Your search keyword '"Plant Bark growth & development"' showing total 52 results

1. Influence of patch geometry, post-bark-extraction-treatment on bark recovery and standardizing number of sprouts for bark harvest from coppices in Cinnamomum zeylanicum blume: implications for sustainable harvesting.

Author

Hanumantha M and Vasudeva R

Subjects

Environmental Monitoring, India, Cinnamomum zeylanicum growth & development, Plant Bark growth & development

Abstract

Though Cinnamomum zeylanicum is a very important commercial aromatic bark yielding and oldest known tree spice of India, there are hardly any studies to understand the nature of wound healing and bark recovery. Further, optimal number of sprouts to be retained under coppice system to maximize the bark yield per tree in C. zeylanicum is not yet standardized. The present investigation was carried out to understand the influence of patch geometry and application of post-bark-extraction-protection treatments on bark regeneration in mature trees as well as to standardize an optimal number of sprouts to be retained under coppice system to maximize the bark yield per tree. In general, wound healing in C. zeylanicum occurred from the edge of the blaze and was quicker in the narrower patch than the broader patch; application of Bordeaux paste or neem seed kernel extract on the blazed area immediately after the bark extraction, resulted in significantly higher mean percent bark recovery and higher bark oil content than control. Allowing seven coppice sprouts per stem resulted in higher dry mass of bark per plant and higher bark oil than other treatments under coppice system. The results of the study would enable formulation of management strategies specifically for sustainable bark harvesting in Cinnamomum species., (© 2022. The Author(s), under exclusive licence to Springer Nature Switzerland AG.)

Published

2022

2. Phosphoproteome analysis reveals an extensive phosphorylation of proteins associated with bast fiber growth in ramie.

Author

Zeng Z, Li F, Huang R, Wang Y, and Liu T

Subjects

Boehmeria genetics, Boehmeria growth & development, Computational Biology, Gene Expression Regulation, Plant, Gene Library, Phosphoprotein Phosphatases genetics, Phosphoproteins genetics, Phosphorylation, Plant Bark growth & development, Plant Bark metabolism, Plant Proteins genetics, Plant Stems growth & development, Plant Stems metabolism, Protein Kinases genetics, Textiles, Two-Hybrid System Techniques, Boehmeria metabolism, Phosphoprotein Phosphatases metabolism, Phosphoproteins metabolism, Plant Proteins metabolism, Protein Kinases metabolism, Proteome

Abstract

Background: Phosphorylation modification, one of the most common post-translational modifications of proteins, widely participates in the regulation of plant growth and development. Fibers extracted from the stem bark of ramie are important natural textile fibers; however, the role of phosphorylation modification in the growth of ramie fibers is largely unknown., Results: Here, we report a phosphoproteome analysis for the barks from the top and middle section of ramie stems, in which the fiber grows at different stages. A total of 10,320 phosphorylation sites from 9,170 unique phosphopeptides that were assigned to 3,506 proteins was identified, and 458 differentially phosphorylated sites from 323 proteins were detected in the fiber developmental barks. Twelve differentially phosphorylated proteins were the homologs of Arabidopsis fiber growth-related proteins. We further focused on the function of the differentially phosphorylated KNOX protein whole_GLEAN_10029667, and found that this protein dramatically repressed the fiber formation in Arabidopsis. Additionally, using a yeast two-hybridization assay, we identified a kinase and a phosphatase that interact with whole_GLEAN_10029667, indicating that they potentially target this KNOX protein to regulate its phosphorylation level., Conclusion: The finding of this study provided insights into the involvement of phosphorylation modification in ramie fiber growth, and our functional characterization of whole_GLEAN_10029667 provide the first evidence to indicate the involvement of phosphorylation modification in the regulation of KNOX protein function in plants., (© 2021. The Author(s).)

Published

2021

3. The genetic legacy of fragmentation and overexploitation in the threatened medicinal African pepper-bark tree, Warburgia salutaris.

Author

Senkoro AM, Talhinhas P, Simões F, Batista-Santos P, Shackleton CM, Voeks RA, Marques I, and Ribeiro-Barros AI

Subjects

Ecosystem, Genetics, Population, Magnoliopsida growth & development, Plant Bark growth & development, Plant Extracts genetics, Trees growth & development, Conservation of Natural Resources, Genetic Variation, Genome, Plant, Magnoliopsida genetics, Plant Bark genetics, Plant Extracts analysis, Trees genetics

Abstract

The pepper-bark tree (Warburgia salutaris) is one of the most highly valued medicinal plant species worldwide. Native to southern Africa, this species has been extensively harvested for the bark, which is widely used in traditional health practices. Illegal harvesting coupled with habitat degradation has contributed to fragmentation of populations and a severe decline in its distribution. Even though the species is included in the IUCN Red List as Endangered, genetic data that would help conservation efforts and future re-introductions are absent. We therefore developed new molecular markers to understand patterns of genetic diversity, structure, and gene flow of W. salutaris in one of its most important areas of occurrence (Mozambique). In this study, we have shown that, despite fragmentation and overexploitation, this species maintains a relatively high level of genetic diversity supporting the existence of random mating. Two genetic groups were found corresponding to the northern and southern locations. Our study suggests that, if local extinctions occurred in Mozambique, the pepper-bark tree persisted in sufficient numbers to retain a large proportion of genetic diversity. Management plans should concentrate on maintaining this high level of genetic variability through both in and ex-situ conservation actions.

Published

2020

4. Does phloem osmolality affect diurnal diameter changes of twigs but not of stems in Scots pine?

Author

Lazzarin M, Zweifel R, Anten N, and Sterck FJ

Subjects

Forests, Pinus sylvestris anatomy & histology, Pinus sylvestris growth & development, Plant Bark growth & development, Plant Bark physiology, Plant Leaves, Plant Stems anatomy & histology, Trees anatomy & histology, Trees growth & development, Osmolar Concentration, Phloem physiology, Pinus sylvestris physiology, Plant Stems growth & development, Trees physiology

Abstract

Diel stem diameter changes measured at the stem base of temperate tree species can be mostly explained by a hydraulic system of flow and storage compartments passively driven by transpiration. Active, osmotic processes are considered to play a minor role only. Here we explore whether such osmotic processes have a stronger impact on diel changes in twig diameter than in stem diameter because twigs are closer to the leaves, the main source of newly acquired carbon. We investigated stem and twig diameter changes of wood and bark of pine trees in parallel to fluctuations of the osmolality in needles and in the bark at the stem base. We found consistent twig bark size increments concurrent with twig wood size decreases during daylight hours whereas needle osmolality was not consistently increasing even on sunny days. The size changes of bark and wood either reversed or ran in parallel from late afternoon onwards until the next morning. No such patterns were measurable at the stem base. Stem wood was hardly changing in size, whereas stem bark followed the regular pattern of a decrease during the daylight hours and an increase during the night. Osmolality at the stem base showed no particular course over 24 h. We conclude that assimilates from the needles were rapidly transported to the twigs where they increased the osmolality of the bark tissue by sugar loading, explaining the bark size increase (over-) compensating the xylem size decrease. The stem base largely followed the expectation of a passive, hydraulic system without a measurable role of osmoregulation. Diameter changes thus follow different diurnal dynamics in twigs and at the stem base., (© The Author(s) 2018. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published

2019

5. Changes in sugar metabolism associated to stem bark thickening partially assist young tissues of Eriobotrya japonica seedlings under boron stress.

Author

Papadakis IE, Tsiantas PI, Tsaniklidis G, Landi M, Psychoyou M, and Fasseas C

Subjects

Carotenoids metabolism, Chlorophyll A metabolism, Eriobotrya drug effects, Plant Bark growth & development, Plant Leaves metabolism, Plant Stems metabolism, Proline metabolism, Seedlings drug effects, Seedlings growth & development, Seedlings metabolism, Boron toxicity, Carbohydrate Metabolism, Eriobotrya metabolism, Plant Bark metabolism

Abstract

Boron (B) toxicity frequently affects plant performances and productivity, especially in arid and semi-arid environments. In this experiment, loquat seedlings were subjected to 25 μM (control) or 400 μM B (B excess) to test the hypothesis that (i) B alters sugar/polyol metabolism in polyol-producing tree species as loquat and (ii) changes of leaf and stem anatomy assist young tissues against toxic effect of B. Gas exchange was monitored from the beginning of the experiment (FBE) till one week after the first visible symptoms of B toxicity appeared in the upper part of the stems (147 d FBE). At 147 FBE, plant biometric parameters and pattern of B accumulation, leaf and stem anatomy, chlorophyll a fluorescence kinetics as well as biochemical measurements were assessed in top (asymptomatic) leaves and upper stem bark. Boron accumulated principally (in the row) in top leaves > top bark > top wood in B-stressed plants, but no changes in allocation pattern were found between controls and B-stressed plants. Excess B promoted the increase in the spongy layer of top leaves and caused the development of cork and numerous collenchyma cells with increased cell wall thickness. This mechanism, which has never been described before, can be considered an attempt to store excessive B in tissues where B ions are less harmful. The accumulation of sorbitol (B-complexing polyol) in top leaves and stem bark can be considered as a further attempt to detoxify B excess. However, B toxicity drastically affects the photosynthetic rate of top leaves, mainly due to non-stomatal limitations, i.e., reduction of ambient CO 2 use efficiency and of photosystem II (PSII) efficiency, modification of the partitioning excess energy dissipation in PSII, thus leading to an increased level of lipid peroxidation. Our results suggest that changes in sugar metabolism associated with leaf and stem bark thickening partially assist (but not totally preserve) young tissues of loquat plants under B stress., (Copyright © 2018 Elsevier GmbH. All rights reserved.)

Published

2018

6. Reconstructing the suberin pathway in poplar by chemical and transcriptomic analysis of bark tissues.

Author

Rains MK, Gardiyehewa de Silva ND, and Molina I

Subjects

Gene Expression Profiling, Gene Expression Regulation, Plant, Lignin analysis, Lipids genetics, Plant Bark growth & development, Plant Stems metabolism, Waxes chemistry, Lipids chemistry, Populus genetics, Populus metabolism, Transcriptome

Abstract

The tree bark periderm confers the first line of protection against pathogen invasion and abiotic stresses. The phellogen (cork cambium) externally produces cork (phellem) cells that are dead at maturity; while metabolically active, these tissues synthesize cell walls, as well as cell wall modifications, namely suberin and waxes. Suberin is a heteropolymer with aliphatic and aromatic domains, composed of acylglycerols, cross-linked polyphenolics and solvent-extractable waxes. Although suberin is essentially ubiquitous in vascular plants, the biochemical functions of many enzymes and the genetic regulation of its synthesis are poorly understood. We have studied suberin and wax composition in four developmental stages of hybrid poplar (Populus tremula x Populus alba) stem periderm. The amounts of extracellular ester-linked acyl lipids per unit area increased with tissue age, a trend not observed with waxes. We used RNA-Seq deep-sequencing technology to investigate the cork transcriptome at two developmental stages. The transcript analysis yielded 455 candidates for the biosynthesis and regulation of poplar suberin, including genes with proven functions in suberin metabolism, genes highlighted as candidates in other plant species and novel candidates. Among these, a gene encoding a putative lipase/acyltransferase of the GDSL-motif family emerged as a suberin polyester synthase candidate, and specific isoforms of peroxidase and laccase genes were preferentially expressed in cork, suggesting that their corresponding proteins may be involved in cross-linking aromatics to form lignin-like polyphenolics. Many transcriptional regulators with possible roles in meristem identity, cork differentiation and acyl-lipid metabolism were also identified. Our work provides the first large-scale transcriptomic dataset on the suberin-synthesizing tissue of poplar bark, contributing to our understanding of tree bark development at the molecular level. Based on these data, we have proposed a number of hypotheses that can be used in future research leading to novel biological insights into suberin biosynthesis and its physiological function.

Published

2018

7. Physico-chemical, antioxidant, and anti-inflammatory properties and stability of hawthorn (Crataegus monogyna Jacq.) procyanidins microcapsules with inulin and maltodextrin.

Author

Wyspiańska D, Kucharska AZ, Sokół-Łętowska A, and Kolniak-Ostek J

Subjects

Anti-Inflammatory Agents, Non-Steroidal analysis, Antioxidants analysis, Antioxidants isolation & purification, Catechin analogs & derivatives, Catechin analysis, Catechin chemistry, Chemical Phenomena, Cold Temperature, Crataegus growth & development, Food Handling, Food Storage, Free Radical Scavengers analysis, Free Radical Scavengers chemistry, Free Radical Scavengers isolation & purification, Fruit chemistry, Fruit growth & development, Inulin analysis, Phenols analysis, Phenols chemistry, Plant Bark chemistry, Plant Bark growth & development, Plant Extracts chemistry, Plant Extracts isolation & purification, Plant Shoots chemistry, Plant Shoots growth & development, Polysaccharides analysis, Proanthocyanidins analysis, Proanthocyanidins isolation & purification, Anti-Inflammatory Agents, Non-Steroidal chemistry, Antioxidants chemistry, Crataegus chemistry, Inulin chemistry, Polysaccharides chemistry, Prebiotics analysis, Proanthocyanidins chemistry

Abstract

Background: Procyanidins from the bark of hawthorn (Crataegus monogyna Jacq.) were isolated and purified. Qualitative and quantitative composition was compared with that of the extract of hawthorn fruit (Crataegus monogyna Jacq.). Stability and antioxidant and anti-inflammatory properties of procyanidins before and after micro-encapsulation were estimated. The effects of the carrier type (inulin and maltodextrin) and procyanidins:carrier ratio (1:1, 1:3) and the influence of storage temperature (20 °C, -20 °C, -80 °C) on the content of procyanidins were evaluated., Results: Samples before and after micro-encapsulation contained from 651 to 751 mg of procyanidins in 1 g. Among the procyanidins, (-)-epicatechin, dimer B2, and trimer C1 dominated. The use of inulin during spray drying resulted in greater efficiency of micro-encapsulation than the use of maltodextrin. During storage of the samples at 20 °C degradation of procyanidins was observed, whereas at -20 °C and -80 °C concentrations of them increased., Conclusion: The microcapsules with procyanidins from the bark of hawthorn, as well as the extract of procyanidins, have valuable biological activity, and strong antioxidant and anti-inflammatory properties. It is better to prepare microcapsules with a greater amount of carrier, with the procyanidin/carrier ratio 1:3. © 2016 Society of Chemical Industry., (© 2016 Society of Chemical Industry.)

Published

2017

8. Anti-giardia activity and acute toxicity of a methanol extract of Senna racemosa bark.

Author

Caamal-Fuentes EE, Graniel-Sabido M, Mena-Rejón GJ, and Moo-Puc RE

Subjects

Animals, Animals, Newborn, Antiprotozoal Agents isolation & purification, Antiprotozoal Agents therapeutic use, Antiprotozoal Agents toxicity, Dose-Response Relationship, Drug, Giardiasis drug therapy, Male, Methanol chemistry, Mice, Plant Bark growth & development, Plant Extracts isolation & purification, Plant Extracts therapeutic use, Plant Extracts toxicity, Rats, Wistar, Senna Plant growth & development, Toxicity Tests, Acute, Antiprotozoal Agents pharmacology, Giardia drug effects, Plant Bark chemistry, Plant Extracts pharmacology, Senna Plant chemistry

Abstract

Ethnopharmacological Relevance: Senna racemosa (Mill.) H.S. Irwin & Barneby (syn. Cassia racemosa Mill.) is a plant used in traditional Mayamedicinal practices to treat diarrhea. A methanol extract of S. racemosa bark has been shown to have in vitro activity against Giardia intestinalis. No studies of its efficacy and toxicity in in vivo models have been done. The present study objective was to analyze the activity of this methanol extract of S. racemosa bark against Giardia intestinalis trophozoites in experimentally infected mice, and evaluate its toxicological effects in rats., Material and Methods: S. racemosa was collected in Merida, Yucatan, Mexico (21°58'N, 89°36'W) in June 2005. The bark methanol extract was obtained and high performance liquid chromatography (HPLC-DAD) was used to generate a constituent profile. In vivo anti-giardia activity was assayed with an experimental model of G. intestinalis infection in neonatal CD-1 mice. Nine doses ranging from 0.25-15mg extract/kg body weight were tested to determine the dose required to kill 50% of the trophozoites (ED 50 ). An acute toxicity assay was run in which one of four single doses (200, 1000, 2000 and3000mg/kg body weight) was orally administered to adult Wistar rats. Animal weight, death rates, toxic effects and behavioral parameters were observed over a 14-d period. They were then euthanized and a necropsy performed., Results: The S. racemosa bark extract inhibited growth of G. intestinalis (ED 50 =1.14mg/Kg) in neonatal CD-1 mice. No toxic or lethal effects were observed even at the highest dosage (3000mg/Kg), and neither were signs of toxicity observed in internal organs. The active compounds chrysophanol and physcion were present in the extract at a 1.76 ratio., Conclusions: The results strongly support traditional use of S. racemosa bark for treatment of diarrhea caused by Giardia intestinalis infection., (Copyright © 2016 Elsevier Ireland Ltd. All rights reserved.)

Published

2016

9. Shifts in functional traits elevate risk of fire-driven tree dieback in tropical savanna and forest biomes.

Author

Pellegrini AF, Franco AC, and Hoffmann WA

Subjects

Brazil, Plant Bark growth & development, Plant Stems growth & development, Tropical Climate, Carbon Cycle, Fires, Forests, Grassland, Trees growth & development

Abstract

Numerous predictions indicate rising CO2 will accelerate the expansion of forests into savannas. Although encroaching forests can sequester carbon over the short term, increased fires and drought-fire interactions could offset carbon gains, which may be amplified by the shift toward forest plant communities more susceptible to fire-driven dieback. We quantify how bark thickness determines the ability of individual tree species to tolerate fire and subsequently determine the fire sensitivity of ecosystem carbon across 180 plots in savannas and forests throughout the 2.2-million km(2) Cerrado region in Brazil. We find that not accounting for variation in bark thickness across tree species underestimated carbon losses in forests by ~50%, totaling 0.22 PgC across the Cerrado region. The lower bark thicknesses of plant species in forests decreased fire tolerance to such an extent that a third of carbon gains during forest encroachment may be at risk of dieback if burned. These results illustrate that consideration of trait-based differences in fire tolerance is critical for determining the climate-carbon-fire feedback in tropical savanna and forest biomes., (© 2015 John Wiley & Sons Ltd.)

Published

2016

10. Power, policy and the Prunus africana bark trade, 1972-2015.

Author

Cunningham A, Anoncho VF, and Sunderland T

Subjects

Africa, Cameroon, Conservation of Natural Resources economics, Humans, Madagascar, Plant Extracts therapeutic use, Commerce economics, Commerce legislation & jurisprudence, Plant Bark growth & development, Plant Extracts economics, Plants, Medicinal growth & development, Prunus africana growth & development

Abstract

Ethnopharmacological Relevance: After almost 50 years of international trade in wild harvested medicinal bark from Africa and Madagascar, the example of Prunus africana holds several lessons for both policy and practice in the fields of forestry, conservation and rural development. Due to recent CITES restrictions on P. africana exports from Burundi, Kenya and Madagascar, coupled with the lifting of the 2007 European Union (EU) ban in 2011, Cameroon's share of the global P. africana bark trade has risen from an average of 38% between 1995 and 2004, to 72.6% (658.6 metric tons) in 2012. Cameroon is therefore at the center of this international policy arena., Methods and Materials: This paper draws upon several approaches, combining knowledge in working with P. africana over a 30-year period with a thorough literature review and updated trade data with "ground-truthing" in the field in 2013 and 2014. This enabled the construction of a good perspective on trade volumes (1991-2012), bark prices (and value-chain data) and the gaps between research reports and practice. Two approaches provided excellent lenses for a deeper understanding of policy failure and the "knowing-doing gap" in the P. africana case. A similar approach to Médard's (1992) analyses of power, politics and African development was taken and secondly, studies of commodity chains that assess the power relations that coalesce around different commodities (Ribot, 1998; Ribot and Peluso, 2003)., Results: Despite the need to conserve genetically and chemically diverse P. africana, wild populations are vulnerable, even in several "protected areas" in Burundi, Cameroon, the Democratic Republic of Congo and in the forest reserves of Madagascar. Secondly, hopes of decentralized governance of this forest product are misplaced due to elite capture, market monopolies and subsidized management regimes. At the current European price, for P. africana bark (US$6 per kg) for example, the 2012 bark quota (658.675t) from Cameroon alone was worth over US$3.9 million, with the majority of this accruing to a single company. In contrast to lucrative bark exports, the livelihood benefits and financial returns to local harvesters from wild harvest are extremely low. For example, in 2012, the 48 active harvesters working within Mount Cameroon National Park (MCNP) received less than 1US$ per day from bark harvests, due to a net bark price of 0.33 US$ per kg (or 43% of the farm gate price for wild harvested bark). In addition, the costs of inventory, monitoring and managing sustainable wild harvests are far greater than the benefits to harvesters., Conclusion: Without the current substantial international donor subsidies, sustainable harvest cannot be sustained. What is required to supply the current and future market is to develop separate, traceable P. africana bark supply chains based on cultivated stocks. On-farm production would benefit thousands of small-scale farmers cultivating P. africana, including local women, for whom wild harvesting is too onerous. This change requires CITES and EU support and would catalyze P. africana cultivation in across several montane African countries and Madagascar, increasing farm-gate prices to harvesters compared to economic returns from wild harvest., (Copyright © 2015 The Authors. Published by Elsevier Ireland Ltd.. All rights reserved.)

Published

2016

11. Seasonal variation in formation, structure, and chemical properties of phloem in Picea abies as studied by novel microtechniques.

Author

Jyske TM, Suuronen JP, Pranovich AV, Laakso T, Watanabe U, Kuroda K, and Abe H

Subjects

Plant Bark growth & development, Plant Bark metabolism, Seasons, Phloem growth & development, Phloem metabolism, Picea growth & development, Picea metabolism

Abstract

Main Conclusion: Phloem production and structural development were interlinked with seasonal variation in the primary and secondary metabolites of phloem. Novel microtechniques provided new perspectives on understanding phloem structure and chemistry. To gain new insights into phloem formation in Norway spruce (Picea abies), we monitored phloem cell production and seasonal variation in the primary and secondary metabolites of inner bark (non-structural carbohydrates and phenolic stilbene glucosides) during the 2012 growing season in southern and northern Finland. The structure of developing phloem was visualised in 3D by synchrotron X-ray microtomography. The chemical features of developing phloem tissues isolated by laser microdissection were analysed by chemical microanalysis. Within-year phloem formation was associated with seasonal changes in non-structural carbohydrates and phenolic extractive contents of inner bark. The onset of phloem cell production occurred in early and mid-May in southern and northern Finland, respectively. The maximal rate of phloem production and formation of a tangential band of axial phloem parenchyma occurred in mid-June, when total non-structural carbohydrates peaked (due to the high amount of starch). In contrast, soluble sugar content dropped during the most active growth period and increased in late summer and winter. The 3D visualisation showed that the new axial parenchyma clearly enlarged from June to August. Sub-cellular changes appeared to be associated with accumulation of stilbene glucosides and soluble sugars in the newest phloem. Stilbene glucosides also increased in inner bark during late summer and winter. Our findings may indicate that stilbene biosynthesis in older phloem predominantly occurs after the formation of the new band(s) of axial parenchyma. The complementary use of novel microtechniques provides new perspectives on the formation, structure, and chemistry of phloem.

Published

2015

12. Bark ecology of twigs vs. main stems: functional traits across eighty-five species of angiosperms.

Author

Rosell JA, Castorena M, Laws CA, and Westoby M

Subjects

Ecosystem, Fires, Magnoliopsida anatomy & histology, Magnoliopsida growth & development, Photosynthesis, Plant Bark anatomy & histology, Plant Bark growth & development, Plant Stems anatomy & histology, Species Specificity, Trees anatomy & histology, Trees growth & development, Water metabolism, Ecology, Magnoliopsida physiology, Plant Bark physiology, Plant Stems growth & development, Plant Stems physiology, Trees physiology

Abstract

Although produced by meristems that are continuous along the stem length, marked differences in bark morphology and in microenvironment would suggest that main stem and twig bark might differ ecologically. Here, we examined: (1) how closely associated main stem and twig bark traits were, (2) how these associations varied across sites, and (3) used these associations to infer functional and ecological differences between twig and main stem bark. We measured density, water content, photosynthesis presence/absence, total, outer, inner, and relative thicknesses of main stem and twig bark from 85 species of angiosperms from six sites of contrasting precipitation, temperature, and fire regimes. Density and water content did not differ between main stems and twigs across species and sites. Species with thicker twig bark had disproportionately thicker main stem bark in most sites, but the slope and degree of association varied. Disproportionately thicker main stem bark for a given twig bark thickness in most fire-prone sites suggested stem protection near the ground. The savanna had the opposite trend, suggesting that selection also favors twig protection in these fire-prone habitats. A weak main stem-twig bark thickness association was observed in non fire-prone sites. The near-ubiquity of photosynthesis in twigs highlighted its likely ecological importance; variation in this activity was predicted by outer bark thickness in main stems. It seems that the ecology of twig bark can be generalized to main stem bark, but not for functions depending on the amount of bark, such as protection, storage, or photosynthesis.

Published

2015

13. Anti-inflammatory activity of cinnamon (C. zeylanicum and C. cassia) extracts - identification of E-cinnamaldehyde and o-methoxy cinnamaldehyde as the most potent bioactive compounds.

Author

Gunawardena D, Karunaweera N, Lee S, van Der Kooy F, Harman DG, Raju R, Bennett L, Gyengesi E, Sucher NJ, and Münch G

Subjects

Acrolein analysis, Acrolein chemistry, Acrolein isolation & purification, Acrolein metabolism, Animals, Anti-Inflammatory Agents, Non-Steroidal analysis, Anti-Inflammatory Agents, Non-Steroidal chemistry, Anti-Inflammatory Agents, Non-Steroidal metabolism, Cell Line, Cinnamomum aromaticum growth & development, Ethnopharmacology, Macrophage Activation, Macrophages immunology, Medicine, Traditional, Mice, Molecular Structure, Nitric Oxide antagonists & inhibitors, Nitric Oxide metabolism, Plant Bark chemistry, Plant Bark growth & development, Plant Extracts chemistry, Plant Extracts isolation & purification, Plant Extracts metabolism, Sri Lanka, Stereoisomerism, Tumor Necrosis Factor-alpha antagonists & inhibitors, Tumor Necrosis Factor-alpha metabolism, Acrolein analogs & derivatives, Anti-Inflammatory Agents, Non-Steroidal isolation & purification, Cinnamomum aromaticum chemistry, Cinnamomum zeylanicum chemistry, Dietary Supplements analysis, Macrophages metabolism

Abstract

Chronic inflammation is a contributing factor in many age-related diseases. In a previous study, we have shown that Sri Lankan cinnamon (C. zeylanicum) was one of the most potent anti-inflammatory foods out of 115 foods tested. However, knowledge about the exact nature of the anti-inflammatory compounds and their distribution in the two major cinnamon species used for human consumption is limited. The aim of this investigation was to determine the anti-inflammatory activity of C. zeylanicum and C. cassia and elucidate their main phytochemical compounds. When extracts were tested in LPS and IFN-γ activated RAW 264.7 macrophages, most of the anti-inflammatory activity, measured by down-regulation of nitric oxide and TNF-α production, was observed in the organic extracts. The most abundant compounds in these extracts were E-cinnamaldehyde and o-methoxycinnamaldehyde. The highest concentration of E-cinnamaldehyde was found in the DCM extract of C. zeylanicum or C. cassia (31 and 34 mg g(-1) of cinnamon, respectively). When these and other constituents were tested for their anti-inflammatory activity in RAW 264.7 and J774A.1 macrophages, the most potent compounds were E-cinnamaldehyde and o-methoxycinnamaldehyde, which exhibited IC₅₀ values for NO with RAW 264.7 cells of 55 ± 9 μM (7.3 ± 1.2 μg mL(-1)) and 35 ± 9 μM (5.7 ± 1.5 μg mL(-1)), respectively; and IC₅₀ values for TNF-α of 63 ± 9 μM (8.3 ± 1.2 μg mL(-1)) and 78 ± 16 μM (12.6 ± 2.6 μg mL(-1)), respectively. If therapeutic concentrations can be achieved in target tissues, cinnamon and its components may be useful in the treatment of age-related inflammatory conditions.

Published

2015

14. Outer bark thickness decreases more with height on stems of fire-resistant than fire-sensitive Floridian oaks (Quercus spp.; Fagaceae).

Author

Graves SJ, Rifai SW, and Putz FE

Subjects

Adaptation, Physiological, Plant Bark anatomy & histology, Plant Stems anatomy & histology, Quercus anatomy & histology, Quercus growth & development, Trees anatomy & histology, Trees growth & development, Ecosystem, Fires, Phloem growth & development, Plant Bark growth & development, Plant Stems growth & development, Quercus physiology, Trees physiology

Abstract

Unlabelled: •, Premise of the Study: In ecosystems maintained by low-intensity surface fires, tree bark thickness is a determinant of fire-survival because it protects underlying tissues from heat damage. However, it has been unclear whether relatively thick bark i S: maintained at all heights or only near the ground where damage is most likely.•, Methods: We studied six Quercus species from the red and white clades, with three species characteristic of fire-maintained savannas and three species characteristic of forests with infrequent fire. Inner and outer bark (secondary phloem and rhytidome, respectively) thicknesses were measured at intervals from 10 to 300 cm above the ground. We used linear mixed-effects models to test for relationships among height, habitat, and clade on relative thickness (stem proportion) of total, inner, and outer bark. Bark moisture and tissue density were measured for each species at 10 cm.•, Key Results: Absolute and relative total bark thickness declined with height, with no difference in height-related changes between habitat groups. Relative outer bark thickness showed a height-by-habitat interaction. There was a clade effect on relative thickness, but no interaction with height. Moisture contents were higher in inner than outer bark, and red oaks had denser bark than white oaks, but neither trait differed by habitat.•, Conclusions: Quercus species characteristic of fire-prone habitats invest more in outer bark near the ground where heat damage to outer tissues is most likely. Future investigations of bark should consider the height at which measurements are made and distinguish between inner and outer bark., (© 2014 Botanical Society of America, Inc.)

Published

2014

15. Modelling biomechanics of bark patterning in grasstrees.

Author

Dale H, Runions A, Hobill D, and Prusinkiewicz P

Subjects

Biomechanical Phenomena, Computer Simulation, Magnoliopsida anatomy & histology, Magnoliopsida metabolism, Plant Bark anatomy & histology, Plant Bark metabolism, Resins, Plant metabolism, Trees, Magnoliopsida growth & development, Models, Biological, Plant Bark growth & development

Abstract

Background and Aims: Bark patterns are a visually important characteristic of trees, typically attributed to fractures occurring during secondary growth of the trunk and branches. An understanding of bark pattern formation has been hampered by insufficient information regarding the biomechanical properties of bark and the corresponding difficulties in faithfully modelling bark fractures using continuum mechanics. This study focuses on the genus Xanthorrhoea (grasstrees), which have an unusual bark-like structure composed of distinct leaf bases connected by sticky resin. Due to its discrete character, this structure is well suited for computational studies., Methods: A dynamic computational model of grasstree development was created. The model captures both the phyllotactic pattern of leaf bases during primary growth and the changes in the trunk's width during secondary growth. A biomechanical representation based on a system of masses connected by springs is used for the surface of the trunk, permitting the emergence of fractures during secondary growth to be simulated. The resulting fracture patterns were analysed statistically and compared with images of real trees., Key Results: The model reproduces key features of grasstree bark patterns, including their variability, spanning elongated and reticulate forms. The patterns produced by the model have the same statistical character as those seen in real trees., Conclusions: The model was able to support the general hypothesis that the patterns observed in the grasstree bark-like layer may be explained in terms of mechanical fractures driven by secondary growth. Although the generality of the results is limited by the unusual structure of grasstree bark, it supports the hypothesis that bark pattern formation is primarily a biomechanical phenomenon.

Published

2014

16. Bark harvesting systems of Drimys brasiliensis Miers in the Brazilian Atlantic rainforest.

Author

Mariot A, Mantovani A, and Reis MS

Subjects

Brazil, Environmental Monitoring, Conservation of Natural Resources methods, Drimys growth & development, Plant Bark growth & development, Trees

Abstract

Drimys brasiliensis Miers, locally known as cataia or casca-de-anta, is a native tree species of the Atlantic Rainforest. Its bark is harvested from natural populations. This study examined the recovery capacity of the bark of D. brasiliensis under different bark harvesting methods, as well as the influence of these approaches on its population dynamics and reproductive biology. While none of these treatments resulted in changes in phenological behavior or the rate of increase of diameter at breast height and tree height, the removal of wider bark strips resulted in lower rates of bark recovery and higher rates of insect attack and diseases. Accordingly, the results recommend using strips of bark 2 cm wide and 2 m long, with 4 cm between strips, for effective rates of bark regrowth and for lower susceptibility to insect attack and diseases. From these studies, we concluded that D. brasiliensis has a high potential for sustainable management of its natural populations, demonstrating the possibility of generating an important supplementary income for farmers and contributing to the use and conservation of the Atlantic Rainforest.

Published

2014

17. Tissue regeneration after bark girdling: an ideal research tool to investigate plant vascular development and regeneration.

Author

Chen JJ, Zhang J, and He XQ

Subjects

Cambium cytology, Cambium genetics, Cambium growth & development, Cambium physiology, Cell Differentiation, Gene Expression Regulation, Developmental, Models, Biological, Phloem genetics, Phloem growth & development, Phloem physiology, Plant Bark cytology, Plant Bark genetics, Plant Bark growth & development, Plant Growth Regulators metabolism, Plant Vascular Bundle cytology, Plant Vascular Bundle genetics, Plant Vascular Bundle growth & development, Regeneration, Trees cytology, Trees genetics, Trees growth & development, Xylem cytology, Xylem genetics, Xylem growth & development, Xylem physiology, Gene Expression Regulation, Plant, Plant Bark physiology, Plant Vascular Bundle physiology, Trees physiology

Abstract

Regeneration is a common strategy for plants to survive the intrinsic and extrinsic challenges they face through their life cycle, and it may occur upon wounding. Bark girdling is applied to improve fruit production or harvest bark as medicinal material. When tree bark is removed, the cambium and phloem will be peeled off. After a small strip of bark is removed from trees, newly formed periderm and wound cambium develop from the callus on the surface of the trunk, and new phloem is subsequently derived from the wound cambium. However, after large-scale girdling, the newly formed sieve elements (SEs) appear earlier than the regenerated cambium, and both of them derive from differentiating xylem cells rather than from callus. This secondary vascular tissue regeneration mainly involves three key stages: callus formation and xylem cell dedifferentiation; SEs appearance and wound cambium formation. The new bark is formed within 1 month in poplar, Eucommia; thus, it provides high temporal resolution of regenerated tissues at different stages. In this review, we will illustrate the morphology, gene expression and phytohormone regulation of vascular tissue regeneration after large-scale girdling in trees, and also discuss the potential utilization of the bark girdling system in studies of plant vascular development and tissue regeneration., (© 2013 Scandinavian Plant Physiology Society.)

Published

2014

18. [Study on ecological suitability regionalization of Eucommia ulmoides in Guizhou].

Author

Kang CZ, Wang QQ, Zhou T, Jiang WK, Xiao CH, and Xie Y

Subjects

Adaptation, Biological, China, Climate, Eucommiaceae chemistry, Eucommiaceae physiology, Geographic Information Systems, Lignans analysis, Models, Theoretical, Plant Bark chemistry, Plant Bark growth & development, Plants, Medicinal chemistry, Plants, Medicinal physiology, Soil, Ecology, Eucommiaceae growth & development, Geography, Medical, Plants, Medicinal growth & development

Abstract

Objective: To study the ecological suitability regionalization of Eucommia ulmoides, for selecting artificial planting base and high-quality industrial raw material purchase area of the herb in Guizhou., Methods: Based on the investigation of 14 Eucommia ulmoides producing areas, pinoresinol diglucoside content and ecological factors were obtained. Using spatial analysis method to carry on ecological suitability regionalization. Meanwhile, combining pinoresinol diglucoside content, the correlation of major active components and environmental factors were analyzed by statistical analysis., Results: The most suitability planting area of Eucommia ulmoides was the northwest of Guizhou. The distribution of Eucommia ulmoides was mainly affected by the type and pH value of soil, and monthly precipitation. The spatial structure of major active components in Eucommia ulmoides were randomly distributed in global space, but had only one aggregation point which had a high positive correlation in local space. The major active components of Eucommia ulmoides had no correlation with altitude, longitude or latitude., Conclusion: Using the spatial analysis method and statistical analysis method, based on environmental factor and pinoresinol diglucoside content, the ecological suitability regionalization of Eucommia ulmoides can provide reference for the selection of suitable planting area, artificial planting base and directing production layout.

Published

2014

19. The effect of management systems and ecosystem types on bark regeneration in Himatanthus drasticus (Apocynaceae): recommendations for sustainable harvesting.

Author

Baldauf C and Maës dos Santos FA

Subjects

Brazil, Ecosystem, Environmental Monitoring, Apocynaceae growth & development, Conservation of Natural Resources methods, Forestry methods, Plant Bark growth & development

Abstract

Bark and exudates are widely commercialized non-timber forest products. However, the ecological impacts of the harvesting of these products have seldom been studied. The aim of this study is to investigate the relationship of tree resilience to harvesting intensity in Himatanthus drasticus, a tree that is highly exploited in the Brazilian savanna (Cerrado) for its medicinal latex. Although the traded product is the latex, the traditional harvesting systems involve the removal of the bark of the trees to allow exploitation. A 3-year experiment was conducted in two different Cerrado ecosystems (open savanna and savanna woodland). Trees were debarked at four debarking intensities to simulate the effects of traditional management systems. Measurements of bark growth were taken every 6 months, and quantitative and qualitative indexes of bark regeneration were obtained. The mortality of the debarked trees was low and could not be related to the intensity of harvesting. No signs of attack by fungi or insects were recorded. Compared with other species exploited for bark, H. drasticus is very resilient to harvesting; however, bark regeneration is relatively slow. In both analyzed ecosystems, the regeneration indexes showed higher values in the controls than in the treatments, indicating that 3 years is not sufficient for total recovery of the rhytidome. Bark regeneration occurred primarily by sheet growth and was more rapid in open savanna than in savanna woodland. No differences in the rate of bark recovery were found among management treatments. Based on the results, sustainable harvesting guidelines are suggested for the species.

Published

2014

20. Dehydration and osmotic adjustment in apple stem tissue during winter as it relates to the frost resistance of buds.

Author

Pramsohler M and Neuner G

Subjects

Desiccation, Flowers growth & development, Flowers physiology, Flowers radiation effects, Freezing, Ice, Infrared Rays, Italy, Malus growth & development, Malus radiation effects, Meristem growth & development, Meristem physiology, Osmosis, Plant Bark growth & development, Plant Bark physiology, Plant Bark radiation effects, Plant Leaves growth & development, Plant Leaves physiology, Plant Leaves radiation effects, Plant Shoots growth & development, Plant Shoots physiology, Plant Shoots radiation effects, Plant Stems growth & development, Plant Stems radiation effects, Temperature, Thermography, Malus physiology, Plant Stems physiology, Stress, Physiological, Water physiology

Abstract

In deciduous trees, measurement of stem water potential can be difficult during the leafless period in winter. By using thermocouple psychrometry, osmotic water potentials (Ψo; actual Ψo: Ψo(act); Ψo at full saturation: Ψo(sat)) of expressed sap of bark and bud tissue were measured in order to test if the severity of winter desiccation in apple stems could be sufficiently assessed with Ψo. Water potentials were related to frost resistance and freezing behaviour of buds. The determination of Ψo reliably allowed winter desiccation and osmotic adjustments in apple stem tissue to be assessed. In winter in bark tissue, a pronounced decrease in Ψo(act) and Ψo(sat) was found. Decreased Ψo(sat) indicates active osmotic adjustment in the bark as observed earlier in the leaves of evergreen woody plants. In terminal bud meristems, no significant osmotic adjustments occurred and dehydration during winter was much less. Osmotic water potentials, Ψo(act) and Ψo(sat), of bud tissue were always less negative than in the bark. To prevent water movement and dehydration of the bud tissue via this osmotic gradient, it must be compensated for either by a sufficiently high turgor pressure (Ψp) in bark tissue or by the isolation of the bud tissue from the bark during midwinter. During freezing of apple buds, freeze dehydration and extra-organ freezing could be demonstrated by significantly reduced Ψo(act) values of bud meristems that had been excised in the frozen state. Infrared video thermography was used to monitor freezing patterns in apple twigs. During extracellular freezing of intact and longitudinally dissected stems, infrared differential thermal analysis (IDTA) images showed that the bud meristem remains ice free. Even if cooled to temperatures below the frost-killing temperature, no freezing event could be detected in bud meristems during winter. In contrast, after bud break, terminal buds showed a second freezing at the frost-killing temperature that indicates deep supercooling. Our results demonstrate the applicability of thermocouple psychrometry for the assessment of winter desiccation in stem tissues of deciduous trees and corroborate the finding that dormant apple buds survive by extra-organ freezing and do not deep supercool. In addition, they indicate that significant changes of the frost-survival mechanism can occur during the apple bud development in spring.

Published

2013

21. Genetic and hormonal regulation of cambial development.

Author

Ursache R, Nieminen K, and Helariutta Y

Subjects

Cell Wall, Gene Expression Regulation, Plant, Genes, Plant, Phloem genetics, Phloem growth & development, Plant Bark growth & development, Plant Roots genetics, Plant Roots growth & development, Plant Stems genetics, Plant Stems growth & development, Transcription, Genetic, Trees immunology, Wood genetics, Wood growth & development, Cambium genetics, Cambium growth & development, Magnoliopsida genetics, Magnoliopsida growth & development, Plant Growth Regulators metabolism, Trees growth & development

Abstract

The stems and roots of most dicot plants increase in diameter by radial growth, due to the activity of secondary meristems. Two types of meristems function in secondary plant body formation: the vascular cambium, which gives rise to secondary xylem and phloem, and the cork cambium, which produces a bark layer that replaces the epidermis and protects the plant stem from mechanical damage and pathogens. Cambial development, the initiation and activity of the vascular cambium, leads to an accumulation of wood, the secondary xylem tissue. The thick, cellulose-rich cell walls of wood provide a source of cellulose and have the potential to be used as a raw material for sustainable and renewable energy production. In this review, we will discuss what is known about the mechanisms regulating the cambium and secondary tissue development., (Copyright © Physiologia Plantarum 2012.)

Published

2013

22. An experimental test of insect-mediated colonisation of damaged Pinus radiata trees by sapstain fungi.

Author

McCarthy JK, Brockerhoff EG, and Didham RK

Subjects

Animals, Fungi isolation & purification, Plant Bark growth & development, Trees growth & development, Coleoptera physiology, Fungi pathogenicity, Pinus microbiology, Plant Bark microbiology, Trees microbiology

Abstract

Vector-pathogen dynamics play a central role in understanding tree health and forest dynamics. There is substantial evidence that bark beetles act as spore vectors for many species of fungi that cause 'sapstain' discolouration of damaged trees and timber. However, the direct quantitative link between vector-mediated spore dispersal and subsequent sapstain colonisation of wood is not fully understood. Here, we used caged versus uncaged experimental logs to test whether the exclusion of bark beetles quantitatively alters the distribution and intensity of sapstain fungal spread within damaged trees. Using generalised linear mixed models, we tested the effect of bark beetle exclusion on sapstain intensity within and among cut logs at two plantation forest sites. Overall, sapstain was found on all logs regardless of caging treatment, indicating that sapstain colonisation can occur (to some degree) without arthropod vectors, probably via wind, rain-splash and, potentially, latent endophytic development. This was supported by the dominance of Diplodia pinea in fungal isolations taken from trees felled at the site, as this fungal species is known to disperse independently of bark beetles. However, the intensity of sapstain within and among experimental logs was significantly greater in uncaged than in caged logs, where beetle colonisation was significantly greater. This appeared to be driven by a significant within-log association between the intensity of staining and the intensity of beetle, and other arthropod, tunnelling and feeding activities. Taken together, these results strongly suggest that the dominant mechanism underlying the role of bark beetles in sapstain development in this study system is not vector-mediated spore dispersal, per se, but rather the facilitation of spore entry and hyphal development through tunnelling and feeding activities. We discuss the implications of these findings for forest management and the effective salvage-harvest of trees damaged by stochastic climate events such as storm and fire damage.

Published

2013

23. Environmental analysis of raw cork extraction in cork oak forests in southern Europe (Catalonia--Spain).

Author

Rives J, Fernandez-Rodriguez I, Rieradevall J, and Gabarrell X

Subjects

Carbon Dioxide metabolism, Plant Bark growth & development, Plant Bark metabolism, Spain, Trees growth & development, Trees metabolism, Conservation of Natural Resources, Environment, Forestry, Quercus growth & development, Quercus metabolism

Abstract

Cork oak grows endemically in a narrow region bordering the western Mediterranean, and especially in the Iberian Peninsula. The importance of cork agro-forestry systems lies in the fact that a natural and renewable raw material - cork - can be extracted sustainably without endangering the tree or affecting biodiversity. This paper describes an environmental analysis of the extraction of raw cork in cork oak forests in Catalonia, using data from five representative local forest exploitations. The evaluation was carried out using life cycle assessment (LCA) methodology, and all the forestry management required to obtain a tonne of raw cork was included. The aim of the study was to evaluate the environmental impacts - in terms of global warming, acidification, eutrophication, human toxicity, and so on - caused by cork extraction and determine the carbon dioxide balance of these forestry systems, with a tree lifespan of about 200 years. During the life cycle extraction of cork in Catalonia, 0.2 kg of CO(2) eq. was emitted per kg of raw cork extracted. Moreover, cork cannot be extracted without the tree, which will be fixing carbon dioxide throughout its technological useful life (200 years), despite the fact that the bark is removed periodically: every 13-14 years. If the emission from extraction and the carbon contained in the material is discounted, the carbon dioxide balance indicates that 18 kg of CO(2) are fixed per kg of raw cork extracted. Therefore, cork is a natural, renewable and local material that can replace other non-renewable materials, at local level, to reduce the environmental impacts of products, and particularly to reduce their carbon footprint., (Copyright © 2012 Elsevier Ltd. All rights reserved.)

Published

2012

24. Intra-annual nutrient flux in Pinus taeda.

Author

Albaugh TJ, Allen HL, Stape JL, Fox TR, Rubilar RA, and Price JW

Subjects

Agricultural Irrigation, Biological Transport, Biomass, Calcium analysis, Calcium metabolism, Fertilizers, Magnesium analysis, Magnesium metabolism, Nitrogen analysis, Nitrogen metabolism, North Carolina, Phenotype, Phosphorus analysis, Phosphorus metabolism, Pinus taeda growth & development, Plant Bark growth & development, Plant Bark metabolism, Plant Leaves growth & development, Plant Leaves metabolism, Plant Roots growth & development, Plant Roots metabolism, Plant Stems growth & development, Plant Stems metabolism, Potassium analysis, Potassium metabolism, Trees, Water metabolism, Pinus taeda metabolism

Abstract

Intra-annual nutrient (nitrogen, phosphorus, potassium, calcium and magnesium) flux was quantified for Pinus taeda L. at a nutrient-poor, well-drained sandy site in Scotland County, NC, USA where a 2 × 2 factorial of irrigation and nutrition was applied in four replications in a 10-year-old stand with 1200 stems ha(-1). Treatments were applied with the goal of providing optimum nutrition (no nutritional deficiencies) and water availability. Component (foliage, branch, stem and root) nutrient content was estimated monthly for 2 years using nutrient concentration and phenology assessments combined with destructive harvests. Positive flux values indicated nutrient accumulation in the trees while negative values indicated nutrient loss from the trees. Fertilization significantly increased nitrogen, phosphorus, potassium, calcium and magnesium flux 140%, on average, over non-fertilized. Irrigation significantly increased calcium flux 28% while there was no significant irrigation effect on nitrogen, phosphorus, potassium or magnesium. Maximum nutrient fluxes (kg ha(-1) day(-1)) for non-fertilized and fertilized stands were 0.36 and 1.05 for nitrogen, 0.042 and 0.095 for phosphorus, 0.13 and 0.51 for potassium, 0.27 and 0.42 for calcium, and 0.04 and 0.12 for magnesium, respectively. Maximum flux was coincident with ephemeral tissue (foliage and fine root) development and likely would be higher in stands with more foliage than those observed in this study (projected leaf area indices were 1.5 and 3.0 for the non-fertilized and fertilized stands). Minimum nutrient fluxes (kg ha(-1) day(-1)) for non-fertilized and fertilized stands were -0.18 and -0.42 for nitrogen, -0.029 and -0.070 for phosphorus, -0.05 and -0.18 for potassium, -0.04 and -0.05 for calcium, and -0.02 and -0.03 for magnesium, respectively. Minimum fluxes were typically observed in the dormant season and were linked to foliage senescence and branch death. Foliage and branch component nutrient contents were out of phase for nitrogen, phosphorus, potassium and magnesium, indicating nutrient retranslocation and storage in branches prior to foliage development and after foliage senescence. In contrast to current operational fertilizer programs which often target winter application these data suggest the best application times would be during foliage development.

Published

2012

25. Top-down determinants of niche structure and adaptation among African Acacias.

Author

Staver AC, Bond WJ, Cramer MD, and Wakeling JL

Subjects

Animals, Carbon metabolism, Plant Bark growth & development, Plant Roots growth & development, Plant Shoots growth & development, South Africa, Starch metabolism, Acacia growth & development, Acacia metabolism, Adaptation, Biological, Ecosystem, Fires, Herbivory

Abstract

The role of top-down factors like herbivory and fire in structuring species' niches, even in disturbance-dependent biomes like savanna, remains poorly understood. Interactions between herbivory and fire may set up a potential tradeoff axis, along which unique adaptations contribute to structuring communities and determining species distributions. We examine the role of herbivory and fire in structuring distributions of Acacia saplings in Hluhluwe iMfolozi Park in South Africa, and the relationship of species' niche structure to traits that help them survive herbivory or fire. Results suggest that (1) fire and herbivory form a single trade-off axis, (2) Acacia sapling distributions are constrained by fire and herbivory, and (3) Acacia saplings have adaptations that are structured by the tradeoff axis. Herbivory-adapted species tend to have 'cage'-like architecture, thicker bark, and less starch storage, while fire-adapted species tend to have 'pole'-like architecture, relatively thinner bark, and more starch storage., (© 2012 Blackwell Publishing Ltd/CNRS.)

Published

2012

26. [Study on the influence of the contents of paeonol in the cutting process of fresh Cortex Moutan].

Author

Long QJ, Wang XG, Zhou Z, and Zhao B

Subjects

Chromatography, High Pressure Liquid, Paeonia growth & development, Plant Bark chemistry, Plant Bark growth & development, Plant Roots chemistry, Plant Roots growth & development, Quality Control, Reproducibility of Results, Seasons, Sunlight, Acetophenones analysis, Desiccation methods, Drugs, Chinese Herbal chemistry, Paeonia chemistry, Technology, Pharmaceutical methods

Abstract

Objective: To explore the influence of cutting process on the quality of Cortex Moutan., Methods: The contents of paeonol in Cortex Moutan collected by different methods were determined by HPLC., Results: The cutting process of fresh Cortex Moutan was as follows: collectd the 4-years-Cortex Moutan, cleaned sliced fresh Cortex Moutan, and then dried them in the sun., Conclusion: This study provides a scientific basis for the cutting process of fresh Cortex Moutan.

Published

2012

27. Habitat influence on antioxidant activity and tannin concentrations of Spondias tuberosa.

Author

de Sousa Araújo TA, de Almeida e Castro VT, de Amorim EL, and de Albuquerque UP

Subjects

Altitude, Antioxidants chemistry, Antioxidants isolation & purification, Brazil, Ethnopharmacology, Plant Bark growth & development, Plant Extracts chemistry, Plant Extracts isolation & purification, Plant Stems growth & development, Tannins isolation & purification, Trees, Anacardiaceae growth & development, Anacardiaceae metabolism, Antioxidants metabolism, Ecosystem, Plant Bark metabolism, Plant Stems metabolism, Tannins metabolism

Abstract

Context: Different habitat conditions can be responsible for the production of secondary metabolites and for the antioxidant properties of plant products., Objective: Thus, the aim of this study was to evaluate whether the antioxidant activity and tannin concentrations in the stem bark of Spondias tuberosa Arruda (Anacardiaceae) varied with collection site., Material and Methods: The bark was collected from 25 individual trees, distributed in five different landscape units, as follows: agroforestry gardens, areas of pastures, maize cultivation areas, mountain areas and mountain bases, with the former 3 being considered as anthropogenic habitats, and the latter 2 considered as habitats with native coverage. The study was conducted in the rural area of the city of Altinho, Pernambuco State (Northeast Brazil). The DPPH (1,1-diphenyl-2-picrylhydrazyl) method was used to measure the antioxidant activity and tannin concentrations were evaluated by using the radial diffusion method., Results: The results demonstrated that there were no significant differences among the tannin concentrations of the individuals from the native (6.27% ± 1.75) or anthropogenic areas (4.63% ± 2.55), (H = 2.24; p > 0.05). In contrast, there were significant differences (H = 5.1723; p < 0.05) among the CE₅₀ means of the antioxidant activities of the individuals from the native (32.10 µg/ml ± 5.27) and anthropogenic areas (27.07 µg/ml ± 2.29). However, correlations between the tannin concentrations and antioxidant activity of the extracts were not observed in the native (r = 0.39; p > 0.05) or in the anthropogenic areas (r = 0.38; p > 0.05)., Discussion and Conclusion: Because the variation of the antioxidant capacity of S. tuberosa bark was not accompanied by a variation in the tannin concentration, this property may be related to the presence of other metabolite(s).

Published

2012

28. Epicormic buds in trees: a review of bud establishment, development and dormancy release.

Author

Meier AR, Saunders MR, and Michler CH

Subjects

Meristem anatomy & histology, Meristem growth & development, Meristem physiology, Plant Bark anatomy & histology, Plant Bark physiology, Plant Growth Regulators physiology, Plant Shoots anatomy & histology, Plant Shoots growth & development, Plant Shoots physiology, Trees anatomy & histology, Trees physiology, Plant Bark growth & development, Trees growth & development

Abstract

The formation of epicormic sprouts on the boles of trees is a phenomenon that has, until recently, been poorly understood. Renewed interest in the topic in the last two decades has led to significant advances in our knowledge of the subject, especially in regard to bud anatomy, morphology and ontogeny. There exists, however, no comprehensive synthesis of results from different disciplines across genera and geographical areas; this review seeks to fill that void and provide a comprehensive framework capable of guiding future research. A tree's potential for producing epicormic branches is dependent on the number of buds that are produced on a growing shoot, the development of those buds and associated meristems over time and the factors that promote sprout formation or bud death. Based on the descriptions of a limited number of researched species, we were able to describe four different developmental strategies for epicormics based on characteristics of meristem development. Control over epicormic bud dormancy is complex, but it is clear that the traditional view of auxin-mediated dormancy release is incomplete. Genetic control over epicormic development is yet to be empirically proven. Future research should focus on clarifying these physiological and genetic controls of epicormic bud development as well as developing more robust methods for tracking epicormics in ecological and silvicultural studies.

Published

2012

29. Restoration of tensile strength in bark samples of Ficus benjamina due to coagulation of latex during fast self-healing of fissures.

Author

Bauer G and Speck T

Subjects

Tensile Strength, Ficus growth & development, Ficus metabolism, Latex metabolism, Plant Bark growth & development, Plant Bark metabolism

Abstract

Background and Aims: The functions of plant latex have been discussed for a long time. Today, many studies support a defence mechanism as being its main function. A role as a self-healing mechanism was never attributed to the coagulation of latex. In this study we quantified the contribution of the coagulation of Ficus benjamina (weeping fig) latex to a restoration of the mechanical properties of the bark after external lesions., Methods: Tensile tests of F. benjamina bark were conducted either immediately after injury or at various latency times after injury., Key Results: A significant increase in the tensile strength of bark samples until 30 min after injury was found, and this effect could be attributed to the coagulation of plant latex alone. The tensile strength remains nearly constant until several hours or days after injury. Then, very probably due to other mechanisms such as cell growth and cell proliferation, the tensile strength begins to increase slightly again., Conclusions: The coagulation of latex seals lesions and serves as a quick and effective pre-step of subsequent, more effective, long-lasting self-healing mechanisms such as cell growth and proliferation. Thus, a fast self-healing effect can be included in the list of functions of plant latex.

Published

2012

30. Effects of non-uniform root zone salinity on water use, Na+ recirculation, and Na+ and H+ flux in cotton.

Author

Kong X, Luo Z, Dong H, Eneji AE, and Li W

Subjects

Biological Transport physiology, Gossypium growth & development, Gossypium metabolism, Phloem growth & development, Phloem metabolism, Phloem physiology, Photosynthesis physiology, Plant Bark growth & development, Plant Bark metabolism, Plant Bark physiology, Plant Leaves growth & development, Plant Leaves metabolism, Plant Leaves physiology, Plant Roots growth & development, Plant Roots metabolism, Plant Roots physiology, Plant Transpiration physiology, Plants, Genetically Modified, Potassium analysis, Potassium metabolism, Salinity, Seedlings growth & development, Seedlings metabolism, Seedlings physiology, Sodium analysis, Sodium metabolism, Stress, Physiological physiology, Gossypium physiology, Sodium Chloride pharmacology, Sodium-Hydrogen Exchangers metabolism, Water physiology

Abstract

A new split-root system was established through grafting to study cotton response to non-uniform salinity. Each root half was treated with either uniform (100/100 mM) or non-uniform NaCl concentrations (0/200 and 50/150 mM). In contrast to uniform control, non-uniform salinity treatment improved plant growth and water use, with more water absorbed from the non- and low salinity side. Non-uniform treatments decreased Na(+) concentrations in leaves. The [Na(+)] in the '0' side roots of the 0/200 treatment was significantly higher than that in either side of the 0/0 control, but greatly decreased when the '0' side phloem was girdled, suggesting that the increased [Na(+)] in the '0' side roots was possibly due to transportation of foliar Na(+) to roots through phloem. Plants under non-uniform salinity extruded more Na(+) from the root than those under uniform salinity. Root Na(+) efflux in the low salinity side was greatly enhanced by the higher salinity side. NaCl-induced Na(+) efflux and H(+) influx were inhibited by amiloride and sodium orthovanadate, suggesting that root Na(+) extrusion was probably due to active Na(+)/H(+) antiport across the plasma membrane. Improved plant growth under non-uniform salinity was thus attributed to increased water use, reduced leaf Na(+) concentration, transport of excessive foliar Na(+) to the low salinity side, and enhanced Na(+) efflux from the low salinity root.

Published

2012

31. Photosynthetic performance of Jatropha curcas fruits.

Author

Ranjan S, Singh R, Soni DK, Pathre UV, and Shirke PA

Subjects

Carbon Dioxide analysis, Cell Respiration, Chlorophyll metabolism, Chlorophyll A, Fluorescence, Fruit growth & development, Fruit physiology, Fruit radiation effects, Jatropha growth & development, Jatropha radiation effects, Light, Photosynthesis radiation effects, Plant Bark growth & development, Plant Bark physiology, Plant Bark radiation effects, Plant Leaves growth & development, Plant Leaves physiology, Plant Leaves radiation effects, Plant Stomata physiology, Plant Stomata radiation effects, Plant Transpiration radiation effects, Seasons, Seeds growth & development, Seeds physiology, Seeds radiation effects, Temperature, Trees growth & development, Trees physiology, Trees radiation effects, Carbon Dioxide metabolism, Jatropha physiology, Photosynthesis physiology, Plant Transpiration physiology

Abstract

Jatropha curcas (L.) trees under north Indian conditions (Lucknow) produce fruits in two major flushes, once during autumn-winter (October-December). The leaves at this time are at the senescence stages and already shedding. The second flush of fruit setting occurs during the summer (April-June) after the leaves have formed during spring (March-April). Photosynthetic performance of detached jatropha fruits was studied at three developmental stages, immature, mature and ripe fruits. Studies were made in both winter and summer fruits in response to light, temperature and vapour pressure deficit (VPD) under controlled conditions to assess the influence of these environmental factors on the photosynthetic performance of jatropha fruits. Immature fruits showed high light saturating point of around 2000 μmol m(-2) s(-1). High VPD did not show an adverse effect on the fruit A. Stomatal conductance (g(s)) showed an inverse behaviour to increasing VPD, however, transpiration (E) was not restricted by the increasing VPD in both seasons. During winter in absence of leaves on the jatropha tree the fruits along with the bark contributes maximum towards photoassimilation. Dark respiration rates (R(d)) monitored in fruit coat and seeds independently, showed maximum R(d) in seeds of mature fruit and these were about five times more than its fruit coat, reflecting the higher energy requirement of the developing fruit during maximum oil synthesis stage. Photosynthesis and fluorescence parameters studied indicate that young jatropha fruits are photosynthetically as efficient as its leaves and play a paramount role in scavenging the high concentration of CO(2) generated by the fruit during respiration., (Copyright © 2011 Elsevier Masson SAS. All rights reserved.)

Published

2012

32. Mechanical properties of wood disproportionately increase with increasing density.

Author

Niklas KJ and Spatz HC

Subjects

Biomechanical Phenomena, Plant Bark growth & development, Plant Stems growth & development, Trees growth & development, Wood growth & development

Abstract

Premise of Study: Prior work using a large data set has shown that the mechanical properties of wood disproportionately increase with increasing wood density across diverse species, e.g., stems composed of denser wood are stiffer and stronger than stems with equivalent cross-sections composed of less dense wood. However, an alternative approach, introducing the precondition of constant construction cost for the same data set, adduces that for any given construction cost, stems composed of lesser dense woods are stiffer and stronger then stems composed of denser woods., Methods: We evaluated these two approaches using generic allometric principles and the same large data set., Key Results: This evaluation shows that construction costs cannot be constant over an entire ensemble of stems composed of different species of wood. For any specified construction cost (denoted by a k-value), only a particular subgroup of stems is addressed. The conclusions derived for this subgroup cannot be generalized to the entire ensemble of stems composed of different species of wood., Conclusion: Stems composed of denser wood are, on average as stiff and strong, or stiffer and stronger than stems with equivalent cross-sections composed of less dense wood. Denser wood may have a higher carbon construction cost, but its mechanical benefits likely outweigh the extra cost.

Published

2012

33. Influence of Ca/Mg ratio on phytoextraction properties of Salix viminalis I. The effectiveness of Cd, Cu, Pb, and Zn bioaccumulation and plant growth.

Author

Mleczek M, Kozlowska M, Kaczmarek Z, Chadzinikolau T, and Golinski P

Subjects

Biodegradation, Environmental, Biomass, Cadmium analysis, Cadmium metabolism, Copper analysis, Copper metabolism, Lead analysis, Lead metabolism, Metals, Heavy analysis, Plant Bark drug effects, Plant Bark growth & development, Plant Bark metabolism, Plant Roots drug effects, Plant Roots growth & development, Plant Roots metabolism, Plant Shoots drug effects, Plant Shoots growth & development, Plant Shoots metabolism, Salix growth & development, Salix metabolism, Zinc analysis, Zinc metabolism, Calcium pharmacology, Magnesium pharmacology, Metals, Heavy metabolism, Salix drug effects, Soil Pollutants metabolism

Abstract

Phytoremediation and its efficiency--influenced by several factors-is prime concern in reduction of environment contamination with heavy metals. The aim of the study was to estimate in controlled conditions--in relation to the natural Ca/Mg ratio 4:1--the influence of different Ca/Mg ratios (1:1/4, 20:1, 1:10) on selected heavy metals (Cd, Cu, Pb, and Zn) accumulation efficiency shown by three morphological parts of Salix viminalis 'Cinamomea' (cane bark, shoots and roots). Accumulation of heavy metals in experimental conditions was significantly Ca/Mg ratio dependent, and occurred in the following order: 1:10 > 4:1 > 20:1 > 1:1/4. The highest accumulation under 0.5 mM solutions (as compared to 0.1 mM) was noted for copper and zinc, and the lowest for cadmium. Biometric parameters of Salix viminalis cuttings revealed the highest biomass productivity under 20:1 and 4:1 Ca/Mg ratios. In the case of shoot length increase, both metal concentration and kind of metal present in the solution were important. The results indicate that higher calcium ion concentration in solution (Ca/Mg 20:1) stimulates Salix viminalis growth by 3 fold when compared to other Ca/Mg ratio. It can be an important factor in remediation of the environment with this plant.

Published

2012

34. Molecular features of secondary vascular tissue regeneration after bark girdling in Populus.

Author

Zhang J, Gao G, Chen JJ, Taylor G, Cui KM, and He XQ

Subjects

Cambium genetics, Cell Cycle genetics, Down-Regulation genetics, Epigenesis, Genetic, Gene Expression Profiling, Gene Expression Regulation, Plant, Genes, Plant genetics, Models, Biological, Phloem genetics, Plant Bark growth & development, Plant Growth Regulators metabolism, Plant Vascular Bundle growth & development, Populus anatomy & histology, Populus genetics, Populus growth & development, RNA, Messenger genetics, RNA, Messenger metabolism, Regeneration genetics, Reverse Transcriptase Polymerase Chain Reaction, Transcription Factors genetics, Transcription Factors metabolism, Transcriptome genetics, Up-Regulation genetics, Xylem cytology, Xylem genetics, Plant Bark physiology, Plant Vascular Bundle physiology, Populus physiology, Regeneration physiology

Abstract

Regeneration is a common strategy for plants to repair damage to their tissue after attacks from other organisms or physical assaults. However, how differentiating cells acquire regenerative competence and rebuild the pattern of new tissues remains largely unknown. Using anatomical observation and microarray analysis, we investigated the morphological process and molecular features of secondary vascular tissue regeneration after bark girdling in trees. After bark girdling, new phloem and cambium regenerate from differentiating xylem cells and rebuild secondary vascular tissue pattern within 1 month. Differentiating xylem cells acquire regenerative competence through epigenetic regulation and cell cycle re-entry. The xylem developmental program was blocked, whereas the phloem or cambium program was activated, resulting in the secondary vascular tissue pattern re-establishment. Phytohormones play important roles in vascular tissue regeneration. We propose a model describing the molecular features of secondary vascular tissue regeneration after bark girdling in trees. It provides information for understanding mechanisms of tissue regeneration and pattern formation of the secondary vascular tissues in plants., (© 2011 The Authors. New Phytologist © 2011 New Phytologist Trust.)

Published

2011

35. Bark regeneration and tannin content in Myracrodruon urundeuva Allemão after simulation of extractive damages--implications to management.

Author

Monteiro JM, Lins Neto EM, Araújo Ede L, Amorim EL, and Albuquerque UP

Subjects

Anacardiaceae growth & development, Biodiversity, Environmental Monitoring methods, Plant Bark growth & development, Stress, Physiological, Anacardiaceae chemistry, Plant Bark chemistry, Tannins analysis

Abstract

Due to the current exploitation and consequent extinction of native medicinal plants around the world, new strategies have been proposed to address the sustainable use of this resource. Accordingly, the goal of this study is to assess the speed of bark regeneration of Myracrodruon urundeuva Allemão and to compare the tannin content before and after tissue regeneration. Twenty individuals from an area of Caatinga in Caruaru, Pernambuco State (NE Brazil), were selected. To evaluate the speed of bark regeneration, four treatments were established, according to the area of bark removed (10 × 2, 6 × 5, 8 × 5 and 10 × 5 cm), with five replicates (five individuals of M. urundeuva Allemão) and three treatments of tannin content (bark removed before damage, as regenerated tissue, and non-impacted bark or control). At the end of 23 months of monitoring the regeneration, we found that only seven of the 20 individuals analyzed did not fully heal. No significant correlation between the monthly percent regeneration and average monthly precipitation was found. The tannin content varied according to the quantified tissue (after damage, regenerated and control) as well as between damage classes (20 cm(2)-41.64 to 63.53 mg; 30 cm(2)-49.25 to 67.54 mg; 40 cm(2)-31.69 to 67.44 mg; 50 cm(2)-34.08 to 48.53 mg). Despite the variations found, there was no significant difference between the measurement periods (p > 0.05) or damage classes (p > 0.05). The results showed that the regeneration rate was higher in individuals belonging to the 10 × 2 and 10 × 5 cm groups and that there is no correlation between precipitation and regeneration speed. Tannin levels did not vary significantly in the tissues before damage and after regeneration.

Published

2011

36. Phenolic compounds from Byrsonima crassifolia L. bark: phytochemical investigation and quantitative analysis by LC-ESI MS/MS.

Author

Maldini M, Montoro P, and Pizza C

Subjects

Belize, Chromatography, High Pressure Liquid, Malpighiaceae growth & development, Molecular Structure, Phenols chemistry, Plant Bark chemistry, Plant Bark growth & development, Spectrometry, Mass, Electrospray Ionization, Tandem Mass Spectrometry, Malpighiaceae chemistry, Phenols isolation & purification, Plant Extracts isolation & purification

Abstract

Phytochemical investigation of the methanolic extract of Byrsonima crassifolia's bark led to the isolation of 8 known phenolic compounds 5-O-galloylquinic acid, 3-O-galloylquinic acid, 3,4-di-O-galloylquinic acid, 3,5-di-O-galloylquinic acid, 3,4,5-tri-O-galloylquinic acid, (+)-epicatechin-3-gallate along with (+)-catechin and (+)-epicatechin. Due to their biological value, in the present study, a high-performance liquid chromatography-tandem mass spectrometry (LC-MS/MS) method, working in multiple reaction monitoring (MRM) mode, has been developed to quantify these compounds. B. crassifolia bark resulted in a rich source of phenolic compounds and particularly of galloyl derivates. The proposed analytical method is promising to be applied to other galloyl derivatives to quantify these bioactive compounds in raw material and final products., (Copyright © 2011 Elsevier B.V. All rights reserved.)

Published

2011

37. Scots pine bark, topsoil and pedofauna as indicators of transport pollutions in terrestrial ecosystems.

Author

Marko-Worłowska M, Chrzan A, and Łaciak T

Subjects

Animals, Dust analysis, Hydrogen-Ion Concentration, Invertebrates growth & development, Metals, Heavy analysis, Pinus sylvestris growth & development, Plant Bark chemistry, Plant Bark growth & development, Poland, Population Dynamics, Ecosystem, Environmental Monitoring methods, Invertebrates drug effects, Pinus sylvestris chemistry, Soil Pollutants analysis, Vehicle Emissions analysis

Abstract

The impact of the motorway on pollution was evaluated by determining chosen heavy metals and acid reaction (pH) in the pine bark, in forest and meadow topsoil. The content of these environmental contaminants was determined in the topsoil and in the bark of around 40 year-old Scots pines (Pinus sylvestris L.) growing right next to the soil analyzed. The pollutants were examined at localities situated around 5, 200, 1500 m away from the motorway. To evaluate influence of Cd, Pb, Zn, Cu and the topsoil pH on pedofauna, five meadows localities situated 1, 20, 40, 150, 1550 m away from the motorway were examined. It was detected that in the forest habitats analyzed the bark was characterized by considerably higher acidity (pH 3.14-3.88) than the topsoil of the pines analyzed (pH 5.45-7.22). Except of Cd at locality 200 m and Cu at 1500 m from motorway, the higher concentration of heavy metals was noted in topsoil. In the meadow soil of the locality 150 m from the motorway the highest concentrations of Cd and Zn were detected. The greatest diversity of the meso and macrofauna and trophic relations the most resembling natural were detected in the area furthest away from the motorway, where the content of the heavy metals was the lowest. The lowest density and diversity of meso- and macrofauna were detected in the area situated 40 m, where the concentration of heavy metals was higher than at 1, 20 and 1550 m from the motorway situated localities.

Published

2011

38. The relationship between stem biomechanics and wood density is modified by rainfall in 32 Australian woody plant species.

Author

Onoda Y, Richards AE, and Westoby M

Subjects

Australia, Biological Evolution, Biomechanical Phenomena, Climate, Plant Bark growth & development, Adaptation, Physiological, Plant Stems growth & development, Rain, Trees growth & development, Wood growth & development

Abstract

*Stem mechanical properties are critically linked to foliage deployment and growth strategy, yet variation in stem mechanics across species and habitats is poorly understood. *Here, we compared 32 plant species growing across four sites of contrasting rainfall and soil nutrient availability in Australia. *The modulus of elasticity (MOE) and modulus of rupture (MOR) were tightly correlated with dry sapwood density within sites, but species from low-rainfall environments had higher wood density for a given MOE and MOR compared with species growing in high-rainfall environments. The ratio of MOE to MOR was slightly lower for species at low-rainfall sites, suggesting that wood was stronger for a given elasticity. Most species had thick bark, but the mechanical contribution of bark to stem MOE was small. *Our results suggest that arid-adapted species would need to deploy more dry mass to support stems. Our results also highlight the importance of understanding how the biomechanics-wood density relationship evolves under different environmental conditions to better understand plant growth across diverse habitats.

Published

2010

39. [Study on effect of picking bud and cutting old branch on the production of root bark of Fengdan in Anhui].

Author

Fang CW, Yang C, Liu XL, Wang SL, Wang ZQ, and Wang DQ

Subjects

Flowers physiology, Paeonia physiology, Plant Bark physiology, Plant Roots growth & development, Plant Roots physiology, Plant Stems physiology, Plants, Medicinal physiology, Seasons, Time Factors, Flowers growth & development, Paeonia growth & development, Plant Bark growth & development, Plant Stems growth & development, Plants, Medicinal growth & development

Abstract

Objective: To increase the production of root bark of Fengdan by means of picking bud and cutting old branch cultivated in Nanling, Anhui province., Methods: An experimental plot where Fengdan has been culitivated for 4 years was selected, which was divided into 3 sections for the experiment of picking bud, cutting old branch and comparison. The buds were picked in spring of the first year. 20 plants were dug randomly from both of picking bud and comparison section monthly during April and September, and the dry weight of their root bark was recorded, respectively. The old branches were cut in autumn. 20 plants were dug randomly from both sections of cutting branch and comparison monthly during April and September of the second year, and their root bark dry weight was recorded., Results: The statistical and comparative results showed that compared to the comparison section, prcking bud section botains little increase of production of root bark, while cutting old branch section had got notable increase of production., Conclusion: Picking bud plays an unimportant role in the production of Fengdan bark, while cutting old branch has significant influence on it.

Published

2009

40. [Construction on ISSR fingerprint of Magnolia officinalis from Enshi in Hubei province].

Author

Yang HB, Cui GH, Zhan YH, Shao AJ, Liao CL, and Lin XM

Subjects

DNA, Plant genetics, Genetic Markers, Magnolia classification, Magnolia growth & development, Phylogeny, Plant Bark genetics, Plant Bark growth & development, Plants, Medicinal growth & development, Polymerase Chain Reaction, Quality Control, Genetic Variation, Magnolia genetics, Minisatellite Repeats, Plants, Medicinal genetics

Abstract

Objective: To establish the ISSR fingerprint of the cortex of Magnolia officinalis produced from Enshi., Methods: Cultivar and habit identification was based on Inter-simple sequence repeats (ISSR)., Results: Two ISSR primes could be used to construct the ISSR fingerprint of M. officinalis from Enshi., Conclusion: The ISSR marker is an effective method for the cultivar and habit identification of the cortex of M. officinralis.

Published

2009

41. Effects of reduced nitrogen compounds on epiphytic lichen communities in Mediterranean Italy.

Author

Frati L, Brunialti G, and Loppi S

Subjects

Hydrogen-Ion Concentration, Italy, Mediterranean Sea, Pinus physiology, Plant Bark growth & development, Plant Bark physiology, Quaternary Ammonium Compounds analysis, Quaternary Ammonium Compounds toxicity, Environmental Monitoring methods, Environmental Pollutants analysis, Environmental Pollutants toxicity, Lichens drug effects, Lichens growth & development, Nitrogen analysis, Nitrogen toxicity, Pinus growth & development

Abstract

The effects of reduced nitrogen compounds on epiphytic lichen vegetation have been largely investigated in northern Europe. This paper reports for the first time results of a study carried out on pine trees in the Mediterranean basin. Contrary to the usual acidophytic lichen colonization of pine bark, in this case a nitrophytic lichen vegetation was found, suggesting that the study area is characterized by a diffuse eutrophication. Tree circumference, distance from the stock farms, bark pH and bark electrical conductivity emerged as the main factors influencing the distribution and abundance of epiphytic lichens in the study area. Both Hyperphyscia adglutinata and Xanthoria parietina were suitable local indicator species of high pine bark pH values. However, while X. parietina indicated high nitrogen dust pollution, H. adglutinata occurred also where there was an additional increase in bark pH caused by the release of high amounts of ammonia. The increased nitrogen availability caused by ammonium apparently had no effect on the occurrence of nitrophytes.

Published

2008

42. Absorption of polycyclic aromatic hydrocarbons by Pinus bark: analytical method and use for environmental pollution monitoring in the Palermo area (Sicily, Italy).

Author

Orecchio S, Gianguzza A, and Culotta L

Subjects

Absorption, Cities, Gas Chromatography-Mass Spectrometry, Plant Bark growth & development, Sicily, Surface Properties, Air Pollutants analysis, Environmental Monitoring methods, Pinus growth & development, Polycyclic Aromatic Hydrocarbons analysis

Abstract

In the light of using biomaterial as pollutants sorbents for the environmental biomonitoring, we report here the results of the absorption of polycyclic aromatic hydrocarbons (PAHs) by pine bark. Quantitative analysis of 19 different polycyclic aromatic compounds was performed, after Soxhlet extraction in dichloromethane, by means GC-MS technique. Pinus was chosen due to its wide distribution in the Mediterranean area. The passive absorption of PAH by pine bark in the metropolitan areas allowed us to evaluate the air quality of Palermo. The obtained results showed a very high range of PAHs concentrations, from 33 microg/kg (bark dry weight), as SigmaPAHs, at the control site to 1015 microg/kg along a road with high traffic flow.

Published

2008

43. Growth and wood/bark properties of Abies faxoniana seedlings as affected by elevated CO2.

Author

Qiao YZ, Zhang YB, Wang KY, Wang Q, and Tian QZ

Subjects

Analysis of Variance, Biomass, Plant Bark drug effects, Plant Stems drug effects, Plant Stems growth & development, Quantitative Trait, Heritable, Wood drug effects, Abies drug effects, Abies growth & development, Carbon Dioxide pharmacology, Plant Bark growth & development, Seedlings drug effects, Seedlings growth & development, Wood growth & development

Abstract

Growth and wood and bark properties of Abies faxoniana seedlings after one year's exposure to elevated CO2 concentration (ambient + 350 (+/- 25) micromol/mol) under two planting densities (28 or 84 plants/m(2)) were investigated in closed-top chambers. Tree height, stem diameter and cross-sectional area, and total biomass were enhanced under elevated CO2 concentration, and reduced under high planting density. Most traits of stem bark were improved under elevated CO2 concentration and reduced under high planting density. Stem wood production was significantly increased in volume under elevated CO2 concentration under both densities, and the stem wood density decreased under elevated CO2 concentration and increased under high planting density. These results suggest that the response of stem wood and bark to elevated CO2 concentration is density dependent. This may be of great importance in a future CO2 enriched world in natural forests where plant density varies considerably. The results also show that the bark/wood ratio in diameter, stem cross-sectional area and dry weight are not proportionally affected by elevated CO2 concentration under the two contrasting planting densities. This indicates that the response magnitude of stem bark and stem wood to elevated CO2 concentration are different but their response directions are the same.

Published

2008

44. [Phenols in seedling cortex of Magnolia officinalis from Enshi].

Author

Yang HB, Zhan YH, Shi L, Liao CL, Lin XM, and Lan XQ

Subjects

Age Factors, China, Chromatography, High Pressure Liquid, Magnolia classification, Magnolia growth & development, Plant Bark chemistry, Plant Bark growth & development, Plant Stems chemistry, Plant Stems growth & development, Plants, Medicinal growth & development, Seedlings chemistry, Seedlings growth & development, Biphenyl Compounds analysis, Lignans analysis, Magnolia chemistry, Plants, Medicinal chemistry

Abstract

Objective: To study the phenols in Cortex of Magnolia officinalis of biernial seedings produced in Enshi, Hubei., Methods: The content of magnolol and honokiol in cortexes were determined by HPLC. The chromatograms of 10 samples seedling cortexes were recorded and compared., Results: The content of magnolol and honokiol in Cortex of Magnolia officinalis of the seedlings from Enshi was higher than other samples. There were ten characteristic absorption bands in the HPLC chromatograms, which differed from the cortex of adult trees., Conclusion: The results can be used to identify the quality of the seedlings for the breeding.

Published

2008

45. Regeneration of the secondary vascular system in poplar as a novel system to investigate gene expression by a proteomic approach.

Author

Du J, Xie HL, Zhang DQ, He XQ, Wang MJ, Li YZ, Cui KM, and Lu MZ

Subjects

Electrophoresis, Gel, Two-Dimensional, Plant Bark metabolism, Proteomics, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Wood, Gene Expression Regulation, Developmental, Gene Expression Regulation, Plant, Plant Bark growth & development, Plant Proteins metabolism, Populus physiology

Abstract

Wood formation is a complex process composing many biological events. To access its key developmental stages, we have established a regeneration system that can mimic the initiation and differentiation of cambium cells for Chinese white poplar. Anatomical studies showed that new cambium and xylem re-appeared in sequence within a few weeks after being debarked. This provides the opportunity to follow key stages of wood formation by sampling clonal trees at different regeneration times. We used this system in combination with a proteomic approach to analyze proteins expressed in different regeneration stages. PMFs for 244 proteins differentially displayed were obtained and queried against public databases. Putative functions of 199 of these proteins were assigned and classified. Regulatory genes for cell cycle progression, differentiation and cell fate were expressed in the formation of cambial tissue, while 27 genes involved in secondary wall formation were predominantly found in the xylem developing stage. This indicates that the change of gene expression pattern is corresponding to the progression of second vascular system regeneration when and where the key events of wood development occur. Further exploration of these interesting genes may provide insight into the molecular mechanisms of wood formation.

Published

2006

46. Characterization of four terpene synthase cDNAs from methyl jasmonate-induced Douglas-fir, Pseudotsuga menziesii.

Author

Huber DP, Philippe RN, Godard KA, Sturrock RN, and Bohlmann J

Subjects

Acetates, Amino Acid Sequence, Cloning, Molecular, Cyclopentanes, DNA, Complementary genetics, DNA, Plant genetics, Molecular Sequence Data, Oxylipins, Plant Bark enzymology, Plant Bark genetics, Plant Bark growth & development, Plant Growth Regulators, Plant Shoots enzymology, Plant Shoots genetics, Plant Shoots growth & development, Pseudotsuga genetics, Pseudotsuga growth & development, Sequence Alignment, Alkyl and Aryl Transferases genetics, Plant Proteins genetics, Pseudotsuga enzymology, Terpenes metabolism

Abstract

Numerous terpenoid compounds are present in copious amounts in the oleoresin produced by conifers, especially following exposure to insect or fungal pests. CDNA clones for many terpene synthases responsible for the biosynthesis of these defense compounds have been recovered from several conifer species. Here, the use of three terpene synthase sequences as heterologous probes for the discovery of related terpene synthase genes in Douglas-fir, Pseudotsuga menziesii (Mirbel) Franco (Pinaceae), is reported. Four full-length terpene synthase cDNAs were recovered from a methyl jasmonate-induced Douglas-fir bark and shoot cDNA library. These clones encode two multi-product monoterpene synthases [a (-)-alpha-pinene/(-)-camphene synthase and a terpinolene synthase] and two single-product sesquiterpene synthases [an (E)-beta-farnesene synthase and a (E)-gamma-bisabolene synthase].

Published

2005

47. [Effect of Ca2+ concentration on the growth and bark quality of Pteroceltis tatarinowii].

Author

Fu X, Fang S, Tian Y, and Hong S

Subjects

Biomass, Dose-Response Relationship, Drug, Quality Control, Calcium pharmacology, Plant Bark growth & development, Ulmaceae growth & development

Abstract

Hoagland nutrient solutions with three Ca2+ concentration levels (5, 10 and 15 mmol x L(-1)) and a control (no Ca) were used to culture Pteroceltis tatarinowii seedlings. The results indicated that in the control, most seedlings were dead and the survived seedlings were grown poorly, while in three Ca2+ concentration treatments, there were no significant differences in seedling height growth and biomass by the end of the experiment. The Ca content in the root, leaf and bark of Pteroceltis tatarinowii increased with increasing Ca2+ concentrations, and ranked as root > leaf > bark. Ca treatments had no significant effects on the wood and bark density and the fiber shape traits of one-year seedlings. However, the wood fiber length was the longest and the wood fiber width was the widest at the 10 mmol x L(-1) Ca2+ concentration treatment, while the bark fiber length and the ratio of fiber length to fiber width were the best at the 5 mmol x L(-1) Ca2+ concentration treatment. Among the three Ca2+ concentration treatments, the bark fiber length was over 2 mm, and the ratio of fiber length to fiber width was much higher (about 4 times) than that of the wood. There was a significant difference in cellulose contents of wood and bark of one-year seedlings among the three Ca2+ concentration treatments, and the highest cellulose content was achieved at the 10 mmol L- Ca2+ concentration treatment. These results provided some information for the improvement of the growth and bark quality of Pteroceltis tatarinowii grown on non-limestone soil.

Published

2004

48. A high-resolution transcript profile across the wood-forming meristem of poplar identifies potential regulators of cambial stem cell identity.

Author

Schrader J, Nilsson J, Mellerowicz E, Berglund A, Nilsson P, Hertzberg M, and Sandberg G

Subjects

Cell Division genetics, Chromosome Mapping, Gene Expression Profiling, Genetic Markers genetics, Genome, Plant, Meristem growth & development, Meristem metabolism, Multigene Family genetics, Plant Bark genetics, Plant Bark growth & development, Plant Bark metabolism, Populus growth & development, Populus metabolism, Stem Cells cytology, Transcription, Genetic genetics, Cell Differentiation genetics, Gene Expression Regulation, Plant genetics, Meristem genetics, Populus genetics, Stem Cells metabolism

Abstract

Plant growth is the result of cell proliferation in meristems, which requires a careful balance between the formation of new tissue and the maintenance of a set of undifferentiated stem cells. Recent studies have provided important information on several genetic networks responsible for stem cell maintenance and regulation of cell differentiation in the apical meristems of shoots and roots. Nothing, however, is known about the regulatory networks in secondary meristems like the vascular cambium of trees. We have made use of the large size and highly regular layered organization of the cambial meristem to create a high-resolution transcriptional map covering 220 microm of the cambial region of aspen (Populus tremula). Clusters of differentially expressed genes revealed substantial differences in the transcriptomes of the six anatomically homogenous cell layers in the meristem zone. Based on transcriptional and anatomical data, we present a model for the position of the stem cells and the proliferating mother cells in the cambial zone. We also provide sets of marker genes for different stages of xylem and phloem differentiation and identify potential regulators of cambial meristem activity. Interestingly, analysis of known regulators of apical meristem development indicates substantial similarity in regulatory networks between primary and secondary meristems.

Published

2004

49. Cellular machinery of wood production: differentiation of secondary xylem in Pinus contorta var. latifolia.

Author

Samuels AL, Rensing KH, Douglas CJ, Mansfield SD, Dharmawardhana DP, and Ellis BE

Subjects

Cell Differentiation, Cell Wall chemistry, Cell Wall metabolism, Cell Wall ultrastructure, Cinnamates metabolism, Golgi Apparatus metabolism, Golgi Apparatus ultrastructure, Immunohistochemistry, Microscopy, Electron, Pinus cytology, Pinus metabolism, Plant Bark metabolism, Plant Bark ultrastructure, Polysaccharides biosynthesis, beta-Glucosidase metabolism, Lignin metabolism, Pinus growth & development, Plant Bark growth & development

Abstract

The objectives of this study were to define cell structure during pine secondary xylem development and to integrate this information with current knowledge of the biochemistry and physiology of secondary cell wall biosynthesis in gymnosperms. Lodgepole pine (Pinus contorta var. latifolia Englem.) cambium and secondary xylem were cryofixed using high pressure freezing and freeze-substitution which allowed excellent preservation of the cell structure of developing secondary xylem and enabled high-resolution transmission electron microscopic viewing of these cells for the first time. In contrast to their precursors in the adjacent cambial zone, developing tracheids were active in secondary wall deposition, with abundant cortical microtubules and developing bordered pits. These cells were also characterized by unusual Golgi structures: the trans-Golgi network was highly developed and the associated vesicles were large and darkly stained. These unusual Golgi structures persisted throughout the period of xylem maturation until programmed cell death occurred. Immuno-cytochemistry and enzyme-gold probes were used to investigate the distribution of key secretory products (mannans) and a lignification-associated enzyme (coniferin beta-glucosidase) during xylogenesis. Mannans were localized to the secondary cell wall, the trans-Golgi cisternae and trans-Golgi network vesicles of developing xylem. Coniferin beta-glucosidase was found only in the secondary cell wall. The cell wall localization of coniferin beta-glucosidase, the enzyme responsible for cleaving glucose from coniferin to generate free coniferyl alcohol, provides a mechanism to de-glucosylate monolignols in muro. A two-step model of lignification of conifer tracheids is proposed. First, Golgi-mediated secretion deposits monolignols into the cell wall, where they polymerize in cell corners and middle lamella. Secondly, cell lysis releases stored, vacuolar monolignol glucosides into the wall where they are deglucosylated and their polymerization is influenced by the wall environment including the lignin deposited earlier.

Published

2002

50. Ultrastructure of vascular cambial cell cytokinesis in pine seedlings preserved by cryofixation and substitution.

Author

Rensing KH, Samuels AL, and Savidge RA

Subjects

Cell Membrane physiology, Cell Membrane ultrastructure, Cell Polarity physiology, Cell Wall physiology, Cell Wall ultrastructure, Cryopreservation methods, Cytoplasmic Vesicles physiology, Cytoplasmic Vesicles ultrastructure, Microscopy, Electron methods, Microtubules physiology, Microtubules ultrastructure, Orientation physiology, Pinus physiology, Plant Bark physiology, Seedlings physiology, Spindle Apparatus physiology, Spindle Apparatus ultrastructure, Tissue Fixation methods, Mitosis physiology, Pinus growth & development, Pinus ultrastructure, Plant Bark growth & development, Plant Bark ultrastructure, Seedlings growth & development, Seedlings ultrastructure

Abstract

Trees depend on the secondary vascular cambium to produce cells for new xylem and phloem. The fusiform cells of this lateral meristem are long and narrow, presenting special challenges for arranging the mitotic spindle and phragmoplast. Fusiform cambial cells of Pinus ponderosa and Pinus contorta were studied by cryofixation and cryosubstitution which preserved ultrastructure and phases of cytokinesis with a resolution not previously attained. Membranous structures including the plasma membrane, tonoplast, and those of other organelles were smooth and unbroken, indicating that they were preserved while the protoplasm was in a fully turgid state. Mitotic spindles separated daughter chromosomes diagonally across the radial width of the cells. The cell plate was initiated at an angle to the cell axis between the anaphase chromosomes by a microtubule array which organized vesicles at the phragmoplast midline. Within the phragmoplast, vesicles initially joined across thin tubular projections and then amalgamated into a tubulo-vesicular network. Axial expansion of the cell plate generated two opposing phragmoplasts connected by a thin, extended bridge of cell plate and cytoplasm that was oriented along the cell axis. In the cytoplasmic bridge trailing each phragmoplast, the callose-rich tubular network gradually consolidated into a fenestrated plate and then a complete cell wall. Where new membrane merged with old, the parent plasmalemma appeared to be loosened from the cell wall and the membranes joined via a short tubulo-vesicular network. These results have not been previously reported in cambial tissue, but the same phases of cytokinesis have been observed in cryofixed root tips and suspension-cultured cells of tobacco.

Published

2002