On the Proteaceae-the evolution and classification of a southern family*

Johnson, L. A. S.; Briggs, Barbara G.

doi:10.1111/j.1095-8339.1975.tb01644.x

Cited by 310 publications

(311 citation statements)

References 80 publications

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“…The finding of 2n=28 (x=14) for O. diversifolia from localities around Hobart is entirely consistent with other data for Orites, indeed for the tribe Oriteae including Neorites, all x=14 (Venkata Rao 1957a, b;Johnson and Briggs 1975). This discounts the earlier report of n=15 for the species from near Hobart and in this respect O. diversifolia does not differ from other Orites species.…”

Section: Discussionsupporting

confidence: 89%

“…The few but large chromosomes of Bellendena possibly constitute an advanced karyotype in Proteaceae (Johnson and Briggs 1975;White 1978;James 1981;Weston 1994), perhaps by a process of amalgamating smaller but more numerous chromosomes similar to those of the previous three taxa. However, Bellendena is now placed in the monotypic subfamily Bellendenoideae (Weston 1995) and is suggested to be the sister group to all other Proteaceae (Douglas pers.…”

Section: Discussionmentioning

confidence: 93%

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The cytotaxonomy of four Tasmanian genera of Proteaceae

Wiltshire¹,

Stace²

1997

Telopea

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Section: Discussionsupporting

confidence: 89%

Section: Discussionmentioning

confidence: 93%

The cytotaxonomy of four Tasmanian genera of Proteaceae

Wiltshire¹,

Stace²

1997

Telopea

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“…Originally, the genus was placed in Grevilleoideae (Engler 1889) based on the dehiscent follicle and winged seeds and in the tribe Macadamieae by Venkata Rao (1971) based on the regular flowers. Currently, the genus is placed in a subfamily of its own, Carnarvonioideae (Johnson & Briggs 1975) on the basis of several unique characters like the loosely organized racemopaniculate inflorescence, fruit structure, 'partly digitate, partly pinnate and partly first-degree, partly second-degree division of the leaves' (Johnson & Briggs 1975, p. 106--107), and several hypothetically independently derived characters or homoplasies such as the absence of hypogynous glands, and the the presence of two hemitropous ovules. Carnarvonia is also excluded from Grevilleoideae due to the fact that it lacks the grevilleoid flower pair condition (two flowers subtended by a common bract along the main axis; Johnson & Briggs 1975).…”

Section: Introductionmentioning

confidence: 99%

“…Carnarvonia is also excluded from Grevilleoideae due to the fact that it lacks the grevilleoid flower pair condition (two flowers subtended by a common bract along the main axis; Johnson & Briggs 1975). In Johnson & Briggs (1975), Carnarvonia is hypothesized to be derived from a common ancestor of Grevilleoideae.…”

Section: Introductionmentioning

confidence: 99%

“…Diverse forms of flowers and inflorescences are necessarily the products of differences in ontogenetic processes within each system. The hypothesized relationship of Carnarvonia as having shared a common ancestor with a taxon within Grevilleoideae (Engler 1889, Venkata Rao 1971 or as having a common ancestor with Grevilleoideae (Johnson & Briggs 1975) implies a divergence of developmental patterns in inflorescence construction that is either derived from the basic 'grevilleoid raceme' and flower pair condition found within Grevilleoideae in the former or from a 'common-groundplan' with Grevilleoideae in the latter. Within a developmental comparative context, the specific processes that result in a particular or novel morphology can be assessed (Wardlaw 1952, Fink 1982.…”

mentioning

confidence: 99%

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Inflorescence and floral development of Carnarvonia (Proteaceae)

Douglas¹

1996

Telopea

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749Douglas, Andrew w: (Royal Botanic Gardens, Melbourne, Birdwood Avenue, South Yarra, Victoria, 3141, Australia) 1996. Inflorescence and floral development of Carnarvonia (Proteaceae). Telopea 6(4): 749-774. Carnarvonia araliifolia is an endemic of north-east Queensland and the sole member of the subfamily Carnarvonioideae in Proteaceae. The inflorescence structure is atypical compared to the relatively simple racemiform architecture found in the other taxa of the family (including Grevilleoideae that has flower pairs). There is variability in numbers of flowers on a given axis, irregular branching of inflorescence axes, positions of flowers within an axillary module, numbers of flowers at a node on the principal axes, and the cauliflorous, axillary andlor terminal location of flowering regions on a branch. Carnarvonia has been hypothesized as having shared a common ancestor either with or within Grevilleoideae. Developmental evidence is examined to better define and elucidate the morphogenetic processes involved in the complex architecture of the inflorescence and flowers including the fundamental units of construction within a metameric conceptual framework. Likewise, the developmental evidence is used to examine the hypotheses of morphological derivation of the inflorescence as inferred from phylogenetic hypotheses. The inflorescence structure is interpreted as a paniculiform-raceme although terminal flowers are present on axillary inflorescence branches. There is variation within the developmental programme of the first three metamers of a subunit or axillary inflorescence branch that differs from the variation present in other Proteaceae and an inflorescence branch can vary in the number of flowers that develop. In the terminal flowers of a module, the first tepal is initiated in a position that follows the phyllotactic continuity of each subunit (2/5), the first tepal being initiated in a predictable position based on the position of the preceding bract primordium. The carpel is initiated in a lateral position, closest to both the first initiated stamen and tepal, thus maintaining the phyllotactic continuity in the flower. The ontogenetic events involved in inflorescence development in Carnarvonia clarify its morphological organization and provide morphological evidence of the derivation of the inflorescence form from a single-flowered, perhaps racemiform, ancestor.

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