Early Lignotuber Formation in Banksia—Investigations into the Anatomy of the Cotyledonary Node of TwoBanksia (Proteaceae) Species

Mibus, Raelene; Sedgley, Margaret

doi:10.1006/anbo.2000.1219

Cited by 13 publications

(21 citation statements)

References 24 publications

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“…It is beneficial for plants to have this structure mainly when they deal with strong environmental stresses (KERR, 1925;MIBUS, SEDGLEY, 2000).…”

Section: Resultsmentioning

confidence: 99%

“…To validate the use of neutral red for scoring radial parenchyma cells with remaining starch stocks as well as the adjustments of the starch depletion curves (TPC) for clone BV1120 model, we used 15 seedlings (three replicates and five times) of Eucalyptus urophylla which contained lignotubers at the same age and silvicultural treatments of T. ciliata seedlings, and we established a heat treatment of 55°C, at 0, 20, 40, 60 and 80 min time periods in the area of lignotubers (generally closer to plant collars), as these plant structures have a high content of starch stocks and they serve as protection of plants against biotic stresses, mainly due to high temperatures, for example, over forest fire regimes (KERR, 1925;MIBUS;SEDGLEY, 2000).…”

Section: Firstmentioning

confidence: 99%

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CAN GENETIC VARIATIONS IN THE DEPLETION PROCESS OF STARCH STOCKS BE DRIVING CONTEMPORARY MICROEVOLUTION IN Toona ciliata VAR. australis?

Abreu

Rosado

2016

CERNE

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ABSTRACT:A simple method to establish a relationship between physiological responses of plants and thermal stresses is by quantifying the number of parenchyma cells with remaining starch stocks. The knowledge of the dynamic of starch depletion can be achieved by using statistical models such as thermal performance curves (TPC). The aim of this study was to quantify radial parenchyma cells with remaining starch stocks in order to evaluate changes in TPC regarding increases in temperature over seedlings of Toona ciliata (Australian Red cedar), in different heat induced treatments of matching both exposure time and temperature; besides of the assessment of variations in the TPC's and also to understand whether these changes are over genetic control. We used a protocol of heat induced treatment in the stems of the seedlings, anatomical cuts and staining with neutral red for the commercial clone BV1120, which was used as template to fit polynomial curves of TPC. After these mathematical fits and validation of these models with lignotubers of Eucalyptus urophylla, we defined a depletion time of 50% (TD50) from the starch stocks for each thermal treatment, so we could compare the performance for the others five commercial clones: BV1110, BV1121, BV1151, BV1210 and BV1321. The R 2 values were all above 85%. Results indicated that clone BV1110 had the highest value for remaining starch stocks at all heat induced treatments, in contrast to the clone BV1210, which had the lowest values for remaining starch stocks. The variation of the starch content indicates high values of broad-sense heritability, ranging from 97,43 to 98,48%, suggesting a possible contemporary microevolution process undergoing in Australian Red cedar. Thus, further selections can help improving the tolerance of Australian Red cedar to increasing temperatures on the environment. VARIAÇÕES GENÉTICAS DA DEPLEÇÃO DO AMIDO ESTÃO DIRECIONANDO UMA MICROEVOLUÇÃO CONTEMPORÂNEA EM Toona ciliata VAR. australis?RESUMO: Uma maneira de relacionar as respostas fisiológicas das plantas aos estresses térmicos é pela quantificação das células com amido remanescente, decorrente da sua despolimerização em açúcares simples que serão utilizados para reparar danos aos vasos embolizados do xilema. A compreensão da dinâmica dessa depleção poderá ser feita, por meio do uso de modelos estatísticos, que estabelecem curvas de performance térmica ou normas de reação térmicas (NRT). O presente estudo objetivou quantificar as células do parênquima radial que possuíam reservas de amido remanescentes, para avaliar as mudanças nas curvas das NRT, em resposta a aumentos de temperatura induzidos no caule de mudas de Toona ciliata (cedro australiano), sob diferentes escalas de tempo, além de avaliar as variações nas curvas das NRT de diferentes clones de Toona ciliata, bem como se essas variações são, predominantemente, genéticas e herdáveis. Foi utilizado um protocolo de indução de calor, no caule das mudas, cortes anatômicos e coloração com vermelho neutro, para o clone BV1120, que foi ut...

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“…It is beneficial for plants to have this structure mainly when they deal with strong environmental stresses (KERR, 1925;MIBUS, SEDGLEY, 2000).…”

Section: Resultsmentioning

confidence: 99%

Section: Firstmentioning

confidence: 99%

CAN GENETIC VARIATIONS IN THE DEPLETION PROCESS OF STARCH STOCKS BE DRIVING CONTEMPORARY MICROEVOLUTION IN Toona ciliata VAR. australis?

Abreu

Rosado

2016

CERNE

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“…Lignotuber buds initially appear in the cotyledonary region (sometimes also at the first few leaf nodes) just a few months after germination (Kerr 1925;Chattaway 1958;Carr et al 1983;Molinas and Verdaguer 1993a;Graham et al 1998;del Tredici 1999;Mibus and Sedgley 2000). The buds progressively proliferate and arrange in clusters; they become very abundant (even in the order of thousands) in more advanced developmental stages (Wildy and Pate 2002).…”

Section: Introductionmentioning

confidence: 99%

“…The buds progressively proliferate and arrange in clusters; they become very abundant (even in the order of thousands) in more advanced developmental stages (Wildy and Pate 2002). In early lignotubers, buds are protected by a tanniniferous parenchymatic tissue in some Eucalyptus species (Chattaway 1958), by tannin-rich hypertrophied scales in Quercus suber (Molinas and Verdaguer 1993a), or by the extended base of the cotyledons (also tannin rich) in Banksia (Mibus and Sedgley 2000). In Eucalyptus and Banksia, these buds are enfolded by further development of the lignotuber that becomes macroscopically evident as a swelling at the cotyledonary node (Chattaway 1958;Graham et al 1998;Mibus and Sedgley 2000).…”

Section: Introductionmentioning

confidence: 99%

“…In early lignotubers, buds are protected by a tanniniferous parenchymatic tissue in some Eucalyptus species (Chattaway 1958), by tannin-rich hypertrophied scales in Quercus suber (Molinas and Verdaguer 1993a), or by the extended base of the cotyledons (also tannin rich) in Banksia (Mibus and Sedgley 2000). In Eucalyptus and Banksia, these buds are enfolded by further development of the lignotuber that becomes macroscopically evident as a swelling at the cotyledonary node (Chattaway 1958;Graham et al 1998;Mibus and Sedgley 2000). This swelling is not apparent in Q. suber seedlings; instead, this species shows an elongated hypocotyl with abundant cluster buds enfolded by hypertrophied scales, most of which are below ground (Molinas and Verdaguer 1993a).…”

Section: Introductionmentioning

confidence: 99%

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Lignotubers in Mediterranean basin plants

et al. 2015

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Lignotubers are swollen woody structures located at the root-shoot transition zone and contain numerous dormant buds and starch reserves. This structure enables the plant to resprout prolifically after severe disturbances that remove the aboveground biomass. These are considered adaptive traits in ecosystems with highly frequent and severe disturbances-such as fire-prone ecosystems. In this paper, we aim to contribute to the knowledge of lignotubers in the Mediterranean basin and highlight the evolutionary implications. We first summarise existing knowledge on lignotuber species in the Mediterranean basin. We then provide a detailed morpho-anatomical description of early lignotubers in two common woody species (Arbutus unedo L. and Phillyrea angustifolia L.). Finally, we compare our anatomical results with those obtained in studies conducted with other lignotuberous species from different Mediterranean regions. Lignotubers were verified in 14 species in the Mediterranean basin; all being from lineages with origins dating to the Tertiary and thus pre-dating the Mediterranean climate. In A. unedo and P. angustifolia, lignotubers are macroscopically discernible in 4-and 2-year-old saplings, respectively. In these two species, the lignotubers have numerous buds protected by hypertrophied scales, and have a contorted xylem containing abundant starch. Our results challenge the traditional idea that pre-Mediterranean lineages suffered evolutionary inertia; instead, lignotuberous species may be considered examples of plants that adapted to the increased fire activity that occurred throughout the Tertiary and Quaternary. We also highlight the use of morpho-anatomical traits to unambiguously distinguish between lignotuberous and non-lignotuberous resprouting species.

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Vegetative micro-cloning to sustain biodiversity of threatened Moringa species

Steinitz

Tabib

Gaba

et al. 2008

In Vitro Cell.Dev.Biol.-Plant

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Efficient vegetative cloning in vitro requires definition of plant growth regulator regimes for each genotype, and therefore formulation of a uniform culture protocol for a genetically heterogeneous wild or uncultivated plant population is often impossible. The likelihood of cloning a wide array of plant genotypes by avoiding the use of plant growth regulator(s) was explored with Moringa oleifera Lamk., Moringa stenopetala (Baker f.) Cufod, and Moringa peregrina Forssk. ex Fiori tree seedlings. Propagation was achieved by multiple shoot regeneration from the cotyledonary node of decapitated seedlings, followed by axillary shoot growth from single node shoot segments and rooting of excised shoots. All steps were accomplished on basal Murashige and Skoog medium without plant growth regulator supplements. The results revealed competence for generation of multiple shoots from cotyledonary node tissue, stimulated by repeated shoot harvest, in seedlings of all three tree species. Tens of plants per seedling were regenerated in about 4 mo from culture initiation. In a given species clone size was seedling-dependent, which presumably stems from genotypic variability among seedlings in regeneration ability in vitro. By this means the laborious search for a plant growth regulator regime suitable for organogenesis induction and adapted per genotype became redundant, and biodiversity of the seed germplasm could be maintained. The approach ideally suits establishment of clones of wild plants of endangered species, like those of the Moringaceae, species with high ability for producing supplementary shoots, and without the need to add plant growth regulators, including the rooting stage.

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Early Lignotuber Formation in Banksia—Investigations into the Anatomy of the Cotyledonary Node of TwoBanksia (Proteaceae) Species

Cited by 13 publications

References 24 publications

CAN GENETIC VARIATIONS IN THE DEPLETION PROCESS OF STARCH STOCKS BE DRIVING CONTEMPORARY MICROEVOLUTION IN Toona ciliata VAR. australis?

CAN GENETIC VARIATIONS IN THE DEPLETION PROCESS OF STARCH STOCKS BE DRIVING CONTEMPORARY MICROEVOLUTION IN Toona ciliata VAR. australis?

Lignotubers in Mediterranean basin plants

Vegetative micro-cloning to sustain biodiversity of threatened Moringa species

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