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Joanne Pei-Chih Tan, Sheh May Tam, Ruth Kiew
Phytokeys
Figure 1.
Watercolour painting of Begoniarajah of an original wild-collected plant grown in the Botanic Gardens, Singapore. (Reproduced with permission of the Singapore Botanic Gardens)
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Joanne Pei-Chih Tan, Sheh May Tam, Ruth Kiew
Phytokeys
Figure 3.
Begoniarajah Ridley (cultivated) A Upper leaf surface B under surface C Young blade.
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Rafael F. Almeida, Isabel R. Guesdon, Marcelo R. Pace, Renata M.S. Meira
Phytokeys
Figure 11.
Distribution map of Mcvaughia: triangle – M.bahiana, circle – M.piauhiensis, and square – M.sergipana. Solid blue line in the center represents the São Francisco River today. Dotted blue line represents the past course of São Francisco River. Blue circle represents the São Francisco paleo lake. Light green – Atlantic Forest domain, dark green – Amazon Forest domain, orange – Cerrado domain, and yellow – Caatinga domain. AL – state of Alagoas, BA – state of Bahia, CE – state of Ceará, MA – state of Maranhão, PB – state of Paraíba, PE – state of Pernambuco, PI – state of Piauí, RN – state of Rio Grande do Norte, and SE – state of Sergipe.
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Rafael F. Almeida, Isabel R. Guesdon, Marcelo R. Pace, Renata M.S. Meira
Phytokeys
Figure 1.
Wood anatomy of Mcvaughiasergipana. A–B transverse sections: Growth rings marked by radially narrow fibers (arrowheads) and a discontinuous line of axial parenchyma (in B); vessels are narrow and abundant, arranged in radial rows of 4 or more cells; some solitary vessels present; parenchyma rare, paratracheal scanty or at the growth ring limits; heartwood vessels in the bottom with content C radial section: Rays 2–3 cells wide, non-storied; prismatic crystals present in ray cells (arrows); parenchyma with 3 cells per strand (arrowhead) D ray heterocellular with procumbent, square and upright cells mixed throughout the ray. Scale bars: 150 μm (A), 100 μm (B–C), 60 μm (D).
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Rafael F. Almeida, Isabel R. Guesdon, Marcelo R. Pace, Renata M.S. Meira
Phytokeys
Figure 2.
Secondary phloem of Mcvaughiasergipana. A–C Transverse section: A Phloem non-stratified, with scattered fiber-sclereids (arrows); Rays dilating slightly B Crystalliferous axial parenchyma arranged in diffuse-in-aggregate narrow bands (arrowhead) C Crystalliferous axial parenchyma with druse crystals, forming diffuse in aggregate bands, isolated fiber-sclereids present (arrowhead) D A ray 3 cells wide, fiber-sclereids and axial parenchyma in tangential section E Bands of crystalliferous parenchyma with druses evident also in radial section; Rays heterocellular mixed. Scale bars: 200 μm (A), 100 μm (B–C, E), 50 μm (D).
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Rafael F. Almeida, Isabel R. Guesdon, Marcelo R. Pace, Renata M.S. Meira
Phytokeys
Figure 3.
Leaf morphoanatomy of Mcvaughia species. A patterns of leaf glands distribution on the abaxial leaf surface of M.bahianaB patterns of leaf glands distribution on the abaxial leaf surface of M.piauhiensisC patterns of leaf glands distribution on the abaxial leaf surface of M.sergipanaD transverse section of leaf base showing the basilaminar pair of stalked glands (white arrows) E basilaminar leaf gland with a stalk (black arrow) in M.piauhiensisF basilaminar gland in M.sergipana showing a sessile position (SE= anatomical arrangement with secretory epidermis, SP= vascularized secretory parenchyma) G–H laminar glands on the apex of cleared leaves of M.sergipana and M.bahiana respectively, note the apical tooth (G) I sessile laminar glands in M.sergipanaJ stalked laminar gland in M.piauhiensisK–L transverse sections of the leaf blade; mesophyll with uniserial palisade-like parenchyma and spongy parenchyma composed by several or few layers in M.sergipana and M.bahiana, respectively; note the idioblast with druse crystals at the mesophyll (white arrow) and the stomata distribution at the abaxial leaf surface (black arrow) M–N adaxial epidermis surface of M.piauhiensis and M.sergipana, showing scars of malpighiaceous trichomes O abaxial epidermis surface of trichomes abundance in M.bahianaP–Q outline of the anticlinal epidermal cell walls: straight in M.sergipana (P) and sinuous in M.bahiana (Q). Laminar scale bars: 1 cm (A–C), 100 μm (D, F–K, N–O), 150 μm (E), 50 μm (L–M, P–Q).
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Rafael F. Almeida, Isabel R. Guesdon, Marcelo R. Pace, Renata M.S. Meira
Phytokeys
Figure 4.
Reproductive morphoanatomy of Mcvaughia species. A inflorescence during development, showing a bracteole gland (BG) and Sepal glands (SG) B ten sepal glands encircling the calyx C Petal glands (PG) along the margin of posterior petal D–F transverse section of bracteole glands in M.sergipana, M.bahiana and M.piauhiensis, respectively G anatomical arrangement of bracteole gland, with a palisade-like secretory epidermis (SE) and secretory parenchyma (SP) H–I transverse section of floral bud and anthesis flower in Mcvaughiabahiana and M.sergipana; calyx gland pair displaced at the anterior sepal J calyx gland structure, showing a secretory epidermis (SE) and vascularized secretory parenchyma (SP) K–L petal glands on the margin of petals in M.sergipana and M.bahiana respectively M–N detail of the petal glands at the apex of the petal limb in M.sergipana, cleared and in SEM image O–Q petal glands positioned at the base, M.bahiana on SEM image, M.bahiana and M.piauhiensis cleared R–T conspicuous and stalked petal glands at the base of M.sergipana, in SEM image, cleared and longitudinal section. Scale bars: 200 μm (D), 150 μm (E–F), 50 μm (G), 500 μm (H–I), 100 μm (J, P–S), 300 μm (L–M), 200 μm (N, T).
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Rafael F. Almeida, Isabel R. Guesdon, Marcelo R. Pace, Renata M.S. Meira
Phytokeys
Figure 5.
Mcvaughiabahiana. A shrub habit B subshrub habit C inflorescence showing glandular bracts D inflorescence showing flowers in anthesis E inflorescence showing immature and mature fruits F detail of mature fruits G drupe indumentum H glabrescent drupe. A, D–H by W.R. Anderson B–C by I.R. Guesdon.
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Rafael F. Almeida, Isabel R. Guesdon, Marcelo R. Pace, Renata M.S. Meira
Phytokeys
Figure 6.
Photograph of the isotype of Mcvaughiabahiana.
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Rafael F. Almeida, Isabel R. Guesdon, Marcelo R. Pace, Renata M.S. Meira
Phytokeys
Figure 11.
Distribution map of Mcvaughia: triangle – M.bahiana, circle – M.piauhiensis, and square – M.sergipana. Solid blue line in the center represents the São Francisco River today. Dotted blue line represents the past course of São Francisco River. Blue circle represents the São Francisco paleo lake. Light green – Atlantic Forest domain, dark green – Amazon Forest domain, orange – Cerrado domain, and yellow – Caatinga domain. AL – state of Alagoas, BA – state of Bahia, CE – state of Ceará, MA – state of Maranhão, PB – state of Paraíba, PE – state of Pernambuco, PI – state of Piauí, RN – state of Rio Grande do Norte, and SE – state of Sergipe.
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Rafael F. Almeida, Isabel R. Guesdon, Marcelo R. Pace, Renata M.S. Meira
Phytokeys
Figure 3.
Leaf morphoanatomy of Mcvaughia species. A patterns of leaf glands distribution on the abaxial leaf surface of M.bahianaB patterns of leaf glands distribution on the abaxial leaf surface of M.piauhiensisC patterns of leaf glands distribution on the abaxial leaf surface of M.sergipanaD transverse section of leaf base showing the basilaminar pair of stalked glands (white arrows) E basilaminar leaf gland with a stalk (black arrow) in M.piauhiensisF basilaminar gland in M.sergipana showing a sessile position (SE= anatomical arrangement with secretory epidermis, SP= vascularized secretory parenchyma) G–H laminar glands on the apex of cleared leaves of M.sergipana and M.bahiana respectively, note the apical tooth (G) I sessile laminar glands in M.sergipanaJ stalked laminar gland in M.piauhiensisK–L transverse sections of the leaf blade; mesophyll with uniserial palisade-like parenchyma and spongy parenchyma composed by several or few layers in M.sergipana and M.bahiana, respectively; note the idioblast with druse crystals at the mesophyll (white arrow) and the stomata distribution at the abaxial leaf surface (black arrow) M–N adaxial epidermis surface of M.piauhiensis and M.sergipana, showing scars of malpighiaceous trichomes O abaxial epidermis surface of trichomes abundance in M.bahianaP–Q outline of the anticlinal epidermal cell walls: straight in M.sergipana (P) and sinuous in M.bahiana (Q). Laminar scale bars: 1 cm (A–C), 100 μm (D, F–K, N–O), 150 μm (E), 50 μm (L–M, P–Q).
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Rafael F. Almeida, Isabel R. Guesdon, Marcelo R. Pace, Renata M.S. Meira
Phytokeys
Figure 4.
Reproductive morphoanatomy of Mcvaughia species. A inflorescence during development, showing a bracteole gland (BG) and Sepal glands (SG) B ten sepal glands encircling the calyx C Petal glands (PG) along the margin of posterior petal D–F transverse section of bracteole glands in M.sergipana, M.bahiana and M.piauhiensis, respectively G anatomical arrangement of bracteole gland, with a palisade-like secretory epidermis (SE) and secretory parenchyma (SP) H–I transverse section of floral bud and anthesis flower in Mcvaughiabahiana and M.sergipana; calyx gland pair displaced at the anterior sepal J calyx gland structure, showing a secretory epidermis (SE) and vascularized secretory parenchyma (SP) K–L petal glands on the margin of petals in M.sergipana and M.bahiana respectively M–N detail of the petal glands at the apex of the petal limb in M.sergipana, cleared and in SEM image O–Q petal glands positioned at the base, M.bahiana on SEM image, M.bahiana and M.piauhiensis cleared R–T conspicuous and stalked petal glands at the base of M.sergipana, in SEM image, cleared and longitudinal section. Scale bars: 200 μm (D), 150 μm (E–F), 50 μm (G), 500 μm (H–I), 100 μm (J, P–S), 300 μm (L–M), 200 μm (N, T).
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Rafael F. Almeida, Isabel R. Guesdon, Marcelo R. Pace, Renata M.S. Meira
Phytokeys
Figure 9.
Mcvaughiasergipana. A sandy dune where M.sergipana occurs B detail of epipetiolar stipules C detail of leaf venation patterns D abaxial surface of a leaf E inflorescence showing buds and flowers F detail of glandular bracts G floral bud H flower in frontal view I fruit in side view. Photos by R.F. Almeida.
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Rafael F. Almeida, Isabel R. Guesdon, Marcelo R. Pace, Renata M.S. Meira
Phytokeys
Figure 10.
Photograph of the isotype of Mcvaughiasergipana.
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Rafael F. Almeida, Isabel R. Guesdon, Marcelo R. Pace, Renata M.S. Meira
Phytokeys
Figure 11.
Distribution map of Mcvaughia: triangle – M.bahiana, circle – M.piauhiensis, and square – M.sergipana. Solid blue line in the center represents the São Francisco River today. Dotted blue line represents the past course of São Francisco River. Blue circle represents the São Francisco paleo lake. Light green – Atlantic Forest domain, dark green – Amazon Forest domain, orange – Cerrado domain, and yellow – Caatinga domain. AL – state of Alagoas, BA – state of Bahia, CE – state of Ceará, MA – state of Maranhão, PB – state of Paraíba, PE – state of Pernambuco, PI – state of Piauí, RN – state of Rio Grande do Norte, and SE – state of Sergipe.
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Rafael F. Almeida, Isabel R. Guesdon, Marcelo R. Pace, Renata M.S. Meira
Phytokeys
Figure 3.
Leaf morphoanatomy of Mcvaughia species. A patterns of leaf glands distribution on the abaxial leaf surface of M.bahianaB patterns of leaf glands distribution on the abaxial leaf surface of M.piauhiensisC patterns of leaf glands distribution on the abaxial leaf surface of M.sergipanaD transverse section of leaf base showing the basilaminar pair of stalked glands (white arrows) E basilaminar leaf gland with a stalk (black arrow) in M.piauhiensisF basilaminar gland in M.sergipana showing a sessile position (SE= anatomical arrangement with secretory epidermis, SP= vascularized secretory parenchyma) G–H laminar glands on the apex of cleared leaves of M.sergipana and M.bahiana respectively, note the apical tooth (G) I sessile laminar glands in M.sergipanaJ stalked laminar gland in M.piauhiensisK–L transverse sections of the leaf blade; mesophyll with uniserial palisade-like parenchyma and spongy parenchyma composed by several or few layers in M.sergipana and M.bahiana, respectively; note the idioblast with druse crystals at the mesophyll (white arrow) and the stomata distribution at the abaxial leaf surface (black arrow) M–N adaxial epidermis surface of M.piauhiensis and M.sergipana, showing scars of malpighiaceous trichomes O abaxial epidermis surface of trichomes abundance in M.bahianaP–Q outline of the anticlinal epidermal cell walls: straight in M.sergipana (P) and sinuous in M.bahiana (Q). Laminar scale bars: 1 cm (A–C), 100 μm (D, F–K, N–O), 150 μm (E), 50 μm (L–M, P–Q).
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Rafael F. Almeida, Isabel R. Guesdon, Marcelo R. Pace, Renata M.S. Meira
Phytokeys
Figure 4.
Reproductive morphoanatomy of Mcvaughia species. A inflorescence during development, showing a bracteole gland (BG) and Sepal glands (SG) B ten sepal glands encircling the calyx C Petal glands (PG) along the margin of posterior petal D–F transverse section of bracteole glands in M.sergipana, M.bahiana and M.piauhiensis, respectively G anatomical arrangement of bracteole gland, with a palisade-like secretory epidermis (SE) and secretory parenchyma (SP) H–I transverse section of floral bud and anthesis flower in Mcvaughiabahiana and M.sergipana; calyx gland pair displaced at the anterior sepal J calyx gland structure, showing a secretory epidermis (SE) and vascularized secretory parenchyma (SP) K–L petal glands on the margin of petals in M.sergipana and M.bahiana respectively M–N detail of the petal glands at the apex of the petal limb in M.sergipana, cleared and in SEM image O–Q petal glands positioned at the base, M.bahiana on SEM image, M.bahiana and M.piauhiensis cleared R–T conspicuous and stalked petal glands at the base of M.sergipana, in SEM image, cleared and longitudinal section. Scale bars: 200 μm (D), 150 μm (E–F), 50 μm (G), 500 μm (H–I), 100 μm (J, P–S), 300 μm (L–M), 200 μm (N, T).
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Figure 3.
Distribution of the taxa. (square)Crataegusazarolusvar.senobaaensis; (star) Crataegusmonogynavar.odemisii var. nov. (circle) Crataegusyaltirikii (Near East topographic map-blank.svg).
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Figure 44.Lectotype of Leptospermum sinclairii Kirk (T. Kirk 959, WELT SP029323 (piece labelled in pencil “A”).
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Figure 45.Kunzea sinclairii specimen from the private T. Kirk Herbarium (WELT SP044298) bearing two conflicting labels, one by Hutton and the other by Kirk.
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Figure 46.Details of labels on herbarium sheet WELT SP044298. A Pencil label on blue paper in handwriting of Captain F. W. Hutton bearing annotations in Indian ink by T. Kirk—annotations comprise the manuscript name ‘v. Sinclairii’, a change of collection date and the crossing out of Hutton’s name as collector B Second label on herbarium paper bearing the handwriting of T. Kirk in Indian ink. Neither label can be matched with certainty to the specimen mounted on WELT SP044298.
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Figure 47.Lectotype of Leptospermum ericoides var. pubescens Kirk (T. Kirk s.n., AK 5515).
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Figure 48.Label details of the lectotype of Leptospermum ericoides var. pubescens Kirk (AK 5515). A Bottom-most label written by T. Kirk and including critical details from the protologue of var. pubescens B Second label from bottom in handwriting of T. Cheeseman C Top most label recording use of specimen AK 5515 for Cheeseman’s Illustrations of the New Zealand Flora (Cheeseman 1914). Arrows indicate position of the preceding labels.
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Figure 49.Distinguishing features of Kunzea sinclairii. A Flowering branchlets (ex cult. AK 246813) B Vegetative bud, leaf and branchlet indumentum (ex cult. AK 246813) C Three year old seedling (no voucher, ex cult. Aotea (Great Barrier Island), Mt Young) D Adaxial leaf surface (ex cult. AK 246813) E Abaxial leaf surface (ex cult. AK 246813) F Leaf margin indumentum (ex cult. AK 246813) G Leaf variation from seedling to adult (taken from (C) above): (G1) glabrous leaves of seedling (first year of growth), (G2) second year transitional leaves, first three w, next three hairy; (G3) third year adult leaves (no voucher, ex cult. Aotea (Great Barrier Island), Mt Young) H Flower (top view) (ex cult. AK 246813) I Flower and hypanthium (side view) (ex cult. AK 246813) J Flower cross section showing anther, style and ovules (ex cult. AK 246813) K Style and stigma (ex cult. AK 246813) L Stamens (ex cult. AK 246813) M Dehisced fruit (ex cult. AK 246813). Scales bars: (A, C, G) 10 mm; (D, D, E, H–M) 1 mm; (F) 0.5 mm.