Your search keyword '"Myrto Tsiknia"' showing total 17 results

1. A holistic approach to using biostimulants on the red grapevine variety, Mouhtaro - from grape to wine

Author

Dimitrios-Evangelos Miliordos, Myrto Tsiknia, Nikolaos Kontoudakis, Angeliki Kouki, Nikolaos Zaharias, and Yorgos Kotseridis

Subjects

Agriculture (General), S1-972, Plant culture, SB1-1110

Abstract

One of the main effects of applying biostimulants to grapevines is an increase in berry phenolic compound content. In the current study, grapes treated at veraison with abscisic acid (ABA), benzothiadiazole (BTH) and chitosan (CHT) were vinified. Treated grapes, compared to untreated grapes (the control), resulted in wines with a significantly higher concentration of anthocyanins and phenolic content. Furthermore, in a descriptive sensory analysis, wines made from treated grapes were found to have significantly more intense fruity notes and aroma and better overall mouthfeel quality.

Published

2022

2. Calcium- and Magnesium-Enriched Organic Fertilizer and Plant Growth-Promoting Rhizobacteria Affect Soil Nutrient Availability, Plant Nutrient Uptake, and Secondary Metabolite Production in Aloe vera (Aloe barbadensis Miller) Grown under Field Conditions

Author

Christina N. Nikolaou, Artemios Chatziartemiou, Myrto Tsiknia, Asimina Georgia Karyda, Constantinos Ehaliotis, and Dionisios Gasparatos

Subjects

Aloe vera, soil fertility, microorganisms, secondary metabolites, plant nutrition, acemannan, Agriculture

Abstract

This work investigates the effects of an organic fertilizer enriched in Ca and Mg and two bacterial inoculants, applied alone and in combination, on soil fertility, plant growth, nutrition, and production of secondary metabolites, namely, acemannan and total phenolic compounds (TPCs), by Aloe vera (Aloe barbadensis Miller), under field cultivation. The first inoculum consisted of five native bacterial strains (Pseudomonas sp., Enterobacter sp., and three strains of Pantoea sp.), characterized in vitro as putative plant growth promoters, isolated from local organic farming fields of Aloe vera. The second inoculant was a commercial product (BACTILIS-S and HUMOFERT) and consisted of three Bacillus species: B. pumilus, B. amyloliquefaciens, and B. subtilis. The organic fertilizer (HUMO-CAL M-8O) was a mixture of humic and fulvic acids, with an additional CaCO3 (40% w/w) and MgO (4% w/w). The most significant increase in the content of acemannan and TPCs was detected under single application of the organic fertilizer, which was linked to enhanced concentration of Mg and Ca in the leaf gel. The concentration of acemannan tended to be increased with the combined application of the organic fertilizer and microbial inoculants. TPCs were significantly increased in both single and combined treatments, seemingly related to Fe concentration in the leaf rinds.

Published

2023

3. Effect of Nitrogen Fertilization on Savvatiano (Vitis vinifera L.) Grape and Wine Composition

Author

Dimitrios Evangelos Miliordos, Alexandros Kanapitsas, Despina Lola, Elli Goulioti, Nikolaos Kontoudakis, Georgios Leventis, Myrto Tsiknia, and Yorgos Kotseridis

Subjects

Vitis vinifera, Savvatiano, nitrogen nutrition, nitrification inhibitor, DMPP, aroma compounds, Nutrition. Foods and food supply, TX341-641, Nutritional diseases. Deficiency diseases, RC620-627

Abstract

Nitrogen nutrition is one of the most effective cultural practices in vineyards. The vine nitrogen status influences the berries’ quality characteristics and the produced wines. The current study investigated the effect of traditional nitrogen fertilization in the form of ammonium sulfate compared to nitrogen fertilization coupled with the nitrification inhibitor 3,4-Dimethylpyrazole phosphate (DMPP) on the agronomic characteristics of grapes and the produced wines of the white variety Savvatiano from a productive vineyard in the Attiki region. Must and wine quality was evaluated by a chemical analysis and sensorial evaluation by trained panelists. The different forms of nitrogen fertilizers did not significantly affect the aroma and sensory profile in contrast to unfertilized grapevines. In addition, the applied fertilization increased some important aroma compounds in the wine, compared to no fertilization. The significance of this work is to add information about the effect of nitrogen fertilization on the wine volatile composition of the Greek white grapevine Savvatiano.

Published

2022

4. THE EFFECT OF RHIZOPHAGUS IRREGULARIS AND MESORHIZOBIUM LOTI CO-INOCULATION ON LOTUS JAPONICUS

Author

Daniela Tsikou, MYRTO TSIKNIA, CHRISTINA N. NIKOLAOU, CONSTANTINOS EHALIOTIS, and KALLIOPE K. PAPADOPOULOU

Subjects

tripartite symbiosis, plant-microbe interactions, legumes, arbuscular mycorrhizal fungi, rhizobium, Biology (General), QH301-705.5

Abstract

Plants establish symbiotic relationships with soil bacteria or fungi, which colonize the plant root and provide the plant with inorganic nutrients, in exchange for photosynthesis products. Legume plants associate with both arbuscular mycorrhizal fungi (AMF) and the nitrogen-fixing soil bacteria called rhizobia. During the legume-rhizobium symbiosis, biological nitrogen fixation takes place in specific plants organs formed on the root, called nodules. Using the model legume Lotus japonicus, we studied the establishment of the legume-rhizobia-AMF tripartite symbiosis. We examined how the AM fungus Rhizophagus irregularis and the rhizobium Mesorhizobium loti affected one another during the colonization of the same legume roots, by performing co-inoculations. Moreover, we monitored the effect of the co-inoculation on the general plant performance. According to our results, the presence of M. loti had no effect on the root colonization by R. irregularis. However, root colonization by R. irregularis had a positive effect on the formation of root nodules. This study aims to enhance our understanding on how the plant selects, combines and controls its symbionts, towards to a more efficient use of legume plants in agroecosystems.

Published

2019

5. Carbon Turnover during Effluent Application to the Land: A Potential Role for Vegetation?

Author

Vasileios A. Tzanakakis, Giannis Vagiakis, Myrto Tsiknia, Andreas N. Angelakis, and Nikolaos V. Paranychianakis

Subjects

land application, land treatment, wastewater treatment, E. camaldulensis, A. donax, carbon cycling, respiration rate, carbon mineralization, dissolved organic carbon (DOC), Hydraulic engineering, TC1-978, Water supply for domestic and industrial purposes, TD201-500

Abstract

This work investigates the effect of plant species (Eucalyptus camaldulensis vs. Arundo donax) on carbon (C) turnover during wastewater application to the land. The study was carried out in 40-liter pots under field conditions and plant species were treated either with pre-treated municipal wastewater or freshwater. Plant species had a strong effect on soil organic matter with pots planted with E. camaldulensis showing greater values than pots planted with A. donax. In accordance, greater respiration rates were measured in E. camaldulensis pots compared to those planted with A. donax. The respiration rate followed a decreasing trend with the progress of the season for both species. These findings suggest differences in soil microbial community composition and/or activity in the rhizosphere of plant species. Minor effects of plant species or effluent were observed in dissolved organic carbon, protein, and hexoses content. In conclusion, the results of the present study reveal an important role of plant species on C cycling in terrestrial environments with potential implications on the sequestration of C and release of nutrients and pollutants.

Published

2015

6. Above- and below-ground microbiome in the annual developmental cycle of two olive tree varieties

Author

Myrsini Kakagianni, Myrto Tsiknia, Maria Feka, Sotirios Vasileiadis, Kleopatra Leontidou, Nektarios Kavroulakis, Katerina Karamanoli, Dimitrios G Karpouzas, Constantinos Ehaliotis, and Kalliope K Papadopoulou

Subjects

General Medicine

Abstract

The olive tree is a hallmark crop in the Mediterranean region. Its cultivation is characterized by an enormous variability in existing genotypes and geographical areas. As regards the associated microbial communities of the olive tree, despite progress, we still lack comprehensive knowledge in the description of these key determinants of plant health and productivity. Here, we determined the prokaryotic, fungal and arbuscular mycorrhizal fungal (AMF) microbiome in below- (rhizospheric soil, roots) and above-ground (phyllosphere and carposphere) plant compartments of two olive varieties ‘Koroneiki’ and ‘Chondrolia Chalkidikis’ grown in Southern and Northern Greece respectively, in five developmental stages along a full fruit-bearing season. Distinct microbial communities were supported in above- and below-ground plant parts; while the former tended to be similar between the two varieties/locations, the latter were location specific. In both varieties/locations, a seasonally stable root microbiome was observed over time; in contrast the plant microbiome in the other compartments were prone to changes over time, which may be related to seasonal environmental change and/or to plant developmental stage. We noted that olive roots exhibited an AMF-specific filtering effect (not observed for bacteria and general fungi) onto the rhizosphere AMF communities of the two olive varieties/locations/, leading to the assemblage of homogenous intraradical AMF communities. Finally, shared microbiome members between the two olive varieties/locations include bacterial and fungal taxa with putative functional attributes that may contribute to olive tree tolerance to abiotic and biotic stress.

Published

2023

7. Interplay between rhizobial nodulation and arbuscular mycorrhizal fungal colonization inLotus japonicusroots

Author

Daniela Tsikou, Christina N Nikolaou, Myrto Tsiknia, Kalliope K Papadopoulou, and Constantinos Ehaliotis

Subjects

General Medicine, Applied Microbiology and Biotechnology, Biotechnology

Abstract

AimsThis study aims to identify main factors that influence the tripartite association of legumes with arbuscular mycorrhiza fungi (AMF) and nitrogen-fixing rhizobia.Methods and ResultsConcurrent inoculations with Mesorhizobium loti and four AMF strains were performed on the model legume Lotus japonicus. Nodulation was significantly enhanced by all AMF strains, under normal conditions, and by specific AMF strains under heat-stress conditions. The impact of rhizobia on mycorrhizal colonization was AMF strain dependent. Co-inoculation trials, where either AMF or rhizobia were restricted outside the root, showed that the symbiotic phenotypes are not influenced by microbial interactions at the pre-symbiotic stage. External application of nutrients showed that P enhances nodulation, while N application does not enhance mycorrhizal colonization.ConclusionsNodulation and mycorhization affect one another during advanced stages of the symbiosis. AMF strains may enhance nodulation under both normal and high environmental temperatures. Rhizobium-AMF compatibility is critical, as rhizobium may positively affect specific AMF strains, an effect that does not derive from increased N uptake.

Published

2022

8. The Effects of Quinone Imine, a New Potent Nitrification Inhibitor, Dicyandiamide, and Nitrapyrin on Target and Off-Target Soil Microbiota

Author

Evangelia S. Papadopoulou, Eleftheria Bachtsevani, Christina V. Papazlatani, Constantina Rousidou, Antonios Brouziotis, Eleni Lampronikou, Myrto Tsiknia, Sotirios Vasileiadis, Ioannis Ipsilantis, Urania Menkissoglu-Spiroudi, Constantinos Ehaliotis, Laurent Philippot, Graeme W. Nicol, and Dimitrios G. Karpouzas

Subjects

Microbiology (medical), General Immunology and Microbiology, Ecology, Bacteria, Physiology, Microbiota, Quinones, Cell Biology, Archaea, Guanidines, Nitrification, Soil, Infectious Diseases, Ammonia, Picolines, Genetics, Imines, Oxidation-Reduction, Phylogeny, Soil Microbiology

Abstract

Dicyandiamide (DCD) and nitrapyrin (NP) are nitrification inhibitors (NIs) used in agriculture for over 40 years. Recently, ethoxyquin (EQ) was proposed as a novel potential NI, acting through its derivative quinone imine (QI). Still, the specific activity of these NIs on the different groups of ammonia-oxidizing microorganisms (AOM), and mostly their effects on other soil microbiota remain unknown. We determined the impact of QI, and comparatively of DCD and NP, applied at two doses (regular versus high), on the function, diversity, and dynamics of target (AOM), functionally associated (nitrite-oxidizing bacteria-NOB), and off-target prokaryotic and fungal communities in two soils mainly differing in pH (5.4 versus 7.9). QI was equally effective to DCD but more effective than NP in inhibiting nitrification in the acidic soil, while in the alkaline soil QI was less efficient than DCD and NP. This was attributed to the higher activity of QI toward AOA prevailing in the acidic soil. All NIs induced significant effects on the composition of the AOB community in both soils, unlike AOA, which were less responsive. Beyond on-target effects, we noted an inhibitory effect of all NIs on the abundance of NOB in the alkaline soil, with

Published

2022

9. Arbuscular mycorrhizal fungus inocula from coastal sand dunes arrest olive cutting growth under salinity stress

Author

Catalina Stedel, Myrto Tsiknia, Kalliope K. Papadopoulou, G. Psarras, Georgios Doupis, Ioannis Ipsilantis, Nektarios Kavroulakis, A. Kavadia, C. Ehaliotis, Constantinos Tzerakis, and Dimitrios G. Karpouzas

Subjects

0106 biological sciences, Salinity, Stomatal conductance, Plant Science, Plant Roots, Salt Stress, 010603 evolutionary biology, 01 natural sciences, Cutting, Nutrient, Sand, Mycorrhizae, Olea, Genetics, Molecular Biology, Ecology, Evolution, Behavior and Systematics, Abiotic component, biology, fungi, General Medicine, biology.organism_classification, Olive trees, Horticulture, Soil fertility, 010606 plant biology & botany

Abstract

Cultivation of olive trees covers large coastal areas of land in Mediterranean regions, many of them characterized by low soil fertility and exposed to salinity and seasonal drought. In this frame, we developed mixed community inocula of arbuscular mycorrhizal fungi (AMF) derived from the extreme, seasonally arid environments of six Mediterranean sand dunes and evaluated their effects, in the form of community inocula, on rooted semi-woody olive tree cuttings (Olea europaea cv. Koroneiki). The plantlets were grown in the greenhouse for 10 months under 50 mM and 100 mM concentrations of NaCl, successively applied to induce osmotic stress. Inoculation had a positive effect on plant growth and nutrient uptake. However, the three best-performing inocula in early colonization and in plant growth enhancement also resulted in high plant sensitivity to high salinity, which was not observed for the other three inocula. This was expressed by decreased nutrient uptake and drastically lower plant growth, plant photosynthesis, and stomatal conductance (generally an over 50% reduction compared to no salinity application). Amplicon sequencing analysis of the olive plants under salinity stress showed that the AMF communities in the roots were clearly differentiated by inoculation treatment. We could not, however, consistently associate the plant responses observed under high salinity with specific shared AMF community membership or assembly attributes. The observed physiological overreaction to osmotic stress may be an adaptation trait, potentially brought about by host selection coupled to abiotic environmental filtering, in the harsh conditions from which the AMF inocula were derived. The overreaction may, however, be undesirable if conveyed to allochthonous plants at an agronomic level.

Published

2020

10. Strong host-specific selection and over-dominance characterize arbuscular mycorrhizal fungal root colonizers of coastal sand dune plants of the Mediterranean region

Author

S Genitsaris, Sotirios Vasileiadis, C. Ehaliotis, Myrto Tsiknia, Nektarios Kavroulakis, Ioannis Ipsilantis, Kalliope K. Papadopoulou, Vasiliki Skiada, Dimitrios G. Karpouzas, Miranda M. Hart, and John N. Klironomos

Subjects

Assembly rules, Mediterranean climate, Ecology, Mediterranean Region, Biota, Biology, Native plant, Plant Roots, Applied Microbiology and Biotechnology, Microbiology, Sand dune stabilization, Habitat, Sand, Mycorrhizae, Biological dispersal, Ecosystem, Soil Microbiology

Abstract

Sand dunes of the Mediterranean region constitute drought-stressed, low-fertility ecosystems. Arbuscular mycorrhizal fungi (AMF) are regarded as key components of their biota, that contribute to plant host adaptation and fitness. However, AMF community assembly rules in the roots of the psammophilous plants of coastal sand dunes have not been investigated. We studied the root colonizing AMF communities of four characteristic native plants of eastern Mediterranean coastal foredunes, in nine locations in Greece. Host specificity (plant identity) was the major driver of AMF community assembly in the plant roots, while geographical distance between locations was not related to differences in the AMF communities. Additionally, colonizer AMF communities were characterized by overdominance of a single OTU which was remarkably host-specific among locations. Wider dissimilarity in AMF communities was observed in small and disturbed (SD) sites compared to large and undisturbed (LU) sites, a trait that may be attributed to relaxed environmental filtering and facilitated AMF dispersal/immigration in SD sites from surrounding habitats. Overall, our results indicate that the assembly of root-colonizing AMF communities in the eastern Mediterranean sand dunes is characterized by strong biotic filtering (host identity), suggesting that co-adaptation processes may be more pronounced than previously proposed, under extreme environmental conditions.

Published

2021

11. Impact of Application of Abscisic Acid, Benzothiadiazole and Chitosan on Berry Quality Characteristics and Plant Associated Microbial Communities of Vitis vinifera L var. Mouhtaro Plants

Author

Dimitrios-Evangelos Miliordos, Myrto Tsiknia, Costas Bouyioukos, Maria N. Dimopoulou, Yorgos Kotseridis, and Nikolaos Kontoudakis

Subjects

0106 biological sciences, Geography, Planning and Development, TJ807-830, Berry, Management, Monitoring, Policy and Law, TD194-195, 01 natural sciences, Renewable energy sources, Veraison, 03 medical and health sciences, chemistry.chemical_compound, Vitis vinifera, Mouhtaro, resistance elicitors, plant hormones, grapevine microbiome, benzothiadiazole, chitosan, abscisic acid, Microbial ecology, GE1-350, Abscisic acid, 030304 developmental biology, 0303 health sciences, Rhizosphere, biology, Environmental effects of industries and plants, Renewable Energy, Sustainability and the Environment, fungi, food and beverages, biology.organism_classification, Environmental sciences, Horticulture, chemistry, Plant hormone, Viticulture, Phyllosphere, 010606 plant biology & botany

Abstract

The phenolic profile of the grape berries is a key quality factor for the red grapevine varieties and several techniques have been applied to improve it. An innovative technique is the application of resistance elicitors and phytohormones. In the present study, leaves and berries of a Greek red indigenous variety (Mouhtaro) sprayed with two elicitors, benzothiadiazole and chitosan and a plant hormone abscisic acid, during veraison. Physicochemical and phenolic characteristics of the berries and microbial communities of rhizosphere, phyllosphere and carposphere were analyzed at harvest. Differences in the microbial communities on different plant compartments were observed after the application of the plant activators. Chitosan treatment increased the abundance of the beneficial lactic acid bacteria, while the abscisic acid treatment decreased the presence of spoilage fungi on the carposphere. Treatments differentiate total phenolics, anthocyanins and in the chemical characteristics of grape must with chitosan treated grapes had increased anthocyanins and skin-derived phenolics that correlated positively with the microbial taxa that was discriminant by LefSe analysis. This research provides an overview of the effect of plant activators on the microbial ecology and grape quality of the Greek variety Mouhtaro and presents the potential of new and innovative approaches in the field of sustainable viticulture.

Published

2021

12. Multi-species relationships in legume roots: From pairwise legume-symbiont interactions to the plant – microbiome – soil continuum

Author

Myrto Tsiknia, Daniela Tsikou, Constantinos Ehaliotis, and Kalliope K. Papadopoulou

Subjects

0106 biological sciences, 0301 basic medicine, Rhizosphere, Ecology, biology, Community, Microbiota, Microorganism, Fabaceae, biology.organism_classification, Plant Roots, 01 natural sciences, Applied Microbiology and Biotechnology, Microbiology, Rhizobia, Soil, 03 medical and health sciences, 030104 developmental biology, Symbiosis, Habitat, Microbiome, 010606 plant biology & botany

Abstract

Mutualistic relationships of legume plants with, either bacteria (like rhizobia) or fungi (like arbuscular mycorrhizal fungi), have been investigated intensively, usually as bi-partite interactions. However, diverse symbiotic interactions take place simultaneously or sequentially under field conditions. Their collective, but not additive, contribution to plant growth and performance remains hard to predict, and appears to be furthermore affected by crop species and genotype, non-symbiotic microbial interactions and environmental variables. The challenge is: (i) to unravel the complex overlapping mechanisms that operate between the microbial symbionts as well as between them, their hosts and the rhizosphere (ii) to understand the dynamics of the respective mechanisms in evolutionary and ecological terms. The target for agriculture, food security and the environment, is to use this insight as a solid basis for developing new integrated technologies, practices and strategies for the efficient use of beneficial microbes in legumes and other plants. We review recent advances in our understanding of the symbiotic interactions in legumes roots brought about with the aid of molecular and bioinformatics tools. We go through single symbiont-host interactions, proceed to tripartite symbiont-host interactions, appraise interactions of symbiotic and associative microbiomes with plants in the root-rhizoplane-soil continuum of habitats and end up by examining attempts to validate community ecology principles in the legume-microbe-soil biosystem.

Published

2020

13. Arbuscular mycorrhizal fungi enhance growth of tomato under normal and drought conditions, via different water regulation mechanisms

Author

G. Leventis, Kalliope K. Papadopoulou, Myrto Tsiknia, C. Ehaliotis, Ioannis E. Papadakis, Iordanis Chatzipavlidis, M. Feka, and E.V. Ladikou

Subjects

Rhizophagus irregularis, Irrigation, Stomatal conductance, Vegetative reproduction, fungi, food and beverages, Soil Science, Plant Science, Biology, biology.organism_classification, Water conservation, Horticulture, Symbiosis, Metabolic water, Agronomy and Crop Science, Transpiration

Abstract

Arbuscular mycorrhizal fungi (AMF) are soilborne microorganisms that establish a mutualistic symbiotic association with most of land plants. To investigate the effects of AMF symbiosis under different water status conditions, we grew AMF-inoculated and non-inoculated tomato plants in the greenhouse under two irrigation regimes, 70% and 30% of growth-substrate water holding capacity. Two different AMF inoculation strains, Funneliformis mosseae and Rhizophagus irregularis, were applied as single inocula. AMF colonization significantly enhanced plant vegetative growth by 40% and 50–60%, under normal and reduced irrigation respectively. In the presence of the AMF, phosphorous concentrations in the leaves were increased under both watering regimes while K, Ca, Mg, Zn, and Mn were also increased under limited watering to levels similar to those of non-stressed plants. Transpiration and stomatal conductance increased by an average 80% and 65% respectively in the presence of the AMF under full watering, but were kept stable and coupled to reduced leaf area-to-leaf biomass ratios and to increased metabolic water use efficiency under limited irrigation. This indicates a different mode of action induced by AMF colonizers, prioritizing water conservation in tomato plants under drought stress.

Published

2021

14. Neutral processes and high inter-annual turnover shape the assembly of soil bacterial communities in a Mediterranean watershed

Author

Myrto Tsiknia, Fodelianakis S, Nikolaos V. Paranychianakis, and Nikolaos P. Nikolaidis

Subjects

2. Zero hunger, Mediterranean climate, 0303 health sciences, Watershed, Ecological selection, Land use, 030306 microbiology, Ecology, 15. Life on land, Soil management, 03 medical and health sciences, Sustainable management, Environmental science, Ecosystem, Nitrogen cycle, 030304 developmental biology

Abstract

There is a renewed interest in recent years on the ecological processes (stochastic vs selective) driving the assembly of microbial communities. Such information could potentially improve our understanding on ecosystem functioning and resilience to disturbances, ecosystem response to environmental shifts, and adoption of sustainable soil management practices. Herein, employing a suite of existing methodologies, we show that stochastic processes have an important role on the assembly of soil bacterial communities at a Mediterranean watershed. Moreover, we document that the relative contribution of assembly processes varies over the years. The observed intensification of stochastic processes was accompanied by a decrease in the contribution of variable selection in favor of homogeneous selection and dispersal and this trend was only marginally affected by land use (natural vs agricultural lands) or soil depth. Our study also revealed a high inter-annual turnover of soil microbial communities that was likely stimulated by the weak environmental selection and the prevailing environmental conditions (drying-wetting cycles) in Mediterranean landscapes, implying potential impacts on ecosystem functioning and our ability to predict soil response to environmental shifts. Using nitrogen mineralization rate (NMR) as a representative function we document highly variable NMR over the sampling years, land uses and soil depths and lack of significant associations with the monitored environmental variables and individual taxa. In summary, our study provides novel insights on the organization and functioning of microbial communities at Mediterranean ecosystems and sets directions towards a more advanced understanding of the relationships among environmental factors, microbial community structure, and ecosystem functioning that could contribute to sustainable management of these severely degraded ecosystems.

Published

2019

15. Carbon Turnover during Effluent Application to the Land: A Potential Role for Vegetation?

Author

Myrto Tsiknia, Andreas N. Angelakis, Giannis Vagiakis, Vasileios A. Tzanakakis, and Nikolaos V. Paranychianakis

Subjects

lcsh:Hydraulic engineering, carbon mineralization, Geography, Planning and Development, dissolved organic carbon (DOC), E. camaldulensis, carbon cycling, Aquatic Science, complex mixtures, Biochemistry, lcsh:Water supply for domestic and industrial purposes, Nutrient, lcsh:TC1-978, Dissolved organic carbon, land treatment, respiration rate, Water Science and Technology, lcsh:TD201-500, Rhizosphere, biology, Soil organic matter, fungi, food and beverages, Arundo donax, Vegetation, biology.organism_classification, A. donax, wastewater treatment, land application, Eucalyptus camaldulensis, Agronomy, Environmental science, Respiration rate

Abstract

This work investigates the effect of plant species (Eucalyptus camaldulensis vs. Arundo donax) on carbon (C) turnover during wastewater application to the land. The study was carried out in 40-liter pots under field conditions and plant species were treated either with pre-treated municipal wastewater or freshwater. Plant species had a strong effect on soil organic matter with pots planted with E. camaldulensis showing greater values than pots planted with A. donax. In accordance, greater respiration rates were measured in E. camaldulensis pots compared to those planted with A. donax. The respiration rate followed a decreasing trend with the progress of the season for both species. These findings suggest differences in soil microbial community composition and/or activity in the rhizosphere of plant species. Minor effects of plant species or effluent were observed in dissolved organic carbon, protein, and hexoses content. In conclusion, the results of the present study reveal an important role of plant species on C cycling in terrestrial environments with potential implications on the sequestration of C and release of nutrients and pollutants.

Published

2015

16. Pathways regulating the removal of nitrogen in planted and unplanted subsurface flow constructed wetlands

Author

Nicolas Kalogerakis, Myrto Tsiknia, and Nikolaos V. Paranychianakis

Subjects

0301 basic medicine, Environmental Engineering, Denitrification, Nitrogen, Microorganism, Wastewater treatment, 010501 environmental sciences, 01 natural sciences, 03 medical and health sciences, Anammox, Abundance (ecology), Botany, Waste Management and Disposal, 0105 earth and related environmental sciences, Water Science and Technology, Civil and Structural Engineering, biology, Ecological Modeling, Functional genes, Plants, biology.organism_classification, Pollution, Nitrification, Metabolic pathway, 030104 developmental biology, Environmental chemistry, Wetlands, Cycling, Archaea

Abstract

Summarization: Single-stage constructed wetlands (CWs) are characterized by a low potential for N removal. Understanding the pathways regulating N cycling as well as their dependence on environmental variables might improve the potential of CWs for N removal and results in more accurate simulation tools. In this study we employed qPCR targeting marker functional genes (amoA, nirK, nirS, clade I and II nosZ) or microorganisms (anammox) regulating key pathways of N cycling to unravel their relative importance. Furthermore, the influence of plant species on treatment performance was studied. Our findings indicated nitrification-denitrification as the principal route of N removal in CWs, while anammox did not have a strong contribution. Evidence was also arisen that ammonia oxidizing archaea (AOA) contributed on NH3 oxidation. Overall, plant species had a weak effect on the abundance of N functional genes (amoA of AOA), but it strongly affected the performance of CWs in terms of N removal in the following order: unplanted < Phragmites communis < Typha latifolia. These findings suggest that plant species stimulate N removal by upregulating the rates that the responsible biochemical pathways operate, probably by increasing O2 supply. In addition, our study revealed differences in indicators linked to N2O emissions. The abundance of clade II nosZ genes remained low across the season scaling down a strong contribution in the reduction of the emitted N2O. The increasing ratios of nosZ/σnir and nirS/nirK with the progress of season indicate a shift in the composition of denitrifiers towards strains with a lower genetic potential for N2O release. Similar trends were observed among the treatments but the mechanisms differed. The planted treatments stimulated an increase in the σnosZ/σnir ratio, while the unplanted an increase in the nirS/nirK ratio. Presented on: Water Research

Published

2016

17. Environmental drivers of the distribution of nitrogen functional genes at a watershed scale

Author

Myrto Tsiknia, Nikolaos V. Paranychianakis, Nikolaos P. Nikolaidis, and Emmanouil A. Varouchakis

Subjects

Watershed, Soil texture, Nitrogen, Microbial Consortia, Biology, Environment, Real-Time Polymerase Chain Reaction, Applied Microbiology and Biotechnology, Microbiology, Hydrocarbons, Aromatic, Dioxygenases, Abundance (ecology), Ammonia, Nitrogen Fixation, Ecosystem, Functional group (ecology), Spatial analysis, Soil Microbiology, DNA Primers, Ecology, Bacteria, DNA, Nitrogen Cycle, Explained variation, Nitrification, Phylogeography, Biodegradation, Environmental, Denitrification, Spatial variability

Abstract

To date only few studies have dealt with the biogeography of microbial communities at large spatial scales, despite the importance of such information to understand and simulate ecosystem functioning. Herein, we describe the biogeographic patterns of microorganisms involved in nitrogen (N)-cycling (diazotrophs, ammonia oxidizers, denitrifiers) as well as the environmental factors shaping these patterns across the Koiliaris Critical Zone Observatory, a typical Mediterranean watershed. Our findings revealed that a proportion of variance ranging from 40 to 80% of functional genes abundance could be explained by the environmental variables monitored, with pH, soil texture, total organic carbon and potential nitrification rate being identified as the most important drivers. The spatial autocorrelation of N-functional genes ranged from 0.2 to 6.2 km and prediction maps, generated by cokriging, revealed distinct patterns of functional genes. The inclusion of functional genes in statistical modeling substantially improved the proportion of variance explained by the models, a result possibly due to the strong relationships that were identified among microbial groups. Significant relationships were set between functional groups, which were further mediated by land use (natural versus agricultural lands). These relationships, in combination with the environmental variables, allow us to provide insights regarding the ecological preferences of N-functional groups and among them the recently identified clade II of nitrous oxide reducers.

Published

2015