Your search keyword '"soil algae"' showing total 8 results

1. Changes in soil properties after remediation influence the performance and survival of soil algae and earthworm.

Author

Kwak, Jin Il, Nam, Sun-Hwa, Kim, Shin Woong, Bajagain, Rishikesh, Jeong, Seung-Woo, and An, Youn-Joo

Subjects

SOILS

Abstract

Abstract Previous research on soil remediation focused on soil properties and not on its effects on soil ecosystems. The present study investigated the adverse effects of soil physicochemical changes due to remediation on the biological indicators Chlorococcum infusionum and Chlamydomonas reinhardtii (algae) and Eisenia andrei (earthworm). Soil physicochemical properties, concentrations of total, bioavailable, and water-soluble heavy metals in soil were measured before and after remediation. Changes in soil pH, electrical conductivity, total nitrogen, and total phosphorous immediately after soil remediation were the primary causes of the biomass and photosynthetic activity inhibition observed in C. infusionum and C. reinhardtii , and the survival, normality, and burrowing behavior decrease observed in E. andrei in remediated soils showing dramatic changes in those properties. These findings suggest that remediated soils need some time to recover before restoring their functions, although heavy metals are no longer contaminating the soil. Highlights • Soil remediation can change soil pH, electrical conductivity, TN, and TP. • As soon as remediation, soil are not proper soil algae and earthworm. • Soils may need time to "recover" from remediation. [ABSTRACT FROM AUTHOR]

Published

2019

2. Assessing applicability of the paper-disc method used in combination with flow cytometry to evaluate algal toxicity.

Author

Nam, Sun-Hwa, Kwak, Jin Il, and An, Youn-Joo

Subjects

FLOW cytometry, ALGAL toxins, SOIL algae, BIOLOGICAL assay, ALGAL growth

Abstract

Soil algal bioassays have been limited by their inability to evaluate several toxic endpoints because it is difficult to collect pure soil algae growing on and beneath the soil surface. This study describes the extension of a previously developed paper-disc method for analyzing soil toxicity to algae. The method can be used in conjunction with flow cytometric analysis and facilitates the assessment of previously proposed toxicity endpoints, such as the growth zone, biomass, and photosynthetic activity. We assessed the applicability of this paper-disc soil method using the green algae Chlamydomonas reinhardtii and Pseudokirchneriella subcapitata exposed to nickel-contaminated soil; examined cell sizes, cell granularity, enzyme activity, and oxidative stress as new toxicity endpoints using flow cytometry; and identified morphological changes in green algae assayed. The results showed that, used in conjunction with flow cytometry, the extended paper-disc soil method is sufficiently sensitive to detect decreases in cell granularity in C. reinhardtii and esterase activity in P. subcapitata . The method also revealed decreases in growth zone, biomass, and electron transfer from the reaction center to the quinone pool. Collectively, the results of this study indicate that soil algal bioassays using nonspecific algae can be used to assess soil quality, to derive several toxicity endpoints for individual cells, and to evaluate previously established flow cytometric toxicity endpoints. [ABSTRACT FROM AUTHOR]

Published

2018

3. Changes in the soil diatom community induced by experimental CO2 leakage.

Author

Blanco, S., Doucet, M., Fernández-Montiel, I., Gabilondo, R., and Bécares, E.

Subjects

SOIL microbiology, DIATOMS, ALGAL communities, SOIL composition, CARBON dioxide, GAS leakage, CLIMATE change, MANAGEMENT

Abstract

The role of soil biotic communities has received increasing attention in relation to global climate change management and, particularly, greenhouse gas dynamics. Soil CO 2 fluxes are regulated by several physical, chemical and biological properties, and diatoms constitute a relevant component of the soil microbiological community. This study tests experimentally the effect of CO 2 leakages and soil texture on soil diatom communities. Our results show profound changes associated to both factors, namely an increase in species richness in CO 2 -added treatments containing sandy-loam soils, and a segregation of diatom assemblages according to CO 2 fluxes, irrespective of soil typology, as revealed by multivariate analysis. These effects seem to result from changes in soil pH since communities growing on alkaline plots show higher abundances but lower taxa numbers. No differences were found, however, when the two CO 2 fluxes tested were compared. Finally, soil texture is revealed as an important factor explaining structural differences in the observed diatom assemblages. The findings described here may help to develop accurate CO 2 leakage surveillance methods for geological storage sites. [ABSTRACT FROM AUTHOR]

Published

2017

4. Effect of fluoride on the cell viability, cell organelle potential, and photosynthetic capacity of freshwater and soil algae.

Author

Chae, Yooeun, Kim, Dokyung, and An, Youn-Joo

Subjects

PHYSIOLOGICAL effects of fluorides, CELL survival, ORGANELLES, SOIL algae, PHOTOSYNTHESIS, ALGAL growth, FLOW cytometry

Abstract

Although fluoride occurs naturally in the environment, excessive amounts of fluoride in freshwater and terrestrial ecosystems can be harmful. We evaluated the toxicity of fluoride compounds on the growth, viability, and photosynthetic capacity of freshwater ( Chlamydomonas reinhardtii and Pseudokirchneriella subcapitata ) and terrestrial ( Chlorococcum infusionum ) algae. To measure algal growth inhibition, a flow cytometric method was adopted (i.e., cell size, granularity, and auto-fluorescence measurements), and algal yield was calculated to assess cell viability. Rhodamine123 and fluorescein diacetate were used to evaluate mitochondrial membrane potential (MMA, ΔΨ m ) and cell permeability. Nine parameters related to the photosynthetic capacity of algae were also evaluated. The results indicated that high concentrations of fluoride compounds affected cell viability, cell organelle potential, and photosynthetic functions. The cell viability measurements of the three algal species decreased, but apoptosis was only observed in C. infusionum . The MMA (ΔΨ m ) of cells exposed to fluoride varied among species, and the cell permeability of the three species generally decreased. The decrease in the photosynthetic activity of algae may be attributable to the combination of fluoride ions (F − ) with magnesium ions (Mg 2+ ) in chlorophyll. Our results therefore provide strong evidence for the potential risks of fluoride compounds to microflora and microfauna in freshwater and terrestrial ecosystems. [ABSTRACT FROM AUTHOR]

Published

2016

5. Paper-disc method: An efficient assay for evaluating metal toxicity to soil algae.

Author

Nam, Sun-Hwa and An, Youn-Joo

Subjects

TOXICITY testing, SOIL invertebrates, SOIL algae, SOIL microbiology, EXPERIMENTAL toxicology

Abstract

The probabilistic ecological risk assessment using terrestrial toxicity data has been mainly based on microfauna or mesofauna. Soil algae, which are food source for microfauna and mesofauna, may be alternatively used for assessing soil toxicity. However, there are no internationally recommended guidelines for soil algal bioassays, and the collection of algae from the test soils has some limitations. In this study, we suggested the paper-disc method as an easy-to-use alternative. This method has been widely used for testing the antibacterial toxicity of various chemicals in agar media by measuring the diameter of the inhibition zone around the disc. We adapted the paper-disc method for screening the toxicity of copper (Cu) and nickel (Ni) to the soil alga Chlorococcum infusionum using various evaluation endpoints, such as growth zone, chlorophyll fluorescence, and photosynthetic activity. Chlorophyll fluorescence and photosynthetic activity decreased with the increasing concentrations of Cu +2 or Ni +2 contaminated soils. Algal growth zone was analyzed visually and showed similar results to those of chlorophyll fluorescence. The direct ethanol extraction method and indirect culture medium extraction method were similarly effective; however, the former was easier to perform, while the latter might facilitate the analysis of additional endpoints in future studies. Overall, the results suggested that the paper-disc method was not only a user-friendly assay for screening soil toxicity, but also effective due to its association with indirect soil quality indicators. [ABSTRACT FROM AUTHOR]

Published

2016

6. Soil algae as an indicator of winter wheat integrated cultivation system.

Author

Sieminiak, Dorota

Abstract

Copyright of Progress in Plant Protection is the property of Institute of Plant Protection and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2014

7. Response of two terrestrial green microalgae (Chlorophyta, Trebouxiophyceae) isolated from Cu-rich and unpolluted soils to copper stress.

Author

Kalinowska, Renata and Pawlik-Skowrońska, Barbara

Subjects

GREEN algae, PHYSIOLOGICAL stress, COPPER in soils, COMPARATIVE studies, COPPER poisoning, BIOACCUMULATION

Abstract

Some algae inhabit Cu-polluted soils. Intracellular Cu-accumulation and production of non-protein thiols in response to copper stress were compared in Stichococcus minor and Geminella terricola isolated from Cu-polluted and unpolluted soils, respectively. Cu-exposed (0.5 μM) S. minor accumulated lower amounts of copper (0.38 mM) than G. terricola (4.20 mM) and maintained 8.5-fold higher level of glutathione (GSH) than G. terricola. The ratio GSH/0.5 GSSG in the Cu-treated S. minor (7.21) was 7-times higher than in G. terricola. Reduced and oxidized forms of phytochelatins were found in both algae. Under copper stress (5 μM) the ratio –SHtotal/Cuintracellular in S. minor ranged from 2.3 to 6.2, while it was lower than 1.0 in G. terricola. Low intracellular Cu-accumulation and maintenance of high GSH level concomitant with PCs production seem to be responsible for a higher Cu-resistance of S. minor than G. terricola. [Copyright &y& Elsevier]

Published

2010

8. The effect of chemical reclamant on soil algae under conditions of sheltered ground.

Author

Mistratova, N. A., Ivanova, E. A., and Kolesnikova, V. L.

Subjects

SOIL algae, ALGAE, SOIL microbiology, MICROBIOLOGY, SOIL biology

Abstract

The article focuses on a study that examined chemical reclamants and their effect on soil algae in Siberia and the quantity, biomass and specie composition of the algae. Cuttings of rooting plots of sea-buckthorns and black currants were used to examine the soil algoflora. It was determined that fertilizers containing nitrogen and optimal lighting were needed to stimulate growth of certain species of algae.

Published

2005