Your search keyword '"Epicuticular waxes"' showing total 249 results

1. Drought induced metabolic shifts and water loss mechanisms in canola: role of cysteine, phenylalanine and aspartic acid.

Author

Elferjani, Raed, Pahari, Shankar, Soolanayakanahally, Raju, Ballantyne, Krista, and Nambara, Eiji

Subjects

ASPARTIC acid, RAPESEED, PLANT biomass, AMINO acids, PHENYLALANINE, SUCROSE, ABSCISIC acid

Abstract

Drought conditions severely curtail the ability of plants to accumulate biomass due to the closure of stomata and the decrease of photosynthetic assimilation rate. Additionally, there is a shift in the plant's metabolic processes toward the production of metabolites that offer protection and aid in osmoadaptation, as opposed to those required for development and growth. To limit water loss via non-stomatal transpiration, plants adjust the load and composition of cuticle waxes, which act as an additional barrier. This study investigates the impact of soil water deficit on stomatal and epicuticular water losses, as well as metabolic adjustments in two canola (Brassica napus L.) cultivars—one drought-tolerant and the other drought-sensitive. Specifically, we examined the effect of a drought treatment, which involved reducing water holding capacity to 40%, on the levels of cysteine, sucrose, and abscisic acid (ABA) in the leaves of both cultivars. Next, we looked for potential differences in night, predawn, and early morning transpiration rates and the epicuticular wax load and composition in response to drought. A substantial rise in leaf cysteine was observed in both canola cultivars in response to drought, and a strong correlation was found between cysteine, ABA, and stomatal conductance, indicating that cysteine and sulfur may play a role in controlling stomatal movement during drought stress. Attributes related to CO2 diffusion (stomatal and mesophyll conductance) and photosynthetic capacity were different between the two canola cultivars suggesting a better management of water relations under stress by the drought-tolerant cultivar. Epicuticular waxes were found to adjust in response to drought, acting as an additional barrier against water loss. Surprisingly, both canola cultivars responded similarly to the metabolites (cysteine, sucrose, and ABA) and epicuticular waxes, indicating that they were not reliable stress markers in our test setup. However, the higher level of phenylalanine in the drought-tolerant canola cultivar is suggestive that this amino acid is important for adaptation to drier climates. Furthermore, a multitrait genotype-ideotype distance index (MGIDI) revealed the likely role of aspartic acid in sustaining nitrogen and carbon for immediate photosynthetic resumption after drought episodes. In conclusion, leveraging amino acid knowledge in agriculture can enhance crop yield and bolster resistance to environmental challenges. [ABSTRACT FROM AUTHOR]

Published

2025

2. Relationship between Salmonella enterica attachment and leaf hydrophobicity, roughness, and epicuticular waxes: a focus on 30 baby‐leaf salads.

Author

Truschi, Stefania, Marini, Lorenzo, Cacciari, Ilaria, Baldi, Ada, Bruschi, Piero, Lenzi, Anna, Baales, Johanna, Zeisler‐Diehl, Viktoria V., Schreiber, Lukas, and Marvasi, Massimiliano

Subjects

*SALMONELLA enterica, *FOOD safety, *CONTACT angle, *FATTY acids, *WAXES

Abstract

BACKGROUND: The first step in the contamination of leafy vegetables by human pathogens is their attachment to the leaf surface. The success of this is influenced strongly by the physical and chemical characteristics of the surface itself (number and size of stomata, presence of trichomes and veins, epicuticular waxes, hydrophobicity, etc.). This study evaluated the attachment of Salmonella enterica to 30 baby‐leaf salads and tested whether the differences found among them were related to the following leaf traits: hydrophobicity, roughness, and epicuticular waxes. RESULTS: Differences in susceptibility to contamination by S. enterica were found between the 30 baby‐leaf salads investigated. The lowest attachment was found in wild lettuce (Lactuca serriola L.) and lamb's lettuce 'Trophy F1' (Valerianella locusta [L.] Laterr.), with values of 1.63 ± 0.39 Log(CFU/cm2) and 1.79 ± 0.54 Log(CFU/cm2), respectively. Attachment was correlated with hydrophobicity (measured as contact angle) (r = −0.39) and epicuticular waxes (r = −0.81) but not with roughness (r = 0.24). The most important wax components for attachment were alcohols and, in particular, the three‐dimensional (3D) wax crystals of C26 alcohol, but fatty acids probably also had a role. Both these compounds increased hydrophobicity. The presence of thymol, whose antimicrobial properties are well known, was found in lamb's lettuce. CONCLUSIONS: The findings of this study can help to predict and control the attachment and contamination of leafy salads by enterobacteria. They also provide useful information for breeding programs aiming to develop cultivars that are less susceptible to human pathogens, enhancing the food safety of vegetables. © 2024 The Author(s). Journal of the Science of Food and Agriculture published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published

2024

3. Exploring the interplay between host plant structural defences and origin on behavioural and life‐history traits of two Neotropical danaines.

Author

Ferreira, Pedro Paulo da Silva, Mantuano, Dulce, Campos, Mateus Lorenzo Cavalcanti, and Rodrigues, Daniela

Subjects

*MONARCH butterfly, *CALOTROPIS procera, *HOST plants, *PLANT anatomy, *NYMPHALIDAE

Abstract

Factors that mediate insect herbivore sabotaging behaviour of host plant latex defences remain under debate. The most prominent hypothesis suggests that the anatomy of the host plant's laticifers determines trenching or vein‐cutting behaviour, but there are inconsistencies in the literature. In addition to latex, other plant defences have been shown to affect plant natural enemies, but experimental studies comparing the effects of multiple defences on herbivore performance and behaviour are scarce. In this study, we investigated the anatomy of the laticifers of Calotropis procera (Aiton) W.T. Aiton (Apocynaceae), an exotic milkweed of southeastern Brazil, as well as the sabotaging behaviour of larvae of southern monarch, Danaus erippus (Cramer), and queen butterfly, Danaus gilippus (Cramer) (Lepidoptera: Nymphalidae) on this host plant. We also reviewed the sabotaging behaviour of larvae reared on the native milkweed Asclepias curassavica L. (Apocynaceae) from previous studies, as well as the description of the anatomy of its laticifers. As we found no correspondence between sabotaging behaviour of southern monarchs and queens and the anatomy of the host plants' laticifers, we tested whether structural defences of C. procera leaves (latex, waxes and trichomes) affected sabotaging behaviour and larval performance of southern monarch larvae. The structural barriers of this well‐defended host affected larvae in different ways: Southern monarchs developed more slowly on control leaves than on leaves from which wax had been removed, and only latex removal reduced the frequency of sabotaging behaviour. Regardless of the defence removal treatment, frequencies of trenching behaviour decreased and vein‐cutting behaviour increased as larvae developed. Overall, our results show that several factors in addition to the anatomy of laticifers affect sabotaging behaviour of southern monarchs and queens, including larval ontogeny, danaine species and latex outflow. This evidence suggests a behavioural plasticity in the sabotaging behaviour of larvae of both southern monarchs and queens. [ABSTRACT FROM AUTHOR]

Published

2024

4. The dominant white color trait of the melon fruit rind is associated with epicuticular wax accumulation.

Author

Ezer, Ran, Manasherova, Ekaterina, Gur, Amit, Schaffer, Arthur A., Tadmor, Yaakov, and Cohen, Hagai

Abstract

Main Conclusion: Microscopic analyses and chemical profiling demonstrate that the white rind phenotype in melon fruit is associated with the accumulation of n-alkanes, fatty alcohols, aldehydes and wax esters. Serving as an indicator of quality, the rind (or external) color of fruit directly affects consumer choice. A fruit’s color is influenced by factors such as the levels of pigments and deposited epicuticular waxes. The latter produces a white-grayish coating often referred to as “wax bloom”. Previous reports have suggested that some melon (Cucumis melo L.) accessions may produce wax blooms, where a dominant white rind color trait was genetically mapped to a major locus on chromosome 7 and suggested to be inherited as a single gene named Wi. We here provide the first direct evidence of the contribution of epicuticular waxes to the dominant white rind trait in melon fruit. Our light and electron microscopy and gas chromatography-mass spectrometry (GC–MS) comparative analysis of melon accessions with white or green rinds reveals that the rind of melon fruit is rich in epicuticular waxes. These waxes are composed of various biochemical classes, including fatty acids, fatty alcohols, aldehydes, fatty amides, n-alkanes, tocopherols, triterpenoids, and wax esters. We show that the dominant white rind phenotype in melon fruit is associated with increased accumulation of n-alkanes, fatty alcohols, aldehydes and wax esters, which are linked with the deposition of crystal-like wax platelets on their surfaces. Together, this study broadens the understanding of natural variation in an important quality trait of melon fruit and promotes the future identification of the causative gene for the dominant white rind trait. [ABSTRACT FROM AUTHOR]

Published

2024

5. Growth responses to elevated environmental humidity vary between phenological forms of Picea abies

Author

Arne Sellin, Katrin Heinsoo, Priit Kupper, Riho Meier, Eele Õunapuu-Pikas, Taavi Reinthal, Katrin Rosenvald, and Arvo Tullus

Subjects

atmospheric humidity, climate change, epicuticular waxes, FAHM experiment, growth responses, needle/shoot morphology, Forestry, SD1-669.5, Environmental sciences, GE1-350

Abstract

IntroductionGlobal warming promotes geographical variability in climate, although the trends differ for the lower and higher latitudes of the Northern Hemisphere. By the end of the current century, the climate models project an increase of up to 20–30% in summer precipitation for northern Europe, accompanied by an increase in atmospheric humidity. Information on the effects of increasing precipitation and air humidity on the performance of northern trees is scant.MethodsWe studied the effects of artificially elevated air relative humidity (RH) and soil moisture on growth, phenology and needle/shoot morphology of 5-year-old Norway spruce (Picea abies) saplings at the Free Air Humidity Manipulation (FAHM) experimental site in eastern Estonia. The trees were subjected to three treatments: C – control, ambient conditions; H – air humidification, mean relative humidity ~ + 5%; I – soil irrigation, precipitation +15%. Trees from pure stands were sampled from three experimental plots per treatment in 2022.ResultsThe needle morphology of P. abies was insensitive to moderate changes in air humidity and soil water content in northern mesic conditions. In contrast, the humidity treatments significantly affected shoot size, which decreased in the following order: C > I > H. This finding indicates a certain deceleration of the development of trees’ assimilating surface under elevated air humidity. The humidity manipulation did not influence the timing of bud burst, but the trees differentiated between two phenological forms – early-and late-flushing forms. Trees growing under elevated RH exhibited slower growth rates compared to trees in C and I treatments. The early-flushing trees grew faster, while the late-flushing trees performed better under increasing environmental humidity.ConclusionAt high latitudes, the increasing precipitation and concomitant rise in atmospheric humidity counteract the enhancement of trees’ growth and forest productivity predicted for boreal forests due to global warming. Given that the late phenological form of P. abies is more tolerant of wetter climates and less threatened by late spring frosts, it has a greater potential to adapt to regional climate trends predicted for northern Europe.

Published

2024

6. Leaf and stem micromorphology of Jacquemontia evolvuloides (Moric.) Meisn. (Convolvulaceae) populations: New insights for taxonomic classification using light and scanning electron microscopy.

Author

Belo, Deibson Pereira, Buril, Maria Teresa, dos Santos, Edinalva Alves Vital, Arruda, Emília, and Louzada, Rafael Batista

Abstract

Morphoanatomical studies can provide useful and relevant information to support taxonomic groupings. Jacquemontia evolvuloides shows great morphological variability, which has led to numerous taxonomic classifications. To determine if anatomical characters can be used to recognize operational taxonomic units within populations of that species, we analyzed the leaves and stems of 22 populations using light and scanning electron microscopy. The variability of the analyzed characters allowed the grouping of these populations into five morphotypes. The presence of paracytic stomata, laticiferous canals, and stellate trichomes can be considered diagnostic characters of J. evolvuloides. The presence and types of epicuticular waxes, as well as a layer similar to palisade parenchyma in the petioles and stems, the classifications of glandular trichomes, and new types of stomata (anomocytic, anomotetracytic, and brachyparatetracytic) are reported here for the first time for Jacquemontia. The results discussed here help clarify the classification of this species complex and contribute to the taxonomy of Jacquemontia—a genus that has historically been difficult to define due to its wide morphological variation at the species level. Research Highlights: Seven types of epicuticular waxes were identified among J. evolvuloides specimens: granules, threads, entire platelets, coiled rodlets, fissured layers, membranous platelets, and tubules.Six types of trichomes were observed among J. evolvuloides populations: stellate, malpighiaceous, sessile peltate glandular, short pedunculate glandular, stipitate‐glandular, and capitate glandular.We observed that six populations of Jacquemontia evolvuloides located in the Brazilian Caatinga domain have unprecedented sessile peltate trichomes restricted to the main leaf midrib, which were only observed under light microscopy. [ABSTRACT FROM AUTHOR]

Published

2023

7. Phenotypic plasticity in Pinus canariensis seedlings growing at chilling and freezing temperatures

Author

José Carlos Miranda, Unai López de Heredia, Victoria Fernández, and Pilar Pita

Subjects

chilling, freezing, Pinus canariensis, photoinhibition, cell wall stiffness, epicuticular waxes, Forestry, SD1-669.5, Environmental sciences, GE1-350

Abstract

Global change is affecting the frequency and temporal distribution of frost events. We can expect damage caused by low temperatures to increase specially at the upper limit of a species’ elevation range. Here, we assessed how Pinus canariensis two-year old seedlings from different islands and elevations responded differently to chilling and freezing temperatures. Seedlings from six populations were grown either in a greenhouse (tmin = 5 ̊C, chilling conditions) or outdoors (tmin = −3.3 ̊C, freezing conditions) for 104 days in winter. Seedlings from one of these populations belonged to three half-sib families. Maximum quantum yield of Photosystem II and evapotranspiration (ETP) were determined four times throughout the study. All populations suffered photoinhibition under freezing but not under chilling conditions. We measured the lowest ETP in the population from the warmest and driest environment and lowest elevation (250 m) both under chilling and freezing conditions. The three populations from the higher elevations reached the highest ETP under chilling, a likely adaptation to the shortening of the vegetative period. The effect of elevation remained elusive for other parameters, which could be partly attributed to high intrapopulation variability. Epicuticular wax concentration increased and needle water content decreased in plants growing outdoors. All populations except the one most affected by cold dehydration showed osmotic adjustment and a simultaneous decrease in tissue elasticity under freezing. This response was stronger in the population from the highest elevation (2,241 m). Our results highlight the coexistence of adaptive processes, genetic variation and plasticity conditioning the response to low temperatures in this species.

Published

2023

8. MICROMORPHOLOGY OF EPICUTICULAR WAXES IN GENUS MIMOSA (FABACEAE).

Author

Grohar, Mariana C., Morales, Matías, Fortunato, Renée H., and Rosenfeldt, Sonia

Subjects

*MIMOSA, *LEGUMES, *BOTANICAL specimens, *SCANNING electron microscopy, *SURFACE morphology, *WAXES

Abstract

Epicuticular waxes crystallize on the foliar surface with different morphologies, which can be taxonomically relevant features in many taxa. Their morphological analysis was based on scanning electron microscopy (SEM) images on herbarium specimens of selected sections of Mimosa. The present work is the first detailed description and classification of the epidermal micromorphology in the genus Mimosa, focusing on section Calothamnos and Mimosa series Mimosa, subseries Dolentes and Brevipedes. We also describe different wax crystallization morphologies present in these taxa, identifying three different crystallization types: film, plates, and platelets. Novel epidermal micromorphologies have been described, such as papillae in M. lepidorepens. Results allow grouping taxa of the studied sections, contributing to clarifying their taxonomy. SEM images of epicuticular waxes and leaf surfaces could be a new tool for performing a new taxonomic treatment of section Mimosa subser. Dolentes and subser. Brevipedes, and section Calothamnos. [ABSTRACT FROM AUTHOR]

Published

2023

9. Drought induced metabolic shifts and water loss mechanisms in canola: role of cysteine, phenylalanine and aspartic acid.

Author

Elferjani R, Pahari S, Soolanayakanahally R, Ballantyne K, and Nambara E

Abstract

Drought conditions severely curtail the ability of plants to accumulate biomass due to the closure of stomata and the decrease of photosynthetic assimilation rate. Additionally, there is a shift in the plant's metabolic processes toward the production of metabolites that offer protection and aid in osmoadaptation, as opposed to those required for development and growth. To limit water loss via non-stomatal transpiration, plants adjust the load and composition of cuticle waxes, which act as an additional barrier. This study investigates the impact of soil water deficit on stomatal and epicuticular water losses, as well as metabolic adjustments in two canola ( Brassica napus L.) cultivars-one drought-tolerant and the other drought-sensitive. Specifically, we examined the effect of a drought treatment, which involved reducing water holding capacity to 40%, on the levels of cysteine, sucrose, and abscisic acid (ABA) in the leaves of both cultivars. Next, we looked for potential differences in night, predawn, and early morning transpiration rates and the epicuticular wax load and composition in response to drought. A substantial rise in leaf cysteine was observed in both canola cultivars in response to drought, and a strong correlation was found between cysteine, ABA, and stomatal conductance, indicating that cysteine and sulfur may play a role in controlling stomatal movement during drought stress. Attributes related to CO 2 diffusion (stomatal and mesophyll conductance) and photosynthetic capacity were different between the two canola cultivars suggesting a better management of water relations under stress by the drought-tolerant cultivar. Epicuticular waxes were found to adjust in response to drought, acting as an additional barrier against water loss. Surprisingly, both canola cultivars responded similarly to the metabolites (cysteine, sucrose, and ABA) and epicuticular waxes, indicating that they were not reliable stress markers in our test setup. However, the higher level of phenylalanine in the drought-tolerant canola cultivar is suggestive that this amino acid is important for adaptation to drier climates. Furthermore, a multitrait genotype-ideotype distance index (MGIDI) revealed the likely role of aspartic acid in sustaining nitrogen and carbon for immediate photosynthetic resumption after drought episodes. In conclusion, leveraging amino acid knowledge in agriculture can enhance crop yield and bolster resistance to environmental challenges., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. The author(s) declared that they were an editorial board member of Frontiers, at the time of submission. This had no impact on the peer review process and the final decision., (Copyright © 2024 Elferjani, Pahari, Soolanayakanahally, Ballantyne and Nambara.)

Published

2024

10. Maleic and Sulfosuccinic Saturated Aliphatic (C18) Monoesters with Heterogeneous Polyoxyethylene (n=8) Chains - Potential Agroalimentary Pellicular Protection Systems

Author

Mihaela Cazacu, Teodor Traşcă, Adrian Riviş, Ileana Cocan, Calin Jianu, and Corina Costescu

Subjects

aliphatic maleic monoesters, aliphatic sulfosuccinic monoesters, natural plant waxes, synthetic coatings, epicuticular waxes, Agriculture, Technology, Science

Abstract

Natural vegetable waxes in general and the epicuticular in particular, present on the surface of many horticultural products (fruits, vegetables), confer upon them two distinct competences: controlled permeability for water transfer, and respectively for gas transfer in the respiratory process, which significantly affects their window-shop quality. The knowledge and recognition of these qualities has stimulated the study of food product–environment interphase mass transfer mechanisms, along with the diversification of the range of biocompatible synthetic epicuticular waxes that would allow the post-harvest application of protective films. This paper aims to present the possibility of diversification, preparation and basic physico-chemical characterization of the sodium salt of maleic [MEM-ST (n=8)(H)(Na)] and sulfosuccinic monoester [MESS-ST (n=8)(H)(Na)] respectively with heterogeneously polyethoxylated (n=8) stearin, obtained by an adapted classical reaction scheme.

Published

2023

11. Interaction of Epiphyllic Bacteria with Plant Cuticles

Author

Fuchs, Filip, Petruschke, Charlotte, Schreiber, Lukas, Varma, Ajit, editor, Tripathi, Swati, editor, and Prasad, Ram, editor

Published

2020

12. Vicariance Between Cercis siliquastrum L. and Ceratonia siliqua L. Unveiled by the Physical-Chemical Properties of the Leaves' Epicuticular Waxes.

Author

Pereira, Rui F. P., Rocha, João, Nunes, Paulo, Fernandes, Tânia, Ravishankar, Ajith P., Cruz, Rebeca, Fernandes, Mariana, Anand, Srinivasan, Casal, Susana, de Zea Bermudez, Verónica, and Crespí, António L.

Subjects

CAROB, VICARIANCE, PLANT surfaces, CONTACT angle, WAXES, OPTICAL properties

Abstract

Classically, vicariant phenomena have been essentially identified on the basis of biogeographical and ecological data. Here, we report unequivocal evidences that demonstrate that a physical-chemical characterization of the epicuticular waxes of the surface of plant leaves represents a very powerful strategy to get rich insight into vicariant events. We found vicariant similarity between Cercis siliquastrum L. (family Fabaceae, subfamily Cercidoideae) and Ceratonia siliqua L. (family Fabaceae, subfamily Caesalpinoideae). Both taxa converge in the Mediterranean basin (C. siliquastrum on the north and C. siliqua across the south), in similar habitats (sclerophyll communities of maquis) and climatic profiles. These species are the current representation of their subfamilies in the Mediterranean basin, where they overlap. Because of this biogeographic and ecological similarity, the environmental pattern of both taxa was found to be very significant. The physical-chemical analysis performed on the epicuticular waxes of C. siliquastrum and C. siliqua leaves provided relevant data that confirm the functional proximity between them. A striking resemblance was found in the epicuticular waxes of the abaxial surfaces of C. siliquastrum and C. siliqua leaves in terms of the dominant chemical compounds (1-triacontanol (C30) and 1-octacosanol (C28), respectively), morphology (intricate network of randomly organized nanometer-thick and micrometer-long plates), wettability (superhydrophobic character, with water contact angle values of 167.5 ± 0.5° and 162 ± 3°, respectively), and optical properties (in both species the light reflectance/absorptance of the abaxial surface is significantly higher/lower than that of the adaxial surface, but the overall trend in reflectance is qualitatively similar). These results enable us to include for the first time C. siliqua in the vicariant process exhibited by C. canadensis L., C. griffithii L., and C. siliquastrum. [ABSTRACT FROM AUTHOR]

Published

2022

13. Identifikace země původu jablek pomocí chemických analýz [Identification of the country of origin for apples using chemical analysis]

Author

Jana Hajšlová, Vladimír Kocourek, Jiří Sedlák, Petra Vacková, Klára Navrátilová, Kamila Hůrková, and Vojtěch Hrbek

Subjects

malus sp., epicuticular waxes, chemical fingerprints, origin, fruits, Plant culture, SB1-1110, Botany, QK1-989

Abstract

Apples have long been the most important fruit commodity in the Czech Republic, but their domestic production is threatened by imports of cheaper foreign apples. However, taking into account the fact that consumers often prefer domestic products and are willing to pay extra for them, incorrect labelling of the country of origin (socalled "false geographicality") is an unavoidable risk. From an analytical point of view, however, the control of geographical origin is a difficult task and the procedures published so far have their limitations. The aim of this pilot study was to verify the potential of a new, as yet untested strategy for detecting apples with incorrectly stated geographical origin. Non-target analysis of the epicuticular layer of fruits was performed using the UHPLC-HRMS/MS technique. Obtained data ("chemical fingerprints") were analysed using advanced statistical methods. The results showed significant differences in the spectrum of epicuticular waxes of different apple cultivars and indicated the need to process a larger set of exactly characterized fruits, which will allow the construction of a diagnostic model to determine geographical origin.

Published

2021

14. Anatomical and Trait Analyses Reveal a Silicon-Carbon Trade-Off in the Epidermis of Sedges.

Author

de Tombeur F, Plouzeau L, Shaw J, Hodson MJ, Ranathunge K, Kotula J, Hayes PE, Tremblay M, Coq S, Stein M, Nakamura R, Wright IJ, Lambers H, Violle C, and Clode PL

Subjects

Waxes metabolism, Tannins metabolism, X-Ray Microtomography, Phenols metabolism, Cell Wall metabolism, Cell Wall ultrastructure, Silicon metabolism, Plant Epidermis ultrastructure, Plant Leaves anatomy & histology, Plant Leaves physiology, Plant Leaves metabolism, Carbon metabolism

Abstract

In recent years, the detection of numerous negative correlations between silicon (Si) and carbon (C)-based compounds in plants has suggested trade-offs between different stress resistance and/or mechanical support strategies. However, nearly all studies have involved whole-leaf analysis, and it is unclear how the trade-off operates mechanistically, at the cellular level. Here we combined leaf trait measurements and microscopic analyses (electron microscopy with elemental X-ray mapping and X-ray microtomography) of 17 species from a high-Si family: Cyperaceae. Accumulation of Si was strongly negatively correlated with C-based compounds, particularly tannins. Our microscopical investigations showed that the accumulation of phenolics and deposition of silica were mutually exclusive in the outer epidermal cell walls. This trade-off was independent of that between the construction of tough, sclerenchyma-rich leaves and growth potential (the leaf economics spectrum). We also identified a strong negative correlation between Si and accumulation of epicuticular waxes. Previous whole leaf analyses were, in effect, hiding the locations of the trade-off between Si and C-based compounds in plants. The epidermal location of this trade-off and the specific involvement of tannins and waxes suggest the existence of different strategies to resist environmental stresses. Our study provides key insights into plant Si utilization and highlights the multidimensionality of plant stress resistance strategies., (© 2024 The Author(s). Plant, Cell & Environment published by John Wiley & Sons Ltd.)

Published

2025

15. Vicariance Between Cercis siliquastrum L. and Ceratonia siliqua L. Unveiled by the Physical–Chemical Properties of the Leaves’ Epicuticular Waxes

Author

Rui F. P. Pereira, João Rocha, Paulo Nunes, Tânia Fernandes, Ajith P. Ravishankar, Rebeca Cruz, Mariana Fernandes, Srinivasan Anand, Susana Casal, Verónica de Zea Bermudez, and António L. Crespí

Subjects

Cercidoideae, Caesalpinoideae, Mediterranean basin, epicuticular waxes, wettability, optical properties, Plant culture, SB1-1110

Abstract

Classically, vicariant phenomena have been essentially identified on the basis of biogeographical and ecological data. Here, we report unequivocal evidences that demonstrate that a physical–chemical characterization of the epicuticular waxes of the surface of plant leaves represents a very powerful strategy to get rich insight into vicariant events. We found vicariant similarity between Cercis siliquastrum L. (family Fabaceae, subfamily Cercidoideae) and Ceratonia siliqua L. (family Fabaceae, subfamily Caesalpinoideae). Both taxa converge in the Mediterranean basin (C. siliquastrum on the north and C. siliqua across the south), in similar habitats (sclerophyll communities of maquis) and climatic profiles. These species are the current representation of their subfamilies in the Mediterranean basin, where they overlap. Because of this biogeographic and ecological similarity, the environmental pattern of both taxa was found to be very significant. The physical–chemical analysis performed on the epicuticular waxes of C. siliquastrum and C. siliqua leaves provided relevant data that confirm the functional proximity between them. A striking resemblance was found in the epicuticular waxes of the abaxial surfaces of C. siliquastrum and C. siliqua leaves in terms of the dominant chemical compounds (1-triacontanol (C30) and 1-octacosanol (C28), respectively), morphology (intricate network of randomly organized nanometer-thick and micrometer-long plates), wettability (superhydrophobic character, with water contact angle values of 167.5 ± 0.5° and 162 ± 3°, respectively), and optical properties (in both species the light reflectance/absorptance of the abaxial surface is significantly higher/lower than that of the adaxial surface, but the overall trend in reflectance is qualitatively similar). These results enable us to include for the first time C. siliqua in the vicariant process exhibited by C. canadensis L., C. griffithii L., and C. siliquastrum.

Published

2022

16. Comparative analysis of cuticular waxes of the gametophyte and sporophyte of three species of Polytrichaceae.

Author

Matos, Tamara Machado, Peralta, Denilson Fernandes, and Cursino dos Santos, Déborah Yara Alves

Subjects

*WAXES, *SCANNING electron microscopy, *ALCOHOL, *COMPARATIVE studies, *MASS spectrometry, *GAS chromatography

Abstract

Few data are available about cuticular wax of mosses, in general, as well as for Polytrichaceae. In addition, most of these studies investigated only the gametophyte. To improve understanding of wax components and their ecological roles, we compared the morphology and the chemical composition of cuticular waxes of the gametophyte and the sporophyte of the Brazilian species Pogonatum pensilvanicum, Polytrichadelphus pseudopolytrichum (endemic), and Polytrichum juniperinum. The waxes were extracted with dichloromethane, derivatized and analyzed using gas chromatography coupled with mass spectrometry. The total wax content was expressed in µg cm–2 and the compounds were identified based on mass fragmentation patterns. The morphology of epicuticular waxes was studied by scanning electron microscopy. Thicker wax layers were observed over the leafy gametophyte and the calyptra, ranging from 0.2 to 0.3 µg cm–2. For the sporophyte, the wax layer was not homogeneous, ranging from 0.01 to 0.04 µg cm–2 over the seta and from 0.07 to 0.2 µg cm–2 over the capsule. While alkanes and fatty acids were found in the two generations, primary alcohols were detected only in the leaves, and aldehydes and esters were found only in the sporophyte. Nonacosan-10-ol was more abundant in the calyptra and capsule. Film waxes were predominant in the gametophyte and sporophyte. Qualitative and quantitative differences were detected in wax composition according to life phases. As far as we know, this is the first time that the sporophyte parts were investigated separately. We hypothesized that the higher wax content in the calyptra may contribute to the protection of the capsule; however, this idea needs to be confirmed. Besides, our data support previous statements that the biosynthetic machinery for wax components was present in the earliest land plants, protecting both the gametophyte and the sporophyte. [ABSTRACT FROM AUTHOR]

Published

2021

17. Epicuticular wax in Asparagus: interspecific and intraspecific variations

Author

Kumari, Dimple and Singh, Madhavi

Published

2019

18. Assessing the capacity of trees and shrubs species to accumulate of particulate matter (PM10, PM2.5 and PM0.2)

Author

M Hatami-Manesh, S Mortazavi, E Solgi, and A Mohtadi

Subjects

air pollution, particulate matter, leaf surfaces, epicuticular waxes, Environmental sciences, GE1-350

Abstract

Background and Objective: Today, the presence and increase of particulate matter is one of the serious factors that threaten human health. In the meantime, trees can accumulate airborne particles by their foliage. In this study, the accumulating ability of various PM by the leaf of some tree and shrub species was evaluated in Isfahan. Materials and Methods: 12 species of trees and shrubs were selected at 8 locations in Isfahan and the total PM, PM10, PM2.5 and PM0.2 were measured using water and chloroform washing methods by paper filters 91, 42 μm, and Polytetra Fluorethylene filters and digital balance. Results: The results showed that the highest and lowest mean total accumulation of total particulate matter was related to Morus nigra and Salix alba, that were 190.23 ± 23.5 and 11.9 ± 4.42 μg/cm2. In addition, the trend of accumulation of total PM on the leaf surface from the highest to the lowest was: Morus nigra> Platanus orientalis> Ulmus umbraculifera> Morus alba> Acer negundo> Ailanthus altissima> Fraxinus excelsior > Nerium oleander >Robinia pseudoacacia> Cercis siliquastrum> Nerium oleander > Euonymus japonicas> Salix alba and in epicuticular Waxes, Morus nigra> Ulmus umbraculifera > Platanus orientalis > Morus alba> Ailanthus altissima> Acer negundo > Robinia pseudoacacia>Cercis siliquastrum> Fraxinus excelsior > Nerium oleander > Euonymus japonicas> Salix alba. Conclusion: The results indicated that the ability of different tree species to absorb PM depended on the morphological, physiological and ecological characteristics of the leaf. Finally, among the different species the Morus nigra had the highest ability to capture various PM.

Published

2019

19. Leaf Cuticular Transpiration Barrier Organization in Tea Tree Under Normal Growth Conditions

Author

Mingjie Chen, Yi Zhang, Xiangrui Kong, Zhenghua Du, Huiwen Zhou, Zhaoxi Yu, Jianheng Qin, and Changsong Chen

Subjects

Camellia sinensis, cuticular transpiration rate, epicuticular waxes, intracuticular waxes, wax coverage, cuticle thickness, Plant culture, SB1-1110

Abstract

The cuticle plays a major role in restricting nonstomatal water transpiration in plants. There is therefore a long-standing interest to understand the structure and function of the plant cuticle. Although many efforts have been devoted, it remains controversial to what degree the various cuticular parameters contribute to the water transpiration barrier. In this study, eight tea germplasms were grown under normal conditions; cuticle thickness, wax coverage, and compositions were analyzed from the epicuticular waxes and the intracuticular waxes of both leaf surfaces. The cuticular transpiration rates were measured from the individual leaf surface as well as the intracuticular wax layer. Epicuticular wax resistances were also calculated from both leaf surfaces. The correlation analysis between the cuticular transpiration rates (or resistances) and various cuticle parameters was conducted. We found that the abaxial cuticular transpiration rates accounted for 64–78% of total cuticular transpiration and were the dominant factor in the variations for the total cuticular transpiration. On the adaxial surface, the major cuticular transpiration barrier was located on the intracuticular waxes; however, on the abaxial surface, the major cuticular transpiration barrier was located on the epicuticular waxes. Cuticle thickness was not a factor affecting cuticular transpiration. However, the abaxial epicuticular wax coverage was found to be significantly and positively correlated with the abaxial epicuticular resistance. Correlation analysis suggested that the very-long-chain aliphatic compounds and glycol esters play major roles in the cuticular transpiration barrier in tea trees grown under normal conditions. Our results provided novel insights about the complex structure–functional relationships in the tea cuticle.

Published

2021

20. Leaf Cuticular Transpiration Barrier Organization in Tea Tree Under Normal Growth Conditions.

Author

Chen, Mingjie, Zhang, Yi, Kong, Xiangrui, Du, Zhenghua, Zhou, Huiwen, Yu, Zhaoxi, Qin, Jianheng, and Chen, Changsong

Subjects

PLANT cuticle, PLANT-water relationships, TEA, PLANT transpiration, ALIPHATIC compounds, TEA growing, ETHYLENE glycol

Abstract

The cuticle plays a major role in restricting nonstomatal water transpiration in plants. There is therefore a long-standing interest to understand the structure and function of the plant cuticle. Although many efforts have been devoted, it remains controversial to what degree the various cuticular parameters contribute to the water transpiration barrier. In this study, eight tea germplasms were grown under normal conditions; cuticle thickness, wax coverage, and compositions were analyzed from the epicuticular waxes and the intracuticular waxes of both leaf surfaces. The cuticular transpiration rates were measured from the individual leaf surface as well as the intracuticular wax layer. Epicuticular wax resistances were also calculated from both leaf surfaces. The correlation analysis between the cuticular transpiration rates (or resistances) and various cuticle parameters was conducted. We found that the abaxial cuticular transpiration rates accounted for 64–78% of total cuticular transpiration and were the dominant factor in the variations for the total cuticular transpiration. On the adaxial surface, the major cuticular transpiration barrier was located on the intracuticular waxes; however, on the abaxial surface, the major cuticular transpiration barrier was located on the epicuticular waxes. Cuticle thickness was not a factor affecting cuticular transpiration. However, the abaxial epicuticular wax coverage was found to be significantly and positively correlated with the abaxial epicuticular resistance. Correlation analysis suggested that the very-long-chain aliphatic compounds and glycol esters play major roles in the cuticular transpiration barrier in tea trees grown under normal conditions. Our results provided novel insights about the complex structure–functional relationships in the tea cuticle. [ABSTRACT FROM AUTHOR]

Published

2021

21. Organogelation Capacity of Epicuticular and Cuticular Waxes from Flax and Wheat Straws.

Author

Canizares, Diego, Angers, Paul, and Ratti, Cristina

Abstract

Valorization of the agri‐food industry by‐products could contribute to curb issues related to food security and environmental problems. Flax and wheat seeds are major products of this industry, but their production is associated with tons of straws that can be valorized for their cuticular and epicuticular waxes. We aimed to determine the organogelation capacity of epicuticular waxes in comparison to cuticular waxes from both flax and wheat straws. Epicuticular waxes from flax and wheat straws have structured canola oil at 2% and 4% (w/w), respectively, whereas cuticular waxes from flax and wheat straws required critical concentrations of 4% and 5% (w/w), respectively. Characterization of the organogelation capacity (onset of crystallization temperature, temperature of phase transition, crystal morphology, solid fat, crystalline structure, and oil binding capacity) was also carried out. The high onset of crystallization temperature (38.1 ± 1.2°C), the phase transition at high temperature (38 ± 1.5°C), and capacity to structure canola oil at low concentration showed that epicuticular wax from flax straw is a promisor fat substitute, presenting organogelation properties comparable to the best results obtained in the literature for other vegetal waxes. [ABSTRACT FROM AUTHOR]

Published

2021

22. Plasticity of the Cuticular Transpiration Barrier in Response to Water Shortage and Resupply in Camellia sinensis: A Role of Cuticular Waxes

Author

Yi Zhang, Zhenghua Du, Yanting Han, Xiaobing Chen, Xiangrui Kong, Weijiang Sun, Changsong Chen, and Mingjie Chen

Subjects

Camellia sinensis, cuticular transpiration rate, cuticle, drought, epicuticular waxes, intracuticular waxes, Plant culture, SB1-1110

Abstract

The cuticle is regarded as a non-living tissue; it remains unknown whether the cuticle could be reversibly modified and what are the potential mechanisms. In this study, three tea germplasms (Wuniuzao, 0202-10, and 0306A) were subjected to water deprivation followed by rehydration. The epicuticular waxes and intracuticular waxes from both leaf surfaces were quantified from the mature 5th leaf. Cuticular transpiration rates were then measured from leaf drying curves, and the correlations between cuticular transpiration rates and cuticular wax coverage were analyzed. We found that the cuticular transpiration barriers were reinforced by drought and reversed by rehydration treatment; the initial weak cuticular transpiration barriers were preferentially reinforced by drought stress, while the original major cuticular transpiration barriers were either strengthened or unaltered. Correlation analysis suggests that cuticle modifications could be realized by selective deposition of specific wax compounds into individual cuticular compartments through multiple mechanisms, including in vivo wax synthesis or transport, dynamic phase separation between epicuticular waxes and the intracuticular waxes, in vitro polymerization, and retro transportation into epidermal cell wall or protoplast for further transformation. Our data suggest that modifications of a limited set of specific wax components from individual cuticular compartments are sufficient to alter cuticular transpiration barrier properties.

Published

2021

23. Ultrastructural analysis of berry skin from four grapes varieties at harvest and in relation to postharvest dehydration

Author

Stefano Brizzolara, Antonio Minnocci, Elena Yembaturova, and Pietro Tonutti

Subjects

Vitis vinifera, epicuticular waxes, epidermis, hypodermis, water loss, Agriculture, Botany, QK1-989

Abstract

In several production areas, dessert (sweet) and reinforced wines are made after a more or less intense dehydration of harvested grapes. The dehydration process depends on several factors, including the size, morphology and anatomy of the berries, all genetically defined traits that can be affected by vineyard management and microclimate conditions. At harvest, berry outer surface and skin ultrastructural features of cvs Aleatico, Sagrantino, Sangiovese and Trebbiano berries were investigated in a frozen-hydrated state using cryo‑scanning electron microscopy (Cryo‑SEM). The berries were subjected to postharvest dehydration at 23 °C for twelve days and the differences in weight loss were determined. In terms of weight loss rate, Aleatico and Trebbiano were the fastest and the slowest respectively. Therefore, the ultrastructural changes of berry skin of these two varieties were also investigated at the end of the dehydration process. At harvest, the structure of the epicuticular waxes on the skin outer surface differed between berries of different cultivars. The thickness of the cuticle, epidermis and hypodermis was also found to be significantly different, with Trebbiano berries having the thickest skin. At the end of the dehydration process all the measured parameters decreased, in particular Aleatico epicuticular wax, hypodermis and cuticle thickness, as well as the hypodermis cell wall and the mesocarp parenchyma cell area. The high weight loss rate recorded for Aleatico can be partly explained by the thickness of the berry skin at harvest, which was significantly thinner than that of Trebbiano, as well as by other skin-related morphological and histological factors possibly affecting permeability.

Published

2020

24. A Proposed Method for Simultaneous Measurement of Cuticular Transpiration From Different Leaf Surfaces in Camellia sinensis

Author

Yi Zhang, Xiaobing Chen, Zhenghua Du, Wenjing Zhang, Ananta Raj Devkota, Zijian Chen, Changsong Chen, Weijiang Sun, and Mingjie Chen

Subjects

cuticle, cuticular transpiration, epicuticular waxes, intracuticular waxes, adaxial, abaxial, Plant culture, SB1-1110

Abstract

The plant cuticle is the major barrier that limits unrestricted water loss and hence plays a critical role in plant drought tolerance. Due to the presence of stomata on the leaf abaxial surface, it is technically challenging to measure abaxial cuticular transpiration. Most of the existing reports were only focused on leaf astomatous adaxial surface, and few data are available regarding abaxial cuticular transpiration. Developing a method that can measure cuticular transpiration from both leaf surfaces simultaneously will improve our understanding about leaf transpiration barrier organization. Here, we developed a new method that enabled the simultaneous measurement of cuticular transpiration rates from the adaxial and abaxial surfaces. The proposed method combined multi-step leaf pretreatments including water equilibration under dark and ABA treatment to close stomata, as well as gum arabic or vaseline application to remove or seal the epicuticular wax layer. Mathematical formulas were established and used to calculate the transpiration rates of individual leaf surfaces from observed experimental data. This method facilitates the simultaneous quantification of cuticular transpiration from adaxial and abaxial leaf surfaces. By applying this method, we demonstrated that the adaxial intracuticular waxes and the abaxial epicuticular waxes constitute the major transpiration barriers in Camellia sinensis. Wax analysis indicated that adaxial intracuticular waxes had higher coverage of very long chain fatty acids, 1-alkanol esters, and glycols, which may be attributed to its higher transpiration barrier than that of the abaxial intracuticular waxes.

Published

2020

25. Expression of ovate family protein 8 affects epicuticular waxes accumulation in Arabidopsis thaliana

Author

Yao Tang, Wei Zhang, Yan-Li Yin, Peng Feng, Hong-ling Li, and Ying Chang

Subjects

AtOFP8, Epicuticular waxes, Transcription factor, Botany, QK1-989

Abstract

Abstract Background Transcription factors could regulate multiple aspects of plants growth and development, which is significant to plants. Ovate family proteins (OFPs) that are named due to contain OVATE domain, a 70-AA C-terminal conserved domain from the protein OVATE gene encodes, are plant-specific transcription factors family. Some members of OFPs have been shown to function as transcription factors to regulate plant growth and development, but little is known about the function of AtOFP8. Results Here, we found AtOFP8 maybe involve in transcriptional regulation of the epicuticular waxes in Arabidopsis thaliana. First, we observed that the distribution of epicuticular waxes of wild type plants was more than that of Atofp8-1 deletion mutants, but less than that of 35S:HA-AtOFP8 transgenic overexpression lines not only on the leaves but also on the stems utilizing scanning electron microscopes. Second, we extracted waxes from leaves and stems of three types of plants respectively to measure the waxes content and composition by gas chromatography–mass spectrometer (GC–MS), and the results of the total content of waxes were consistent with the results of scanning electron microscopes. Finally, we found that the expression of 12 genes related to the synthesis and metabolism of waxes was changed in the Atofp8-1 mutants and 35S:HA-AtOFP8 transgenic lines compared with wild type plants. Conclusions These findings suggest that AtOFP8 could change the accumulation of epicuticular waxes.

Published

2018

26. Plasticity of the Cuticular Transpiration Barrier in Response to Water Shortage and Resupply in Camellia sinensis : A Role of Cuticular Waxes.

Author

Zhang, Yi, Du, Zhenghua, Han, Yanting, Chen, Xiaobing, Kong, Xiangrui, Sun, Weijiang, Chen, Changsong, and Chen, Mingjie

Subjects

WAXES, WATER shortages, TEA, PHASE separation, CUTICLE, STATISTICAL correlation, DROUGHTS

Abstract

The cuticle is regarded as a non-living tissue; it remains unknown whether the cuticle could be reversibly modified and what are the potential mechanisms. In this study, three tea germplasms (Wuniuzao , 0202-10 , and 0306A) were subjected to water deprivation followed by rehydration. The epicuticular waxes and intracuticular waxes from both leaf surfaces were quantified from the mature 5th leaf. Cuticular transpiration rates were then measured from leaf drying curves, and the correlations between cuticular transpiration rates and cuticular wax coverage were analyzed. We found that the cuticular transpiration barriers were reinforced by drought and reversed by rehydration treatment; the initial weak cuticular transpiration barriers were preferentially reinforced by drought stress, while the original major cuticular transpiration barriers were either strengthened or unaltered. Correlation analysis suggests that cuticle modifications could be realized by selective deposition of specific wax compounds into individual cuticular compartments through multiple mechanisms, including in vivo wax synthesis or transport, dynamic phase separation between epicuticular waxes and the intracuticular waxes, in vitro polymerization, and retro transportation into epidermal cell wall or protoplast for further transformation. Our data suggest that modifications of a limited set of specific wax components from individual cuticular compartments are sufficient to alter cuticular transpiration barrier properties. [ABSTRACT FROM AUTHOR]

Published

2021

27. A Proposed Method for Simultaneous Measurement of Cuticular Transpiration From Different Leaf Surfaces in Camellia sinensis.

Author

Zhang, Yi, Chen, Xiaobing, Du, Zhenghua, Zhang, Wenjing, Devkota, Ananta Raj, Chen, Zijian, Chen, Changsong, Sun, Weijiang, and Chen, Mingjie

Subjects

ABSCISIC acid, PLANT transpiration, TEA, DROUGHT tolerance, PLANT cuticle, ETHYLENE glycol, MATHEMATICAL formulas, GUM arabic

Abstract

The plant cuticle is the major barrier that limits unrestricted water loss and hence plays a critical role in plant drought tolerance. Due to the presence of stomata on the leaf abaxial surface, it is technically challenging to measure abaxial cuticular transpiration. Most of the existing reports were only focused on leaf astomatous adaxial surface, and few data are available regarding abaxial cuticular transpiration. Developing a method that can measure cuticular transpiration from both leaf surfaces simultaneously will improve our understanding about leaf transpiration barrier organization. Here, we developed a new method that enabled the simultaneous measurement of cuticular transpiration rates from the adaxial and abaxial surfaces. The proposed method combined multi-step leaf pretreatments including water equilibration under dark and ABA treatment to close stomata, as well as gum arabic or vaseline application to remove or seal the epicuticular wax layer. Mathematical formulas were established and used to calculate the transpiration rates of individual leaf surfaces from observed experimental data. This method facilitates the simultaneous quantification of cuticular transpiration from adaxial and abaxial leaf surfaces. By applying this method, we demonstrated that the adaxial intracuticular waxes and the abaxial epicuticular waxes constitute the major transpiration barriers in Camellia sinensis. Wax analysis indicated that adaxial intracuticular waxes had higher coverage of very long chain fatty acids, 1-alkanol esters, and glycols, which may be attributed to its higher transpiration barrier than that of the abaxial intracuticular waxes. [ABSTRACT FROM AUTHOR]

Published

2020

28. Particulate matter on foliage of Betula pendula, Quercus robur, and Tilia cordata: deposition and ecophysiology.

Author

Łukowski, Adrian, Popek, Robert, and Karolewski, Piotr

Subjects

EUROPEAN white birch, PARTICULATE matter, ENGLISH oak, ALNUS glutinosa, LINDENS, LEAF morphology

Abstract

Trees in urban and industrial areas significantly help to limit the amount of particulate matter (PM) suspended in the air, but PM has a negative impact on their life. The amount of PM gathered on leaves depends on quantity, size, and morphology of leaves and can also be increased by the presence of epicuticular waxes, in which PM can become stuck or immersed. In this study, we determined the ability of PM to accumulate on leaves in relation to the species of tree and PM source. We tested saplings of three common European tree species (Betula pendula, Quercus robur, and Tilia cordata) by experimentally polluting them with PM from different sources (cement, construction, and roadside PM), and then assessing the effects of PM on plant growth and ecophysiology. In all studied species, we have found two types of PM accumulation: a layer on the leaf surface and an in-wax layer. Results showed that the studied species accumulate PM on their leaf blade, reducing the efficiency of its photosynthetic apparatus, which in a broader sense can be considered a reduction in the plants' normal functioning. Saplings of Q. robur suffered the least, whereas B. pendula (especially photosynthetic rate and conductivity) and T. cordata (especially increase in leader shoot length) exhibited greater negative effects. The foliage of B. pendula collected the most PM, followed by Q. robur, and then T. cordata, regardless of the dust's source. All tested species showed a tendency for higher wax production when growing under PM pollution stress. We believe that, potentially, B. pendula best enhances the quality of the PM-contaminated environment; however, faster leaf fall, reduced productivity, and worse quality of wood should be considered in urban forest management. [ABSTRACT FROM AUTHOR]

Published

2020

29. Evaluation of the surface free energy of plant surfaces: toward standardizing the procedure

Author

Fernández, Victoria, Khayet Souhaimi, Mohamed, Fernández, Victoria, and Khayet Souhaimi, Mohamed

Abstract

© 2015 Fernández and Khayet. This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY).VF is supported by a Ramón y Cajal contract (MINECO, Spain), co-financed by the European Social Fund. Thanks to Ricardo Fernández for his technical support for the development of this study., Plant surfaces have been found to have a major chemical and physical heterogeneity and play a key protecting role against multiple stress factors. During the last decade, there is a raising interest in examining plant surface properties for the development of biomimetic materials. Contact angle measurement of different liquids is a common tool for characterizing synthetic materials, which is just beginning to be applied to plant surfaces. However, some studies performed with polymers and other materials showed that for the same surface, different surface free energy values may be obtained depending on the number and nature of the test liquids analyzed, materials' properties, and surface free energy calculation methods employed. For 3 rough and 3 rather smooth plant materials, we calculated their surface free energy using 2 or 3 test liquids and 3 different calculation methods. Regardless of the degree of surface roughness, the methods based on 2 test liquids often led to the under- or over-estimation of surface free energies as compared to the results derived from the 3 Liquids method. Given the major chemical and structural diversity of plant surfaces, it is concluded that 3 different liquids must be considered for characterizing materials of unknown physico-chemical properties, which may significantly differ in terms of polar and dispersive interactions. Since there are just few surface free energy data of plant surfaces with the aim of standardizing the calculation procedure and interpretation of the results among for instance, different species, organs, or phenological states, we suggest the use of 3 liquids and the mean surface tension values provided in this study., Ministerio de Economía y Competitividad (MINECO)/FEDER, Subprograma Ramón y Cajal (RYC) (MINECO), España, Depto. de Estructura de la Materia, Física Térmica y Electrónica, Fac. de Ciencias Físicas, TRUE, pub

Published

2023

30. Estimation of the solubility parameters of model plant surfaces and agrochemicals: a valuable tool for understanding plant surface interactions

Author

Khayet Souhaimi, Mohamed, Fernández, Victoria, Khayet Souhaimi, Mohamed, and Fernández, Victoria

Abstract

© 2012 Khayet and Fernández; licensee BioMed Central Ltd. The authors wish to thank Dr. M. Steinbauer (La Trobe University, Victoria, Australia), Dr. M. A. Jenks (Western Regional USDA-ARS Biomass Research Center, USA) and E. P. Parsons (Purdue University, USA) for providing information on the composition of epicuticular waxes. We would like to thank the Electron Microscopy National Center (UCM; Madrid, Spain) for technical assistance with TEM. Victoria Fernández is supported by a "Ramón y Cajal" contract (MICINN, Spain), co-financed by the European Social Fund., Most aerial plant parts are covered with a hydrophobic lipid-rich cuticle, which is the interface between the plant organs and the surrounding environment. Plant surfaces may have a high degree of hydrophobicity because of the combined effects of surface chemistry and roughness. The physical and chemical complexity of the plant cuticle limits the development of models that explain its internal structure and interactions with surface-applied agrochemicals. In this article we introduce a thermodynamic method for estimating the solubilities of model plant surface constituents and relating them to the effects of agrochemicals. Results: Following the van Krevelen and Hoftyzer method, we calculated the solubility parameters of three model plant species and eight compounds that differ in hydrophobicity and polarity. In addition, intact tissues were examined by scanning electron microscopy and the surface free energy, polarity, solubility parameter and work of adhesion of each were calculated from contact angle measurements of three liquids with different polarities. By comparing the affinities between plant surface constituents and agrochemicals derived from (a) theoretical calculations and (b) contact angle measurements we were able to distinguish the physical effect of surface roughness from the effect of the chemical nature of the epicuticular waxes. A solubility parameter model for plant surfaces is proposed on the basis of an increasing gradient from the cuticular surface towards the underlying cell wall. Conclusions: The procedure enabled us to predict the interactions among agrochemicals, plant surfaces, and cuticular and cell wall components, and promises to be a useful tool for improving our understanding of biological surface interactions., MICINN, Spain, European Social Fund, Depto. de Estructura de la Materia, Física Térmica y Electrónica, Fac. de Ciencias Físicas, TRUE, pub

Published

2023

31. Epicuticular wax analysis of wild and agronomically important Agave species.

Author

Monja-Mio, Kelly M., Escalante-Erosa, Fabiola, Eb-Puc, Xochil M., Herrera-Alamillo, Miguel Á., Peña-Rodríguez, Luis M., and Robert, Manuel L.

Abstract

• The content and main components of epicuticular waxes in wild and agronomically important Agave species were analyzed. • A correlation between the epicuticular wax content, the ploidy level and the type habitat in which they grow was observed. • This information contributes to better understand the tolerance of agaves to different types of stress. Agaves are cultivated in Mexico as a source of industrial products such as fibers, nutritional supplements and alcoholic beverages. A particularly important trait present in all agaves, which makes them economically viable crops for certain geographic regions, is their ability to grow under water limiting conditions. One of the anatomical characteristics that contributes to this adaptation, is the thick layer of epicuticular waxes deposited on their surface which reduces water loss by evapotranspiration. Still, to date, and in spite of their economic importance, there has been practically no effort to improve the genetics and productivity of agaves; this investigation focuses on the differences in the content and types of the epicuticular waxes present on the surface of leaves of wild and agronomically important Agave species with different ploidy level. The agaves analyzed were two diploids [ A. tequilana Weber and the hybrid H11648 (A. amaniensis Trel. & Nowell x A. angustifolia Haw. back crossed to A. amaniensis)]; two pentaploids (A. fourcroydes var. Sac ki and A. fourcroydes var. Yaax ki) and a hexaploid (A. angustifolia var. Chelem ki) The epicuticular waxes were obtained by hexane extraction and their chemical composition was established by capillary gas chromatography–mass spectrometry (GC/MS). The amount of epicuticular wax varied significantly between the different types (4.40–35.63 μg cm−2), with A. angustifolia var. Chelem Ki (hexaploid) and A. tequilana (diploid) presenting the highest and lowest amounts, respectively. With the exception of A. tequilana , n-alkanes were the main components (63.32–92.13 % of total wax) in the epicuticular wax, with hentriacontane (C31) and tritriacontane (C33) as main compounds. Alternatively, in A. tequilana two aliphatic alcohols were the main components of the wax. These results suggest a correlation between the total epicuticular wax content, the chemical composition of the wax, the ploidy level and the type of habitat in which they grow. This information contributes to the understanding of the tolerance of agaves to different types of stress. [ABSTRACT FROM AUTHOR]

Published

2019

32. The role of epicuticular waxes on foliar metal transfer and phytotoxicity in edible vegetables: case of Brassica oleracea species exposed to manufactured particles.

Author

Dappe, Vincent, Dumez, Sylvain, Bernard, Fabien, Hanoune, Benjamin, Cuny, Damien, Dumat, Camille, and Sobanska, Sophie

Subjects

COLE crops, PHYTOTOXICITY, AIR pollutants, WAXES, DNA damage, PARTICLES, GENETIC overexpression

Abstract

The rapid industrialization and urbanization of intra- and peri-urban areas at the world scale are responsible for the degradation of the quality of edible crops, because of their contamination with airborne pollutants. Their consumption could lead to serious health risks. In this work, we aim to investigate the phytotoxicity induced by foliar transfer of atmospheric particles of industrial/urban origin. Leaves of cabbage plants (Brassica oleracea var. Prover) were contaminated with metal-rich particles (PbSO4 CuO and CdO) of micrometer size. A trichloroacetic acid (TCA) treatment was used to inhibit the synthesis of the epicuticular waxes in order to investigate their protective role against metallic particles toxicity. Besides the location of the particles on/in the leaves by microscopic techniques, photosynthetic activity measurements, genotoxicity assessment, and quantification of the gene expression have been studied for several durations of exposure (5, 10, and 15 days). The results show that the depletion of epicuticular waxes has a limited effect on the particle penetration in the leaf tissues. The stomatal openings appear to be the main pathway of particles entry inside the leaf tissues, as demonstrated by the overexpression of the BolC.CHLI1 gene. The effects of particles on the photosynthetic activity are limited, considering only the photosynthetic Fv/Fm parameter. The genotoxic effects were significant for the contaminated TCA-treated plants, especially after 10 days of exposure. Still, the cabbage plants are able to implement repair mechanisms quickly, and to thwart the physiological effects induced by the particles. Finally, the foliar contamination by metallic particles induces no serious damage to DNA, as observed by monitoring the BolC.OGG1 gene. [ABSTRACT FROM AUTHOR]

Published

2019

33. ارزيابي ظرفيت گونه هاي درختي و درختچه اي در تجمع ذرات معلق هوا )PMو 0.2 PM2.5 ،PM10(

Author

مسعود حاتمي منش, ثمرمرتضوي, عيسي سلگي, and احمد مهتدي

Abstract

Background and Objective: Today, the presence and increase of particulate matter is one of the serious factors that threaten human health. In the meantime, trees can accumulate airborne particles by their foliage. In this study, the accumulating ability of various PM by the leaf of some tree and shrub species was evaluated in Isfahan. Materials and Methods: 12 species of trees and shrubs were selected at 8 locations in Isfahan and the total PM, PM10, PM2.5 and PM0.2 were measured using paper filters 91, 42 μm, and Polytetra water and chloroform washing methods by Fluorethylene filters and digital balance. Results: The results showed that the highest and lowest mean total accumulation of total particulate matter was related to Morus nigra and Salix alba, that were 190.23 ± 23.5 and 11.9 ± 4.42 μg/cm2. In addition, the trend of accumulation of total PM on the leaf surface from the highest to the lowest was: Morus nigra> Platanus orientalis> Ulmus umbraculifera> Morus alba> Acer Nerium oleander >Robinia negundo> Ailanthus altissima> Fraxinus excelsior > pseudoacacia> Cercis siliquastrum> Nerium oleander > Euonymus japonicas> Salix alba and in epicuticular Waxes, Morus nigra> Ulmus umbraculifera > Platanus orientalis > Morus alba> Ailanthus altissima> Acer negundo > Robinia pseudoacacia>Cercis siliquastrum> Fraxinus excelsior > Nerium oleander > Euonymus japonicas> Salix alba. Conclusion: The results indicated that the ability of different tree species to absorb PM depended on the morphological, physiological and ecological characteristics of the leaf. Finally, among the different species the Morus nigra had the highest ability to capture various PM. [ABSTRACT FROM AUTHOR]

Published

2019

34. Comparison of steroids and triterpenoids in leaf cuticular waxes of selected Polish and Russian cultivars and genotypes of edible honeysuckle.

Author

Becker, Rafał, Dashbaldan, Soyol, Pączkowski, Cezary, Golis, Tomasz, and Szakiel, Anna

Abstract

Graphical abstract Highlights • Steroids and triterpenoids of leaf cuticular waxes of Lonicera caerulea were investigated. • The significant differences of steroids and pentacyclic triterpenoids were observed. • Friedelin were reported exclusively in the leaf waxes of Jolanta and Wojtek cultivars. Abstract Lonicera caerulea , known as edible honeysuckle, honeyberry, blue honeysuckle, sweet berry honeysuckle, or haskap, is a perennial fruit-bearing plant belonging to the Caprifoliaceae family. Currently, the cultivation of this plant species is becoming increasingly popular due to its early fruit ripening, exceptional resistance to frost, pests, and diseases, as well as its potential health-promoting and therapeutic properties. GC–MS analysis of steroids and triterpenoids from leaf waxes of selected cultivars and genotypes of edible honeysuckle displayed significant difference in the qualitative and quantitative composition. The leaves of edible honeysuckle cultivars of Russian origin were characterized by common features: distinctively high content of steroids in relation to pentacyclic triterpenoids, with 24-methylenecycloartanol and α-amyrin as compounds dominating in respective classes; and the absence of friedelin. The Polish cultivars and genotypes analyzed in this study can be divided into two groups: Jolanta cultivar, genotypes T, and Nr 38, showing a certain degree of similarity with the Russian cultivars (e.g., the predominance of steroids), by contrast to Wojtek cultivar, genotypes Nr 30, and 44, characterized by the predominance of pentacyclic triterpenoids with α-amyrin. A special feature was the presence of friedelin, which was identified only in two cultivars (Jolanta and Wojtek) belonging to two different groups. [ABSTRACT FROM AUTHOR]

Published

2019

35. Distribution and variability of n-alkanes in waxes of conifers.

Author

Hassanzadeh-Khayyat, Mohamad, Akaberi, Maryam, Moalemzadeh Haghighi, Hamideh, Sahebkar, Amirhossein, and Emami, Seyed Ahmad

Abstract

Epicuticular waxes have vital roles in the growth and development of plants and in defense. Conifers have a considerable amount of waxes on their cones and leaves. Here we characterized the n-alkane composition of Iranian conifers, including Juniperus oblonga, J. foetidissima, J. sabina, J. communis subsp. hemisphaerica, J. excelsa, Cupressus sempervirens, Platycladus orientalis from Cupressaceae and Taxus baccata from Taxaceae for the first time using GC-FID analyses. In the waxes, 25 n-alkane homologs with chain lengths ranging from C7 to C32 were identified. Short-chain n-alkanes were dominant in almost all samples with some exceptions. Complementary studies to elucidate complete wax constituents of Iranian conifers and n-alkane distribution pattern as a function of geographical and bioclimatic variables are recommended. [ABSTRACT FROM AUTHOR]

Published

2019

36. ارزيابي ظرفيت گونه هاي درختي و درختچه اي در تجمع ذرات معلق هوا )PMو 0.2 PM2.5 ،PM10(

Author

مسعود حاتمي منش, ثمرمرتضوي, عيسي سلگي, and احمد مهتدي

Abstract

Background and Objective: Today, the presence and increase of particulate matter is one of the serious factors that threaten human health. In the meantime, trees can accumulate airborne particles by their foliage. In this study, the accumulating ability of various PM by the leaf of some tree and shrub species was evaluated in Isfahan. Materials and Methods: 12 species of trees and shrubs were selected at 8 locations in Isfahan and the total PM, PM10, PM2.5 and PM0.2 were measured using paper filters 91, 42 μm, and Polytetra water and chloroform washing methods by Fluorethylene filters and digital balance. Results: The results showed that the highest and lowest mean total accumulation of total particulate matter was related to Morus nigra and Salix alba, that were 190.23 ± 23.5 and 11.9 ± 4.42 μg/cm2. In addition, the trend of accumulation of total PM on the leaf surface from the highest to the lowest was: Morus nigra> Platanus orientalis> Ulmus umbraculifera> Morus alba> Acer Nerium oleander >Robinia negundo> Ailanthus altissima> Fraxinus excelsior > pseudoacacia> Cercis siliquastrum> Nerium oleander > Euonymus japonicas> Salix alba and in epicuticular Waxes, Morus nigra> Ulmus umbraculifera > Platanus orientalis > Morus alba> Ailanthus altissima> Acer negundo > Robinia pseudoacacia>Cercis siliquastrum> Fraxinus excelsior > Nerium oleander > Euonymus japonicas> Salix alba. Conclusion: The results indicated that the ability of different tree species to absorb PM depended on the morphological, physiological and ecological characteristics of the leaf. Finally, among the different species the Morus nigra had the highest ability to capture various PM. [ABSTRACT FROM AUTHOR]

Published

2019

37. The Morphological and Anatomical Traits of the Leaf in Representative Vinca Species Observed on Indoor- and Outdoor-Grown Plants

Author

Alexandra Ciorîță, Septimiu Cassian Tripon, Ioan Gabriel Mircea, Dorina Podar, Lucian Barbu-Tudoran, Cristina Mircea, and Marcel Pârvu

Subjects

Vinca leaves, parenchymal tissues, ultrastructure, electron microscopy, epicuticular waxes, cuticle, Botany, QK1-989

Abstract

Morphological and anatomical traits of the Vinca leaf were examined using microscopy techniques. Outdoor Vinca minor and V. herbacea plants and greenhouse cultivated V. major and V. major var. variegata plants had interspecific variations. All Vinca species leaves are hypostomatic. However, except for V. minor leaf, few stomata were also present on the upper epidermis. V. minor leaf had the highest stomatal index and V. major had the lowest, while the distribution of trichomes on the upper epidermis was species-specific. Differentiated palisade and spongy parenchyma tissues were present in all Vinca species’ leaves. However, V. minor and V. herbacea leaves had a more organized anatomical aspect, compared to V. major and V. major var. variegata leaves. Additionally, as a novelty, the cellular to intercellular space ratio of the Vinca leaf’s mesophyll was revealed herein with the help of computational analysis. Lipid droplets of different sizes and aspects were localized in the spongy parenchyma cells. Ultrastructural characteristics of the cuticle and its epicuticular waxes were described for the first time. Moreover, thick layers of cutin seemed to be characteristic of the outdoor plants only. This could be an adaptation to the unpredictable environmental conditions, but nevertheless, it might influence the chemical composition of plants.

Published

2021

38. Leaf anatomy and epicuticular waxes composition of Clusia fluminensis Planch. & Triana (Clusiaceae)

Author

Anholetia M.C. Silva

Subjects

clusia fluminensis, clusiaceae, epicuticular waxes, leaf anatomy, secretory ducts, Agriculture (General), S1-972, Medicine

Abstract

Clusia fluminensis Planch. & Triana (Clusiaceae) is a Brazilian native species found in regions of high luminous intensity and water restriction. There are reports of its use in folk medicine, however, there is little literature information on its chemical composition and structural characterization. The results of the phytochemical study and biological tests conducted by our research group so far have shown that C. fluminensis has great potential to be used as a source of biologically active substances, making its anatomical characterization of fundamental importance. The leaf structure was analyzed through optical microscopy and scanning electron microscopy. The leaves epicuticular waxes were analyzed by GC-MS. The leaf is hypostomatic with paracytic stomata and polygonal epidermic cells with 4 to 7 sides. The epidermis is uniseriate, with cuticle, thicker in the adaxial epidermis with cuticular flanges. The dorsiventral mesophyll showed hypodermis in the adaxial surface and numerous druses all over the mesophyll and many secretory ducts in the mesophyll and midvein. The vascular system is constituted by collateral bundles involved in numerous fibers, which in the midvein are densely grouped. The highest content of epicuticular waxes was obtained from leaves collected in summer. GC-MS data of the waxes indicated a marked presence of triterpenes such as α-amyrin, β-amyrin, lupenone, epifriedelinol and friedelin.

Published

2017

39. Impact of particulate matter accumulation on the photosynthetic apparatus of roadside woody plants growing in the urban conditions.

Author

Popek, Robert, Przybysz, Arkadiusz, Gawrońska, Helena, Klamkowski, Krzysztof, and Gawroński, Stanisław W.

Subjects

PARTICULATE matter, BIOACCUMULATION, WOODY plants, PHOTOSYNTHESIS, PHYTOREMEDIATION

Abstract

Particulate matter (PM) is one of the most harmful inhaled pollutants. When pollutants are emitted into the atmosphere, the only possible method for cleaning the air is through phytoremediation, where plants act as biological filters for pollutants. However, PM also has negative impacts on plants, although knowledge concerning the effects of PM on vegetation remains limited. In this work, an attempt was therefore made to define the amount of PM and waxes on foliage, and to evaluate the efficiency of the photosynthetic apparatus in seven plant species (three trees, three shrubs and one climber) grown in two locations (centre and suburbs of Warsaw) that differed in their level of PM pollution in the air. More PM and waxes accumulated on the foliage of plants grown in the highly polluted location. These plants also exhibited a lowered efficiency of their photosynthetic apparatus, manifested by a lower photosynthesis rate that corresponded with an increased stomatal resistance. Plants grown in the more polluted environment also showed decreased values of F v /F m parameter and no statistically significant trend to increase total chlorophyll content. Among the tested species, Betula pendula Roth accumulated the greatest amount of PM and Physocarpus opulifolius L. showed no weakening of its parameters of photosynthesis in a more contaminated environment. [ABSTRACT FROM AUTHOR]

Published

2018

40. Selection for Some Functional Markers for Adaptability of <italic>Helianthus argophyllus</italic> × <italic>Helianthus annuus</italic> Derived Population under Abiotic Stress Conditions.

Author

Hussain, Muhammad Mubashar, Kausar, Maria, Rauf, Saeed, Khan, M. Farukh Zafar, Paderweski, Jakub, Khan, Maria, ul Haq, Ikram, and Raza, Abu Bakar Muhammad

Subjects

*SUNFLOWERS, *GENETIC markers in plants, *PLANT populations, *ABIOTIC stress, *AGRICULTURAL productivity, *DROUGHT tolerance

Abstract

Abiotic stresses including drought are major crop production constraints. However, specific functional phenotypic markers induce resistance against these stresses. Therefore, a study was initiated to study the variability, inheritance and selection of epicuticular waxes (EW) and leaf hairiness (LH) along with low cell membrane injuries (CMI) within F2 populations derived by crossing H. annuus×H. argophyllus lines. These traits have been shown to be associated with drought tolerance of Helianthus argophyllus and thus study aims to introgress these traits in Helinathus annuus. The studied parent populations showed contrasting values of the traits. The drought susceptible line CMS-14 and CMS-20 showed lower epicuticular waxes (0.79, 0.69 mg g−1), leaf hairiness (0.75, 1.53) and higher cell membrane injury (40.90, 55.76 %) respectively while drought resistant line Argo 1802 and 1806 showed higher epicuticular waxes (2.28, 3.18), leaf hairiness (3.71, 3.80) and lower cell membrane injury (14.22, 21.54 %) respectively. The F1 hybrids had mean values of the three studied parameters i. e. epicuticular waxes (1.50 mg g−1), cell membrance injury (32.54 %) and leaf hairiness (2.74) in the range of parent lines, but some of F2 individuals extend beyond this range (Parents and F1s). The two-step selections maintained high variability especially of LH for set of F2 individuals (H. annuus CMS-20×H. argophyllus 1806). Simultaneous selection of F2 individuals with high values of LH or EW with low CMI was possible. The selected plants were further studied for narrow leaf, high fertility and silver canopy color. Selected material was promoted as the candidate of inbred line. Plant (F4) having introgressed traits (silver canopy) showed lower yield (19 %) than green leafed plants (53 %) and commercial hybrids under drought stress (63 % and 53 %). The study could help to increase the abiotic stress tolerance, minimize the yield losses under drought stress and increase functional diversity within sunflower. [ABSTRACT FROM AUTHOR]

Published

2018

41. Electron microscopic observations of stomata, epicuticular waxes, and papillae in Chamaecyparis obtusa: Reconsidering the traditional concept of Y‐shaped white stomatal bands.

Author

Kim, Ki Woo

Abstract

Abstract: The foliar morphological characters of hinoki (Chamaecyparis obtusa) were revisited using optical and scanning electron microscopy. In C. obtusa, typical Y‐shaped white stomatal bands were evident on the abaxial leaf surfaces. Two facial leaves and two lateral leaves were observed at the same node. Waxy papillae and oval stomata were arranged in two or three rows with protuberant rims on the abaxial leaf surfaces. Higher magnifications revealed the deposition of epicuticular waxes (tubules) on the Y‐shaped white stomatal bands. Given the absence of stomatal bands after dewaxing with organic solvents, the white stomatal bands in C. obtusa were related to the epicuticular waxes rather than the presence of aggregated stomata alone. In contrast to C. obtusa, a single median leaf and two lateral leaves were observed at the same node of oriental arborvitae (Platycladus koraiensis). Neither stomatal bands nor papillae were observed on P. koraiensis leaves. The stomatal density and epicuticular waxes in the stomatal regions of C. obtusa were higher than those of P. koraiensis. This study suggests that the traditional concept of Y‐shaped white stomatal bands in C. obtusa should be revised to describe the arrangement of the aggregated waxy stomata that occur in rows. [ABSTRACT FROM AUTHOR]

Published

2018

42. Rice leaf hydrophobicity and gas films are conferred by a wax synthesis gene (<italic>LGF1</italic>) and contribute to flood tolerance.

Author

Kurokawa, Yusuke, Nagai, Keisuke, Huan, Phung Danh, Shimazaki, Kousuke, Qu, Huangqi, Mori, Yoshinao, Toda, Yosuke, Kuroha, Takeshi, Hayashi, Nagao, Aiga, Saori, Itoh, Jun‐ichi, Yoshimura, Atsushi, Sasaki‐Sekimoto, Yuko, Ohta, Hiroyuki, Shimojima, Mie, Malik, Al Imran, Pedersen, Ole, Colmer, Timothy David, and Ashikari, Motoyuki

Subjects

*FLOODS, *GAS exchange in plants, *RICE tungro spherical virus, *PHOTOSYNTHESIS, *SUPERHYDROPHOBIC surfaces

Abstract

Summary: Floods impede gas (O2 and CO2) exchange between plants and the environment. A mechanism to enhance plant gas exchange under water comprises gas films on hydrophobic leaves, but the genetic regulation of this mechanism is unknown. We used a rice mutant (dripping wet leaf 7, drp7) which does not retain gas films on leaves, and its wild‐type (Kinmaze), in gene discovery for this trait. Gene complementation was tested in transgenic lines. Functional properties of leaves as related to gas film retention and underwater photosynthesis were evaluated. Leaf Gas Film 1 (LGF1) was identified as the gene determining leaf gas films. LGF1 regulates C30 primary alcohol synthesis, which is necessary for abundant epicuticular wax platelets, leaf hydrophobicity and gas films on submerged leaves. This trait enhanced underwater photosynthesis 8.2‐fold and contributes to submergence tolerance. Gene function was verified by a complementation test of LGF1 expressed in the drp7 mutant background, which restored C30 primary alcohol synthesis, wax platelet abundance, leaf hydrophobicity, gas film retention, and underwater photosynthesis. The discovery of LGF1 provides an opportunity to better understand variation amongst rice genotypes for gas film retention ability and to target various alleles in breeding for improved submergence tolerance for yield stability in flood‐prone areas. [ABSTRACT FROM AUTHOR]

Published

2018

43. Morphological diversity of β-diketone wax tubules on Eucalyptus gunnii leaves and real time observation of self-healing of defects in the wax layer.

Author

Huth, Miriam A., Huth, Axel, Koch, Kerstin, and Brodribb, Tim

Abstract

As part of the plant cuticle, epicuticular waxes build the boundary layer of a plant to its environment, fulfilling many vital functions. Epicuticular waxes are small crystalline structures which originate by self-assembly. The morphology of β-diketone tubules on Eucalyptus gunnii Hook.f. leaves was studied by field emission scanning electron microscopy (FE-SEM) and regeneration of removed waxes was investigated in real time by atomic force microscopy (AFM) on leaf surfaces. Smooth tubules as well as helically wound ribbons and transitional forms of tubules were found on adaxial leaf surfaces. Leaves of different developmental stages revealed no differences in their wax morphologies, but in the amount of wax allocation. After removal of the waxes regeneration was observed on leaves of all investigated ages. The regeneration of wax crystals started directly after wax removal and tubule growth could be observed in real time. [ABSTRACT FROM AUTHOR]

Published

2018

44. The intimate talk between plants and microorganisms at the leaf surface.

Author

Aragón, Wendy, Reina-Pinto, José Juan, and Serrano, Mario

Subjects

*CUTIN, *MONOMERS, *PLANT cuticle, *YEAST, *FUNGI

Abstract

The plant epidermis or cuticle is constantly exposed to external and internal environmental factors, including an enriched and diverse community of bacteria, yeast, fungi, viruses, and mites. It is not only where the plant has its first physical barrier, but also where organisms can be recognized and potentially where the plant defense responses can be triggered. The plant cuticle is a polymeric composite formed by an array of structurally and chemically heterogeneous compounds, including cutin and wax. A few studies have shown that cuticular components are essential and important drivers of the structure and size of the bacterial community. On the other hand, cuticular components are also important for both pathogens and plants, to initiate the pre-invasion and infection process and to activate the innate immune response, respectively. In this review, we explore current knowledge on the role of the cuticle during the intimate interactions between plants and microorganisms, in particular pathogenic and non-pathogenic bacteria and fungi. Finally, we propose new perspectives on the potential use of this information for agriculture. [ABSTRACT FROM AUTHOR]

Published

2017

45. LEAF MICROMORPHOLOGY OF FOUR MEDICINAL FERNS SPECIES IN TASIK CHINI, PAHANG.

Author

Nurnida, M. K., Noraini, T., Ruzi, A. R., and Idris, S.

Subjects

*MAIDENHAIR ferns, *SOIL micromorphology, *PLANT species, *LEAVES, *MEDICINAL plants

Abstract

A leaf micromorphology study was conducted on four selected medicinal ferns species in Tasik Chini, Pahang. The four chosen species were Adiantum latifolium Lam., Lygodium flexuosum (L.) Sw., Lygodium microphyllum (Cav.) R. Br. and Tectaria singaporeana (Wall.) Ching. The objective of this study is to identify the leaf micromorphological characteristics that can be used as supportive scientific data especially in authentification of medicinal ferns species. The procedures involved such as dehydration, critical point drying, gold coated and examination under scanning electron microscope. Results in this study have shown some similarities and variations in the leaf micromorphological characteristics such as presence of cuticular striation, type of epicuticular waxes, structural feature of stomata and also in the presence or absence and type of trichomes. Four types of epicuticular waxes and only one type of trichome were observed, that were specific for some species. As a conclusion, the results of this study definitely proven that leaf micromorphology can be used for species authentification and might useful as preliminary scientific data for future references and further study. [ABSTRACT FROM AUTHOR]

Published

2015

46. Monitoring the damage to epicuticular waxes at silver birch (Betula pendula Roth.) in the changing air pollution spectrum of the Ore Mountains

Author

Emilie Bednářová and Jiří Kučera

Subjects

birch (Betula pendula Roth.), air pollution, epicuticular waxes, altitude, damage, sulphur oxides, Agriculture, Biology (General), QH301-705.5

Abstract

The paper deals with the study of damage to the assimilatory apparatus of silver birch (Betula pendula Roth) using the study of changes of epicuticular waxes in the period 1997 to 2009. During the period, changes in the air pollution spectrum occurred in the area of the Ore Mountains. At the beginning of the monitoring, above-limit concentrations of sulphur oxides were the main anthropogenic factor. These concentrations resulted in the degradation of epicuticular waxes. Statistical evaluations demonstrated the high dependence of damage to epicuticular waxes on high concentrations of sulphur oxides. Damage to epicuticular waxes by air pollution increased with the increasing altitude of a forest stand. Since 2001, measured values of SO2 decreased to a minimum but a new phenomenon appeared damaging the assimilatory apparatus of forest stands, namely above-limit concentrations of ground ozone. These above-limit concentrations of ground ozone damage the assimilatory apparatus including epicuticular waxes at all silver birch stands occurring at altitudes above 800 m. This finding was also proved by the high coefficient of determination.

Published

2011

47. Micromorfologia foliar na análise da fitotoxidez por glyphosate em Eucalyptus grandis Leaf micromorphology in the analysis of glyphosate toxicity in Eucalyptus grandis

Author

L.D. Tuffi Santos, B.F. Sant'Anna-Santos, R.M.S.A. Meira, F.A. Ferreira, R.A.S.T. Tiburcio, and E.C.F. Silva

Subjects

herbicida, microscopia eletrônica de varredura, ceras epicuticulares, anatomia foliar, herbicide, scanning electron microscopy, epicuticular waxes, leaf anatomy, Biology (General), QH301-705.5, Botany, QK1-989

Abstract

Foram avaliados os efeitos da deriva de formulações comerciais de glyphosate sobre a superfície foliar e o crescimento de clones de eucalipto. Mudas de seis clones foram submetidas a 129,6 g ha-1 de glyphosate das formulações comerciais Scout®, Roundup NA®, Roundup transorb® e Zapp QI®. Entre os clones não foram identificadas diferenças quanto à tolerância ao glyphosate. Plantas expostas à deriva simulada de Roundup transorb® e Zapp QI® apresentaram, respectivamente, a maior e menor porcentagem de intoxicação. Observou-se menor massa seca em plantas expostas ao glyphosate, independentemente da formulação, e menor altura naquelas expostas ao Scout® e ao Roundup transorb®. As características quantitativas da superfície foliar não foram afetadas pelo glyphosate. As alterações micromorfológicas ocorreram na ausência de danos visíveis e foram observadas em ambas as faces da epiderme, em todos os clones avaliados. Danos como erosão e aspecto amorfo das ceras epicuticulares e infestação por hifas fúngicas ocorreram, independentemente da formulação utilizada. A avaliação anatômica da superfície foliar foi relevante para descrição e interpretação dos danos causados pelo glyphosate. Os dados de crescimento e de intoxicação indicam o Zapp QI® como a formulação de menor risco para a cultura do eucalipto quanto aos efeitos indesejáveis da deriva.The effects of commercial glyphosate drift on the leaf surface and growth of eucalypt clones were evaluated. Seedlings of six clones were submitted to 129.6 g ha-1 sub-rate of commercial glyphosate formulations Scout®, Roundup NA®, Roundup transorb® and Zapp QI®. No differences in tolerance to glyphosate were observed among the clones. Plants exposed to simulated drift of Roundup transorb® and Zapp QI® presented the highest and lowest intoxication percentages, respectively. Plants exposed to glyphosate reduced dry biomass, regardless of the formulation, and also reduced height of the plants exposed to Scout® and Roundup transorb®. Leaf surface characteristics were not affected by glyphosate application. However, the micromorphological damages occurred prior to the appearance of visible symptoms, and were observed on both faces of the epidermis, in all clones tested. Damages such as erosion and amorphous aspect of epicuticular waxes and infestation of fungal hyphae occurred, independently of the formulation used. The anatomical evaluation of the leaf surface effectively described the damages caused by glyphosate. The growth and intoxication data indicate Zapp QI® formulation as presenting the lowest risk to eucalypt culture, in relation to the undesirable herbicide drift effects.

Published

2009

48. Spruce budworm feeding and oviposition are stimulated by monoterpenes in white spruce epicuticular waxes.

Author

Ennis, Darragh, Despland, Emma, Chen, Fei, Forgione, Pat, and Bauce, Eric

Subjects

*SPRUCE budworm, *CHORISTONEURA, *OVIPARITY in insects, *INSECT reproduction, *MONOTERPENES

Abstract

Monoterpenes, source of the distinctive odor of conifers, are generally considered plant defensive compounds. However, they are also known to act as long-range insect attractants, as they are volatile and permeate forest airspaces. Moreover, they are lipid soluble and can be absorbed into plant epicuticular waxes. We test their role in short-range host plant choice by both adult females and larvae of a folivorous forest pest ( Choristoneura fumiferana). We conducted laboratory assays testing the responses of Eastern spruce budworm to an artificial monoterpene mix (α-pinene, β-pinene, limonene, myrcene) and to white spruce ( Picea glauca) epicuticular waxes in closed arenas. Ovipositing females preferred filter paper discs treated with P. glauca waxes to controls, and preferred the waxes + monoterpenes treatment to waxes alone. However, females showed no preference between the monoterpene-treated disc and the control when presented without waxes. Feeding larvae prefered wax discs to control discs. They also consumed discs treated with realistic monoterpene concentrations and wax preferentially over wax-only discs, but showed no preference between extremely high monoterpene concentrations and wax-only controls. In an insect-free assay, P. glauca epicuticular wax decreased monoterpene volatilization. These results suggest that P. glauca waxes and realistic concentrations of monoterpenes are stimulatory to both egg-laying females and feeding larvae, and that their effects are synergistic. [ABSTRACT FROM AUTHOR]

Published

2017

49. Leaf functional plasticity decreases the water consumption without further consequences for carbon uptake in Quercus coccifera L. under Mediterranean conditions.

Author

Peguero-Pina, José Javier, Sisó, Sergio, Fernández-Marín, Beatriz, Flexas, Jaume, Galmés, Jeroni, García-Plazaola, Jose Ignacio, Niinemets, Ülo, Sancho-Knapik, Domingo, and Gil-Pelegrín, Eustaquio

Subjects

*QUERCUS coccifera, *LEAF physiology, *MEDITERRANEAN climate, *WATER consumption, *PHENOTYPIC plasticity, *PHOTOSYNTHESIS, *STOMATA

Abstract

The accumulation of epicuticular waxes over stomata in Quercus coccifera L. contributes to a severe reduction in maximum stomatal conductance (gs,max) under Mediterranean (MED) conditions. However, this phenomenon was not observed in this species under temperate (TEM) conditions, which could lead to differences in the ability to assimilate CO2 between the sites. We hypothesise that the overall importance of such a reduction in gs,max on photosynthesis is modulated by other factors affecting carbon gain, mainly mesophyll conductance to CO2 (gm), through a plastic response to changes in environmental conditions (i.e., vapour pressure deficit, VPD, and mean daily quantum flux density, Qint). The results reveal that leaves grown at the TEM site did not show an increased ability for net CO2 assimilation (AN), mainly due to an equal gm at both sites. This fact is explained by a trade-off between an increased conductance of the gas phase (gias) and a reduced conductance of the liquid phase (gliq) at the TEM site compared with the MED site. In spite of the reduction in gs,max at the MED site, transpiration (E) did not diminish during midsummer to the levels of the TEM site due to a higher VPD found at the MED site, yielding a higher water use efficiency (AN/E) at the TEM site. Moreover, photosynthetic nitrogen use efficiency was also higher at the TEM site, indicating these leaves can reach similar values of AN with lower nitrogen investment that those at the MED site. These results suggest that Q. coccifera does not always use the main resources (water and nutrients) at leaf level as efficiently as possible. Moreover, the different patterns of resource use (in particular N), together with the functional plasticity, cannot overcome the morpho-functional constraints that limit photosynthetic activity, even under potentially favourable conditions. [ABSTRACT FROM AUTHOR]

Published

2016

50. Epicuticular waxes from caatinga and cerrado species and their efficiency against water loss

Author

Antonio F. M. Oliveira, Sérgio T. Meirelles, and Antonio Salatino

Subjects

caatinga, cerrado, ceras epicuticulares, n-alcanos, triterpenóides, evaporação, epicuticular waxes, n-alkanes, triterpenoids, water diffusion, Science

Abstract

The effects of the contents and chemical composition of the foliar epicuticular waxes of species from the caatinga (Aspidosperma pyrifolium, Capparis yco, Maytenus rigida and Ziziphus joazeiro) and cerrado (Aristolochia esperanzae, Didymopanax vinosum, Strychnos pseudoquina and Tocoyena formosa) were evaluated as to the resistance to water loss by means of an experimental device constructed for this purpose. In general, the waxes of the caatinga species investigated were more efficient against water loss than cerrado species. Increase of the thickness of the waxy deposits from 40 to 90m g.cm-2 had no significant effect on the resistance to water loss. The chemistry of the wax constituents was shown to be an important factor to determine the degree of resistance to evaporation. n-Alkanes and alcoholic triterpenes were the most efficient barriers, while hentriacontan-16-one (a ketone) and ursolic acid (an acid triterpene) revealed lowefficiency. The higher efficiency of the waxes of the leaves from caatinga species (mainly those of C. yco and Z. joazeiro) is probably accounted for the predominance of n-alkanes in their composition. The lower efficiency of the waxes of A. pyrifolium (caatinga), T. formosa and A. esperanzae (both species from the cerrado) is probably a consequence of the predominance of triterpenoids in the waxes of the two former species and hentriacontan-16-one in the latter.A influência do teor e da composição química das ceras epicuticulares foliares de espécies da caatinga (Aspidosperma pyrifolium, Capparis yco, Maytenus rigida e Ziziphus joazeiro) e do cerrado (Aristolochia esperanzae, Didymopanax vinosum, Strychnos pseudoquina e Tocoyena formosa) foram avaliadas em relação à resistência à perda de água, através de um dispositivo experimental construído para essa finalidade. Em geral, as ceras das espécies da caatinga foram mais eficientes contra a perda de água que as das espécies do cerrado. O aumento da espessura dos depósitos cerosos de 40 até 90 mg.cm-2 não alterou significativamente a resistência à evaporação. A natureza química dos componentes das ceras revelou-se um fator importante na determinação do grau de resistência à evaporação. n-Alcanos e triterpenos alcoólicos foram os constituintes mais eficientes como barreiras à evaporação, enquanto hentriacontan-16-ona (uma cetona) e ácido ursólico (triterpeno com função carboxílica) foram menos eficazes. A maior eficiência das ceras epicuticulares de duas espécies da caatinga (C. yco e Z. joazeiro) provavelmente se deve à predominância de n-alcanos em sua composição. A menor eficiência das ceras epicuticulares de A. pyrifolium (outra espécie da caatinga), T. formosa e A. esperanzae (ambas espécies do cerrado), à predominância em suas ceras de ácido ursólico para as duas primeiras e hentriacontan-16-para a última.

Published

2003