the market, although certificates are occasionally forged.
Tabebuia is widely used as ornamental tree in the tropics in landscaping gardens, public squares, and boulevards due to its impressive and colorful flowering. Many flowers appear on still leafless stems at the end of the dry season, making the floral display more conspicuous. They are useful as honey plants for bees, and are popular with certain hummingbirds. Naturalist Madhaviah Krishnan on the other hand once famously took offense at ipé grown in India, where it is not native.
Lapacho teaThe bark of several species has medical properties. The bark is dried, shredded, and then boiled making a bitter or sour-tasting brownish-colored tea. Tea from the inner bark of Pink Ipê (T. impetiginosa) is known as Lapacho or Taheebo. Its main active principles are lapachol, quercetin, and other flavonoids. It is also available in pill form. The herbal remedy is typically used during flu and cold season and for easing smoker's cough. It apparently works as expectorant, by promoting the lungs to cough up and free deeply embedded mucus and contaminants. However, lapachol is rather toxic and therefore a more topical use e.g. as antibiotic or pesticide may be advisable. Other species with significant folk medical use are T. alba and Yellow Lapacho (T. serratifolia)
Tabebuia heteropoda, T. incana, and other species are occasionally used as an additive to the entheogenic drink Ayahuasca.
Mycosphaerella tabebuiae, a plant pathogenic sac fungus, was first discovered on an ipê tree.
Tabebuia alba
Tabebuia anafensis
Tabebuia arimaoensis
Tabebuia aurea – Caribbean Trumpet Tree
Tabebuia bilbergii
Tabebuia bibracteolata
Tabebuia cassinoides
Tabebuia chrysantha – Araguaney, Yellow Ipê, tajibo (Bolivia), ipê-amarelo (Brazil), cañaguate (N Colombia)
Tabebuia chrysotricha – Golden Trumpet Tree
Tabebuia donnell-smithii Rose – Gold Tree, "Prima Vera", Cortez blanco (El Salvador), San Juan (Honduras), palo blanco (Guatemala),duranga (Mexico)
A native of Mexico and Central Americas, considered one of the most colorful of all Central American trees. The leaves are deciduous. Masses of golden-yellow flowers cover the crown after the leaves are shed.
Tabebuia dubia
Tabebuia ecuadorensis
Tabebuia elongata
Tabebuia furfuracea
Tabebuia geminiflora Rizz. & Mattos
Tabebuia guayacan (Seem.) Hemsl.
Tabebuia haemantha
Tabebuia heptaphylla (Vell.) Toledo – tajy
Tabebuia heterophylla – roble prieto
Tabebuia heteropoda
Tabebuia hypoleuca
Tabebuia impetiginosa – Pink Ipê, Pink Lapacho, ipê-cavatã, ipê-comum, ipê-reto, ipê-rosa, ipê-roxo-damata, pau d'arco-roxo, peúva, piúva (Brazil), lapacho negro (Spanish); not "brazilwood"
Tabebuia incana
Tabebuia jackiana
Tabebuia lapacho – lapacho amarillo
Tabebuia orinocensis A.H. Gentry[verification needed]
Tabebuia ochracea
Tabebuia oligolepis
Tabebuia pallida – Cuban Pink Trumpet Tree
Tabebuia platyantha
Tabebuia polymorpha
Tabebuia rosea (Bertol.) DC.[verification needed] (= T. pentaphylla (L.) Hemsley) – Pink Poui, Pink Tecoma, apama, apamate, matilisguate
A popular street tree in tropical cities because of its multi-annular masses of light pink to purple flowers and modest size. The roots are not especially destructive for roads and sidewalks. It is the national tree of El Salvador and the state tree of Cojedes, Venezuela
Tabebuia roseo-alba – White Ipê, ipê-branco (Brazil), lapacho blanco
Tabebuia serratifolia – Yellow Lapacho, Yellow Poui, ipê-roxo (Brazil)
Tabebuia shaferi
Tabebuia striata
Tabebuia subtilis Sprague & Sandwith
Tabebuia umbellata
Tabebuia vellosoi Toledo
Ipê-do-cerrado
Texto, em português, da Wikipédia, a enciclopédia livre.
Ipê-do-cerrado
Classificação científica
Reino: Plantae
Divisão: Magnoliophyta
Classe: Magnoliopsida
Subclasse: Asteridae
Ordem: Lamiales
Família: Bignoniaceae
Género: Tabebuia
Espécie: T. ochracea
Nome binomial
Tabebuia ochracea
(Cham.) Standl. 1832
Sinónimos
Bignonia tomentosa Pav. ex DC.
Handroanthus ochraceus (Cham.) Mattos
Tabebuia chrysantha (Jacq.) G. Nicholson
Tabebuia hypodictyon A. DC.) Standl.
Tabebuia neochrysantha A.H. Gentry
Tabebuia ochracea subsp. heteropoda (A. DC.) A.H. Gentry
Tabebuia ochracea subsp. neochrysantha (A.H. Gentry) A.H. Gentry
Tecoma campinae Kraenzl.
ecoma grandiceps Kraenzl.
Tecoma hassleri Sprague
Tecoma hemmendorffiana Kraenzl.
Tecoma heteropoda A. DC.
Tecoma hypodictyon A. DC.
Tecoma ochracea Cham.
Ipê-do-cerrado é um dos nomes populares da Tabebuia ochracea (Cham.) Standl. 1832, nativa do cerrado brasileiro, no estados de Amazonas, Pará, Maranhão, Piauí, Ceará, Pernambuco, Bahia, Espírito Santo, Goiás, Mato Grosso, Mato Grosso do Sul, Minas Gerais, Rio de Janeiro, São Paulo e Paraná.
Está na lista de espécies ameaçadas do estado de São Paulo, onde é encontrda também no domínio da Mata Atlântica[1].
Ocorre também na Argentina, Paraguai, Bolívia, Equador, Peru, Venezuela, Guiana, El Salvador, Guatemala e Panamá[2].
Há uma espécie homônima descrita por A.H. Gentry em 1992.
Outros nomes populares: ipê-amarelo, ipê-cascudo, ipê-do-campo, ipê-pardo, pau-d'arco-do-campo, piúva, tarumã.
Características
Altura de 6 a 14 m. Tronco tortuso com até 50 cm de diâmetro. Folhas pilosas em ambas as faces, mais na inferior, que é mais clara.
Planta decídua, heliófita, xerófita, nativa do cerrado em solos bem drenados.
Floresce de julho a setembro. Os frutos amadurecem de setembro a outubro.
FloresProduz grande quantidade de sementes leves, aladas com pequenas reservas, e que perdem a viabilidade em menos de 90 dias após coleta. A sua conservação vem sendo estudada em termos de determinação da condição ideal de armazenamento, e tem demonstrado a importância de se conhecer o comportamento da espécie quando armazenada com diferentes teores de umidade inicial, e a umidade de equilíbrio crítica para a espécie (KANO; MÁRQUEZ & KAGEYAMA, 1978). As levíssimas sementes aladas da espécie não necessitam de quebra de dormência. Podem apenas ser expostas ao sol por cerca de 6 horas e semeadas diretamente nos saquinhos. A germinação ocorre após 30 dias e de 80%. As sementes são ortodoxas e há aproximadamente 72 000 sementes em cada quilo.
O desenvolvimento da planta é rápido.
Como outros ipês, a madeira é usada em tacos, assoalhos, e em dormentes e postes. Presta-se também para peças torneadas e instrumento musicais.
Tabebuia alba (Ipê-Amarelo)
Texto, em português, produzido pela Acadêmica Giovana Beatriz Theodoro Marto
Supervisão e orientação do Prof. Luiz Ernesto George Barrichelo e do Eng. Paulo Henrique Müller
Atualizado em 10/07/2006
O ipê amarelo é a árvore brasileira mais conhecida, a mais cultivada e, sem dúvida nenhuma, a mais bela. É na verdade um complexo de nove ou dez espécies com características mais ou menos semelhantes, com flores brancas, amarelas ou roxas. Não há região do país onde não exista pelo menos uma espécie dele, porém a existência do ipê em habitat natural nos dias atuais é rara entre a maioria das espécies (LORENZI,2000).
A espécie Tabebuia alba, nativa do Brasil, é uma das espécies do gênero Tabebuia que possui “Ipê Amarelo” como nome popular. O nome alba provém de albus (branco em latim) e é devido ao tomento branco dos ramos e folhas novas.
As árvores desta espécie proporcionam um belo espetáculo com sua bela floração na arborização de ruas em algumas cidades brasileiras. São lindas árvores que embelezam e promovem um colorido no final do inverno. Existe uma crença popular de que quando o ipê-amarelo floresce não vão ocorrer mais geadas. Infelizmente, a espécie é considerada vulnerável quanto à ameaça de extinção.
A Tabebuia alba, natural do semi-árido alagoano está adaptada a todas as regiões fisiográficas, levando o governo, por meio do Decreto nº 6239, a transformar a espécie como a árvore símbolo do estado, estando, pois sob a sua tutela, não mais podendo ser suprimida de seus habitats naturais.
Taxonomia
Família: Bignoniaceae
Espécie: Tabebuia Alba (Chamiso) Sandwith
Sinonímia botânica: Handroanthus albus (Chamiso) Mattos; Tecoma alba Chamisso
Outros nomes vulgares: ipê-amarelo, ipê, aipê, ipê-branco, ipê-mamono, ipê-mandioca, ipê-ouro, ipê-pardo, ipê-vacariano, ipê-tabaco, ipê-do-cerrado, ipê-dourado, ipê-da-serra, ipezeiro, pau-d’arco-amarelo, taipoca.
Aspectos Ecológicos
O ipê-amarelo é uma espécie heliófita (Planta adaptada ao crescimento em ambiente aberto ou exposto à luz direta) e decídua (que perde as folhas em determinada época do ano). Pertence ao grupo das espécies secundárias iniciais (DURIGAN & NOGUEIRA, 1990).
Abrange a Floresta Pluvial da Mata Atlântica e da Floresta Latifoliada Semidecídua, ocorrendo principalmente no interior da Floresta Primária Densa. É característica de sub-bosques dos pinhais, onde há regeneração regular.
Informações Botânicas
Morfologia
As árvores de Tabebuia alba possuem cerca de 30 metros de altura. O tronco é reto ou levemente tortuoso, com fuste de 5 a 8 m de altura. A casca externa é grisáceo-grossa, possuindo fissuras longitudinais esparas e profundas. A coloração desta é cinza-rosa intenso, com camadas fibrosas, muito resistentes e finas, porém bem distintas.
Com ramos grossos, tortuosos e compridos, o ipê-amarelo possui copa alongada e alargada na base. As raízes de sustentação e absorção são vigorosas e profundas.
As folhas, deciduais, são opostas, digitadas e compostas. A face superior destas folhas é verde-escura, e, a face inferior, acinzentada, sendo ambas as faces tomentosas. Os pecíolos das folhas medem de 2,5 a 10 cm de comprimento. Os folíolos, geralmente, apresentam-se em número de 5 a 7, possuindo de 7 a 18 cm de comprimento por 2 a 6 cm de largura. Quando jovem estes folíolos são densamente pilosos em ambas as faces. O ápice destes é pontiagudo, com base arredondada e margem serreada.
As flores, grandes e lanceoladas, são de coloração amarelo-ouro. Possuem em média 8X15 cm.
Quanto aos frutos, estes possuem forma de cápsula bivalvar e são secos e deiscentes. Do tipo síliqua, lembram uma vagem. Medem de 15 a 30 cm de comprimento por 1,5 a 2,5 cm de largura. As valvas são finamente tomentosas com pêlos ramificados. Possuem grande quantidade de sementes.
As sementes são membranáceas brilhantes e esbranquiçadas, de coloração marrom. Possuem de 2 a 3 cm de comprimento por 7 a 9 mm de largura e são aladas.
Reprodução
A espécie é caducifólia e a queda das folhas coincide com o período de floração. A floração inicia-se no final de agosto, podendo ocorrer alguma variação devido a fenômenos climáticos. Como a espécie floresce no final do inverno é influenciada pela intensidade do mesmo. Quanto mais frio e seco for o inverno, maior será a intensidade da florada do ipê amarelo.
As flores por sua exuberância, atraem abelhas e pássaros, principalmente beija-flores que são importantes agentes polinizadores. Segundo CARVALHO (2003), a espécie possui como vetor de polinização a abelha mamangava (Bombus morio).
As sementes são dispersas pelo vento.
A planta é hermafrodita, e frutifica nos meses de setembro, outubro, novembro, dezembro, janeiro e fevereiro, dependendo da sua localização. Em cultivo, a espécie inicia o processo reprodutivo após o terceiro ano.
Ocorrência Natural
Ocorre naturalmente na Floresta Estaciobal Semidecicual, Floresta de Araucária e no Cerrado.
Segundo o IBGE, a Tabebuia alba (Cham.) Sandw. é uma árvore do Cerrado, Cerradão e Mata Seca. Apresentando-se nos campos secos (savana gramíneo-lenhosa), próximo às escarpas.
Clima
Segundo a classificação de Köppen, o ipê-amarelo abrange locais de clima tropical (Aw), subtropical úmido (Cfa), sutropical de altitude (Cwa e Cwb) e temperado.
A T.alba pode tolerar até 81 geadas em um ano. Ocorre em locais onde a temperatura média anual varia de 14,4ºC como mínimo e 22,4ºC como máximo.
Solo
A espécie prefere solos úmidos, com drenagem lenta e geralmente não muito ondulados (LONGHI, 1995).
Aparece em terras de boa à média fertilidade, em solos profundos ou rasos, nas matas e raramente cerradões (NOGUEIRA, 1977).
Pragas e Doenças
De acordo com CARVALHO (2003), possui como praga a espécie de coleópteros Cydianerus bohemani da família Curculionoideae e um outro coleóptero da família Chrysomellidae. Apesar da constatação de elevados índices populacionais do primeiro, os danos ocasionados até o momento são leves. Nas praças e ruas de Curitiba - PR, 31% das árvores foram atacadas pela Cochonilha Ceroplastes grandis.
ZIDKO (2002), ao estudar no município de Piracicaba a associação de coleópteros em espécies arbóreas, verificou a presença de insetos adultos da espécie Sitophilus linearis da família de coleópteros, Curculionidae, em estruturas reprodutivas. Os insetos adultos da espécie emergiram das vagens do ipê, danificando as sementes desta espécie nativa.
ANDRADE (1928) assinalou diversas espécies de Cerambycidae atacando essências florestais vivas, como ingazeiro, cinamomo, cangerana, cedro, caixeta, jacarandá, araribá, jatobá, entre outras como o ipê amarelo.
A Madeira
A Tabebuia alba produz madeira de grande durabilidade e resistência ao apodrecimento (LONGHI,1995).
MANIERI (1970) caracteriza o cerne desta espécie como de cor pardo-havana-claro, pardo-havan-escuro, ou pardo-acastanhado, com reflexos esverdeados. A superfície da madeira é irregularmente lustrosa, lisa ao tato, possuindo textura media e grã-direita.
Com densidade entre 0,90 e 1,15 grama por centímetro cúbico, a madeira é muito dura (LORENZI, 1992), apresentando grande dificuldade ao serrar.
A madeira possui cheiro e gosto distintos. Segundo LORENZI (1992), o cheiro característico é devido à presença da substância lapachol, ou ipeína.
Usos da Madeira
Sendo pesada, com cerne escuro, adquire grande valor comercial na marcenaria e carpintaria. Também é utilizada para fabricação de dormentes, moirões, pontes, postes, eixos de roda, varais de carroça, moendas de cana, etc.
Produtos Não-Madeireiros
A entrecasca do ipê-amarelo possui propriedades terapêuticas como adstringente, usada no tratamento de garganta e estomatites. É também usada como diurético.
O ipê-amarelo possui flores melíferas e que maduras podem ser utilizadas na alimentação humana.
Outros Usos
É comumente utilizada em paisagismo de parques e jardins pela beleza e porte. Além disso, é muito utilizada na arborização urbana.
Segundo MOREIRA & SOUZA (1987), o ipê-amarelo costuma povoar as beiras dos rios sendo, portanto, indicado para recomposição de matas ciliares. MARTINS (1986), também cita a espécie para recomposição de matas ciliares da Floresta Estacional Semidecidual, abrangendo alguns municípios das regiões Norte, Noroeste e parte do Oeste do Estado do Paraná.
Aspectos Silviculturais
Possui a tendência a crescer reto e sem bifurcações quando plantado em reflorestamento misto, pois é espécie monopodial. A desrrama se faz muito bem e a cicatrização é boa. Sendo assim, dificilmente encopa quando nova, a não ser que seja plantado em parques e jardins.
Ao ser utilizada em arborização urbana, o ipê amarelo requer podas de condução com freqüência mediana.
Espécie heliófila apresenta a pleno sol ramificação cimosa, registrando-se assim dicotomia para gema apical. Deve ser preconizada, para seu melhor aproveitamento madeireiro, podas de formação usuais (INQUE et al., 1983).
Produção de Mudas
A propagação deve realizada através de enxertia.
Os frutos devem ser coletados antes da dispersão, para evitar a perda de sementes. Após a coleta as sementes são postas em ambiente ventilado e a extração é feita manualmente. As sementes do ipê amarelo são ortodoxas, mantendo a viabilidade natural por até 3 meses em sala e por até 9 meses em vidro fechado, em câmara fria.
A condução das mudas deve ser feita a pleno sol. A muda atinge cerca de 30 cm em 9 meses, apresentando tolerância ao sol 3 semanas após a germinação.
Sementes
Os ipês, espécies do gênero Tabebuia, produzem uma grande quantidade de sementes leves, aladas com pequenas reservas, e que perdem a viabilidade em poucos dias após a sua coleta. A sua conservação vem sendo estudada em termos de determinação da condição ideal de armazenamento, e tem demonstrado a importância de se conhecer o comportamento da espécie quando armazenada com diferentes teores de umidade inicial, e a umidade de equilíbrio crítica para a espécie (KANO; MÁRQUEZ & KAGEYAMA, 1978).
As levíssimas sementes aladas da espécie não necessitam de quebra de dormência. Podem apenas ser expostas ao sol por cerca de 6 horas e semeadas diretamente nos saquinhos. A quebra natural leva cerca de 3 meses e a quebra na câmara leva 9 meses. A germinação ocorre após 30 dias e de 80%.
As sementes são ortodoxas e há aproximadamente 87000 sementes em cada quilo.
Preço da Madeira no Mercado
O preço médio do metro cúbico de pranchas de ipê no Estado do Pará cotado em Julho e Agosto de 2005 foi de R$1.200,00 o preço mínimo, R$ 1509,35 o médio e R$ 2.000,00 o preço máximo (CEPEA,2005).
Dali naît dans la ville de Figueras le 13 mai 1904, 9 mois après la mort de son frère aîné de 21 mois, prénommé lui aussi Salvador. Alors qu'il avait cinq ans, ses parents l’emmenèrent sur la tombe de son frère et lui dirent – selon ce qu'il rapporta – qu'il en était la réincarnation. Cette scène aurait fait naître en lui le désir de prouver son unicité dans le monde, le sentiment d'être la copie de son frère, ainsi qu'une crainte du tombeau de son frère.
« Je naquis double. Mon frère, premier essai de moi-même, génie extrême et donc non viable, avait tout de même vécu sept ans avant que les circuits accélérés de son cerveau ne prennent feu" (7 ans à comprendre comme suite : la vie réelle du frère qui a duré 2 ans et la vie imaginaire à travers Salvador Dali, le peintre, qui a duré 5 ans)
Très tôt, Salvador prend conscience de sa place au sein de la famille. Deuxième fils, survivant d'un frère adulé mort en bas âge, Salvador va tout faire pour s'imposer comme l'unique fils de la famille et effacer le souvenir partout présent dans la demeure de ce frère, ce double. Très tôt il décèle les clés de son succès : la surprise permanente et la provocation. Il cherche à s'affirmer différent pour effacer le souvenir de ce frère mort.(et surtout pour pouvoir exister en tant que lui-même).
Dans son autobiographie « La vie secrète de S. Dali » Dali avoue complaisamment ses petits jeux pervers avec son entourage et se décrit comme un véritable « pervers polymorphe ». En plus d'uriner par plaisir chaque matin dans son lit, il s'efforçait de déféquer dans des lieux inattendus (tiroirs, chaussures, pots) puis lançait le signal des recherches à ses parents et domestiques paniqués.
ENGLISH :
The exhibition begins here, with Dali in an egg, the symbol of purity and perfection which evokes by its appearance and a symbolism minerality dear to Dalí, that of a previous life, intrauterine and that of a re -birth.
Cuculus canorus
[order] Cuculiformes | [family] Cuculidae | [latin] Cuculus canorus | [UK] Cuckoo | [FR] Coucou gris | [DE] Kuckuck | [ES] Cuco Europeo | [IT] Cuculo eurasiatico | [NL] Koekoek | [IRL] Cuach
Status: Widespread summer visitor to Ireland from April to August.
Conservation Concern: Green-listed in Ireland. The European population is currently evaluated as secure.
Identification: Despite its obvious song, relatively infrequently seen. In flight, can be mistaken for a bird of prey such as Sparrowhawk, but has rapid wingbeats below the horizontal plane - ie. the wings are not raised above the body. Adult male Cuckoos are a uniform grey on the head, neck, back, wings and tail. The underparts are white with black barring. Adult females can appear in one of two forms. The so-called grey-morph resembles the adult male plumage, but has throat and breast barred black and white with yellowish wash. The rufous-morph has the grey replaced by rufous, with strong black barring on the wings, back and tail. Juvenile Cuckoos resemble the female rufous-morph, but are darker brown above.
Similar Species: Sparrowhawk
Call: The song is probably one of the most recognisable and well-known of all Irish bird species. The male gives a distinctive “wuck-oo”, which is occasionally doubled “wuck-uck-ooo”. The female has a distinctive bubbling “pupupupu”. The song period is late April to late June.
Diet: Mainly caterpillars and other insects.
Breeding: Widespread in Ireland, favouring open areas which hold their main Irish host species – Meadow Pipit. Has a remarkable breeding biology unlike any other Irish breeding species.
Wintering: Cuckoos winter in central and southern Africa.
To minimise the chance of being recognised and thus attacked by the birds they are trying to parasitize, female cuckoos have evolved different guises.
The common cuckoo (Cuculus canorus) lays its eggs in the nests of other birds. On hatching, the young cuckoo ejects the host's eggs and chicks from the nest, so the hosts end up raising a cuckoo chick rather than a brood of their own. To fight back, reed warblers (a common host across Europe) have a first line of defence: they attack, or ‘mob’, the female cuckoo, which reduces the chance that their nest is parasitized.
To deter the warbler from attacking, the colouring of the grey cuckoo mimics sparrow hawks, a common predator of reed warblers. However, other females are bright rufous (brownish-red). The presence of alternate colour morphs in the same species is rare in birds, but frequent among the females of parasitic cuckoo species. The new research shows that this is another cuckoo trick: cuckoos combat reed warbler mobbing by coming in different guises.
In the study, the researchers manipulated local frequencies of the more common grey colour cuckoo and the less common (in the United Kingdom) rufous colour cuckoo by placing models of the birds at neighbouring nests. They then recorded how the experience of watching their neighbours mob changed reed warbler responses to both cuckoos and a sparrow hawk at their own nest.
They found that reed warblers increased their mobbing, but only to the cuckoo morph that their neighbours had mobbed. Therefore, as one cuckoo morph increases in frequency, local host populations will become alerted specifically to that morph. This means the alternate morph will be more likely to slip past host defences and lay undetected. This is the first time that ‘social learning’ has been documented in the evolution of mimicry as well as the evolution of different observable characteristics - such as colour - in the same species (called polymorphism).
From the University of Cambridge “When mimicry becomes less effective, evolving to look completely different can be a successful trick. Our research shows that individuals assess disguises not only from personal experience, but also by observing others. However, because their learning is so specific, this social learning then selects for alternative cuckoo disguises and the arms race continues.”.
“It’s well known that cuckoos have evolved various egg types which mimic those of their hosts in order to combat rejection. This research shows that cuckoos have also evolved alternate female morphs to sneak through the hosts' defenses. This explains why many species which use mimicry, such as the cuckoo, evolve different guises.”
I say I don't know what they are but I suspect they are a polymorph of Honey fungus. I hate to misinform so I'll check before I commit.
As you can see from the title I have changed my mind.......
Some individuals have a white ring around the eye extending back as a white line. This is not an indication of male or female but a polymorphism.
Calcium carbonate precipitated from solutions of ammonium carbonate and calcium acetate showing botryoidal agglomerates of vaterite nanoparticles self assembling into rhombs of calcite.
Courtesy of Robert Moser
Image Details
Instrument used: Nova NanoSEM Family
Magnification: 10,000x
Horizontal Field Width: 29.8
Vacuum: 0.1mbar
Voltage: 10kV
Spot: 5.0
Working Distance: 4.3
Detector: vCD
Initially to create this design I had to create the eye, I used polymorph plastic to mould the actual eye ball and then added a cut out image of a brown eye over the top. I then painted the whole eye in clear nail paint to make it slightly shiny. I used red wool to create the strings connecting the eye to the face and the eye veins, gradually applying individual strings with super glue. I covered the eyelashes of the model with Vaseline to prevent them from getting covered in spirit gum, then I covered the models closed eye with a thin layer of prosthetic gelatine. I moulded an eyelid using a mix of thin layers of gelatine, tissue paper and latex and then added more red yarn and black face paint to the inside of the eyelids to replicate a hole. I then applied red, purple and yellow coloured face paints and a lot of fake blood to the wound.
Ipê Amarelo, Tabebuia [chrysotricha or ochracea].
Ipê-amarelo em Brasília, Brasil.
This tree is in Brasília, Capital of Brazil.
Text, in english, from Wikipedia, the free encyclopedia
"Trumpet tree" redirects here. This term is occasionally used for the Shield-leaved Pumpwood (Cecropia peltata).
Tabebuia
Flowering Araguaney or ipê-amarelo (Tabebuia chrysantha) in central Brazil
Scientific classification
Kingdom: Plantae
(unranked): Angiosperms
(unranked): Eudicots
(unranked): Asterids
Order: Lamiales
Family: Bignoniaceae
Tribe: Tecomeae
Genus: Tabebuia
Gomez
Species
Nearly 100.
Tabebuia is a neotropical genus of about 100 species in the tribe Tecomeae of the family Bignoniaceae. The species range from northern Mexico and the Antilles south to northern Argentina and central Venezuela, including the Caribbean islands of Hispaniola (Dominican Republic and Haiti) and Cuba. Well-known common names include Ipê, Poui, trumpet trees and pau d'arco.
They are large shrubs and trees growing to 5 to 50 m (16 to 160 ft.) tall depending on the species; many species are dry-season deciduous but some are evergreen. The leaves are opposite pairs, complex or palmately compound with 3–7 leaflets.
Tabebuia is a notable flowering tree. The flowers are 3 to 11 cm (1 to 4 in.) wide and are produced in dense clusters. They present a cupular calyx campanulate to tubular, truncate, bilabiate or 5-lobed. Corolla colors vary between species ranging from white, light pink, yellow, lavender, magenta, or red. The outside texture of the flower tube is either glabrous or pubescentThe fruit is a dehiscent pod, 10 to 50 cm (4 to 20 in.) long, containing numerous—in some species winged—seeds. These pods often remain on the tree through dry season until the beginning of the rainy.
Species in this genus are important as timber trees. The wood is used for furniture, decking, and other outdoor uses. It is increasingly popular as a decking material due to its insect resistance and durability. By 2007, FSC-certified ipê wood had become readily available on the market, although certificates are occasionally forged.
Tabebuia is widely used as ornamental tree in the tropics in landscaping gardens, public squares, and boulevards due to its impressive and colorful flowering. Many flowers appear on still leafless stems at the end of the dry season, making the floral display more conspicuous. They are useful as honey plants for bees, and are popular with certain hummingbirds. Naturalist Madhaviah Krishnan on the other hand once famously took offense at ipé grown in India, where it is not native.
Lapacho teaThe bark of several species has medical properties. The bark is dried, shredded, and then boiled making a bitter or sour-tasting brownish-colored tea. Tea from the inner bark of Pink Ipê (T. impetiginosa) is known as Lapacho or Taheebo. Its main active principles are lapachol, quercetin, and other flavonoids. It is also available in pill form. The herbal remedy is typically used during flu and cold season and for easing smoker's cough. It apparently works as expectorant, by promoting the lungs to cough up and free deeply embedded mucus and contaminants. However, lapachol is rather toxic and therefore a more topical use e.g. as antibiotic or pesticide may be advisable. Other species with significant folk medical use are T. alba and Yellow Lapacho (T. serratifolia)
Tabebuia heteropoda, T. incana, and other species are occasionally used as an additive to the entheogenic drink Ayahuasca.
Mycosphaerella tabebuiae, a plant pathogenic sac fungus, was first discovered on an ipê tree.
Tabebuia alba
Tabebuia anafensis
Tabebuia arimaoensis
Tabebuia aurea – Caribbean Trumpet Tree
Tabebuia bilbergii
Tabebuia bibracteolata
Tabebuia cassinoides
Tabebuia chrysantha – Araguaney, Yellow Ipê, tajibo (Bolivia), ipê-amarelo (Brazil), cañaguate (N Colombia)
Tabebuia chrysotricha – Golden Trumpet Tree
Tabebuia donnell-smithii Rose – Gold Tree, "Prima Vera", Cortez blanco (El Salvador), San Juan (Honduras), palo blanco (Guatemala),duranga (Mexico)
A native of Mexico and Central Americas, considered one of the most colorful of all Central American trees. The leaves are deciduous. Masses of golden-yellow flowers cover the crown after the leaves are shed.
Tabebuia dubia
Tabebuia ecuadorensis
Tabebuia elongata
Tabebuia furfuracea
Tabebuia geminiflora Rizz. & Mattos
Tabebuia guayacan (Seem.) Hemsl.
Tabebuia haemantha
Tabebuia heptaphylla (Vell.) Toledo – tajy
Tabebuia heterophylla – roble prieto
Tabebuia heteropoda
Tabebuia hypoleuca
Tabebuia impetiginosa – Pink Ipê, Pink Lapacho, ipê-cavatã, ipê-comum, ipê-reto, ipê-rosa, ipê-roxo-damata, pau d'arco-roxo, peúva, piúva (Brazil), lapacho negro (Spanish); not "brazilwood"
Tabebuia incana
Tabebuia jackiana
Tabebuia lapacho – lapacho amarillo
Tabebuia orinocensis A.H. Gentry[verification needed]
Tabebuia ochracea
Tabebuia oligolepis
Tabebuia pallida – Cuban Pink Trumpet Tree
Tabebuia platyantha
Tabebuia polymorpha
Tabebuia rosea (Bertol.) DC.[verification needed] (= T. pentaphylla (L.) Hemsley) – Pink Poui, Pink Tecoma, apama, apamate, matilisguate
A popular street tree in tropical cities because of its multi-annular masses of light pink to purple flowers and modest size. The roots are not especially destructive for roads and sidewalks. It is the national tree of El Salvador and the state tree of Cojedes, Venezuela
Tabebuia roseo-alba – White Ipê, ipê-branco (Brazil), lapacho blanco
Tabebuia serratifolia – Yellow Lapacho, Yellow Poui, ipê-roxo (Brazil)
Tabebuia shaferi
Tabebuia striata
Tabebuia subtilis Sprague & Sandwith
Tabebuia umbellata
Tabebuia vellosoi Toledo
Ipê-do-cerrado
Texto, em português, da Wikipédia, a enciclopédia livre.
Ipê-do-cerrado
Classificação científica
Reino: Plantae
Divisão: Magnoliophyta
Classe: Magnoliopsida
Subclasse: Asteridae
Ordem: Lamiales
Família: Bignoniaceae
Género: Tabebuia
Espécie: T. ochracea
Nome binomial
Tabebuia ochracea
(Cham.) Standl. 1832
Sinónimos
Bignonia tomentosa Pav. ex DC.
Handroanthus ochraceus (Cham.) Mattos
Tabebuia chrysantha (Jacq.) G. Nicholson
Tabebuia hypodictyon A. DC.) Standl.
Tabebuia neochrysantha A.H. Gentry
Tabebuia ochracea subsp. heteropoda (A. DC.) A.H. Gentry
Tabebuia ochracea subsp. neochrysantha (A.H. Gentry) A.H. Gentry
Tecoma campinae Kraenzl.
ecoma grandiceps Kraenzl.
Tecoma hassleri Sprague
Tecoma hemmendorffiana Kraenzl.
Tecoma heteropoda A. DC.
Tecoma hypodictyon A. DC.
Tecoma ochracea Cham.
Ipê-do-cerrado é um dos nomes populares da Tabebuia ochracea (Cham.) Standl. 1832, nativa do cerrado brasileiro, no estados de Amazonas, Pará, Maranhão, Piauí, Ceará, Pernambuco, Bahia, Espírito Santo, Goiás, Mato Grosso, Mato Grosso do Sul, Minas Gerais, Rio de Janeiro, São Paulo e Paraná.
Está na lista de espécies ameaçadas do estado de São Paulo, onde é encontrda também no domínio da Mata Atlântica[1].
Ocorre também na Argentina, Paraguai, Bolívia, Equador, Peru, Venezuela, Guiana, El Salvador, Guatemala e Panamá[2].
Há uma espécie homônima descrita por A.H. Gentry em 1992.
Outros nomes populares: ipê-amarelo, ipê-cascudo, ipê-do-campo, ipê-pardo, pau-d'arco-do-campo, piúva, tarumã.
Características
Altura de 6 a 14 m. Tronco tortuso com até 50 cm de diâmetro. Folhas pilosas em ambas as faces, mais na inferior, que é mais clara.
Planta decídua, heliófita, xerófita, nativa do cerrado em solos bem drenados.
Floresce de julho a setembro. Os frutos amadurecem de setembro a outubro.
FloresProduz grande quantidade de sementes leves, aladas com pequenas reservas, e que perdem a viabilidade em menos de 90 dias após coleta. A sua conservação vem sendo estudada em termos de determinação da condição ideal de armazenamento, e tem demonstrado a importância de se conhecer o comportamento da espécie quando armazenada com diferentes teores de umidade inicial, e a umidade de equilíbrio crítica para a espécie (KANO; MÁRQUEZ & KAGEYAMA, 1978). As levíssimas sementes aladas da espécie não necessitam de quebra de dormência. Podem apenas ser expostas ao sol por cerca de 6 horas e semeadas diretamente nos saquinhos. A germinação ocorre após 30 dias e de 80%. As sementes são ortodoxas e há aproximadamente 72 000 sementes em cada quilo.
O desenvolvimento da planta é rápido.
Como outros ipês, a madeira é usada em tacos, assoalhos, e em dormentes e postes. Presta-se também para peças torneadas e instrumento musicais.
Tabebuia alba (Ipê-Amarelo)
Texto, em português, produzido pela Acadêmica Giovana Beatriz Theodoro Marto
Supervisão e orientação do Prof. Luiz Ernesto George Barrichelo e do Eng. Paulo Henrique Müller
Atualizado em 10/07/2006
O ipê amarelo é a árvore brasileira mais conhecida, a mais cultivada e, sem dúvida nenhuma, a mais bela. É na verdade um complexo de nove ou dez espécies com características mais ou menos semelhantes, com flores brancas, amarelas ou roxas. Não há região do país onde não exista pelo menos uma espécie dele, porém a existência do ipê em habitat natural nos dias atuais é rara entre a maioria das espécies (LORENZI,2000).
A espécie Tabebuia alba, nativa do Brasil, é uma das espécies do gênero Tabebuia que possui “Ipê Amarelo” como nome popular. O nome alba provém de albus (branco em latim) e é devido ao tomento branco dos ramos e folhas novas.
As árvores desta espécie proporcionam um belo espetáculo com sua bela floração na arborização de ruas em algumas cidades brasileiras. São lindas árvores que embelezam e promovem um colorido no final do inverno. Existe uma crença popular de que quando o ipê-amarelo floresce não vão ocorrer mais geadas. Infelizmente, a espécie é considerada vulnerável quanto à ameaça de extinção.
A Tabebuia alba, natural do semi-árido alagoano está adaptada a todas as regiões fisiográficas, levando o governo, por meio do Decreto nº 6239, a transformar a espécie como a árvore símbolo do estado, estando, pois sob a sua tutela, não mais podendo ser suprimida de seus habitats naturais.
Taxonomia
Família: Bignoniaceae
Espécie: Tabebuia Alba (Chamiso) Sandwith
Sinonímia botânica: Handroanthus albus (Chamiso) Mattos; Tecoma alba Chamisso
Outros nomes vulgares: ipê-amarelo, ipê, aipê, ipê-branco, ipê-mamono, ipê-mandioca, ipê-ouro, ipê-pardo, ipê-vacariano, ipê-tabaco, ipê-do-cerrado, ipê-dourado, ipê-da-serra, ipezeiro, pau-d’arco-amarelo, taipoca.
Aspectos Ecológicos
O ipê-amarelo é uma espécie heliófita (Planta adaptada ao crescimento em ambiente aberto ou exposto à luz direta) e decídua (que perde as folhas em determinada época do ano). Pertence ao grupo das espécies secundárias iniciais (DURIGAN & NOGUEIRA, 1990).
Abrange a Floresta Pluvial da Mata Atlântica e da Floresta Latifoliada Semidecídua, ocorrendo principalmente no interior da Floresta Primária Densa. É característica de sub-bosques dos pinhais, onde há regeneração regular.
Informações Botânicas
Morfologia
As árvores de Tabebuia alba possuem cerca de 30 metros de altura. O tronco é reto ou levemente tortuoso, com fuste de 5 a 8 m de altura. A casca externa é grisáceo-grossa, possuindo fissuras longitudinais esparas e profundas. A coloração desta é cinza-rosa intenso, com camadas fibrosas, muito resistentes e finas, porém bem distintas.
Com ramos grossos, tortuosos e compridos, o ipê-amarelo possui copa alongada e alargada na base. As raízes de sustentação e absorção são vigorosas e profundas.
As folhas, deciduais, são opostas, digitadas e compostas. A face superior destas folhas é verde-escura, e, a face inferior, acinzentada, sendo ambas as faces tomentosas. Os pecíolos das folhas medem de 2,5 a 10 cm de comprimento. Os folíolos, geralmente, apresentam-se em número de 5 a 7, possuindo de 7 a 18 cm de comprimento por 2 a 6 cm de largura. Quando jovem estes folíolos são densamente pilosos em ambas as faces. O ápice destes é pontiagudo, com base arredondada e margem serreada.
As flores, grandes e lanceoladas, são de coloração amarelo-ouro. Possuem em média 8X15 cm.
Quanto aos frutos, estes possuem forma de cápsula bivalvar e são secos e deiscentes. Do tipo síliqua, lembram uma vagem. Medem de 15 a 30 cm de comprimento por 1,5 a 2,5 cm de largura. As valvas são finamente tomentosas com pêlos ramificados. Possuem grande quantidade de sementes.
As sementes são membranáceas brilhantes e esbranquiçadas, de coloração marrom. Possuem de 2 a 3 cm de comprimento por 7 a 9 mm de largura e são aladas.
Reprodução
A espécie é caducifólia e a queda das folhas coincide com o período de floração. A floração inicia-se no final de agosto, podendo ocorrer alguma variação devido a fenômenos climáticos. Como a espécie floresce no final do inverno é influenciada pela intensidade do mesmo. Quanto mais frio e seco for o inverno, maior será a intensidade da florada do ipê amarelo.
As flores por sua exuberância, atraem abelhas e pássaros, principalmente beija-flores que são importantes agentes polinizadores. Segundo CARVALHO (2003), a espécie possui como vetor de polinização a abelha mamangava (Bombus morio).
As sementes são dispersas pelo vento.
A planta é hermafrodita, e frutifica nos meses de setembro, outubro, novembro, dezembro, janeiro e fevereiro, dependendo da sua localização. Em cultivo, a espécie inicia o processo reprodutivo após o terceiro ano.
Ocorrência Natural
Ocorre naturalmente na Floresta Estaciobal Semidecicual, Floresta de Araucária e no Cerrado.
Segundo o IBGE, a Tabebuia alba (Cham.) Sandw. é uma árvore do Cerrado, Cerradão e Mata Seca. Apresentando-se nos campos secos (savana gramíneo-lenhosa), próximo às escarpas.
Clima
Segundo a classificação de Köppen, o ipê-amarelo abrange locais de clima tropical (Aw), subtropical úmido (Cfa), sutropical de altitude (Cwa e Cwb) e temperado.
A T.alba pode tolerar até 81 geadas em um ano. Ocorre em locais onde a temperatura média anual varia de 14,4ºC como mínimo e 22,4ºC como máximo.
Solo
A espécie prefere solos úmidos, com drenagem lenta e geralmente não muito ondulados (LONGHI, 1995).
Aparece em terras de boa à média fertilidade, em solos profundos ou rasos, nas matas e raramente cerradões (NOGUEIRA, 1977).
Pragas e Doenças
De acordo com CARVALHO (2003), possui como praga a espécie de coleópteros Cydianerus bohemani da família Curculionoideae e um outro coleóptero da família Chrysomellidae. Apesar da constatação de elevados índices populacionais do primeiro, os danos ocasionados até o momento são leves. Nas praças e ruas de Curitiba - PR, 31% das árvores foram atacadas pela Cochonilha Ceroplastes grandis.
ZIDKO (2002), ao estudar no município de Piracicaba a associação de coleópteros em espécies arbóreas, verificou a presença de insetos adultos da espécie Sitophilus linearis da família de coleópteros, Curculionidae, em estruturas reprodutivas. Os insetos adultos da espécie emergiram das vagens do ipê, danificando as sementes desta espécie nativa.
ANDRADE (1928) assinalou diversas espécies de Cerambycidae atacando essências florestais vivas, como ingazeiro, cinamomo, cangerana, cedro, caixeta, jacarandá, araribá, jatobá, entre outras como o ipê amarelo.
A Madeira
A Tabebuia alba produz madeira de grande durabilidade e resistência ao apodrecimento (LONGHI,1995).
MANIERI (1970) caracteriza o cerne desta espécie como de cor pardo-havana-claro, pardo-havan-escuro, ou pardo-acastanhado, com reflexos esverdeados. A superfície da madeira é irregularmente lustrosa, lisa ao tato, possuindo textura media e grã-direita.
Com densidade entre 0,90 e 1,15 grama por centímetro cúbico, a madeira é muito dura (LORENZI, 1992), apresentando grande dificuldade ao serrar.
A madeira possui cheiro e gosto distintos. Segundo LORENZI (1992), o cheiro característico é devido à presença da substância lapachol, ou ipeína.
Usos da Madeira
Sendo pesada, com cerne escuro, adquire grande valor comercial na marcenaria e carpintaria. Também é utilizada para fabricação de dormentes, moirões, pontes, postes, eixos de roda, varais de carroça, moendas de cana, etc.
Produtos Não-Madeireiros
A entrecasca do ipê-amarelo possui propriedades terapêuticas como adstringente, usada no tratamento de garganta e estomatites. É também usada como diurético.
O ipê-amarelo possui flores melíferas e que maduras podem ser utilizadas na alimentação humana.
Outros Usos
É comumente utilizada em paisagismo de parques e jardins pela beleza e porte. Além disso, é muito utilizada na arborização urbana.
Segundo MOREIRA & SOUZA (1987), o ipê-amarelo costuma povoar as beiras dos rios sendo, portanto, indicado para recomposição de matas ciliares. MARTINS (1986), também cita a espécie para recomposição de matas ciliares da Floresta Estacional Semidecidual, abrangendo alguns municípios das regiões Norte, Noroeste e parte do Oeste do Estado do Paraná.
Aspectos Silviculturais
Possui a tendência a crescer reto e sem bifurcações quando plantado em reflorestamento misto, pois é espécie monopodial. A desrrama se faz muito bem e a cicatrização é boa. Sendo assim, dificilmente encopa quando nova, a não ser que seja plantado em parques e jardins.
Ao ser utilizada em arborização urbana, o ipê amarelo requer podas de condução com freqüência mediana.
Espécie heliófila apresenta a pleno sol ramificação cimosa, registrando-se assim dicotomia para gema apical. Deve ser preconizada, para seu melhor aproveitamento madeireiro, podas de formação usuais (INQUE et al., 1983).
Produção de Mudas
A propagação deve realizada através de enxertia.
Os frutos devem ser coletados antes da dispersão, para evitar a perda de sementes. Após a coleta as sementes são postas em ambiente ventilado e a extração é feita manualmente. As sementes do ipê amarelo são ortodoxas, mantendo a viabilidade natural por até 3 meses em sala e por até 9 meses em vidro fechado, em câmara fria.
A condução das mudas deve ser feita a pleno sol. A muda atinge cerca de 30 cm em 9 meses, apresentando tolerância ao sol 3 semanas após a germinação.
Sementes
Os ipês, espécies do gênero Tabebuia, produzem uma grande quantidade de sementes leves, aladas com pequenas reservas, e que perdem a viabilidade em poucos dias após a sua coleta. A sua conservação vem sendo estudada em termos de determinação da condição ideal de armazenamento, e tem demonstrado a importância de se conhecer o comportamento da espécie quando armazenada com diferentes teores de umidade inicial, e a umidade de equilíbrio crítica para a espécie (KANO; MÁRQUEZ & KAGEYAMA, 1978).
As levíssimas sementes aladas da espécie não necessitam de quebra de dormência. Podem apenas ser expostas ao sol por cerca de 6 horas e semeadas diretamente nos saquinhos. A quebra natural leva cerca de 3 meses e a quebra na câmara leva 9 meses. A germinação ocorre após 30 dias e de 80%.
As sementes são ortodoxas e há aproximadamente 87000 sementes em cada quilo.
Preço da Madeira no Mercado
O preço médio do metro cúbico de pranchas de ipê no Estado do Pará cotado em Julho e Agosto de 2005 foi de R$1.200,00 o preço mínimo, R$ 1509,35 o médio e R$ 2.000,00 o preço máximo (CEPEA,2005).
Cinnamon (/ˈsɪnəmən/ SIN-ə-mən) is a spice obtained from the inner bark of several trees from the genus Cinnamomum that is used in both sweet and savoury foods. The term "cinnamon" also refers to its mid-brown colour. While Cinnamomum verum is sometimes considered to be "true cinnamon", most cinnamon in international commerce is derived from related species, which are also referred to as "cassia" to distinguish them from "true cinnamon".
Cinnamon is the name for perhaps a dozen species of trees and the commercial spice products that some of them produce. All are members of the genus Cinnamomum in the family Lauraceae. Only a few of them are grown commercially for spice.
NAME
The English word cinnamon, attested in English since the 15th century, derives from the Greek κιννάμωμον kinnámōmon (later kínnamon), via Latin and medieval French intermediate forms. The Greek was borrowed from a Phoenician word, which was akin to the related Hebrew qinnamon.
The name cassia, first recorded in English around AD 1000, was borrowed via Latin and ultimately derives from Hebrew q'tsīʿāh, a form of the verb qātsaʿ, "to strip off bark".
Early Modern English also used the names canel and canella, akin to the current names of cinnamon in several other European languages, which are derived from the Latin word cannella, a diminutive of canna, "tube", from the way the bark curls up as it dries.
HISTORY
In classical times, four types of cinnamon were distinguished (and often confused):
- True cinnamon, the bark of C. verum (also called C. zeylanicum) from Sri Lanka
- Malabathrum or malobathrum (from Sanskrit तमालपत्रम्, tamālapattram, literally "dark-tree leaves"), several species including C. tamala from the north of India
- Serichatum, C. cassia from Seres, that is, China
- Cassia (Hebrew קציעה qəṣi`â), the bark of Cinnamomum iners from Arabia and Ethiopia, literally "the peel of the plant" which is scraped off the tree
Cinnamon has been known from remote antiquity. It was imported to Egypt as early as 2000 BC, but those who report it had come from China confuse it with cassia. Cinnamon was so highly prized among ancient nations that it was regarded as a gift fit for monarchs and even for a god: a fine inscription records the gift of cinnamon and cassia to the temple of Apollo at Miletus. Though its source was kept mysterious in the Mediterranean world for centuries by the middlemen who handled the spice trade, to protect their monopoly as suppliers, cinnamon is native to Bangladesh, Sri Lanka, the Malabar Coast of India, and Burma.
The first Greek reference to kasia is found in a poem by Sappho in the seventh century BC. According to Herodotus, both cinnamon and cassia grew in Arabia, together with incense, myrrh, and ladanum, and were guarded by winged serpents. The phoenix was reputed to build its nest from cinnamon and cassia. Herodotus mentions other writers who believed the source of cassia was the home of Dionysos, located somewhere east or south of Greece.
The Greeks used kásia or malabathron to flavour wine, together with absinth wormwood (Artemisia absinthium). While Theophrastus gives a good account of the plants, he describes a curious method for harvesting: worms eat away the wood and leave the bark behind.
Egyptian recipes for kyphi, an aromatic used for burning, included cinnamon and cassia from Hellenistic times onward. The gifts of Hellenistic rulers to temples sometimes included cassia and cinnamon as well as incense, myrrh, and Indian incense (kostos), so one might conclude that the Greeks used it for similar purposes.
The Hebrew Bible makes specific mention of the spice many times: first when Moses is commanded to use both sweet cinnamon (Hebrew: קִנָּמוֹן, qinnāmôn) and cassia in the holy anointing oil; in Proverbs where the lover's bed is perfumed with myrrh, aloes, and cinnamon; and in Song of Solomon, a song describing the beauty of his beloved, cinnamon scents her garments like "the smell of Lebanon." Cassia was also part of the ketoret, the consecrated incense described in the Hebrew Bible and Talmud. It was offered on the specialized incense altar in the time when the Tabernacle was located in the First and Second Jerusalem temples. The ketoret was an important component of the temple service in Jerusalem. Psalm 45:8 mentions the garments of the king (or of Torah scholars) that smell of myrrh, aloes, and cassia.
Pliny gives an account of the early spice trade across the Red Sea that cost Rome 100 million sesterces each year. Cinnamon was brought around the Arabian peninsula on "rafts without rudders or sails or oars," taking advantage of the winter trade winds. Pliny also mentions cassia as a flavouring agent for wine.
According to Pliny, a Roman pound (327 grams) of cassia, cinnamon, or serichatum cost up to 300 denarii, the wage of ten months' labour. Diocletian's Edict on Maximum Prices from 301 AD gives a price of 125 denarii for a pound of cassia while an agricultural labourer earned 25 denarii per day. Cinnamon was too expensive to be commonly used on funeral pyres in Rome, but the Emperor Nero is said to have burned a year's worth of the city's supply at the funeral for his wife Poppaea Sabina in AD 65.
Malabathrum leaves (folia) were used in cooking and for distilling an oil used in a caraway sauce for oysters by the Roman gourmet Gaius Gavius Apicius. Malabathrum is among the spices that, according to Apicius, any good kitchen should contain.
The famous Commagenum unguent produced in Commagene, in present-day eastern Turkey, was made from goose fat aromatised with cinnamon oil and spikenard. Malobathrum from Egypt (Dioscorides I, 63) was based on beef fat and contained cinnamon, as well; one pound cost 300 denarii. The Roman poet Martial (VI, 55) made fun of Romans who drip unguents, smell of cassia and cinnamon taken from a bird's nest, and look down on a man who does not smell at all.
Through the Middle Ages, the source of cinnamon was a mystery to the Western world. From reading Latin writers who quoted Herodotus, Europeans had learned that cinnamon came up the Red Sea to the trading ports of Egypt, but where it came from was less than clear. When the Sieur de Joinville accompanied his king to Egypt on crusade in 1248, he reported – and believed – what he had been told: that cinnamon was fished up in nets at the source of the Nile out at the edge of the world (i.e., Ethiopia). Marco Polo avoided precision on the topic. Herodotus and other authors named Arabia as the source of cinnamon: they recounted that giant cinnamon birds collected the cinnamon sticks from an unknown land where the cinnamon trees grew and used them to construct their nests, and that the Arabs employed a trick to obtain the sticks. Pliny the Elder wrote in the first century that traders had made this up to charge more, but the story remained current in Byzantium as late as 1310.
The first mention that the spice grew in Sri Lanka was in Zakariya al-Qazwini's Athar al-bilad wa-akhbar al-‘ibad ("Monument of Places and History of God's Bondsmen") about 1270. This was followed shortly thereafter by John of Montecorvino in a letter of about 1292.
Indonesian rafts transported cinnamon directly from the Moluccas to East Africa (see also Rhapta), where local traders then carried it north to Alexandria in Egypt. Venetian traders from Italy held a monopoly on the spice trade in Europe, distributing cinnamon from Alexandria. The disruption of this trade by the rise of other Mediterranean powers, such as the Mamluk sultans and the Ottoman Empire, was one of many factors that led Europeans to search more widely for other routes to Asia.
When Portuguese traders landed in Ceylon (Sri Lanka), they restructured the traditional production and management of cinnamon by the Sinhalese. They established a fort on the island in 1518 and protected Ceylon as their cinnamon monopoly for over a hundred years. Later, Sinhalese held the monopoly for cinnamon in Ceylon.
Dutch traders finally dislodged the Portuguese by allying with the inland Kingdom of Kandy. They established a trading post in 1638, took control of the manufactories by 1640, and expelled the remaining Portuguese by 1658. "The shores of the island are full of it," a Dutch captain reported, "and it is the best in all the Orient. When one is downwind of the island, one can still smell cinnamon eight leagues out to sea." The Dutch East India Company continued to overhaul the methods of harvesting in the wild and eventually began to cultivate its own trees.
During the 1500s, when the Spanish sent an expedition out from New Spain (Mexico) and arrived at the Philippines, they found that Cinnamon was growing in the island of Mindanao near the Rajahnate of Butuan. The species of Cinnamon was Cinnamomum mindanaense which was closely related to Cinnamomum zeylanicum and was found to be just as good as the Cinnamon found in Sri Lanka. This Cinnamon was often mixed with the chocolate the Spanish discovered from the Aztecs in order to sweeten it. This alternative Mindanao cinnamon to the one found in Sri Lanka, which was controlled by the Portuguese, supplied Spanish needs and this cinnamon traveled the route through the Americas and eventually to Spain where it competed with Sri Lankan cinnamon.
In 1767, Lord Brown of the British East India Company established Anjarakkandy Cinnamon Estate near Anjarakkandy in Cannanore (now Kannur) district of Kerala, and this estate became Asia's largest cinnamon estate. The British took control of Ceylon from the Dutch in 1796. However, the importance of the monopoly of Ceylon was already declining, as cultivation of the cinnamon tree spread to other areas, the more common cassia bark became more acceptable to consumers, and coffee, tea, sugar, and chocolate began to outstrip the popularity of traditional spices.
CULTIVATION
Aggregate annual production of cinnamon and cassia amounts to 27,500–35,000 tons, worldwide. Of this, Cinnamomum verum accounts for 7,500–10,000 tons of production, with the remainder produced by other species. Sri Lanka produces 80–90% of the world's supply of C. verum, but that is the only species grown there; C. verum is also cultivated on a commercial scale in Seychelles and Madagascar. Global production of the other species averages 20,000–25,000 tons, of which Indonesia produces around two-thirds of the total, with significant production in China. India and Vietnam are also minor producers.
Cinnamon is cultivated by growing the tree for two years, then coppicing it, i.e., cutting the stems at ground level. The following year, about a dozen new shoots will form from the roots, replacing those that were cut. A number of pests such as Colletotrichum gloeosporioides, Diplodia spp., and Phytophthora cinnamomi (stripe canker) can affect that growing plants, sometimes leading to death.
The stems must be processed immediately after harvesting while the inner bark is still wet. The cut stems are processed by scraping off the outer bark, then beating the branch evenly with a hammer to loosen the inner bark, which is then pried off in long rolls. Only 0.5 mm of the inner bark is used; the outer, woody portion is discarded, leaving metre-long cinnamon strips that curl into rolls ("quills") on drying. The processed bark will dry completely in four to six hours, provided it is in a well-ventilated and relatively warm environment. Once dry, the bark is cut into 5- to 10-cm lengths for sale. A less than ideal drying environment encourages the proliferation of pests in the bark, which may then require treatment by fumigation. Fumigated bark is not considered to be of the same premium quality as untreated bark.
Sri Lanka cinnamon has a very thin, smooth bark with a light-yellowish brown colour and a highly fragrant aroma. In recent years in Sri Lanka, mechanical devices have been developed to ensure premium quality and worker safety and health, following considerable research by the universities in that country, led by the University of Ruhuna.
GRADING
The Sri Lankan grading system divides the cinnamon quills into four groups:
- Alba, less than 6 mm in diameter
- Continental, less than 16 mm in diameter
- Mexican, less than 19 mm in diameter
- Hamburg, less than 32 mm in diameter
These groups are further divided into specific grades. For example, Mexican is divided into M00 000 special, M000000, and M0000, depending on quill diameter and number of quills per kilogram.
Any pieces of bark less than 106 mm long are categorized as quillings. Featherings are the inner bark of twigs and twisted shoots. Chips are trimmings of quills, outer and inner bark that cannot be separated, or the bark of small twigs.
SPECIES
A number of species are often sold as cinnamon:
- Cinnamomum cassia (cassia or Chinese cinnamon, the most common type)
- C. burmannii (Korintje, Padang cassia, or Indonesian cinnamon)
- C. loureiroi (Saigon cinnamon, Vietnamese cassia, or Vietnamese cinnamon)
- C. verum (Sri Lanka cinnamon or Ceylon cinnamon)
- C. citriodorum (Malabar cinnamon)
- C. tamale (Indian cinnamon)
Cassia is the strong spicy flavour associated with cinnamon rolls and other such baked goods, as it handles baking conditions well. Chinese cinnamon is generally a medium to light reddish brown, hard and woody in texture, and thicker (2–3 mm thick), as all of the layers of bark are used. Ceylon cinnamon, using only the thin inner bark, has a lighter brown colour, a finer, less dense and more crumbly texture, and is considered to be subtler and more aromatic in flavour than cassia, losing much of its flavour during cooking.
Levels of the blood-thinning agent coumarin in Ceylon cinnamon are much lower than those in cassia.
The barks of the species are easily distinguished when whole, both in macroscopic and microscopic characteristics. Ceylon cinnamon sticks (quills) have many thin layers and can easily be made into powder using a coffee or spice grinder, whereas cassia sticks are much harder. Indonesian cinnamon is often sold in neat quills made up of one thick layer, capable of damaging a spice or coffee grinder. Saigon cinnamon (C. loureiroi) and Chinese cinnamon (C. cassia) are always sold as broken pieces of thick bark, as the bark is not supple enough to be rolled into quills. The powdered bark is harder to distinguish, but if it is treated with tincture of iodine (a test for starch), little effect is visible with pure Ceylon cinnamon, but when Chinese cinnamon is present, a deep-blue tint is produced.
FLAVOUR, AROMA AND TASTE
The flavour of cinnamon is due to an aromatic essential oil that makes up 0.5 to 1% of its composition. This essential oil is prepared by roughly pounding the bark, macerating it in sea water, and then quickly distilling the whole. It is of a golden-yellow colour, with the characteristic odour of cinnamon and a very hot aromatic taste. The pungent taste and scent come from cinnamic aldehyde or cinnamaldehyde (about 90% of the essential oil from the bark) and, by reaction with oxygen as it ages, it darkens in colour and forms resinous compounds. Other chemical components of the essential oil include ethyl cinnamate, eugenol (found mostly in the leaves), beta-caryophyllene, linalool, and methyl chavicol.
FOOD USES
Cinnamon bark is used as a spice. It is principally employed in cookery as a condiment and flavouring material. It is used in the preparation of chocolate, especially in Mexico, which is the main importer of cinnamon. It is also used in many dessert recipes, such as apple pie, doughnuts, and cinnamon buns as well as spicy candies, coffee, tea, hot cocoa, and liqueurs. In the Middle East, cinnamon is often used in savoury dishes of chicken and lamb. In the United States, cinnamon and sugar are often used to flavour cereals, bread-based dishes, such as toast, and fruits, especially apples; a cinnamon-sugar mixture is even sold separately for such purposes. It is also used in Turkish cuisine for both sweet and savoury dishes. Cinnamon can also be used in pickling. Cinnamon powder has long been an important spice in enhancing the flavor of Persian cuisine, used in a variety of thick soups, drinks, and sweets.
USE AS AN ALCOHOLIC FLAVORANT
Cinnamon is a popular flavoring in numerous alcoholic beverages.
Cinnamon brandy concoctions, called "Cinnamon liqueur" and made with distilled alcohol, are popular in parts of Greece. In Europe, popular examples of such beverages are Maiwein (white wine with woodruff) and Żubrówka (vodka flavoured with bison grass).
TRADITIONAL MEDICINE
Cinnamon has a long history of use in traditional medicine, but there is no evidence that it is useful to treat any medical condition.
TOXICITY
The European Food Safety Authority in 2008 considered toxicity of coumarin, known to cause liver and kidney damage in high concentrations and a significant component of cinnamon, and metabolic effect on humans with CYP2A6 polymorphism, and confirmed a maximum recommended Tolerable Daily Intake (TDI) of 0.1 mg of coumarin per kg of body weight. The European Union set a guideline for maximum coumarin content in foodstuffs of 50 mg per kg of dough in seasonal foods, and 15 mg per kg in everyday baked foods. Note: Due to the unpredictable amount of coumarin in Cinnamomum cassia, usually well over 1,000 mg of coumarin per kg of cinnamon and sometimes up to 12 times that, Cinnamomum cassia has a very low safe intake level in order to adhere to the above Tolerable Daily Intake.
NUTRITIONAL INFORMATION
Ten grams (about 2 teaspoons) of ground cinnamon contain:
Energy: 103.4 kJ (24.7 kcal)
Fat: 0.12 g
Carbohydrates: 8.06 g (of which - fibres: 5.31 g, sugars: 0.2 g)
Protein: 0.4 g
WIKIPEDIA
Diamond crystal from Russia.
A mineral is a naturally-occurring, solid, inorganic, crystalline substance having a fairly definite chemical composition and having fairly definite physical properties. At its simplest, a mineral is a naturally-occurring solid chemical. Currently, there are over 5200 named and described minerals - about 200 of them are common and about 20 of them are very common. Mineral classification is based on anion chemistry. Major categories of minerals are: elements, sulfides, oxides, halides, carbonates, sulfates, phosphates, and silicates.
Elements are fundamental substances of matter - matter that is composed of the same types of atoms. At present, 118 elements are known (four of them are still unnamed). Of these, 98 occur naturally on Earth (hydrogen to californium). Most of these occur in rocks & minerals, although some occur in very small, trace amounts. Only some elements occur in their native elemental state as minerals.
To find a native element in nature, it must be relatively non-reactive and there must be some concentration process. Metallic, semimetallic (metalloid), and nonmetallic elements are known in their native state.
The element carbon occurs principally in its native state as graphite (C) and diamond (C). Graphite is the common & far less valuable polymorph of carbon. A scarce polymorph of carbon is diamond. The physical properties of diamond and graphite couldn’t be more different, considering they have the same chemistry. Diamond has a nonmetallic, adamantine luster, typically occurs in cubic or octahedral (double-pyramid) crystals, or subspherical to irregularly-shaped masses, and is extremely hard (H≡10). Diamonds can be almost any color, but are typically clearish, grayish, or yellowish. Many diamonds are noticeably fluorescent under black light (ultraviolet light), but the color and intensity of fluorescence varies. Some diamonds are phosphorescent - under certain conditions, they glow for a short interval on their own.
Very rarely, diamond is a rock-forming mineral (see diamondite - www.flickr.com/photos/jsjgeology/14618393527).
The diamond shown here is a 1.29 carat octahedral crystal, modified by trigons (small triangular-shaped structures). It comes from a kimberlite body in eastern Siberia. Kimberlites are intrusive igneous rocks typically having pipe-shaped geometries. The host kimberlite is Paleozoic in age, but the diamonds date to the Precambrian, based on inclusion dating.
Geologic unit & age: Mir Kimberlite, Malo-Botuoba Kimberlite Field, erupted in the Devonian of Mississippian, 324 to 403 Ma (dates cluster around 354 to 360 Ma)
Locality: unrecorded locality in the Mir Kimberlite Pipe, town of Mirnyy, Yakutia (a.k.a. "Sakha"), eastern Siberia, Russia (~62° 31' 43.93" North latitude, ~113° 59' 38.60" East longitude)
A text In English:
The Swallow-tailed Hummingbird, so called from its forked tail, is one of the largest hummingbirds in cities and gardens, but it also occurs in gallery forests, bushy pastures and edges of woods or coppices. It is green, except for the blue head and upper breast, turning to iridescent purple according to the direction of light; it has dark wings and a heavy black bill. The tail is dark blue with the external feathers longer than central ones. It is very aggressive and attacks other hummingbirds that dare to visit flowers in certain trees. Where the flowers are available for many months, the individual is fiercely territorial, but generally needs to search soon for other flowering plants. It flies to catch small insets on or under leaves in the gallery forests or woodlands. The female builds a small cup-shaped nest saddled on a branch, not far from the main trunk in the shade of leaves. Perched on favorite branches, the male can utter long but low chirps. Once in a while, it interrupts these singing sessions to feed, and flies back for more song or to clean the plumage. They occur from the Guianas and Amazon River to Paraguay and southeastern Peru. They can get along with partially deforested zones, but may disappear with intensive agriculture and with the development of treeless cities.
Um texto em Português:
Beija-flor Tesoura (Eupetomena macroura), fotografado em Brasília-DF, Brasil.
Eupetomena macroura (Gmelin, 1788): tesoura; swallow-tailed hummingbird c.
Destaca-se das espécies estudadas pelo maior porte e pela cauda comprida e bifurcada, o que lhe valeu o nome popular. Como é comum entre os beija-flores, é uma espécie agressiva que disputa com outras o seu território e fontes de alimento.
Nidificação: o ninho, em forma de tigela, é assentado numa forquilha de arbusto ou árvores, a cerca de 2 a 3 m do solo. O material utilizado na construção é composto por fibras vegetais incluindo painas, musgos e liquens, aderidos externamente com teias de aranhas.
Hábitat: capoeiras, cerrados, borda de matas e jardins.
Tamanho: 17,0 cm
A SEGUIR UM TEXTO ENCONTRADO E REPRODUZIDO DO ENDEREÇO nationalgeographic.abril.uol.com.br/ng/edicoes/83/reporta... DA NATIONAL GEOGRAFIC:
Prodígios da micro-engenharia, os beija-flores são os campeões dos pesos-leves entre as aves
Uma faísca safira, um frêmito de asas, e o minúsculo pássaro - ou seria um inseto? - some como miragem fugaz. Reaparece instantes depois, agora num ângulo melhor. É pássaro mesmo, um dervixe do tamanho do meu polegar com asas que batem 80 vertiginosas vezes por segundo, produzindo um zumbido quase inaudível. As penas da cauda, à guisa de leme, delicadamente direcionam o vôo em três direções. Ele fita a trombeta de uma vistosa flor alaranjada e do bico fino como agulha projeta uma língua delgada feito linha. Um raio de Sol ricocheteia de suas penas iridescentes. A cor refletida deslumbra como uma pedra preciosa contra uma janela ensolarada. Não admira que os beija-flores sejam tão queridos e que tanta gente já tenha tropeçado ao tentar descrevê-los. Nem mesmo circunspectos cientistas resistem a termos como "belo", "magnífico", "exótico".
Surpresa maior é o fato de o aparentemente frágil beija-flor ser uma das mais resistentes criaturas do reino animal. Cerca de 330 espécies prosperam em ambientes diversos, muitos deles brutais: do Alasca à Argentina, do deserto do Arizona à costa de Nova Scotia, da Amazônia à linha nevada acima dos 4,5 mil metros nos Andes (misteriosamente, essas aves só são encontradas no Novo Mundo).
"Eles vivem no limite do que é possível aos vertebrados, e com maestria", diz Karl Schuchmann, ornitólogo do Instituto Zoológico Alexander Koenig e do Fundo Brehm, na Alemanha. Schuchmann ouviu falar de um beija-flor que viveu 17 anos em cativeiro. "Imagine a resistência de um organismo de 5 ou 6 gramas para viver tanto tempo!", diz ele espantado. Em média, o minúsculo coração de um beija-flor bate cerca de 500 vezes por minuto (em repouso!). Assim, o desse pequeno cativo teria batido meio bilhão de vezes, quase o dobro do total de uma pessoa de 70 anos.
Mas esses passarinhos são duráveis apenas em vida. Quando morrem, seus ossos delicados e ocos quase nunca se fossilizam. Daí o assombro causado pela recente descoberta de um amontoado de fósseis de aves que talvez inclua um beija-flor ancestral de 30 milhões de anos. Como os beija-flores modernos, os espécimes fósseis tinham o bico longo e fino e os ossos superiores das asas mais curtos, terminando em uma saliência arredondada que talvez lhes permitisse fazer a rotação na articulação do ombro e parar no ar.
A outra surpresa foi o local do achado: no sul da Alemanha, longe do território dos beija-flores atuais. Para alguns cientistas, essa descoberta mostra que já existiram beija-flores fora das Américas, mas se extinguiram. Ou quem sabe os fósseis não fossem de beija-flor. Os céticos, entre eles Schuchmann, afirmam que muitas vezes, ao longo da evolução, outros grupos de aves adquiriram características semelhantes às do beija-flor. Os verdadeiros beija-flores, diz Schuchmann, evoluíram nas florestas do leste do Brasil, onde competiam com insetos pelo néctar das flores.
"O Brasil foi o laboratório do protótipo", diz o ornitólogo. "E o modelo funcionou." O beija-flor tornou-se a obra-prima da microengenharia da natureza. Aperfeiçoou sua habilidade de parar no ar há dezenas de milhões de anos para competir por parte das flores do Novo Mundo.
"Eles são uma ponte entre o mundo das aves e o dos insetos", diz Doug Altshuler, da Universidade da Califórnia em Riverside. Altshuler, que estuda o vôo dos beija-flores, examinou os movimentos das asas do pássaro. Observou que, nele, os impulsos elétricos propulsores dos músculos das asas lembram mais os dos insetos que os das aves. Talvez por isso o beija-flor produza tanta energia por batida de asas: mais, por unidade de massa, que qualquer outro vertebrado. Altshuler também analisou os trajetos neurais do beija-flor, que funcionam com a mesma vertiginosa velocidade encontrada nas aves mais ágeis, como seu primo mais próximo, o andorinhão. "São incríveis; uns pequenos Frankesteins", compara.
Certamente eles sabem intimidar: grama por grama, talvez sejam os maiores confrontadores da natureza. "O vocabulário do beija-flor deve ser 100% composto de palavrões", graceja Sheri Williamson, naturalista do Southeastern Arizona Bird Observatory. A agressão do beija-flor nasce de ferozes instintos territoriais moldados à necessidade de sugar néctar a cada poucos minutos. Os beija-flores competem desafiando e ameaçando uns aos outros. Postam-se face a face no ar, rodopiam, mergulham na direção da grama e voam de ré, em danças de dominância que terminam tão subitamente quanto começam.
O melhor lugar para vermos tais batalhas é nas montanhas, especialmente no Equador, em que ricos ecossistemas se apresentam em suas várias altitudes. Sheri supõe que o sentido norte-sul das cordilheiras americanas também crie rotas favoráveis à migração para onde haja constante suprimento de flores. O que contrasta, diz ela, com as barreiras naturais que se estendem de leste a oeste na África, como o Saara e o Mediterrâneo.
Algumas espécies de beija-flor, porém, adaptaram-se a atravessar vastidões planas, onde o alimento é escasso. Antes de sua intrépida migração da primavera para os Estados Unidos e o Canadá, os beija-flores-de-garganta-vermelha reúnem-se no México e empanturram-se de insetos e néctar. Armazenam gordura e duplicam de peso em uma semana. Em seguida, atravessam o golfo do México, voando 800 quilômetros sem escalas por 20 horas, até a costa distante.
A região próxima à linha do equador é um reino de beija-flores. Quem sai do aeroporto de Quito, no Equador, pode ser logo saudado por um cintilante beija-flor-violeta, com pintura de guerra de manchas púrpura iridescentes nos lados da face. A leste da cidade, nas cabeceiras da bacia Amazônica, o beija-flor-bico-de-espada esvoaça na mata portando o bico mais longo de todas as aves em proporção a seu tamanho: mais de metade do comprimento total do animal. Nas encostas do Cotopaxi, um vulcão ao sul de Quito, o beija-flor-do-chimborazo foi avistado acima dos 4,5 mil metros. Ali ele passa a noite entorpecido em cavernas, pois desacelera seu ritmo metabólico o suficiente para não morrer de fome antes de amanhecer. Mais tarde, aquecido pelo Sol, ele recomeça a se alimentar.
"Quem estuda beija-flores fica irremediavelmente enfeitiçado", diz Sheri Williamson. "São criaturinhas sedutoras. Tentei resistir, mas agora tenho sangue de beija-flor correndo nas veias."
Canon EOS 50D
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Ipê Amarelo, Tabebuia [chrysotricha or ochracea].
Text, in english, from Wikipedia, the free encyclopedia
"Trumpet tree" redirects here. This term is occasionally used for the Shield-leaved Pumpwood (Cecropia peltata).
Tabebuia
Flowering Araguaney or ipê-amarelo (Tabebuia chrysantha) in central Brazil
Scientific classification
Kingdom: Plantae
(unranked): Angiosperms
(unranked): Eudicots
(unranked): Asterids
Order: Lamiales
Family: Bignoniaceae
Tribe: Tecomeae
Genus: Tabebuia
Gomez
Species
Nearly 100.
Tabebuia is a neotropical genus of about 100 species in the tribe Tecomeae of the family Bignoniaceae. The species range from northern Mexico and the Antilles south to northern Argentina and central Venezuela, including the Caribbean islands of Hispaniola (Dominican Republic and Haiti) and Cuba. Well-known common names include Ipê, Poui, trumpet trees and pau d'arco.
They are large shrubs and trees growing to 5 to 50 m (16 to 160 ft.) tall depending on the species; many species are dry-season deciduous but some are evergreen. The leaves are opposite pairs, complex or palmately compound with 3–7 leaflets.
Tabebuia is a notable flowering tree. The flowers are 3 to 11 cm (1 to 4 in.) wide and are produced in dense clusters. They present a cupular calyx campanulate to tubular, truncate, bilabiate or 5-lobed. Corolla colors vary between species ranging from white, light pink, yellow, lavender, magenta, or red. The outside texture of the flower tube is either glabrous or pubescentThe fruit is a dehiscent pod, 10 to 50 cm (4 to 20 in.) long, containing numerous—in some species winged—seeds. These pods often remain on the tree through dry season until the beginning of the rainy.
Species in this genus are important as timber trees. The wood is used for furniture, decking, and other outdoor uses. It is increasingly popular as a decking material due to its insect resistance and durability. By 2007, FSC-certified ipê wood had become readily available on the market, although certificates are occasionally forged.
Tabebuia is widely used as ornamental tree in the tropics in landscaping gardens, public squares, and boulevards due to its impressive and colorful flowering. Many flowers appear on still leafless stems at the end of the dry season, making the floral display more conspicuous. They are useful as honey plants for bees, and are popular with certain hummingbirds. Naturalist Madhaviah Krishnan on the other hand once famously took offense at ipé grown in India, where it is not native.
Lapacho teaThe bark of several species has medical properties. The bark is dried, shredded, and then boiled making a bitter or sour-tasting brownish-colored tea. Tea from the inner bark of Pink Ipê (T. impetiginosa) is known as Lapacho or Taheebo. Its main active principles are lapachol, quercetin, and other flavonoids. It is also available in pill form. The herbal remedy is typically used during flu and cold season and for easing smoker's cough. It apparently works as expectorant, by promoting the lungs to cough up and free deeply embedded mucus and contaminants. However, lapachol is rather toxic and therefore a more topical use e.g. as antibiotic or pesticide may be advisable. Other species with significant folk medical use are T. alba and Yellow Lapacho (T. serratifolia)
Tabebuia heteropoda, T. incana, and other species are occasionally used as an additive to the entheogenic drink Ayahuasca.
Mycosphaerella tabebuiae, a plant pathogenic sac fungus, was first discovered on an ipê tree.
Tabebuia alba
Tabebuia anafensis
Tabebuia arimaoensis
Tabebuia aurea – Caribbean Trumpet Tree
Tabebuia bilbergii
Tabebuia bibracteolata
Tabebuia cassinoides
Tabebuia chrysantha – Araguaney, Yellow Ipê, tajibo (Bolivia), ipê-amarelo (Brazil), cañaguate (N Colombia)
Tabebuia chrysotricha – Golden Trumpet Tree
Tabebuia donnell-smithii Rose – Gold Tree, "Prima Vera", Cortez blanco (El Salvador), San Juan (Honduras), palo blanco (Guatemala),duranga (Mexico)
A native of Mexico and Central Americas, considered one of the most colorful of all Central American trees. The leaves are deciduous. Masses of golden-yellow flowers cover the crown after the leaves are shed.
Tabebuia dubia
Tabebuia ecuadorensis
Tabebuia elongata
Tabebuia furfuracea
Tabebuia geminiflora Rizz. & Mattos
Tabebuia guayacan (Seem.) Hemsl.
Tabebuia haemantha
Tabebuia heptaphylla (Vell.) Toledo – tajy
Tabebuia heterophylla – roble prieto
Tabebuia heteropoda
Tabebuia hypoleuca
Tabebuia impetiginosa – Pink Ipê, Pink Lapacho, ipê-cavatã, ipê-comum, ipê-reto, ipê-rosa, ipê-roxo-damata, pau d'arco-roxo, peúva, piúva (Brazil), lapacho negro (Spanish); not "brazilwood"
Tabebuia incana
Tabebuia jackiana
Tabebuia lapacho – lapacho amarillo
Tabebuia orinocensis A.H. Gentry[verification needed]
Tabebuia ochracea
Tabebuia oligolepis
Tabebuia pallida – Cuban Pink Trumpet Tree
Tabebuia platyantha
Tabebuia polymorpha
Tabebuia rosea (Bertol.) DC.[verification needed] (= T. pentaphylla (L.) Hemsley) – Pink Poui, Pink Tecoma, apama, apamate, matilisguate
A popular street tree in tropical cities because of its multi-annular masses of light pink to purple flowers and modest size. The roots are not especially destructive for roads and sidewalks. It is the national tree of El Salvador and the state tree of Cojedes, Venezuela
Tabebuia roseo-alba – White Ipê, ipê-branco (Brazil), lapacho blanco
Tabebuia serratifolia – Yellow Lapacho, Yellow Poui, ipê-roxo (Brazil)
Tabebuia shaferi
Tabebuia striata
Tabebuia subtilis Sprague & Sandwith
Tabebuia umbellata
Tabebuia vellosoi Toledo
Ipê-do-cerrado
Texto, em português, da Wikipédia, a enciclopédia livre.
Ipê-do-cerrado
Classificação científica
Reino: Plantae
Divisão: Magnoliophyta
Classe: Magnoliopsida
Subclasse: Asteridae
Ordem: Lamiales
Família: Bignoniaceae
Género: Tabebuia
Espécie: T. ochracea
Nome binomial
Tabebuia ochracea
(Cham.) Standl. 1832
Sinónimos
Bignonia tomentosa Pav. ex DC.
Handroanthus ochraceus (Cham.) Mattos
Tabebuia chrysantha (Jacq.) G. Nicholson
Tabebuia hypodictyon A. DC.) Standl.
Tabebuia neochrysantha A.H. Gentry
Tabebuia ochracea subsp. heteropoda (A. DC.) A.H. Gentry
Tabebuia ochracea subsp. neochrysantha (A.H. Gentry) A.H. Gentry
Tecoma campinae Kraenzl.
ecoma grandiceps Kraenzl.
Tecoma hassleri Sprague
Tecoma hemmendorffiana Kraenzl.
Tecoma heteropoda A. DC.
Tecoma hypodictyon A. DC.
Tecoma ochracea Cham.
Ipê-do-cerrado é um dos nomes populares da Tabebuia ochracea (Cham.) Standl. 1832, nativa do cerrado brasileiro, no estados de Amazonas, Pará, Maranhão, Piauí, Ceará, Pernambuco, Bahia, Espírito Santo, Goiás, Mato Grosso, Mato Grosso do Sul, Minas Gerais, Rio de Janeiro, São Paulo e Paraná.
Está na lista de espécies ameaçadas do estado de São Paulo, onde é encontrda também no domínio da Mata Atlântica[1].
Ocorre também na Argentina, Paraguai, Bolívia, Equador, Peru, Venezuela, Guiana, El Salvador, Guatemala e Panamá[2].
Há uma espécie homônima descrita por A.H. Gentry em 1992.
Outros nomes populares: ipê-amarelo, ipê-cascudo, ipê-do-campo, ipê-pardo, pau-d'arco-do-campo, piúva, tarumã.
Características
Altura de 6 a 14 m. Tronco tortuso com até 50 cm de diâmetro. Folhas pilosas em ambas as faces, mais na inferior, que é mais clara.
Planta decídua, heliófita, xerófita, nativa do cerrado em solos bem drenados.
Floresce de julho a setembro. Os frutos amadurecem de setembro a outubro.
FloresProduz grande quantidade de sementes leves, aladas com pequenas reservas, e que perdem a viabilidade em menos de 90 dias após coleta. A sua conservação vem sendo estudada em termos de determinação da condição ideal de armazenamento, e tem demonstrado a importância de se conhecer o comportamento da espécie quando armazenada com diferentes teores de umidade inicial, e a umidade de equilíbrio crítica para a espécie (KANO; MÁRQUEZ & KAGEYAMA, 1978). As levíssimas sementes aladas da espécie não necessitam de quebra de dormência. Podem apenas ser expostas ao sol por cerca de 6 horas e semeadas diretamente nos saquinhos. A germinação ocorre após 30 dias e de 80%. As sementes são ortodoxas e há aproximadamente 72 000 sementes em cada quilo.
O desenvolvimento da planta é rápido.
Como outros ipês, a madeira é usada em tacos, assoalhos, e em dormentes e postes. Presta-se também para peças torneadas e instrumento musicais.
Tabebuia alba (Ipê-Amarelo)
Texto, em português, produzido pela Acadêmica Giovana Beatriz Theodoro Marto
Supervisão e orientação do Prof. Luiz Ernesto George Barrichelo e do Eng. Paulo Henrique Müller
Atualizado em 10/07/2006
O ipê amarelo é a árvore brasileira mais conhecida, a mais cultivada e, sem dúvida nenhuma, a mais bela. É na verdade um complexo de nove ou dez espécies com características mais ou menos semelhantes, com flores brancas, amarelas ou roxas. Não há região do país onde não exista pelo menos uma espécie dele, porém a existência do ipê em habitat natural nos dias atuais é rara entre a maioria das espécies (LORENZI,2000).
A espécie Tabebuia alba, nativa do Brasil, é uma das espécies do gênero Tabebuia que possui “Ipê Amarelo” como nome popular. O nome alba provém de albus (branco em latim) e é devido ao tomento branco dos ramos e folhas novas.
As árvores desta espécie proporcionam um belo espetáculo com sua bela floração na arborização de ruas em algumas cidades brasileiras. São lindas árvores que embelezam e promovem um colorido no final do inverno. Existe uma crença popular de que quando o ipê-amarelo floresce não vão ocorrer mais geadas. Infelizmente, a espécie é considerada vulnerável quanto à ameaça de extinção.
A Tabebuia alba, natural do semi-árido alagoano está adaptada a todas as regiões fisiográficas, levando o governo, por meio do Decreto nº 6239, a transformar a espécie como a árvore símbolo do estado, estando, pois sob a sua tutela, não mais podendo ser suprimida de seus habitats naturais.
Taxonomia
Família: Bignoniaceae
Espécie: Tabebuia Alba (Chamiso) Sandwith
Sinonímia botânica: Handroanthus albus (Chamiso) Mattos; Tecoma alba Chamisso
Outros nomes vulgares: ipê-amarelo, ipê, aipê, ipê-branco, ipê-mamono, ipê-mandioca, ipê-ouro, ipê-pardo, ipê-vacariano, ipê-tabaco, ipê-do-cerrado, ipê-dourado, ipê-da-serra, ipezeiro, pau-d’arco-amarelo, taipoca.
Aspectos Ecológicos
O ipê-amarelo é uma espécie heliófita (Planta adaptada ao crescimento em ambiente aberto ou exposto à luz direta) e decídua (que perde as folhas em determinada época do ano). Pertence ao grupo das espécies secundárias iniciais (DURIGAN & NOGUEIRA, 1990).
Abrange a Floresta Pluvial da Mata Atlântica e da Floresta Latifoliada Semidecídua, ocorrendo principalmente no interior da Floresta Primária Densa. É característica de sub-bosques dos pinhais, onde há regeneração regular.
Informações Botânicas
Morfologia
As árvores de Tabebuia alba possuem cerca de 30 metros de altura. O tronco é reto ou levemente tortuoso, com fuste de 5 a 8 m de altura. A casca externa é grisáceo-grossa, possuindo fissuras longitudinais esparas e profundas. A coloração desta é cinza-rosa intenso, com camadas fibrosas, muito resistentes e finas, porém bem distintas.
Com ramos grossos, tortuosos e compridos, o ipê-amarelo possui copa alongada e alargada na base. As raízes de sustentação e absorção são vigorosas e profundas.
As folhas, deciduais, são opostas, digitadas e compostas. A face superior destas folhas é verde-escura, e, a face inferior, acinzentada, sendo ambas as faces tomentosas. Os pecíolos das folhas medem de 2,5 a 10 cm de comprimento. Os folíolos, geralmente, apresentam-se em número de 5 a 7, possuindo de 7 a 18 cm de comprimento por 2 a 6 cm de largura. Quando jovem estes folíolos são densamente pilosos em ambas as faces. O ápice destes é pontiagudo, com base arredondada e margem serreada.
As flores, grandes e lanceoladas, são de coloração amarelo-ouro. Possuem em média 8X15 cm.
Quanto aos frutos, estes possuem forma de cápsula bivalvar e são secos e deiscentes. Do tipo síliqua, lembram uma vagem. Medem de 15 a 30 cm de comprimento por 1,5 a 2,5 cm de largura. As valvas são finamente tomentosas com pêlos ramificados. Possuem grande quantidade de sementes.
As sementes são membranáceas brilhantes e esbranquiçadas, de coloração marrom. Possuem de 2 a 3 cm de comprimento por 7 a 9 mm de largura e são aladas.
Reprodução
A espécie é caducifólia e a queda das folhas coincide com o período de floração. A floração inicia-se no final de agosto, podendo ocorrer alguma variação devido a fenômenos climáticos. Como a espécie floresce no final do inverno é influenciada pela intensidade do mesmo. Quanto mais frio e seco for o inverno, maior será a intensidade da florada do ipê amarelo.
As flores por sua exuberância, atraem abelhas e pássaros, principalmente beija-flores que são importantes agentes polinizadores. Segundo CARVALHO (2003), a espécie possui como vetor de polinização a abelha mamangava (Bombus morio).
As sementes são dispersas pelo vento.
A planta é hermafrodita, e frutifica nos meses de setembro, outubro, novembro, dezembro, janeiro e fevereiro, dependendo da sua localização. Em cultivo, a espécie inicia o processo reprodutivo após o terceiro ano.
Ocorrência Natural
Ocorre naturalmente na Floresta Estaciobal Semidecicual, Floresta de Araucária e no Cerrado.
Segundo o IBGE, a Tabebuia alba (Cham.) Sandw. é uma árvore do Cerrado, Cerradão e Mata Seca. Apresentando-se nos campos secos (savana gramíneo-lenhosa), próximo às escarpas.
Clima
Segundo a classificação de Köppen, o ipê-amarelo abrange locais de clima tropical (Aw), subtropical úmido (Cfa), sutropical de altitude (Cwa e Cwb) e temperado.
A T.alba pode tolerar até 81 geadas em um ano. Ocorre em locais onde a temperatura média anual varia de 14,4ºC como mínimo e 22,4ºC como máximo.
Solo
A espécie prefere solos úmidos, com drenagem lenta e geralmente não muito ondulados (LONGHI, 1995).
Aparece em terras de boa à média fertilidade, em solos profundos ou rasos, nas matas e raramente cerradões (NOGUEIRA, 1977).
Pragas e Doenças
De acordo com CARVALHO (2003), possui como praga a espécie de coleópteros Cydianerus bohemani da família Curculionoideae e um outro coleóptero da família Chrysomellidae. Apesar da constatação de elevados índices populacionais do primeiro, os danos ocasionados até o momento são leves. Nas praças e ruas de Curitiba - PR, 31% das árvores foram atacadas pela Cochonilha Ceroplastes grandis.
ZIDKO (2002), ao estudar no município de Piracicaba a associação de coleópteros em espécies arbóreas, verificou a presença de insetos adultos da espécie Sitophilus linearis da família de coleópteros, Curculionidae, em estruturas reprodutivas. Os insetos adultos da espécie emergiram das vagens do ipê, danificando as sementes desta espécie nativa.
ANDRADE (1928) assinalou diversas espécies de Cerambycidae atacando essências florestais vivas, como ingazeiro, cinamomo, cangerana, cedro, caixeta, jacarandá, araribá, jatobá, entre outras como o ipê amarelo.
A Madeira
A Tabebuia alba produz madeira de grande durabilidade e resistência ao apodrecimento (LONGHI,1995).
MANIERI (1970) caracteriza o cerne desta espécie como de cor pardo-havana-claro, pardo-havan-escuro, ou pardo-acastanhado, com reflexos esverdeados. A superfície da madeira é irregularmente lustrosa, lisa ao tato, possuindo textura media e grã-direita.
Com densidade entre 0,90 e 1,15 grama por centímetro cúbico, a madeira é muito dura (LORENZI, 1992), apresentando grande dificuldade ao serrar.
A madeira possui cheiro e gosto distintos. Segundo LORENZI (1992), o cheiro característico é devido à presença da substância lapachol, ou ipeína.
Usos da Madeira
Sendo pesada, com cerne escuro, adquire grande valor comercial na marcenaria e carpintaria. Também é utilizada para fabricação de dormentes, moirões, pontes, postes, eixos de roda, varais de carroça, moendas de cana, etc.
Produtos Não-Madeireiros
A entrecasca do ipê-amarelo possui propriedades terapêuticas como adstringente, usada no tratamento de garganta e estomatites. É também usada como diurético.
O ipê-amarelo possui flores melíferas e que maduras podem ser utilizadas na alimentação humana.
Outros Usos
É comumente utilizada em paisagismo de parques e jardins pela beleza e porte. Além disso, é muito utilizada na arborização urbana.
Segundo MOREIRA & SOUZA (1987), o ipê-amarelo costuma povoar as beiras dos rios sendo, portanto, indicado para recomposição de matas ciliares. MARTINS (1986), também cita a espécie para recomposição de matas ciliares da Floresta Estacional Semidecidual, abrangendo alguns municípios das regiões Norte, Noroeste e parte do Oeste do Estado do Paraná.
Aspectos Silviculturais
Possui a tendência a crescer reto e sem bifurcações quando plantado em reflorestamento misto, pois é espécie monopodial. A desrrama se faz muito bem e a cicatrização é boa. Sendo assim, dificilmente encopa quando nova, a não ser que seja plantado em parques e jardins.
Ao ser utilizada em arborização urbana, o ipê amarelo requer podas de condução com freqüência mediana.
Espécie heliófila apresenta a pleno sol ramificação cimosa, registrando-se assim dicotomia para gema apical. Deve ser preconizada, para seu melhor aproveitamento madeireiro, podas de formação usuais (INQUE et al., 1983).
Produção de Mudas
A propagação deve realizada através de enxertia.
Os frutos devem ser coletados antes da dispersão, para evitar a perda de sementes. Após a coleta as sementes são postas em ambiente ventilado e a extração é feita manualmente. As sementes do ipê amarelo são ortodoxas, mantendo a viabilidade natural por até 3 meses em sala e por até 9 meses em vidro fechado, em câmara fria.
A condução das mudas deve ser feita a pleno sol. A muda atinge cerca de 30 cm em 9 meses, apresentando tolerância ao sol 3 semanas após a germinação.
Sementes
Os ipês, espécies do gênero Tabebuia, produzem uma grande quantidade de sementes leves, aladas com pequenas reservas, e que perdem a viabilidade em poucos dias após a sua coleta. A sua conservação vem sendo estudada em termos de determinação da condição ideal de armazenamento, e tem demonstrado a importância de se conhecer o comportamento da espécie quando armazenada com diferentes teores de umidade inicial, e a umidade de equilíbrio crítica para a espécie (KANO; MÁRQUEZ & KAGEYAMA, 1978).
As levíssimas sementes aladas da espécie não necessitam de quebra de dormência. Podem apenas ser expostas ao sol por cerca de 6 horas e semeadas diretamente nos saquinhos. A quebra natural leva cerca de 3 meses e a quebra na câmara leva 9 meses. A germinação ocorre após 30 dias e de 80%.
As sementes são ortodoxas e há aproximadamente 87000 sementes em cada quilo.
Preço da Madeira no Mercado
O preço médio do metro cúbico de pranchas de ipê no Estado do Pará cotado em Julho e Agosto de 2005 foi de R$1.200,00 o preço mínimo, R$ 1509,35 o médio e R$ 2.000,00 o preço máximo (CEPEA,2005).
These beautiful snails have common names such as banded, grove or brown-lipped snails and despite looking very different in colour, they are all members of the same species - Cepaea nemoralis - and this is known as polymorphism.
I was busy trimming the ivy and these were just some of the different morphs I saved as I went about the gardening!
An adult male (orange morph) and a subadult male (green morph) Escambia Map Turtle basking on the Yellow River, FL.
Male Escambia Map Turtles exhibit color polymorphism; they can either have green ears or orange ears. The orange morph seems to occur at a lower frequencies on Florida's rivers than the green morph.
The Lizard (Cornish: An Lysardh) is a peninsula in southern Cornwall, England, United Kingdom. The most southerly point of the British mainland is near Lizard Point at SW 701115; Lizard village, also known as The Lizard, is the most southerly on the British mainland, and is in the civil parish of Landewednack, the most southerly parish. The valleys of the River Helford and Loe Pool form the northern boundary, with the rest of the peninsula surrounded by sea. The area measures about 14 by 14 miles (23 km × 23 km). The Lizard is one of England's natural regions and has been designated as a National Character Area 157 by Natural England. The peninsula is known for its geology and for its rare plants and lies within the Cornwall Area of Outstanding Natural Beauty (AONB).
The Lizard's coast is particularly hazardous to shipping and the seaways round the peninsula were historically known as the "Graveyard of Ships" (see below). The Lizard Lighthouse was built at Lizard Point in 1752 and the RNLI operates The Lizard lifeboat station.
Etymology
The name "Lizard" is most probably a corruption of the Cornish name "Lys Ardh", meaning "high court"; it is purely coincidental that much of the peninsula is composed of serpentinite-bearing rock. The peninsula's original name may have been the Celtic Bridanoc, from Britannakon ("the "British one"), preserved in the name of the former village of Predannack, now site of Predannack Airfield.
History
There is evidence of early habitation with several burial mounds and stones. Part of the peninsula is known as the Meneage (land of the monks).
Helston, the nearest town to the Lizard peninsula, is said to have once headed the estuary of the River Cober, before it was cut off from the sea by Loe Bar in the 13th century. It is speculated that Helston was once a port, but no records exist. Geomorphologists believe the bar was most likely formed by rising sea levels, after the last ice age, blocking the river and creating a barrier beach. The beach is formed mostly of flint and the nearest source is found offshore under the drowned terraces of the former river that flowed between England and France, and now under the English Channel. The medieval port of Helston was at Gweek, possibly from around 1260 onwards, on the Helford river which exported tin and copper. Helston was believed to be in existence in the sixth century, around the River Cober (Dowr Kohar). The name comes from the Cornish "hen lis" or "old court" and "ton" added later to denote a Saxon manor; the Domesday Book refers to it as Henliston (which survives as the name of a road in the town). It was granted its charter by King John in 1201. It was here that tin ingots were weighed to determine the duty due to the Duke of Cornwall when a number of stannary towns were authorised by royal decree.
The royal manor of Winnianton, which was held by King William I at the time of the Domesday Book (1086), was also the head manor of the hundred of Kerrier and the largest estate in Cornwall. It was assessed as having fifteen hides before 1066. At the time of Domesday there was land for sixty ploughs, but in the lord's land there were two ploughs and in the lands held by villeins twenty-four ploughs. There were twenty-four villeins, forty-one freedmen, thirty-three smallholders and fourteen slaves. There was 6 acres (24,000 m2), eight square leagues of pasture and half a square league of woodland. The livestock was fourteen unbroken mares, three cattle and one hundred and twenty-eight sheep (in total 145 beasts); its value was £12 annually. 11 of the hides were held by the Count of Mortain and there is more arable and pasture and 13 more persons are recorded: Rinsey, Trelowarren, Mawgan-in-Meneage and seventeen other lands are also recorded under Winnianton.
Mullion has the 15th century church of St Mellanus, and the Old Inn from the 16th century. The harbour was completed in 1895 and financed by Lord Robartes of Lanhydrock as a recompense to the fishermen for several disastrous pilchard seasons.
The small church of St Peter in Coverack, built in 1885 for £500, has a serpentinite pulpit.
The Great Western Railway operated a road motor service to The Lizard from Helston railway station. Commencing on 17 August 1903, it was the first successful British railway-run bus service and was initially provided as a cheaper alternative to a proposed light railway.
The Solar eclipse of 11 August 1999 departed the UK mainland from the Lizard.
The transatlantic record run of the unaccompanied one hand sailor Thomas Coville within less than 5 days in his sailboat Sodebo Ultim from New York, USA, to Europe landed here on 15 July 2017.
Nautical
The Lizard has been the site of many maritime disasters. It forms a natural obstacle to entry and exit of Falmouth and its naturally deep estuary. At Lizard Point stands the Lizard Lighthouse. In fact, the light was erected by Sir John Killigrew by his own expense: It was built at the cost of "20 nobles a year" for 30 years, but it caused an uproar over the following years, as King James I considered charging vessels to pass. This caused so many problems that the lighthouse was demolished, but was successfully rebuilt in 1751 by order of Thomas Fonnereau and remains almost unchanged today. Further east lie The Manacles, near Porthoustock: 1+1⁄2 square miles (4 km2) of jagged rocks just beneath the waves.
In 1721 the Royal Anne Galley, an oared frigate, was wrecked at Lizard Point. Of a crew of 185 only three survived; lost was Lord Belhaven who was en route to take up the Governorship of Barbados.
A 44-gun frigate, HMS Anson, was wrecked at Loe Bar in 1807. Although it wrecked close to shore, many lost their lives in the storm. This inspired Henry Trengrouse to invent the rocket-fired line, later to become the Breeches buoy.
The transport ship Dispatch ran aground on the Manacles in 1809 on its return from the Peninsular War, losing 104 men from the 7th Hussars. The following day, with local villagers still attempting a rescue, the Cruizer-class brig-sloop HMS Primrose hit the northern end of these rocks. The only survivor of its 126 officers, men and boys was a drummer boy.
5 Sept 1856 the Cherubim and Ocean Home collided off Lizard Point
The SS Mohegan, a 6,889 GRT passenger liner, also hit the Manacles in 1898 with the loss of 106 lives.
The American passenger liner Paris was stranded on the Manacles in 1899, with no loss of life.
The biggest rescue in the RNLI's history was 17 March 1907 when the 12,000-tonne liner SS Suevic hit the Maenheere Reef near Lizard Point in Cornwall. In a strong gale and dense fog RNLI lifeboat volunteers rescued 456 passengers, including 70 babies. Crews from the Lizard, Cadgwith, Coverack and Porthleven rowed out repeatedly for 16 hours to rescue all of the people on board. Six silver RNLI medals were later awarded, two to Suevic crew members.
The Battle at the Lizard, a naval battle, took place off The Lizard on 21 October 1707.
Smuggling was a regular, and often necessary, way of life in these parts, despite the efforts of coastguards or "Preventive men". In 1801, the king's pardon was offered to any smuggler giving information on the Mullion musket men involved in a gunfight with the crew of HM Gun Vessel Hecate.
Avionic
In the First World War a Naval Air Station was established at Bonython, flying mainly blimps used for spotting U-boats. One was sunk and several probably damaged by bombs dropped by the blimps. The airfield site is now occupied by the wind farm.
RAF Predannack Down (see Predannack Airfield) was a Second World War airbase, from which Coastal Command squadrons flew anti-submarine sorties into the Bay of Biscay as well as convoy support in the western English Channel. The runways still exist and the site is used by a local Air Cadet Volunteergliding Squadron 626VGS and as an emergency/relief base for RNAS Culdrose (HMS Seahawk).
RNAS Culdrose is Europe's largest helicopter base, and currently hosts the Training and Operational Conversion Unit operating the EH101 "Merlin" helicopter. It is also the home base for Merlin Squadrons embarked upon Royal Navy warships, the Westland Sea King airborne early warning (AEW) variant helicopter, a Search And Rescue (Sea King, again) helicopter flight, and some BAe Hawk T.1 trainer jets used for training purposes by the Royal Navy. The base also operates some other types of fixed wing aircraft for calibration and other training purposes. As befits the base's name, a non-flying example of a Hawker Sea Hawk forms the main gate guardian static display. RNAS Culdrose is a major contributor to the economy of The Lizard area.
Political
The Lizard peninsula is in the St Ives parliamentary constituency (which comprises the whole of the former district of Penwith and the southern part of the former district of Kerrier). However, the parishes northeast of the Helford River are in Camborne and Redruth parliamentary constituency
To the north, The Lizard peninsula is bordered by the civil parishes of Breage, Porthleven, Sithney, Helston, Wendron, Gweek and – across the Helford River – by Constantine, Kerrier and Mawnan.
The parishes on the peninsula proper are (west to east):
Northern parishes:
Gunwalloe
Cury
Mawgan-in-Meneage
St Martin-in-Meneage
Manaccan
St Anthony-in-Meneage
Southern parishes:
Mullion
Grade-Ruan
St Keverne
Landewednack
The Lizard's political history includes the 1497 Cornish rebellion which began in St Keverne. The village blacksmith Michael Joseph (Michael An Gof in Cornish, meaning blacksmith) led the uprising, protesting against the punitive taxes levied by Henry VII to pay for the war against the Scots. The uprising was routed on its march to London and the two leaders, Michael Joseph and Thomas Flamank, were subsequently hanged, drawn and quartered.
Technological
Titanium was discovered here by the Reverend William Gregor in 1791.
In 1869, John Pender formed the Falmouth Gibraltar and Malta Telegraph company, intending to connect India to England with an undersea cable. Although intended to land at Falmouth, the final landing point was Porthcurno near Land's End.
In 1900 Guglielmo Marconi stayed the Housel Bay Hotel in his quest to locate a coastal radio station to receive signals from ships equipped with his apparatus. He leased a plot "in the wheat field adjoining the hotel" where the Lizard Wireless Telegraph Station still stands today. Recently restored by the National Trust, it looks as it did in January 1901, when Marconi received the distance record signals of 186 miles (299 km) from his transmitter station at Niton, Isle of Wight. The Lizard Wireless Station is the oldest Marconi station to survive in its original state, and is located to the west of the Lloyds Signal Station in what appears to be a wooden hut. On 12 December 1901 Poldhu Point was the site of the first trans Atlantic, wireless signal radio communication when Marconi sent a signal to St John's, Newfoundland. The technology is one of the key advances to the development of radio, television, satellites and the internet.
A radar station called RAF Dry Tree was built during World War II. The site was later chosen for the Telstar project in 1962; its rocky foundations, clear atmosphere and extreme southerly location being uniquely suitable. This became the Goonhilly satellite earth station, now owned by Goonhilly Earth Station Ltd. Some important developments in television satellite transmission were made at Goonhilly station. A wind farm exists near to the Goonhilly station site.
Geology
Known as the Lizard Complex, the peninsula's geology is the best preserved example of an exposed ophiolite in the United Kingdom.
An ophiolite is a suite of geological formations which represent a slice through a section of ocean crust (including the upper level of the mantle) thrust onto the continental crust.
The Lizard formations comprise three main units; the serpentinites, the "oceanic complex" and the metamorphic basement. The serpentinite contains significant samples of the serpentine polymorph lizardite, which were named after the Lizard complex in 1955.
Ecology
Several nature sites exist on the Lizard Peninsula; Predannack nature reserve, Mullion Island, Goonhilly Downs, and the Cornish Seal Sanctuary at Gweek. An area of the Lizard covering 16.62 square kilometres (6.42 sq mi) is designated a national nature reserve because of its coastal grasslands and heaths and inland heaths. The peninsula contains 3 main Sites of Special Scientific Interest (SSSI), both noted for their endangered insects and plants, as well as their geology. The first is East Lizard Heathlands SSSI, the second is Caerthillian to Kennack SSSI and the third is West Lizard SSSI, of which the important wetland, Hayle Kimbro Pool, forms a part of.
The area is also home to one of England's rarest breeding birds — the Cornish chough. This species of corvid is distinctive due to its red beak and legs and haunting "chee-aw" call. Choughs were extinct in Cornwall but returned naturally in 2001 and began breeding on Lizard in 2002 following a concerted effort by the National Trust, English Nature and the RSPB.
The Lizard contains some of the most specialised flora of any area in Britain, including many Red Data Book plant species. Of particular note is the Cornish heath, Erica vagans, that occurs in abundance here, but which is found nowhere else in Britain. There are more than 600 species of flowering plants on the Lizard, nearly a quarter of all UK species. The reason for this richness is partly because of the many different and unusual Lizard rocks on the Lizard Peninsula. But above all, it is a coming together of multiple factors: a very mild maritime climate, but one prone to gales and salt winds; waterlogged and boggy soils, but ones that often parch and dry out in the summer; soils of greatly contrasting fertility and pH; and lastly man's influence. Any single factor taken on its own would influence the flora; taken together, they combine, overlap and interact. Contrasting plant communities grow side-by-side in a mosaic that changes within a few metres but also changes markedly over time with the cycle of heath fires. It's not so much that conditions are ideal for growth, but that there is such a variety of different, difficult conditions. Each habitat, with its own combination of factors, attracts its own specialist plants. It is also one of the few places where the rare formicine ant, Formica exsecta, (the narrow-headed ant), can be found.
Portrayal in literature, film and music
Daphne du Maurier based many novels on this part of Cornwall, including Frenchman's Creek.
The Lizard was featured on the BBC television programme Seven Natural Wonders as one of the wonders of the South West, and on the BBC series Coast.
In James Clavell's novel Shōgun, ship's pilot Vasco Rodrigues challenges John Blackthorne to recite the latitude of the Lizard to verify that Blackthorne is the Pilot of the Dutch vessel Erasmus.
The Jennifer McQuiston 2015 novel The Spinster's Guide to Scandalous Behavior is set primarily in the fictional village Lizard Bay on the Lizard in the mid-nineteenth century.
In the television adaptation of "Horatio Hornblower", an order is given to "Weather the Lizard" in the episode Hornblower:Mutiny.
"Lizard Point" is also a track on the 1982 album Ambient 4: On Land released by Brian Eno.
The book series "Fenton House" by Ben Cheetham is set on the Lizard Peninsula.
Campagne autour de Hagiang, nord du Vietnam
Les Dao (ou Dzao) sont, comme les Hmongs, très nombreux et l'ethnie est très polymorphe : Dao Rouge, Dao à Tunique, Dao Noir, Dao à pantalon blanc… .J'en ai déjà posté plusieurs exemples.
Emigrée de Chine du sud depuis le XIIIème siècle, l’ethnie Dao habite au Nord du Vietnam dans les provinces de la moyenne et haute région. Elle occupe des terres à toute altitude et vit en bons voisins avec d’autres ethnies comme les Hmong, Tay, Thaï, … Ses ressources principales proviennent de l’agriculture, (riz et mais)
Souvent chez les femmes, les cheveux sont relevés en chignon sur la nuque ou rasés sur le pourtour à l’exception d’une touffe au sommet de la tête
Pratiquant le culte des ancêtres, les Dao adhèrent également au Taoïsme.
Les femmes Dao Tunique (ou Longues Tunique) portent donc une longue tunique noire rehaussée à la ceinture et à la base de parement rouge vif. Elles portent une coiffe colorée. On les rencontre surtout dans la région de Hagiang.
Parabole artistique du système d adaptation des créatures vivant dans les milieux extrêmes où la vie est soi disant impossible mais où elle prolifère pour se rendre compte que celle liste ne fait que croître . Cela implique donc que les organismes , parfois complexes , peuvent s’adapter à des conditions que nous jugeons parfois mortelles ou préjudiciables a toutes formes de vie . En conclusion cela décuple ou centuple l éventail des niches écologiques extraterrestres potentielles.
Found on: shop.nordstrom.com
Flattering baffle quilting locks in the alpine-fit warmth of this jacket's highest-quality down. Conveniently compressible for packing.
Agatized coral from the Tertiary of Georgia, USA.
Parts of Georgia and Florida are known for having geodized, agatized corals. The original coral skeletons were composed of aragonite (CaCO3, calcium carbonate), a polymorph of calcite. The fossil corals have since been silicified and geodized, resulting in chalcedony-lined cavities / vugs.
Thie example is remarkable for its rainbow colors.
Stratigraphy: supposedly from marine sedimentary rocks in the Hawthorn Group, Tertiary
Locality: undisclosed / unrecorded site attributed to the Withlacoochee River, near the Georgia-Florida border, far-southern Georgia, USA
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