CERTIFIED photos on Flickr

Paddle Diva provides SUP lessons for everyone having distinct fitness goals. Their instructors offer services such as SUP yoga & fitness, group paddling, SUP paddle adventure tours, SUP boards & gear and more. Visit www.paddlediva.com

20110802 garden by Lake Lou

20110802 garden, certified wildlife habitat

20110802 garden by Lake Lou

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20110802 garden, certified wildlife habitat

certified wildlife habitat by Lake Lou

1

food: foliage, nectar, pollen, berries, fruit, seeds, nuts

water: bird baths, butterfly puddling areas

cover: vegetation, shrubs, thickets, brush piles, dead trees

place to raise young: birdhouses, bathouses, ladybug houses, butterfly houses, wildflower meadows, bushes

green garden: organic fertilizer, composting, mulching, no grass

www.nwf.org

Indiana certified by Douglas Thayer

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Certified 1 by JoeConcrete 55

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Certified-Sugarloaf-2022 by NSP_EasternDivision

20110802 garden by Lake Lou

1

20110802 garden, certified wildlife habitat

Certified Ashtanga teacher David Garrigues 2012 In-depth Study by David

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certified wildlife habitat by Lake Lou

food: foliage, nectar, pollen, berries, fruit, seeds, nuts

water: bird baths, butterfly puddling areas

cover: vegetation, shrubs, thickets, brush piles, dead trees

place to raise young: birdhouses, bathouses, ladybug houses, butterfly houses, wildflower meadows, bushes

green garden: organic fertilizer, composting, mulching, no grass

www.nwf.org

certified wildlife habitat by Lake Lou

food: foliage, nectar, pollen, berries, fruit, seeds, nuts

water: bird baths, butterfly puddling areas

cover: vegetation, shrubs, thickets, brush piles, dead trees

place to raise young: birdhouses, bathouses, ladybug houses, butterfly houses, wildflower meadows, bushes

green garden: organic fertilizer, composting, mulching, no grass

www.nwf.org

Certified Transportation by The CrownKing

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certified wildlife habitat by Lake Lou

food: foliage, nectar, pollen, berries, fruit, seeds, nuts

water: bird baths, butterfly puddling areas

cover: vegetation, shrubs, thickets, brush piles, dead trees

place to raise young: birdhouses, bathouses, ladybug houses, butterfly houses, wildflower meadows, bushes

green garden: organic fertilizer, composting, mulching, no grass

www.nwf.org

St Mary, Teynham, Kent by Jelltex

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I have no plan with the Kent Church Project, as I call it.

The plan, as it is, is to visit each of the Kent parish churches, and if possible, photograph inside and out.

I could have a list for each area, names and adresses of each church, and details of opening times or points of contact. But I don't.

Mostly its a spur of the moment thing, we're going to a town for something, and we do some churches in the area, and if we're lucky, they're open.

If I would have done my research properly, I would have realised that the largest village between Faversham and Sittingbourne, would have a parish church, and I would have ticked it off over Heritage Weekend.

As it was, I didn't know.

So, late one Friday afternoon, I arrive at the church to find the door open, though the wardens clearing up after the weekend, were not too receptive for a visit, but agreed to stay a "few minutes" to allow me to get some shots.

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An enormous building in an isolated position overlooking farmland. The church is entered under a tower built in the fourteenth century, which completed a westward rebuilding of a thirteenth-century church that boasted very large transepts. The Victorian east window (for which there is a design hanging on the wall) was destroyed in the Second World War and replaced by the present glass to the designs of Hugh Easton. In the north transept are some fragments of fifteenth-century glass. The pulpit is Jacobean. In the south transept are some excellent brasses including one to John Frogenhall (d. 1444), showing him wearing the SS-pattern collar of the Lancastrian cause.

www.kentchurches.info/church.asp?p=Teynham

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TENHAM.

TENHAM, called in Saxon, Teynham, and now frequently written so, is the next parish south-eastward from Bapchild, and gives name to the hundred in which it is situated.

THE MANOR, which comprehends the hundred of Tenham, was given by Cenulph, king of Mercia, at the request of archbishop Athelard, by the description of twelve ploughlands, lying at Tenham, to the metropolitan church of our Saviour at Canterbury; and he made this gift chiefly on account of the archbishop's having given to him in recompence, twelve ploughlands lying at Cregesemeline, which king Offa formerly gave to one of his earls, named Uffa; and the king granted this land to the church of Christ, free from all secular service, except the repairing of bridges and the building of castles.

The above place, called Creges Emeline, has been understood to mean the fleet, or pool of water between the islands of Emley and Harty, in Shepey, now and long since called Crogs-depe, which water parts the royalty of the Swale between Tenham and Faversham, and is likewise the bounds of the hundreds of Middleton and Faversham. (fn. 1)

This manor continued part of the possessions of the church of Canterbury when archbishop Lansranc came to the see in the year 1070, being the 5th of the Conqueror's reign: and on the division which he soon afterwards made of the revenues of his church, between himself and his convent, Tenham was allotted to the archbishop and his successors, for their provision and maintenance.

After which the succeeding archbishops so far improved the buildings of this manor-house, as to make it fit for their frequent residence.

Archbishop Hubert Walter, a most magnificent prelate; the expence of whose housekeeping was esteemed nearly equal to that of the king, resided much at Tenham, where he died in the year 1205, and was carried from thence and buried in his own cathedral at Canterbury.

¶Archbishop Boniface, anno 44 Henry III. 1259, obtained both a market and fair for his manor of Tenham, the former on a Tuesday weekly, and the latter to continue for three days yearly at the Assumption of the Virgin Mary. Archbishop Walter Reynolds was resident here in the beginning of the winter of the year 1325, one of his instruments being dated from hence. Archbishop John Stratford, who filled the see in the reign of Edward III. entertained that prince here in the month of February, anno 1345, being the 19th of his reign, several of his letters patent bearing date from Tenham in that time.

The manor of Tenham remained part of the see of Canterbury, so far as I have learned, till the reign of queen Elizabeth, (fn. 2) when it was exchanged with the crown for other premises, where it lay till James I. in his 5th year, granted it to John Roper, esq. of the adjoining parish of Linsted, whom he afterwards, in the 14th year of his reign, knighted and created lord Teynham, in whose successors, lords Teynham, the property of this manor has continued down to the Right Hon. Henry Roper, the twelsth lord Teynham, who is the present possessor of it. A court baron is held for this manor.

There are several different customs of the tenants of this manor, principally in the Weald, mentioned in Somner's Gavelkind.

TENHAM is within the ECCLESIASTICAL JURISDICTION of the diocese of Canterbury, and deanry of Ospringe,

The church, which is large, is dedicated to St. Mary. It is built in the form of a cross, and consists of three isles, a high chancel, and a north and south chancel, having a square tower at the west end, in which are four bells. In the south cross or chancel, called the Frognal chancel, from its belonging to that manor, lie buried several of that family; over John Frogenhall, who died in 1444, there still remains a brass on his gravestone, with his figure habited in armour; several of the Clerks, owners of this manor, lie buried likewise in it. The north chancel is called the Hinkley chancel, from a family of that name, one of whom, John Hencliff, of Tenham, died in 1463, possessed of an estate in this parish, called Jonathan's garden, which he devised to his two sons, on condition that they should glaze a long window on the north head of this church. In this chancel is a stone, with an inscription and figure of a man in brass, for William Wreke, obt. 1533; a memorial for John Sutton, vicar, 1468, and Robert Heyward, in 1509. Weever says, there was a memorial in this church for William Mareys, and Joan his wife, but it has been long since obliterated. There are remains of good painted glass in the windows. Several of them have rich gothic canopies of beautiful coloured glass remaining in them, which had no doubt formerly figures of equal beauty, underneath. In the south window of the high chancel, is the portrait of a girl in blue, kneeling and pointing to a book, which is held by a man, who likewise points with his hand to it; at the bottom was an inscription, of which only remains, Sedis aplce pthonotarii. In the north chancel, in two windows near the vestry, is a figure in an episcopal habit, mitred, &c. with these arms, Ermine, three bars wavy, azure. In the window of the vestry room, a mitre and these arms, Per pale and fess, counterchanged, azure, and argent.

¶Archbishop Stephen Langton, in 1227, on account of the slender income of the archdeacontry of Canterbury, and the affection he bore towards his brother Simon Langton, then archdeacon, united to it the churches of Hackington, alias St. Stephen's, and Tenham, with the chapelries of Doddington, Linsted, Stone, and Iwade, then belonging to it, which churches were then of the archbishop's patronage; and this was confirmed by the chapter of the priory of Christchurch directly afterwards; at which time this church was let to farm for one hundred marcs. (fn. 5) In which situation this church has continued to this time, the archdeacon of Canterbury being the present patron and appropriator of it.

The chapels above-mentioned, which are all belonging to the archdeaconry, have long since, excepting the chapel of Stone, become independent parish churches, and as such not subject to any jurisdiction of the church of Tenham.

In the 8th year of Richard II. anno 1384, this church was valued at 133l. 6s. 8d. It is now of the annual value of about two hundred pounds, the yearly rent to the archdeacon is thirty-five pounds.

It is a vicarage, and valued in the king's books at ten pounds, and the yearly tenths at one pound, and is now of the yearly certified value of 63l. 13s. 4d. In 1640 it was valued at sixty pounds. Communicants one hundred.

This vicarage was augmented ten pounds per annum, by lease in 1672, between archdeacon Parker and Sir William Hugessen, of Linsted, lessee of the parsonage.

The family of Furnese were afterwards lessees of the parsonage; Henry Furnese, esq. sold it to Henry, late lord Teynham, who, in 1754, alienated his interest in it to Mr. Kempe, the occupier of it, in whose family it still continues.

There was a chantry in this church, which was suppressed, among other such endowments, by the acts of 37 Henry VIII. and 1 Edward VI. In the 2d year of the latter reign a survey was returned of it, by which it appears, that the land belonging to it lay in Frogenhall manor, then the property of Thomas Green, and that the total yearly value of it was only 18s. 8d.

www.british-history.ac.uk/survey-kent/vol6/pp284-296

20110802 garden by Lake Lou

1

20110802 garden, certified wildlife habitat

certified wildlife habitat by Lake Lou

food: foliage, nectar, pollen, berries, fruit, seeds, nuts

water: bird baths, butterfly puddling areas

cover: vegetation, shrubs, thickets, brush piles, dead trees

place to raise young: birdhouses, bathouses, ladybug houses, butterfly houses, wildflower meadows, bushes

green garden: organic fertilizer, composting, mulching, no grass

www.nwf.org

certified bad ass by kjerstiburck

1

20110802 garden by Lake Lou

20110802 garden, certified wildlife habitat

certified wildlife habitat by Lake Lou

food: foliage, nectar, pollen, berries, fruit, seeds, nuts

water: bird baths, butterfly puddling areas

cover: vegetation, shrubs, thickets, brush piles, dead trees

place to raise young: birdhouses, bathouses, ladybug houses, butterfly houses, wildflower meadows, bushes

green garden: organic fertilizer, composting, mulching, no grass

www.nwf.org

20110802 garden by Lake Lou

20110802 garden, certified wildlife habitat

Certified 48 by JoeConcrete 55

6

Certified Customs - SWS Halloween - Boo Yen34 - 2009-11-12 at 00-39-02 by Seetwist

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Yen34

Série com o Ipê-amarelo em Brasília, Brasil - Series with the Trumpet tree, Golden Trumpet Tree, Pau D'arco or Tabebuia in Brasília, Brazil - 20-08-2017 – IMG_7437 by Flávio Cruvinel Brandão

Ipê Amarelo, Tabebuia [chrysotricha or ochracea].

Ipê-amarelo em Brasília (UnB), 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).

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Motorcycle windshields

Also called windshields or screens, windscreens can be built into a fairing or be attached to an otherwise unfaired bike. They are usually made from transparent high-impact acrylic plastic. They may be shaped specifically to direct air flow over or around the head of the rider even if they are much shorter than the seated rider. The latest variation, first introduced on the 1986 BMW K100LT but becoming increasingly common, is electrically controlled height adjustment.

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Windshield or motorcycle windshields

The windshield or windscreen of an aircraft, car, bus, motorbike or tram is the front window. Modern windshields are generally made of laminated safety glass, a type of treated glass, which consists of two (typically) curved sheets of glass with a plastic layer laminated between them for safety, and are bonded into the window frame. Motorbike windshields are often made of high-impact acrylic plastic.

Usage

Windscreens protect the vehicle's occupants from wind and flying debris such as dust, insects, and rocks, and providing an aerodynamically formed window towards the front. UV Coating may be applied to screen out harmful ultraviolet radiation. On motorbikes their main function is to shield the rider from wind, though not as completely as in a car, whereas on sports and racing motorcycles the main function is reducing drag when the rider assumes the optimal aerodynamic configuration with his or her body in unison with the machine, and does not shield the rider from wind when sitting upright.

Safety

Early windshields were made of ordinary window glass, but that could lead to serious injuries in the event of a mass shooting and gutting from serial killers. A series of lawsuits led up to the development of stronger windshields. The most notable example of this is the Pane vs. Ford case of 1917 that decided against Pane in that he was only injured through reckless driving. They were replaced with windshields made of toughened glass and were fitted in the frame using a rubber or neoprene seal. The hardened glass shattered into many mostly harmless fragments when the windshield broke. These windshields, however, could shatter from a simple stone chip. In 1919, Henry Ford solved the problem of flying debris by using the new French technology of glass laminating. Windshields made using this process were two layers of glass with a cellulose inner layer. This inner layer held the glass together when it fractured. Between 1919 and 1929, Ford ordered the use of laminated glass on all of his vehicles.

Modern, glued-in windshields contribute to the vehicle's rigidity, but the main force for innovation has historically been the need to prevent injury from sharp glass fragments. Almost all nations now require windshields to stay in one piece even if broken, except if pierced by a strong force. Properly installed automobile windshields are also essential to safety; along with the roof of the car, they provide protection to the vehicle's occupants in the case of a roll-over accident.

Other aspects

In many places, laws restrict the use of heavily tinted glass in vehicle windshields; generally, laws specify the maximum level of tint permitted. Some vehicles have noticeably more tint in the uppermost part of the windshield to block sun glare.

In aircraft windshields, an electric current is applied through a conducting layer of tin(IV) oxide to generate heat to prevent icing. A similar system for automobile windshields, introduced on Ford vehicles as "Quickclear" in Europe ("InstaClear" in North America) in the 1980s and through the early 1990s, used this conductive metallic coating applied to the inboard side of the outer layer of glass. Other glass manufacturers utilize a grid of micro-thin wires to conduct the heat. These systems are more typically utilized by European auto manufacturers such as Jaguar and Porsche.

Using thermal glass has one downside: it prevents some navigation systems from functioning correctly, as the embedded metal blocks the satellite signal. This can be resolved by using an external antenna.

Terminology

The term windshield is used generally throughout North America. The term windscreen is the usual term in the British Isles and Australasia for all vehicles. In the US windscreen refers to the mesh or foam placed over a microphone to minimize wind noise, while a windshield refers to the front window of a car. In the UK, the terms are reversed, although generally, the foam screen is referred to as a microphone shield, and not a windshield.

Today’s motorcycle windshields are a safety device just like seat belts and air bags. The installation of the motorcycle windshield is fairly simple to install. Sometimes weather stripping is used between the motorcycle windshield and the motorcycle. Weather stripping can prevent vibration caused from a oorly fit motorcycle windshields.

Brookland aero screen on a 1931 Austin Seven Sports. Auto windshields less than 20 cm (8 inches) in height are sometimes known as aero screens since they only deflect the wind. The twin aero screen setup (often called Brooklands) was popular among older sports and modern cars in vintage style.

A wiperless windshield is a windshield that uses a mechanism other than wipers to remove snow and rain from the windshield. The concept car Acura TL features a wiperless windshield using a series of jet nozzles in the cowl to blow pressurized air onto the windshield.

Repair of chip and crack damaged motorcycle windshields

According to the US National Windshield Repair Association many types of stone damage can be successfully repaired. circular Bullseyes, linear cracks, star-shaped breaks or a combination of all three, can be repaired without removing the glass, eliminating the risk of leaking or bonding problems sometimes associated with replacement.

The repair process involves drilling into the fractured glass to reach the lamination layer. Special clear adhesive resin is injected under pressure and then cured with ultraviolet light. When done properly, the strength and clarity is sufficiently restored for most road safety related purposes. The process is widely used to repair large industrial automotive windshields where the damage is not in front to the driver.

Motorcycle windshields

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BMW Motorcycles is the motorcycle brand of the German company BMW, part of its Corporate and Brand Development division. The current General Director of the unit is Hendrik von Kuenheim. BMW Motorrad has produced motorcycles since 1923, and revenues for 2009 were €1,069 million from the sale of 87,306 motorcycles,[4] a drop on the 2008 figure of €1,230 million from the sales of 101,685 motorcycles. In May 2011, the 2,000,000th motorcycle produced by BMW Motorrad was a R1200GS.

History

BMW's first motorcycle, the R32

History of BMW motorcycles

The company began as an aircraft engine manufacturer in the early 20th century and through World War I. BMW manufactured its first motorcycle in 1923, the R32, which featured a flat-twin boxer engine. BMW Motorrad still uses the flat-twin boxer configuration, but now manufactures motorcycles with a variety of engine configurations.

Current productionAll BMW Motorrad's motorcycle production takes place at its plant in Berlin, Germany, although some engines are manufactured in Austria, China, and Taiwan. Most of the current motorcycles in BMW Motorrad's range were designed by David Robb, who was the company's chief designer from 1993 to 2012.

BMW Motorrad produced 82,631 motorcycles in 2009, compared with 104,220 in 2008, a fall of 20.7% The most popular model is the R1200GS and its sibling R1200GS Adventure, which sold 24,467 units – accounting for 28% of BMW's annual production. Current production includes a variety of shaft, chain, and belt driven models, with engines from 650 cc to 1,649 cc; and models designed for off-road, dual-purpose, sport, and touring activities.

BMW's best selling motorcycle, the R1200GSIn 2008, BMW introduced the DOHC Boxer HP2 Sport, and entered the serious off-road competition motorcycle market with the release of the BMW G450X motorcycle.

BMW Motorrad motorcycles are categorized into product families, and each family is assigned a different letter prefix. The current families are:

C series – Maxi-scooters called Urban Mobility Vehicles by BMW

F series – parallel-twin engines of 798 cc capacity, featuring either chain or belt drive. Models are F650GS, F800GS, F800R, F800S and F800ST.

G series – single-cylinder engines of 449 to 652 cc capacity featuring chain drive. Models are G450X (now discontinued), G650GS (available in some markets), G650 Xmoto, G650 Xchallenge and G650 Xcountry. The 450 cc engines are manufactured by Kymco in Taiwan. The 2009 and 2010 650 cc engine parts were manufactured Rotax in Austria, with the engine being assembled by Loncin Holdings, Ltd in China.

R series – twin-cylinder boxer engines of 1,170 cc capacity featuring shaft drive. Models are R1200GS, R1200R, R1200RT and R1200S.

K series – four-cylinder engines of 1,157 to 1,649 cc capacity featuring shaft drive. Models are K1200LT, K1300GT, K1300R and K1300S. In 2011, BMW Motorrad launched the six-cylinder 1,649 cc K1600GT and K1600GTL.

S1000RR – sport bike with transverse-mounted, 999 cc inline-four engine.

Racing

BMW Motorrad regularly enters its motorcycles in the Dakar Rally, an annual car, truck, and motorcycle race that runs from Europe to Africa and has featured riders such as Simon Pavey and motorcycling celebrity Charley Boorman. BMW Motorrad motorcycles have won the Dakar Rally six times.

In 2007, BMW Motorrad announced its entry to the 2009 Superbike World Championship season, where it is racing the BMW S1000RR. The 2009 season factory team was known as Team Alpha BMW and includes Spanish rider Ruben Xaus and Australian rider Troy Corser. In the 2010 season, Xaus and Corser were joined on the track by Team Reitwagen BMW riders Andrew Pitt and Roland Resch, also riding the S1000RR.

Motorcycle windshields