Your search keyword '"Lepidium growth & development"' showing total 35 results

1. Ecotoxicity Evaluation of Pristine and Indolicidin-coated Silver Nanoparticles in Aquatic and Terrestrial Ecosystem.

Author

Falanga A, Siciliano A, Vitiello M, Franci G, Del Genio V, Galdiero S, Guida M, Carraturo F, Fahmi A, and Galdiero E

Subjects

Animals, Antimicrobial Cationic Peptides chemical synthesis, Crustacea drug effects, Cucumis sativus drug effects, Cucumis sativus growth & development, Daphnia cytology, Daphnia drug effects, Germination drug effects, Lepidium drug effects, Lepidium growth & development, Lactuca drug effects, Lactuca growth & development, Metal Nanoparticles ultrastructure, Seeds drug effects, Seeds growth & development, Toxicity Tests, Antimicrobial Cationic Peptides toxicity, Aquatic Organisms drug effects, Ecosystem, Ecotoxicology, Metal Nanoparticles toxicity, Silver toxicity

Abstract

Background: Metallic nanoparticles (NPs) are highly exploited in manufacturing and medical processes in a broad spectrum of industrial applications and in the academic sectors. Several studies have suggested that many metallic nanomaterials including those derived by silver (Ag) are entering the ecosystem to cause significant toxic consequences in cell culture and animal models. However, ecotoxicity studies are still receiving limited attention when designing functionalized and non.-functionalized AgNPs., Objective: This study aimed to investigate different ecotoxicological profiles of AgNPs, which were analyzed in two different states: in pristine form uncoated AgNPs and coated AgNPs with the antimicrobial peptide indolicidin. These two types of AgNPs are exploited for a set of different tests using Daphnia magna and Raphidocelis subcapitata , which are representatives of two different levels of the aquatic trophic chain, and seeds of Lepidium sativum, Cucumis sativus and Lactuca sativa ., Results: Ecotoxicological studies showed that the most sensitive organism to AgNPs was crustacean D. magna, followed by R. subcapitata and plant seeds, while AgNPs coated with indolicidin (IndAgNPs) showed a dose-dependent decreased toxicity for all three., Conclusion: The obtained results demonstrate that high ecotoxicity induced by AgNPs is strongly dependent on the surface chemistry, thus the presence of the antimicrobial peptide. This finding opens new avenues to design and fabricate the next generation of metallic nanoparticles to ensure the biosafety and risk of using engineered nanoparticles in consumer products., Competing Interests: The authors report no conflicts of interest in this work., (© 2020 Falanga et al.)

Published

2020

2. QTL Mapping for Domestication-Related Characteristics in Field Cress ( Lepidium campestre )-A Novel Oil Crop for the Subarctic Region.

Author

Hammenhag C, Saripella GV, Ortiz R, and Geleta M

Subjects

Arctic Regions, Chromosome Mapping, Lepidium growth & development, Phenotype, Chromosomes, Plant genetics, Domestication, Lepidium genetics, Plant Breeding, Polymorphism, Single Nucleotide, Quantitative Trait Loci

Abstract

Domestication of a new crop requires identification and improvement of desirable characteristics Field cress ( Lepidium campestre ) is being domesticated as a new oilseed crop, particularly for northern temperate regions.. In the present study, an F 2 mapping population and its F 3 progenies were used to identify quantitative trait loci (QTLs) for plant height (PH), number of stems per plant (NS), stem growth orientation (SO), flowering habit (FH), earliness (ER), seed yield per plant (SY), pod shattering resistance (SHR), and perenniality (PE). A highly significant correlation ( p < 0.001) was observed between several pairs of characteristics, including SY and ER (negative) or ER and PE (positive). The inclusive composite interval mapping approach was used for QTL mapping using 2330 single nucleotide polymorphism (SNP) markers mapped across the eight field cress linkage groups. Nine QTLs were identified with NS, PH, SO, and PE having 3, 3, 2, and 1 QTLs, explaining 21.3%, 29.5%, 3.8%, and 7.2% of the phenotypic variation, respectively. Candidate genes behind three of the QTLs and favorable marker alleles for different classes of each characteristic were identified. Following their validation through further study, the identified QTLs and associated favorable marker alleles can be used in marker-aided breeding to speed up the domestication of field cress., Competing Interests: The authors declare no conflict of interest, and the funders had no role in the design of the study; in the collection, analyses, or interpretation of data; in the writing of the manuscript, or in the decision to publish the results.

Published

2020

3. Morphologically and physiologically diverse fruits of two Lepidium species differ in allocation of glucosinolates into immature and mature seed and pericarp.

Author

Mohammed S, Bhattacharya S, Gesing MA, Klupsch K, Theißen G, Mummenhoff K, and Müller C

Subjects

Brassicaceae physiology, Chromatography, High Pressure Liquid methods, Ecosystem, Fruit metabolism, Fruit physiology, Germination physiology, Lepidium growth & development, Plant Dormancy, Seeds physiology, Water, Glucosinolates metabolism, Lepidium physiology, Seeds metabolism

Abstract

The morphology and physiology of diaspores play crucial roles in determining the fate of seeds in unpredictable habitats. In some genera of the Brassicaceae different types of diaspores can be found. Lepidium appelianum produces non-dormant seeds within indehiscent fruits while in L. campestre dormant seeds are released from dehiscent fruits. We investigated whether the allocation of relevant defence compounds into different tissues in different Lepidium species may be related to the diverse dispersal strategy (indehiscent and dehiscent) and seed physiology (non-dormant and dormant). Total glucosinolate concentration and composition were analysed in immature and mature seeds and pericarps of L. appelianum and L. campestre using high-performance liquid chromatography. Moreover, for comparison, transgenic RNAi L. campestre lines were used that produce indehiscent fruits due to silencing of LcINDEHISCENCE, the INDEHISCENCE ortholog of L. campestre. Total glucosinolate concentrations were lower in immature compared to mature seeds in all studied Lepidium species and transgenic lines. In contrast, indehiscent fruits of L. appelianum maintained their total glucosinolate concentration in mature pericarps compared to immature ones, while in dehiscent L. campestre and in indehiscent RNAi-LcIND L. campestre a significant decrease in total glucosinolate concentrations from immature to mature pericarps could be detected. Indole glucosinolates were detected in lower abundance than the other glucosinolate classes (aliphatic and aromatic). Relatively high concentrations of 4-methoxyindol-3-ylmethyl glucosinolate were found in mature seeds of L. appelianum compared to other tissues, while no indole glucosinolates were detected in mature diaspores of L. campestre. The diaspores of the latter species may rather depend on aliphatic and aromatic glucosinolates for long-term protection. The allocation patterns of glucosinolates correlate with the morpho-physiologically distinct fruits of L. appelianum and L. campestre and may be explained by the distinct dispersal strategies and the dormancy status of both species., Competing Interests: The authors have declared that no competing interests exist.

Published

2020

4. Physiological responses of maca (Lepidium meyenii Walp.) plants to UV radiation in its high-altitude mountain ecosystem.

Author

Huarancca Reyes T, Esparza E, Crestani G, Limonchi F, Cruz R, Salinas N, Scartazza A, Guglielminetti L, and Cosio E

Subjects

Chlorophyll A metabolism, Fluorescence, Gases metabolism, Lepidium growth & development, Photosynthesis radiation effects, Pigments, Biological metabolism, Plant Leaves metabolism, Plant Leaves radiation effects, Secondary Metabolism, Solubility, Starch analysis, Sugars analysis, Altitude, Ecosystem, Lepidium physiology, Lepidium radiation effects, Ultraviolet Rays

Abstract

Ultraviolet (UV) radiation is a small fraction of the solar spectrum, which acts as a key environmental modulator of plant function affecting metabolic regulation and growth. Plant species endemic to the Andes are well adapted to the harsh features of high-altitude climate, including high UV radiation. Maca (Lepidium meyenii Walpers) is a member of Brassicaceae family native to the central Andes of Peru, which grows between 3500 and 4500 m of altitude, where only highland grasses and few hardy bushes can survive. Even though maca has been the focus of recent researches, mainly due to its nutraceutical properties, knowledge regarding its adaptation mechanisms to these particular natural environmental conditions is scarce. In this study, we manipulated solar UV radiation by using UV-transmitting (Control) or blocking (UV-block) filters under field conditions (4138 m above the sea level) in order to understand the impact of UV on morphological and physiological parameters of maca crops over a complete growing season. Compared to the UV-blocking filter, under control condition a significant increase of hypocotyl weight was observed during the vegetative phase together with a marked leaf turnover. Although parameters conferring photosynthetic performance were not altered by UV, carbohydrate allocation between above and underground organs was affected. Control condition did not influence the content of secondary metabolites such as glucosinolates and phenolic compounds in hypocotyls, while some differences were observed in the rosettes. These differences were mainly related to leaf turnover and the protection of new young leaves in control plants. Altogether, the data suggest that maca plants respond to strong UV radiation at high altitudes by a coordinated remobilization and relocation of metabolites between source and sink organs via a possible UV signaling pathway.

Published

2020

5. Salt tolerance mechanisms in three Irano-Turanian Brassicaceae halophytes relatives of Arabidopsis thaliana.

Author

Hajiboland R, Bahrami-Rad S, Akhani H, and Poschenrieder C

Subjects

Arabidopsis growth & development, Arabidopsis metabolism, Arabidopsis physiology, Biomass, Brassicaceae growth & development, Brassicaceae physiology, Germination, Hydrogen Peroxide metabolism, Lepidium growth & development, Lepidium physiology, Plant Leaves metabolism, Plant Roots metabolism, Salt-Tolerant Plants growth & development, Salt-Tolerant Plants physiology, Superoxides metabolism, Brassicaceae metabolism, Lepidium metabolism, Salt-Tolerant Plants metabolism

Abstract

Salt tolerance mechanisms were studied in three Irano-Turanian halophytic species from the Brassicaceae ‎‎(Lepidium latifolium, L. perfoliatum and Schrenkiella parvula) and compared with the glycophyte Arabidopsis thaliana. According to seed germination under salt stress, L. perfoliatum was the most tolerant species, while L. latifolium and S. parvula were rather susceptible. Contrastingly, based on biomass production L. perfoliatum was more salt sensitive than the other two species. In S. parvula biomass was increased up to 2.8-fold by 100 mM NaCl; no significant growth reduction was observed even when exposed to 400 mM NaCl. Stable activities of antioxidative defense enzymes, nil or negligible accumulation of superoxide anion and hydrogen peroxide, as well as stable membrane integrity in the three halophytes revealed that no oxidative stress occurred in these tolerant species under salt stress. Proline levels increased in response to salt treatment. However, it contributed only by 0.3‒2.0% to the total osmolyte concentration in the three halophytes (at 400 mM NaCl) and even less (0.04%) in the glycophyte, A. thaliana (at 100 mM NaCl). Soluble sugars in all three halophytes and free amino acids pool in S. parvula decreased under salt treatment in contrast to the glycophyte, A. thaliana. The contribution of organic osmolytes to the total osmolyte pool increased by salt treatment in the roots, while decreased in halophyte and glycophyte, A. thaliana leaves. Interestingly, this reduction was compensated by a higher relative contribution of K in the leaves of the halophytes, but of Na in A. thaliana. Taken together, biomass data and biochemical indicators show that S. parvula is more salt tolerant than the two Lepidium species. Our data indicate that L. latifolium, as a perennial halophyte with a large biomass, is highly suitable for both restoration of saline habitats and saline agriculture.

Published

2018

6. Metronidazole removal by means of a combined system coupling an electro-Fenton process and a conventional biological treatment: By-products monitoring and performance enhancement.

Author

Aboudalle A, Djelal H, Fourcade F, Domergue L, Assadi AA, Lendormi T, Taha S, and Amrane A

Subjects

Biodegradation, Environmental, Biological Oxygen Demand Analysis, Electrolysis, Iron chemistry, Lepidium drug effects, Lepidium growth & development, Sewage, Water Purification methods, Anti-Bacterial Agents chemistry, Anti-Bacterial Agents metabolism, Anti-Bacterial Agents toxicity, Metronidazole chemistry, Metronidazole metabolism, Metronidazole toxicity, Water Pollutants, Chemical chemistry, Water Pollutants, Chemical metabolism, Water Pollutants, Chemical toxicity

Abstract

In order to mineralize Metronidazole (MTZ), a process coupling an electro-Fenton pretreatment and a biological degradation was implemented. A mono-compartment batch reactor containing a carbon-felt cathode and a platinum anode was employed to carry out the electro-Fenton pretreatment of MTZ. A total degradation of MTZ (100 mg L -1 ) was observed at 0.07 mA.cm -2 after only 20 min of electrolysis. Yet, after 1 and 2 h of electrolysis, the mineralization level remained low (16.2% and 32% respectively), guaranteeing a significant residual organic content for further biological treatment. LCMS/MS was used to determine the intermediates by-products and hence to propose a plausible degradation pathway. An increase from 0 to 0.44 and 0.6 for 1 and 2 h of electrolysis was observed for the BOD 5 /COD ratio. Thus, from 1 h of electro-Fenton pretreatment, the electrolysis by-products were considered biodegradable. A biological treatment of the electrolysis by-products after 1 and 2 h was then realized. The mineralization yields reached very close values, about 84% for 1 and 2 h of electrolysis after 504 h of biological treatment, namely close to 89% for the overall process, showing the pertinence of the proposed coupled process., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2018

7. Assessing the potential phytotoxicity of digestate from winery wastes.

Author

Da Ros C, Libralato G, Ghirardini AV, Radaelli M, and Cavinato C

Subjects

Fertilizers analysis, Lepidium drug effects, Lepidium growth & development, Models, Theoretical, Sinapis drug effects, Sinapis growth & development, Soil Pollutants chemistry, Sorghum drug effects, Sorghum growth & development, Wine, Fertilizers toxicity, Germination drug effects, Industrial Waste analysis, Soil Pollutants toxicity, Waste Products analysis

Abstract

In this study, digestate from winery wastes was investigated focusing on phytotoxicity using macrophytes and evaluating the potential contribution of ammonium and copper. Spreading of digestate on soil could represent a suitable approach to recycle nutrients and organic matter, creating an on site circular economy. In this study, digestate quality was evaluated considering both chemical-physical characteristics and biological toxicity applying germination test. The effluent did not meet the entire amendment quality standard defined by Italian law (Decree 75/2010 germination index > 60% with solution of 30% v/v of digestate), but bio-stimulation was observed at low doses (3.15-6.25% v/v) for S. alba and S. saccharatum. The beneficial concentration agreed with Nitrate Directive dose and suggested that limited addition of digestate could have several positive effects on soil characteristics and on crop growth. Specific test using ammonium and copper solutions showed that these pollutants were not directly correlated to observed phytotoxicity., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published

2018

8. Comparative genome analysis of the vineyard weed endophyte Pseudomonas viridiflava CDRTc14 showing selective herbicidal activity.

Author

Samad A, Antonielli L, Sessitsch A, Compant S, and Trognitz F

Subjects

Bacterial Proteins genetics, Endophytes genetics, Gene Expression Regulation, Bacterial, Lepidium drug effects, Lepidium microbiology, Plant Diseases prevention & control, Pseudomonas genetics, Bacterial Proteins metabolism, Comparative Genomic Hybridization methods, Endophytes metabolism, Genome, Bacterial, Herbicides pharmacology, Lepidium growth & development, Pseudomonas metabolism

Abstract

Microbes produce a variety of secondary metabolites to be explored for herbicidal activities. We investigated an endophyte Pseudomonas viridiflava CDRTc14, which impacted growth of its host Lepidium draba L., to better understand the possible genetic determinants for herbicidal and host-interaction traits. Inoculation tests with a variety of target plants revealed that CDRTc14 shows plant-specific effects ranging from beneficial to negative. Its herbicidal effect appeared to be dose-dependent and resembled phenotypically the germination arrest factor of Pseudomonas fluorescens WH6. CDRTc14 shares 183 genes with the herbicidal strain WH6 but the formylaminooxyvinylglycine (FVG) biosynthetic genes responsible for germination arrest of WH6 was not detected. CDRTc14 showed phosphate solubilizing ability, indole acetic acid and siderophores production in vitro and harbors genes for these functions. Moreover, genes for quorum sensing, hydrogen cyanide and ACC deaminase production were also found in this strain. Although, CDRTc14 is related to plant pathogens, we neither found a complete pathogenicity island in the genome, nor pathogenicity symptoms on susceptible plant species upon CDRTc14 inoculation. Comparison with other related genomes showed several unique genes involved in abiotic stress tolerance in CDRTc14 like genes responsible for heavy metal and herbicide resistance indicating recent adaptation to plant protection measures applied in vineyards.

Published

2017

9. Rhizobacteria and plant symbiosis in heavy metal uptake and its implications for soil bioremediation.

Author

Sobariu DL, Fertu DIT, Diaconu M, Pavel LV, Hlihor RM, Drăgoi EN, Curteanu S, Lenz M, Corvini PF, and Gavrilescu M

Subjects

Azotobacter metabolism, Biodegradation, Environmental, Lepidium growth & development, Models, Theoretical, Neural Networks, Computer, Soil Pollutants isolation & purification, Bacteria metabolism, Lepidium metabolism, Metals, Heavy metabolism, Rhizosphere, Soil chemistry, Soil Microbiology, Symbiosis

Abstract

Certain species of plants can benefit from synergistic effects with plant growth-promoting rhizobacteria (PGPR) that improve plant growth and metal accumulation, mitigating toxic effects on plants and increasing their tolerance to heavy metals. The application of PGPR as biofertilizers and atmospheric nitrogen fixators contributes considerably to the intensification of the phytoremediation process. In this paper, we have built a system consisting of rhizospheric Azotobacter microbial populations and Lepidium sativum plants, growing in solutions containing heavy metals in various concentrations. We examined the ability of the organisms to grow in symbiosis so as to stimulate the plant growth and enhance its tolerance to Cr(VI) and Cd(II), to ultimately provide a reliable phytoremediation system. The study was developed at the laboratory level and, at this stage, does not assess the inherent interactions under real conditions occurring in contaminated fields with autochthonous microflora and under different pedoclimatic conditions and environmental stresses. Azotobacter sp. bacteria could indeed stimulate the average germination efficiency of Lepidium sativum by almost 7%, average root length by 22%, average stem length by 34% and dry biomass by 53%. The growth of L. sativum has been affected to a greater extent in Cd(II) solutions due its higher toxicity compared to that of Cr(VI). The reduced tolerance index (TI, %) indicated that plant growth in symbiosis with PGPR was however affected by heavy metal toxicity, while the tolerance of the plant to heavy metals was enhanced in the bacteria-plant system. A methodology based on artificial neural networks (ANNs) and differential evolution (DE), specifically a neuro-evolutionary approach, was applied to model germination rates, dry biomass and root/stem length and proving the robustness of the experimental data. The errors associated with all four variables are small and the correlation coefficients higher than 0.98, which indicate that the selected models can efficiently predict the experimental data., (Copyright © 2016. Published by Elsevier B.V.)

Published

2017

10. Living in the city: urban environments shape the evolution of a native annual plant.

Author

Yakub M and Tiffin P

Subjects

Adaptation, Physiological, Environment, Humans, New York, Plant Leaves, Temperature, Cities, Lepidium growth & development, Selection, Genetic

Abstract

Urban environments are warmer, have higher levels of atmospheric CO 2 and have altered patterns of disturbance and precipitation than nearby rural areas. These differences can be important for plant growth and are likely to create distinct selective environments. We planted a common garden experiment with seeds collected from natural populations of the native annual plant Lepidium virginicum, growing in five urban and nearby rural areas in the northern United States to determine whether and how urban populations differ from those from surrounding rural areas. When grown in a common environment, plants grown from seeds collected from urban areas bolted sooner, grew larger, had fewer leaves, had an extended time between bolting and flowering, and produced more seeds than plants grown from seeds collected from rural areas. Interestingly, the rural populations exhibited larger phenotypic differences from one another than urban populations. Surprisingly, genomic data revealed that the majority of individuals in each of the urban populations were more closely related to individuals from other urban populations than they were to geographically proximate rural areas - the one exception being urban and rural populations from New York which were nearly identical. Taken together, our results suggest that selection in urban environments favors different traits than selection in rural environments and that these differences can drive adaptation and shape population structure., (© 2016 John Wiley & Sons Ltd.)

Published

2017

11. Characteristic fingerprinting based on macamides for discrimination of maca (Lepidium meyenii) by LC/MS/MS and multivariate statistical analysis.

Author

Pan Y, Zhang J, Li H, Wang YZ, and Li WY

Subjects

Biomarkers analysis, China, Chromatography, High Pressure Liquid, Crops, Agricultural growth & development, Crops, Agricultural metabolism, Discriminant Analysis, Food Inspection methods, Heptanoic Acids analysis, Heptanoic Acids metabolism, Hypocotyl growth & development, Hypocotyl metabolism, Least-Squares Analysis, Lepidium growth & development, Lepidium metabolism, Palmitic Acids analysis, Palmitic Acids metabolism, Peru, Plant Extracts chemistry, Plant Extracts isolation & purification, Polyunsaturated Alkamides metabolism, Solvents chemistry, Spectrometry, Mass, Electrospray Ionization, Spectrophotometry, Ultraviolet, Stearic Acids analysis, Stearic Acids metabolism, Tandem Mass Spectrometry, Crops, Agricultural chemistry, Dietary Supplements analysis, Food Quality, Functional Food analysis, Hypocotyl chemistry, Lepidium chemistry, Polyunsaturated Alkamides analysis

Abstract

Background: Macamides with a benzylalkylamide nucleus are characteristic and major bioactive compounds in the functional food maca (Lepidium meyenii Walp). The aim of this study was to explore variations in macamide content among maca from China and Peru. Twenty-seven batches of maca hypocotyls with different phenotypes, sampled from different geographical origins, were extracted and profiled by liquid chromatography with ultraviolet detection/tandem mass spectrometry (LC-UV/MS/MS)., Results: Twelve macamides were identified by MS operated in multiple scanning modes. Similarity analysis showed that maca samples differed significantly in their macamide fingerprinting. Partial least squares discriminant analysis (PLS-DA) was used to differentiate samples according to their geographical origin and to identify the most relevant variables in the classification model. The prediction accuracy for raw maca was 91% and five macamides were selected and considered as chemical markers for sample classification., Conclusion: When combined with a PLS-DA model, characteristic fingerprinting based on macamides could be recommended for labelling for the authentication of maca from different geographical origins. The results provided potential evidence for the relationships between environmental or other factors and distribution of macamides. © 2016 Society of Chemical Industry., (© 2016 Society of Chemical Industry.)

Published

2016

12. [Recent researching progress of Lepidium meyenii (Maca)].

Author

Zhou YY, Zhao HY, Si N, Wang HJ, and Gian BL

Subjects

Animals, Biomedical Research, Humans, Lepidium classification, Lepidium growth & development, Plant Extracts metabolism, Lepidium chemistry, Plant Extracts chemistry, Plant Extracts pharmacology

Abstract

Maca as one of the star products in the international health care market in recent years, had a wide range of application value and promoted to all over the world. However, the basic research of Maca was not deep, lack of systematic and clear efficacy studies. Market products hype its aphrodisiac effect, which greatly impact more systematic in-depth research and exploration. Therefore, this paper briefly summarizes advance research in recent years including the status quo of the resources, growth cultivation, phytochemical, pharmacological effect and other aspects, which can provide reference for rational development and utilization of Maca.

Published

2015

13. Maturity indices in co-composting of chicken manure and sawdust with biochar.

Author

Khan N, Clark I, Sánchez-Monedero MA, Shea S, Meier S, and Bolan N

Subjects

Ammonium Compounds analysis, Animals, Carbon analysis, Carbon Dioxide analysis, Chickens, Germination, Lepidium growth & development, Nitrates analysis, Nitrogen analysis, Temperature, Charcoal chemistry, Manure analysis, Soil, Wood chemistry

Abstract

Several maturity indices were evaluated for in-vessel co-composting of chicken manure and pine sawdust with three different biochars. All the seven mixtures (piles) contained chicken manure and sawdust. Six of these piles contained biochar; each biochar was added at two rates, 5% and 10% wet weight. The maturity of composts was assessed by C/N, dissolved organic carbon (DOC), seed germination, NO3(-)-N/NH4(+)-N, and the Solvita test. The C/N values of finished composts were from 31.5 to 35.7, which were much higher than the optimum value of 21 for matured compost. Nevertheless, the rest of the parameters indicated that the composts were matured. The C/N values were high because of the high amount of recalcitrant carbon present in the feedstocks: biochar and sawdust. Biochar treated piles showed higher respiration as well as decomposition of DOC indicating higher microbial activity. Use of biochar in composting may reduce NH3 emission and nitrate leaching., (Copyright © 2014 Elsevier Ltd. All rights reserved.)

Published

2014

14. Contrasting seasonal overlaps between primary and secondary growth are linked to wood anatomy in Mediterranean sub-shrubs.

Author

Camarero JJ, Palacio S, and Montserrat-Martí G

Subjects

Carbohydrate Metabolism, Flax anatomy & histology, Flax growth & development, Lepidium anatomy & histology, Lepidium growth & development, Magnoliopsida anatomy & histology, Mediterranean Region, Plant Roots growth & development, Salvia anatomy & histology, Salvia growth & development, Satureja anatomy & histology, Satureja growth & development, Wood anatomy & histology, Magnoliopsida growth & development, Plant Shoots growth & development, Seasons, Wood growth & development

Abstract

Whole-plant approaches allow quantification of the temporal overlap between primary and secondary growth. If the amount of time available to grow is short, there may be a high temporal overlap between shoot growth and wood formation. We hypothesise that such overlap depends on the duration of the growing season and relates to wood anatomy. We evaluated wood anatomy, shoot longitudinal and radial growth rates, fine root production and the concentrations of non-structural carbohydrates (NSC) in the wood of six sub-shrub species growing in sites with contrasting climatic conditions (Lepidium subulatum, Linum suffruticosum, Salvia lavandulifolia, Satureja montana, Ononis fruticosa, Echinospartum horridum). Sub-shrub species living in sites with a short growing season displayed a high overlap between aboveground primary and secondary growth and formed wide vessels, whereas species from the warmest and driest sites presented the reverse characteristics. The highest overlap was linked to a rapid shoot extension and thickening through the enhanced hydraulic conductivity provided by wide vessels. The reductions in NSC concentrations when growth peaked were low or moderate, indicating that sub-shrubs accumulate NSC in excess, as do trees. The temporal overlap among primary and secondary growth in woody plants may be connected to the duration and rates of shoot and wood growth, which in turn depend on the vessel lumen area., (© 2012 German Botanical Society and The Royal Botanical Society of the Netherlands.)

Published

2013

15. Development of an efficient regeneration and transformation method for the new potential oilseed crop Lepidium campestre.

Author

Ivarson E, Ahlman A, Li X, and Zhu LH

Subjects

2,4-Dichlorophenoxyacetic Acid, Cytokinins pharmacology, Genetic Engineering methods, Lepidium genetics, Phenylurea Compounds pharmacology, Plant Shoots growth & development, Plants, Genetically Modified growth & development, Thiadiazoles pharmacology, Zeatin pharmacology, Lepidium growth & development, Plant Growth Regulators pharmacology, Regeneration, Transformation, Genetic

Abstract

Background: Lepidium campestre is an undomesticated oilseed species with a great potential to become a new crop for both food and industrial feedstocks production. Genetic modification is needed for further improving the oil quantity and quality of Lepidium. Studies on in vitro shoot regeneration of Lepidium are very limited and there is no transformation protocol available., Results: We have investigated the effects of different factors, especially the type, concentration and combination of plant growth regulators (PGRs) on in vitro shoot regeneration of Lepidium. The results showed that the 2,4-D treatment was crucial to shoot regeneration from different explants. The duration of 2,4-D exposure between 2-4 days did not show significant difference in shoot regeneration, while the effect of 2,4-D concentration varied greatly depending on the type of explants and cytokinins used, for example, the low concentration of 2,4-D combined with TDZ significantly increased the regeneration frequency of hypocotyls. Cotyledon and hypocotyl explants responded differently to cytokinin, for example, TDZ was more effective than zeatin in promoting shoot regeneration from hypocotyls, but did not affect the regeneration of cotyledons which was more affected by high concentration of zeatin. The results also showed that NAA was not effective for shoot regeneration. Germination in light increased the regeneration frequency compared to that in dark. After optimization of the different conditions, an efficient regeneration protocol was developed with the regeneration efficiency of 92.7%. Using this protocol, the transformation frequency of 6% in average was achieved. The presence of transgenes in the transgenic lines was confirmed by GUS staining, PCR and Southern blot analyses., Conclusion: Through systematic investigation of important factors affecting in vitro shoot regeneration, we have developed an efficient regeneration and transformation protocol for the genetic modification of Lepidium campestre. The method may also be applied to the related species.

Published

2013

16. Evaluation of thermochemical pretreatment and continuous thermophilic condition in rice straw composting process enhancement.

Author

Hosseini SM and Abdul Aziz H

Subjects

Analysis of Variance, Animals, Biological Oxygen Demand Analysis, Bioreactors, Carbon analysis, Cattle, Electric Conductivity, Humidity, Hydrogen-Ion Concentration, Lepidium growth & development, Nitrogen analysis, Organic Chemicals analysis, Biotechnology methods, Oryza chemistry, Soil chemistry, Temperature, Waste Products analysis

Abstract

The effects of thermochemical pretreatment and continuous thermophilic conditions on the composting of a mixture of rice straw residue and cattle manure were investigated using a laboratory-scale composting reactor. Results indicate that the composting period of rice straw can be shortened to less than 10 days by applying alkali pre-treatment and continuous thermophilic composting conditions. The parameters obtained on day 9 of this study are similar to the criteria level published by the Canadian Council of Ministers of the Environment. The moisture content, organic matter reduction, pH level, electrical conductivity, total organic carbon reduction, soluble chemical oxygen demand reduction, total Kjeldahl nitrogen, carbon-to-nitrogen ratio, and germination index were 62.07%, 16.99%, 7.30%, 1058 μS/cm, 17.00%, 83.43%, 2.06%, 16.75%, and 90.33%, respectively. The results of this study suggest that the application of chemical-biological integrated processes under thermophilic conditions is a novel method for the rapid degradation and maturation of rice straw residue., (Copyright © 2013 Elsevier Ltd. All rights reserved.)

Published

2013

17. Spatiotemporal seed development analysis provides insight into primary dormancy induction and evolution of the Lepidium delay of germination1 genes.

Author

Graeber K, Voegele A, Büttner-Mainik A, Sperber K, Mummenhoff K, and Leubner-Metzger G

Subjects

Arabidopsis Proteins chemistry, Arabidopsis Proteins genetics, Brassicaceae genetics, Chromosomes, Plant genetics, Cloning, Molecular, Fruit growth & development, Gene Expression Regulation, Developmental, Gene Expression Regulation, Plant, Lepidium anatomy & histology, Molecular Sequence Data, Phylogeny, Plant Proteins metabolism, Seeds genetics, Evolution, Molecular, Genes, Plant genetics, Lepidium genetics, Lepidium growth & development, Plant Dormancy genetics, Plant Proteins genetics, Seeds growth & development

Abstract

Seed dormancy is a block to the completion of germination of an intact viable seed under favorable conditions and is an adaptive and agronomically important trait. Thus, elucidating conserved features of dormancy mechanisms is of great interest. The worldwide-distributed genus Lepidium (Brassicaceae) is well suited for cross-species comparisons investigating the origin of common or specific early-life-history traits. We show here that homologs of the seed dormancy-specific gene delay of germination1 (DOG1) from Arabidopsis (Arabidopsis thaliana) are widespread in the genus Lepidium. The highly dormant Lepidium papillosum is a polyploid species and possesses multiple structurally diversified DOG1 genes (LepaDOG1), some being expressed in seeds. We used the largely elongated and well-structured infructescence of L. papillosum for studying primary dormancy induction during seed development and maturation with high temporal resolution. Using simultaneous germination assays and marker protein expression detection, we show that LepaDOG1 proteins are expressed in seeds during maturation prior to dormancy induction. Accumulation of LepaDOG1 takes place in seeds that gain premature germinability before and during the seed-filling stage and declines during the late maturation and desiccation phase when dormancy is induced. These analyses of the Lepidium DOG1 genes and their protein expression patterns highlight similarities and species-specific differences of primary dormancy induction mechanism(s) in the Brassicaceae.

Published

2013

18. Evidence that an evolutionary transition from dehiscent to indehiscent fruits in Lepidium (Brassicaceae) was caused by a change in the control of valve margin identity genes.

Author

Mühlhausen A, Lenser T, Mummenhoff K, and Theißen G

Subjects

Arabidopsis cytology, Arabidopsis genetics, Arabidopsis growth & development, Arabidopsis Proteins genetics, Biological Evolution, Brassicaceae cytology, Brassicaceae genetics, Brassicaceae growth & development, Fruit cytology, Fruit growth & development, Gene Expression, Homeodomain Proteins genetics, Lepidium cytology, Lepidium growth & development, Mutation, Nuclear Proteins genetics, Phenotype, Phylogeny, Plants, Genetically Modified, RNA, Plant genetics, Sequence Analysis, DNA, Species Specificity, Up-Regulation, Fruit genetics, Gene Expression Regulation, Plant, Lepidium genetics, Plant Proteins genetics

Abstract

In the Brassicaceae, indehiscent fruits evolved from dehiscent fruits several times independently. Here we use closely related wild species of the genus Lepidium as a model system to analyse the underlying developmental genetic mechanisms in a candidate gene approach. ALCATRAZ (ALC), INDEHISCENT (IND), SHATTERPROOF1 (SHP1) and SHATTERPROOF2 (SHP2) are known fruit developmental genes of Arabidopsis thaliana that are expressed in the fruit valve margin governing dehiscence zone formation. Comparative expression analysis by quantitative RT-PCR, Northern blot and in situ hybridization show that their orthologues from Lepidium campestre (dehiscent fruits) are similarly expressed at valve margins. In sharp contrast, expression of the respective orthologues is abolished in the corresponding tissue of indehiscent Lepidium appelianum fruits, indicating that changes in the genetic pathway identified in A. thaliana caused the transition from dehiscent to indehiscent fruits in the investigated species. As parallel mutations in different genes are quite unlikely, we conclude that the changes in gene expression patterns are probably caused by changes in upstream regulators of ALC, IND and SHP1/2, possible candidates from A. thaliana being FRUITFULL (FUL), REPLUMLESS (RPL) and APETALA2 (AP2). However, neither expression analyses nor functional tests in transgenic plants provided any evidence that the FUL or RPL orthologues of Lepidium were involved in evolution of fruit indehiscence in Lepidium. In contrast, stronger expression of AP2 in indehiscent compared to dehiscent fruits identifies AP2 as a candidate gene that deserves further investigation., (© 2012 The Authors The Plant Journal © 2012 Blackwell Publishing Ltd.)

Published

2013

19. Influence of colour type and previous cultivation on secondary metabolites in hypocotyls and leaves of maca (Lepidium meyenii Walpers).

Author

Clément C, Diaz Grados DA, Avula B, Khan IA, Mayer AC, Ponce Aguirre DD, Manrique I, and Kreuzer M

Subjects

Agriculture methods, Altitude, Cholesterol analogs & derivatives, Cholesterol analysis, Glucosinolates analysis, Hypocotyl metabolism, Indoles analysis, Lepidium classification, Lepidium metabolism, Linoleic Acids analysis, Linoleic Acids chemistry, Linolenic Acids analysis, Linolenic Acids chemistry, Nutritive Value, Organ Specificity, Palmitic Acids analysis, Palmitic Acids chemistry, Peru, Phytosterols analysis, Plant Leaves metabolism, Polyunsaturated Alkamides, Species Specificity, Hypocotyl chemistry, Lepidium chemistry, Lepidium growth & development, Pigmentation, Plant Leaves chemistry, Sitosterols analysis, Soil analysis

Abstract

Background: Maca is an Andean crop of the Brassicaceae family which is mainly known for its fertility-enhancing properties following consumption. The hypocotyls display various colours ranging from white to black. Each colour has different biological effects. The aim of this study was to analyse the concentrations of major secondary metabolites in hypocotyls and leaves of maca in a controlled planting experiment in the Peruvian Andes at 4130 m above sea level. The effects of colour type and of previous cultivation of the field were examined., Results: In the hypocotyls, the colour type effect was significant for most secondary metabolites; exceptions were beta-sitosterol and campesterol. The lead-coloured, yellow and violet maca hypocotyls were rich in glucosinolates, macaene and macamides, respectively. Previous cultivation affected macaene, campesterol and indole glucosinolate concentrations. Effects on metabolite concentrations in the leaves were minor. Hypocotyls were richer in macaene, macamides and glucosinolates than were leaves, and were poorer in beta-sitosterol and total phenols., Conclusion: Colour type has to be considered in maca production, as colour associates with variations in concentrations of distinct bioactive metabolites. Leaves may be interesting for animal nutrition purposes as they contain essentially the same secondary metabolites as the hypocotyls but in clearly lower concentrations., ((c) 2010 Society of Chemical Industry.)

Published

2010

20. Lepidium as a model system for studying the evolution of fruit development in Brassicaceae.

Author

Mummenhoff K, Polster A, Mühlhausen A, and Theissen G

Subjects

Brassicaceae classification, Brassicaceae genetics, Brassicaceae growth & development, Brassicaceae metabolism, Fruit genetics, Fruit metabolism, Gene Expression Regulation, Plant, Lepidium classification, Lepidium genetics, Lepidium metabolism, Phylogeny, Plant Proteins genetics, Plant Proteins metabolism, Biological Evolution, Fruit growth & development, Lepidium growth & development

Abstract

Fruits represent a key innovation of the flowering plants that facilitates seed dispersal. In many species of the plant family Brassicaceae dehiscent fruits develop in which seed dispersal occurs through a process termed 'pod-shatter'. In the case of dehiscence, the fruit opens during fruit maturation. Phylogeny reconstructions using molecular markers indicate that the development of dehiscent fruits is the ancestral condition within the genus Lepidium s.l., but that indehiscent fruits evolved independently several times from dehiscent fruits. With Lepidium campestre and Cardaria pubescens (also known as Lepidium appelianum), very closely related taxa with dehiscent and indehiscent fruits, respectively, were identified which constitute a well-suited model system to determine the molecular genetic basis of evolutionary changes in fruit dehiscence. Following the rationale of evolutionary developmental biology ('evo-devo') phylomimicking mutants with indehiscent fruits of the close relative Arabidopsis have been used to define the candidate genes ALC, FUL, IND, RPL, and SHP1/2 which might be involved in the origin of indehiscent fruits in Cardaria. Comparative expression studies in L. campestre and C. pubescens are used to identify differentially expressed genes and thus to narrow down the number of candidate genes. Reciprocal heterologous transformation experiments may help us to distinguish direct from indirect developmental genetic causes of fruit indehiscence, and to assess the contribution of cis- and trans-regulatory changes.

Published

2009

21. Phytotoxicity of municipal sewage sludge composts related to physico-chemical properties, PAHs and heavy metals.

Author

Oleszczuk P

Subjects

Biomass, Chlorophyll analysis, Hydrogen-Ion Concentration, Lepidium growth & development, Organic Chemicals analysis, Poland, Seeds physiology, Sewage adverse effects, Soil, Urban Population, Metals, Heavy analysis, Polycyclic Aromatic Hydrocarbons analysis, Sewage analysis

Abstract

The aim of the study was to determine the influence of the composting on the phytotoxicity of sewage sludge in relation to their physical-chemical properties, heavy metals and polycyclic aromatic hydrocarbons content. Four municipal sewage sludges were composted for 76 days. A Phytotoxkit Test and pot experiment with Lepidium sativum were used for bioassay. The total PAH content in sludges ranged from 3674.1 to 11236.3 microg kg(-1). Heavy metals content was in the range Cd (1.9-76 mg kg(-1)), Cr (27.6-120 mg kg(-1)), Cu (156-335 mg kg(-1)), Pb (37.5-59.5 mg kg(-1)), Ni (21.7-155 mg kg(-1)) and Zn (1015-1385 mg kg(-1)). The results showed a varied toxicity of sewage sludge in relation to the plant tested. In the case of two sludges a 100% inhibition of seed germination were noted. Sludge composting limited their negative influence on most of the phytotoxicity parameters. Only chlorophyll concentration was often lower than in the plant bred on compost obtained from sludge.

Published

2008

22. Environmental degradation of polyester blends containing atactic poly(3-hydroxybutyrate). Biodegradation in soil and ecotoxicological impact.

Author

Rychter P, Biczak R, Herman B, Smyłła A, Kurcok P, Adamus G, and Kowalczuk M

Subjects

Hordeum growth & development, Hydroxybutyrates toxicity, Lepidium growth & development, Molecular Weight, Polyesters toxicity, Soil Microbiology, Soil Pollutants toxicity, Hydroxybutyrates metabolism, Polyesters metabolism, Soil Pollutants metabolism

Abstract

The degradation of poly[(R,S)-3-hydroxybutyrate], a-PHB, binary blends with natural PHB (n-PHB) and poly(L-lactic acid), PLLA, respectively, has been investigated in soil. In such a natural environment, a-PHB blend component was found to biodegrade. The degradation of a-PHB-containing blends proceeded faster than that of respective plain n-PHB and PLLA. The molecular weight decrease of the n-PHB component was higher, while the same rate of bioerosion of both components was observed for the a-PHB/n-PHB binary blend. For the a-PHB blend with PLLA, the weight loss was accompanied by blend composition changes and the decrease of a-PHB content. However, the PLLA molecular weight decrease was lower in the blend in comparison with the plain PLLA sample. The increase of the number of microorganisms particularly observed for the soil where binary blends were incubated indicates that microbial degradation of a-PHB takes place. The terrestrial plant growth test (cress and barley) demonstrates no environmental toxicity of the materials studied.

Published

2006

23. Ecotoxicity, phytotoxicity and extractability of heavy metals from different stabilised sewage sludges.

Author

Fuentes A, Lloréns M, Sáez J, Aguilar MA, Pérez-Marín AB, Ortuño JF, and Meseguer VF

Subjects

Chemical Fractionation, Hordeum growth & development, Lepidium growth & development, Pentetic Acid, Plant Roots growth & development, Seeds growth & development, Toxicity Tests, Water Purification, Ecosystem, Environmental Pollutants toxicity, Metals, Heavy toxicity, Plant Development, Sewage, Waste Management

Abstract

The presence of heavy metals in the sludges produced in wastewater treatment plants restricts their use for agricultural purposes. This study compares different types of sludges (aerobic, anaerobic, unstabilised and sludge from a waste stabilisation pond) in order to assess the extractability of heavy metals using simple extraction, water and DTPA. The stabilisation treatment undergone by the sludges influenced the heavy metals extractability. The least mineralised sludges (unstabilised and aerobic) showed higher metal extractability. The sewage sludges were subjected to chemical characterisation and toxicity testing (ecotoxicity and phytotoxicity assays) in absence of substrate, to provide a preliminary assessment of their suitability for land application. The ecotoxicity assays confirmed that no sludge constituted a hazardous waste. The sludge extracts had significant adverse effect on the germination index (GI) of barley (Hordeum vulgare L.) and cress (Lepidium sativum L.), a fact which indicates that some characteristics affected root growth.

Published

2006

24. A method for measuring low-weight carboxylic acids from biosolid compost.

Author

Himanen M, Latva-Kala K, Itävaara M, and Hänninen K

Subjects

Calibration, Chromatography, Gas, Lepidium growth & development, Carboxylic Acids analysis, Soil analysis

Abstract

Concentration of low-weight carboxylic acids (LWCA) is one of the important parameters that should be taken into consideration when compost is applied as soil improver for plant cultivation, because high amounts of LWCA can be toxic to plants. The present work describes a method for analysis of LWCA in compost as a useful tool for monitoring compost quality and safety. The method was tested on compost samples of two different ages: 3 (immature) and 6 (mature) months old. Acids from compost samples were extracted at high pH, filtered, and freeze-dried. The dried sodium salts were derivatized with a sulfuric acid-methanol mixture and concentrations of 11 low-weight fatty acids (C1-C10) were analyzed using headspace gas chromatography. The material was analyzed with two analytical techniques: the external calibration method (tested on 11 LWCA) and the standard addition method (tested only on formic, acetic, propionic, butyric, and iso-butyric acids). The two techniques were compared for efficiency of acids quantification. The method allowed good separation and quantification of a wide range of individual acids with high sensitivity at low concentrations. Detection limit for propionic, butyric, caproic, caprylic, and capric acids was 1 mg kg(-1) compost; for formic, acetic, valeric, enanthoic and pelargonic acids it was 5 mg kg(-1) compost; and for iso-butyric acid it was 10 mg kg(-1) compost. Recovery rates of LWCA were higher in 3-mo-old compost (57-99%) than in 6-mo-old compost (29-45%). In comparison with the external calibration technique the standard addition technique proved to be three to four times more precise for older compost and two times for younger compost. Disadvantages of the standard addition technique are that it is more time demanding and laborious.

Published

2006

25. Bud morphology and shoot growth dynamics in two species of Mediterranean sub-shrubs co-existing in gypsum outcrops.

Author

Palacio S and Montserrat-Martí G

Subjects

Calcium Sulfate, Mediterranean Region, Seasons, Spain, Ecosystem, Flowers physiology, Lepidium anatomy & histology, Lepidium growth & development, Plant Shoots growth & development

Abstract

Background and Aims: Understanding the effects of the environment on the morphology and shoot growth activities of plants is crucial to identifying plant ecological strategies. This study analysed the bud morphology, bud activity, shoot growth dynamics and shoot water content at full hydration (WC(h)) of two species of Mediterranean sub-shrubs, Lepidium subulatum and Linum suffruticosum, co-existing in gypsum outcrops in north-east Spain., Methods: Sampling was conducted monthly over 2 years in one population per species. Buds were dissected under a stereo-microscope. Shoot growth was measured as the mean increase in shoot length of 15 marked individuals between two consecutive samplings. Bud activity was studied following the variations in the number of leaf primordia shorter than 1 mm and longer than 0.025 mm in the buds., Key Results: Both species bore naked buds and displayed discontinuous seasonal patterns of shoot growth, leaf primordia formation and WC(h). The number of leaf primordia in the bud peaked before the beginning of shoot expansion. In both species, organogenesis and expansion were uncoupled throughout the year. The time lapse between these two processes varied throughout the year, and was greatest for those elements differentiated in autumn. WC(h) was more closely related to shoot expansion than to organogenesis., Conclusions: Both species displayed similar bud morphology and similar seasonal patterns of bud and shoot growth, and WC(h) as a result of the strong seasonality of the Mediterranean climate in gypsum outcrops. The beginning of the spring period of expansion of long branches coincided with maximum values of WC(h), while the rest period of summer matched minimum values. These results support the hypothesis that the growth of long branches is strongly related to WC(h).

Published

2005

26. Activation of CRABS CLAW in the Nectaries and Carpels of Arabidopsis.

Author

Lee JY, Baum SF, Alvarez J, Patel A, Chitwood DH, and Bowman JL

Subjects

AGAMOUS Protein, Arabidopsis genetics, Arabidopsis growth & development, Arabidopsis metabolism, Arabidopsis Proteins metabolism, Binding Sites genetics, Brassica genetics, Brassica growth & development, Brassica metabolism, Conserved Sequence genetics, DNA Footprinting, Evolution, Molecular, Flowers growth & development, Flowers metabolism, Genes, Homeobox genetics, Genes, Regulator genetics, Lepidium genetics, Lepidium growth & development, Lepidium metabolism, MADS Domain Proteins genetics, Mutation genetics, Phylogeny, Promoter Regions, Genetic genetics, Species Specificity, Transcription Factors metabolism, Transcriptional Activation genetics, Arabidopsis genetics, Arabidopsis Proteins genetics, Flowers genetics, Gene Expression Regulation, Plant genetics, Genes, Plant genetics, Transcription Factors genetics

Abstract

CRABS CLAW (CRC), a member of the YABBY gene family, is required for nectary and carpel development. To further understand CRC regulation in Arabidopsis thaliana, we performed phylogenetic footprinting analyses of 5' upstream regions of CRC orthologs from three Brassicaceae species, including Arabidopsis. Phylogenetic footprinting efficiently identified functionally important regulatory regions (modules), indicating that CRC expression is regulated by a combination of positive and negative regulatory elements in the modules. Within the conserved modules, we identified putative binding sites of LEAFY and MADS box proteins, and functional in vivo analyses revealed their importance for CRC expression. Both expression and genetic studies demonstrate that potential binding sites for MADS box proteins within the conserved regions are functionally significant for the transcriptional regulation of CRC in nectaries. We propose that in wild-type flowers, a combination of floral homeotic gene activities, specifically the B class genes APETALA3 and PISTILLATA and the C class gene AGAMOUS act redundantly with each other and in combination with SEPALLATA genes to activate CRC in the nectaries and carpels. In the absence of B and C class gene activities, other genes such as SHATTERPROOF1/2 can substitute if they are ectopically expressed, as in an A class mutant background (apetala2). These MADS box proteins may provide general floral factors that must work in conjunction with specific factors in the activation of CRC in the nectaries and carpels.

Published

2005

27. Influence of salts and phenolic compounds on olive mill wastewater detoxification using superabsorbent polymers.

Author

Davies LC, Novais JM, and Martins-Dias S

Subjects

Absorption, Germination, Lepidium growth & development, Olea, Polymers, Seeds growth & development, Toxicity Tests, Phenols chemistry, Salts chemistry, Waste Disposal, Fluid methods, Water Pollutants toxicity

Abstract

For a selection of nine commercially available superabsorbent polymers, the absorption capacity was evaluated for the principal absorption-inhibition constituent of OMW, mineral salts and for phytotoxic-components, the phenolic compounds. A double exponential model was established for electrical conductivities ranging 4.2-25,000 microS cm(-1). For solutions of phenolic compounds ranging 0-0.5 g l(-1), a distribution coefficient near unit was achieved, while for OMW, the phenolic compounds were concentrated inside the gel as the distribution coefficient was 1.4. Correction of OMW pH towards neutrality was found to increase the absorption capacity by up to 35%. The phytotoxicity was assessed by the germination of Lepidium sativum. Inhibition in plant growth occurred for all OMW dilutions without superabsorbent polymers application. For 5% of OMW (COD 5 gl(-1) and 200 ppm of phenolic compounds) immobilised in PNa2 (1 gl(-1)), plant growth was promoted being observed a 120% growth germination, thus indicating that olive mill wastewater detoxification occurred.

Published

2004

28. Detoxification of olive mill wastewater using superabsorbent polymers.

Author

Davies LC, Novais JM, and Martins-Dias S

Subjects

Adsorption, Agriculture, Aspergillus growth & development, Aspergillus isolation & purification, Industrial Waste, Lepidium growth & development, Olive Oil, Polymers chemistry, Toxicity Tests, Water Pollutants toxicity, Models, Theoretical, Plant Oils, Waste Disposal, Fluid methods, Water Pollutants isolation & purification, Water Purification methods

Abstract

The detoxification of agro-industrial effluents using superabsorbent polymers is a new and innovative process. Olive mill wastewater constitutes a major environmental problem in Mediterranean countries due to the large volumes generated, the seasonality of the industry, and the high content of polyphenols and organic matter. The application of superabsorbent polymers allows olive mill wastewater to be used as a fertilizer, as it is immobilized, increasing the biological activity that decreases its phytotoxicity, thus making its water, organic matter and mineral content usable for plant nutrition. Various parameters that characterise olive mill wastewater were evaluated after absorption in 2 different superabsorbent polymers (SAP1 and SAP2). The organic matter was equally distributed in both phases, while there was a concentration of protein and sodium in solution. The K:Na ratio decreased from 70:1 to 2:1. The polyphenol desorption from the gel into solution was found to follow Fick's law. The mass transfer coefficients were 0.147 min(-1) and 0.0085 min(-1) for SAP1 and SAP2, respectively. Phytotoxicity tests were carried out with SAP2. Olive mill wastewater in SAP2 with polyphenol concentrations up to 200 mg l(-1) revealed no phytotoxicity, and even stimulated Lepidium sativum growth, while olive mill wastewater without superabsorbent polymer revealed growth inhibition for all concentrations tested. Caffeic acid degradation by the immobilised biomass followed zero order kinetics. Degradation constants of 0.087 mg l(-1) min(-1) gSAP2(-1) and 1.156 mg l(-1) min(-1) gSAP2(-1) were found. Fungi that developed in the plant growth medium were identified as Aspergillus sp. and Penicillium sp.

Published

2004

29. Kinetics of amyloplast movement in cress root statocytes under different gravitational loads.

Author

Gaina V, Svegzdiene D, Rakleviciene D, Koryzniene D, Staneviciene R, and Laurinavicius R

Subjects

Centrifugation, Lepidium growth & development, Lepidium ultrastructure, Microscopy, Electron, Plant Root Cap growth & development, Plant Root Cap physiology, Plant Root Cap ultrastructure, Plant Roots growth & development, Plant Roots physiology, Plastids ultrastructure, Rotation, Time Factors, Lepidium physiology, Plant Roots ultrastructure, Plastids physiology, Space Flight, Weightlessness, Weightlessness Simulation

Abstract

In order to investigate the movement of a statolith complex along the longitudinal axis of root cap statocytes under different mass accelerations, a series of experiments with Lepidium sativum L. in an automatically operating centrifuge during the Bion-11 satellite flight and on a centrifuge-clinostat have been performed. During spaceflight, roots were grown for 24 h under root-tip-directed centrifugal 1-g acceleration, then exposed to microgravity for 6, 12 and 24 min and chemically fixed. During the first 6 min of microgravity, the statoliths moved towards the cell center with a mean velocity of 0.31 +/- 0.04 micrometers/min, which decreased to 0.12 +/- 0.01 micrometers/min within subsequent 12-24 min period. The mean relative position of the statolith complex in respect to the distal cell wall (% of total cell length) increased from 24.0 +/- 0.5% in 1 g-grown roots to 38.8 +/- 0.8% in roots exposed for 24 min to microgravity, but remained smaller than in roots grown continuously in microgravity (48.0 +/- 0.7%). The properties of the statolith movement away from the distal pole of the statocyte were studied in roots grown for 24 h vertically under 1 g and then placed for 6 min on a fast rotating clinostat (50 rpm) or 180 degrees inverted. After 2 min of both treatments, the mean relative position of the statoliths increased by about 10% versus its initial position. Later on, the proximal displacement of amyloplasts slowed down under simulated weightlessness, while it proceeded at a constant velocity under 1 g inversion. In roots grown on the clinostat and then exposed to 1 g in the longitudinal direction, amyloplast sedimentation away from the central region of statocyte was similar at the beginning of distal and proximal 6-min 1-g stimulation. However, at the end of this period statolith displacement was more pronounced in proximal direction as compared to distal. It is proposed that statolith position in the statocyte of a vertical root is controlled by the force of gravity, however, the intracellular forces, first of all those generated by the network of the cytoskeleton, are manifested when an usual orientation of the organ is changed or the statocytes are exposed to microgravity and clinorotation., (c2003 COSPAR. Published by Elsevier Ltd. All rights reserved.)

Published

2003

30. Thallium in terrestrial environments--occurrence and effects.

Author

Heim M, Wappelhorst O, and Markert B

Subjects

Animals, Bryopsida chemistry, Cardiovascular Diseases etiology, Czech Republic epidemiology, Environmental Monitoring methods, Epidemiological Monitoring, Germany epidemiology, Humans, Incidence, Lepidium drug effects, Lepidium growth & development, Oligochaeta drug effects, Poland epidemiology, Snails drug effects, Cardiovascular Diseases epidemiology, Soil Pollutants analysis, Soil Pollutants toxicity, Thallium analysis, Thallium toxicity

Abstract

In this investigation thallium contents in soil and plants in the EuroRegion Neisse were analysed and the distribution determined. The median top-soil content is 0.5 mg/kg in the area investigated. In this low-contaminated area the moss Pleurozium schreberi contains 0.04-0.13 microg/g and the moss Polytrichumformosum between 0.01 and 0.05 microg/g Tl. The effects of thallium on man and the terrestrial environment were examined. In an epidemiological study a significant positive correlation was found between the thallium content of the two mosses and the incidence of diseases of the circulatory system. The LOEC for thallium in bioassays with terrestrial invertebrates and plants in artificial soil ranged from 1 to 500 mg/kg, which indicates an toxicity of thallium up to 100 times higher than that of Cadmium.

Published

2002

31. Effect of artificial electric fields on plants grown under microgravity conditions.

Author

Nechitailo G and Gordeev A

Subjects

Biological Transport, Brassicaceae growth & development, Brassicaceae metabolism, Cell Polarity, Electric Stimulation, Lepidium growth & development, Lepidium metabolism, Nitrogen metabolism, Phosphorus metabolism, Plant Roots growth & development, Plant Roots metabolism, Potassium metabolism, Triticum growth & development, Triticum metabolism, Electricity, Pisum sativum growth & development, Pisum sativum metabolism, Space Flight, Weightlessness

Abstract

Ionic and structural hetorogeneity of cells, tissues, and organs of plants are associated with a spectrum of electric characteristics such as bioelectric potentials, electrical conductance, and bioelectric permeability. An important determinant for the plant function is electric properties of the cell membranes and organelles which maintain energy and substance exchange with the environment. Enzymes and other biologically active substances have a powerful charge at the molecular level. Finally, all molecules, including those of water, represent dipoles, and this determines their reactive capacity. A major determinant is the bioelectric polarity of a plant is genetically predetermined and cannot be modified. It is an intrinsic structural feature of the organism whose evolution advent was mediated by gravity. An illustrative presentation of polarity is the downward growth of the roots and upward growth of stems in the Earth's gravitation field. However, gravity is a critical, but not the sole determinant of the plant organism polarization. Potent polarizing effects are exerted by light, the electromagnetic field, moisture, and other factors. It is known that plant cultivation in an upturned position is associated with impairment of water and nutrient uptake, resulting in dyscoordination of physiological processes, growth and developmental retardation. These abnormalities were characteristic when early attempts were made to grow plants in weightlessness conditions., (c2001 COSPAR. Published by Elsevier Science Ltd. All rights reserved.)

Published

2001

32. Force sensitivity of plant gravisensing.

Author

Laurinavicius R, Svegzdiene D, and Gaina V

Subjects

Acceleration, Centrifugation, Gravitation, Lepidium growth & development, Lactuca growth & development, Plant Roots growth & development, Plant Roots physiology, Rotation, Gravity Sensing physiology, Lepidium physiology, Lactuca physiology, Plastids physiology, Space Flight, Weightlessness

Abstract

Rotation at 4, 10, 50 and 100 rpm on a horizontal clinostat and in microgravity exerts limited effects on the morphogenesis of lettuce and cress root statocytes and statoliths if compared with the vertical control or 1 g spaceflight reference centrifuge. However, the average distance of statoliths from the distal wall increases. The pattern of plastid location of microgravity-grown and that of clino-rotated samples has been determined at 10, 50, and 100 rpm. Experiments on the centrifuge-clinostat and spaceflight centrifuge (acceleration forces of 0.005 to 1 g) revealed that the average statolith location depends on the amplitude of acropetally or basipetally directed mass acceleration. Decreasing the acropetally directed force from 1 g to 0.4 g dislocates statoliths towards the cell center possibly mediated by the elastic forces of the cytoskeleton. In statocytes formed on the clinostat or in microgravity, the majority of statoliths are located at the center of the cell. To force the statoliths from the center of the statocyte towards one of its poles, a threshold mass acceleration of 0.01 g is required. Statocytes with centrally-located statoliths are considerably more effective in transducing a gravistimulus than those with distally-located plastids. The latent time of the graviresponse is shorter and the response itself is enhanced in roots grown on the clinostat compared to vertically grown samples. The early phases of graviperception are independent of root growth conditions since presentation time and g-threshold are similar for roots grown stationary and those on a clinostat. We propose a sequence of events in gravitropic stimulation that considers not only the lateral displacement of statoliths, as predicted by the starch-statolith hypothesis, but also its longitudinal motion, together with differential gravisensitivity of mechanotransducing structures along the lower-most longitudinal cell wall., (c 2001 COSPAR. Published by Elsevier Science Ltd. All rights reserved.)

Published

2001

33. Autonomic straightening of gravitropically curved cress roots in microgravity.

Author

Stankovic B, Antonsen F, Johnsson A, Volkmann D, and Sack FD

Subjects

Centrifugation, Germination physiology, Gravitation, Lepidium physiology, Plant Roots physiology, Rotation, Seeds, Time Factors, Gravitropism physiology, Lepidium growth & development, Plant Roots growth & development, Space Flight, Weightlessness

Abstract

The typical response of plant organs to gravistimulation is differential growth that leads to organ bending. If the gravitropic stimulus is withdrawn, endogenous compensation of the graviresponse and subsequent straightening occur in some plants. For instance, autonomic straightening of Lepidium roots occurs when gravitropically-curved rootsare rotated on a clinostat (Stankovi et al., 1998a). To determine whether endogenous compensation of the graviresponse also occurs in space, microgravity-grown cress roots were laterally centrifuged in-flight and then returned to microgravity using Biorack hardware on a shuttle mission (STS-81). The cress roots were centrifuged at 4 different g-doses (0.1 x g and 1 x g for 15 or 75 min). All four treatments yielded varying degrees of root curvature. Upon removal from the centrifuge, roots in all four treatments underwent subsequent straightening in microgravity. This straightening resulted from a loss of gravitropic curvature in older regions of the root and the coordinated alignment of new growth. These results show that both microgravity and clinostat rotation on Earth are equivalent in stimulus withdrawal with respect to the induction of endogenous compensation of the curvature. Cress roots are the only plant organ shown to undergo compensation of the curvature in both microgravity and on a clinostat. The compensation of graviresponse in space rules out the hypothesis that the endogenous root straightening ("autotropism") represents a commitment to a pre-stimulus orientation with respect to gravity and instead suggests that there is a default tendency towards axiality following a withdrawal of a g-stimulus., (c 2001 COSPAR. Published by Elsevier Science Ltd. All rights reserved.)

Published

2001

34. Responses of roots to simulated weightlessness on the fast-rotating clinostat.

Author

Sobick V and Sievers A

Subjects

Gravitation, Gravitropism physiology, Gravity Sensing physiology, Lepidium growth & development, Plant Roots growth & development, Rotation, Weightlessness Simulation

Abstract

Sedimentable cell particles are distributed randomly along the horizontal axis of the fast-rotating clinostat. They neither sediment in the direction of gravity, nor in the direction of the centrifugal force, nor in the direction of the resultant force of both. The effect of this "weightlessness" and that of very small centrifugal forces on the perception of mass acceleration was examined using young primary roots of Lepidium sativum L. (Cruciferae) during their early development on the fast-rotating clinostat. The results of the experiments show: 1) there is no response of the roots in the direction of gravity, 2) at small centrifugal forces (< 2.2 x 10(-2) g) a curvature response occurs in the direction of the stimulus, 3) the threshold value for the perception of mass acceleration lies at 4.3 x 10(-3) g, and 4) below the threshold value the existence of an autonomous root curvature has been proved for the first time, which is not caused by mass acceleration.

Published

1979

35. Gravity sensing by plants.

Author

Larsen P

Subjects

Chlorophyta growth & development, Chlorophyta physiology, Lepidium growth & development, Lepidium physiology, Organelles physiology, Plant Root Cap physiology, Starch, Chlorophyta ultrastructure, Gravitropism physiology, Gravity Sensing physiology, Lepidium ultrastructure, Plant Root Cap ultrastructure, Plastids physiology

Abstract

A brief description of the effects of gravity on plants, particularly their orientation with reference to its direction, is followed by a presentation of evidence for the operation of specific "gravity sensors", statoliths, subcellular bodies which move or reorient themselves upon reorientation of a plant organ with respect to the direction of the force of gravity. In the singly reacting apical cells of rhizoids of Chara, the statoliths locally regulate the growth of the cell wall simply by blocking or permitting the access of carriers of cell wall material. In multicellular structures (root and stem tips etc.) the statoliths, most likely amyloplasts (starch-containing plastids), must act by creating in the organ a transversal polarity which can be transmitted to the growing region, often several millimetres away. In addition, gravity produces what may be called tonic effects, which quantitatively modify the reaction of the organ to the gravitational stimulation.

Published

1973