Effect of phosphorus and temperature on chlorophyll a contents and cell sizes of Scenedesmus obliquus and Microcystis aeruginosa

Chen, Meijun; Li, Jing; Dai, Xi; Sun, Ying; Chen, Feizhou

doi:10.1007/s10201-010-0336-y

Cited by 69 publications

(41 citation statements)

References 31 publications

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“…Similarly, chlorophyll and carotenoid contents were lower in the green algae Chlamydomonas reinhardtii grown under 15 • C compared to 25 • C . Chen et al (2010), in turns, observed an increased chlorophyll content in the cyanobacteria Microcystis aeruginosa grown at 25 • C in relation to 10 • C. On the other hand, chlorophyll content was not significantly affected by temperature in the diatom Navicula pelliculosa (at 10, 15, and 25 • C) (Chalifour and Juneau, 2011) or in the cyanobacteria Merismopedia tenuissima and Oscillatoria sp. (at 15, 20, 25, and 30 • C) (Coles and Jones, 2000).…”

Section: Thermal-acclimationmentioning

confidence: 87%

Temperature and Light Modulation of Herbicide Toxicity on Algal and Cyanobacterial Physiology

Gomes

Juneau

2017

Front. Environ. Sci.

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HIGHLIGHTS• We reviewed the interaction between light, temperature and herbicides on algal and cyanobacterial physiology.• Temperature is the main factor affecting herbicide toxicity to algae and cyanobacteria.• Changes in light environment may modulate the effects of photosynthesis-targeting herbicides.Important interactions between climatic parameters and herbicide toxicity have been discussed in the literature. As climate changes are expected to influence the growth conditions of aquatic photosynthetic organisms over the next century by modifying the physicochemical parameters of the environment (such as temperature and incident light characteristics), the following questions arise: How will variations in climatic conditions influence herbicide toxicity in algae and cyanobacteria? Are these coupled effects on aquatic photosynthetic organism physiology antagonistic, additive, or synergistic?We discuss here the physiological responses of algae and cyanobacteria to the combined effects of environmental changes (temperature and light) and herbicide exposure. Both temperature and light are proposed to influence herbicide toxicity through acclimation processes that are mainly related to cell size and photosynthesis. Algal and cyanobacterial responses to interactions between light, temperature, and herbicides are species-specific, making it difficult today to establish a single model of how climate changes will affect toxicity of herbicides. Acclimation processes could assure the maintenance of primary production but total biodiversity should decrease in communities exposed to herbicides under changing temperature and light conditions. The inclusion of considerations on the impacts of environmental changes on toxicity of herbicides in water quality guidelines directed toward protecting aquatic life is now urgently needed.Keywords: environment, toxicity, hazardous, pollutants, algae, cyanobacteria Gomes and JuneauHerbicides/Climate Changes on PhytoplanktonGraphical Abstract | Changes in temperature and light conditions in water systems over the next century will drive physiological responses of algal and cyanobacterial community to herbicides, by antagonistic, additive, or synergic effects with these pollutants.

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Section: Thermal-acclimationmentioning

confidence: 87%

Temperature and Light Modulation of Herbicide Toxicity on Algal and Cyanobacterial Physiology

Gomes

Juneau

2017

Front. Environ. Sci.

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“…The average cell biovolume of S. obliquus used in the current study was determined as 102 μm 3 cell −1 via a laser particle analyzer (Li et al 2015a) which was slightly lower than 121 μm 3 cell −1 as reported by Lürling (2006). The average cell biovolume of M. aeruginosa (FACHB 469) was calculated as 11.5 μm 3 cell −1 according our previous study (Li et al 2013b), which was much lower than 16 μm 3 cell −1 reported by Chen et al (2011b) (setting its diameter as 3.1 μm and calculated as a sphere). The maximum cell density of S .…”

Section: Discussionmentioning

confidence: 98%

Effects of linear alkylbenzene sulfonate (LAS) on the interspecific competition between Microcystis and Scenedesmus

Zhu

Chen

Guo

et al. 2016

Environ Sci Pollut Res

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The widespread use of detergents increases the concentration of surfactant in lakes and reservoirs. High surfactant loads produces toxicity to algae; however, the influence of the increasing surfactant on the competition between algae is not clear. In this paper, different amounts of linear alkylbenzene sulfonate (LAS) were added to test the effects of LAS on the competition between Microcystis aeruginosa and Scenedesmus obliquus under eutrophic condition. In single culture, the growth of S. obliquus was promoted under lower LAS concentrations (1 and 20 mg L(-1)), but cell density of S. obliquus reduced when treated with higher LAS concentration (100 mg L(-1)). The growth of M. aeruginosa was inhibited markedly with 20 and 100 mg L(-1) LAS. Compared with single culture, the result was opposite in co-cultures and the cell density of S. obliquus increased significantly when treated with LAS of 1, 20, and 100 mg L(-1). The specific growth rates of S. obliquus and M. aeruginosa in both cultures were 0.4-0.5 day(-1) and 0.6-0.7 day(-1), respectively, except that the specific growth rate of M. aeruginosa in both cultures treated with 100 mg L(-1) LAS was about 0.2 day(-1). M. aeruginosa dominated over S. obliquus in the co-culture without LAS, while the competition was completely opposite with the addition of 20 mg L(-1) LAS. The growth of S. obliquus treated with 20 mg L(-1) LAS was not affected significantly in single culture but was promoted by 75 % in co-culture. Moreover, the growth of S. obliquus in co-culture treated with 100 mg L(-1) LAS was promoted by more than 97 %. These results suggested that the increasing LAS would overturn the competition of algae in freshwater ecosystems.

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“…The influence of genetic factors on chlorophyll content was confirmed by Bojovic and Markovic (2009) who investigated the variability of the chlorophyll content of wheat leaf with cultivar. Furthermore, chlorophyll content is usually affected by various environmental factors such as temperature, photoperiod, nitrogen, water and degree of maturity (Chen et al, 2011;Lee et al, 2011).…”

Section: Total Chlorophyll Chlorophyll a And Chlorophyll Bmentioning

confidence: 99%

Comparative investigation of minerals, chlorophylls contents, fatty acid composition and thermal profiles of olive leaves (<em>Olea europeae</em> L.) as by-product

2014

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SUMMARY:This work presents a chemical (the minerals, chlorophyll contents and fatty acids) and thermophysical investigation (DSC profile) of four varieties of olive leaves grown in Tunisia. The total chlorophy1l contents of olive leaves ranged from 1132.33 to 1795.93 ppm. The results showed that linolenic acid (C 18:3 ) is the major fatty acid in olive leaves (from 30.02 to 42.16%), followed by oleic acid (C 18:1 ) and palmitic acid (C 16:0 ). The thermal profiles of olive leaf extracts determined by their DSC melting curves revealed simple thermograms with a single peak after melting. The hexane extract of the Chemchali variety, which contained relatively high unsaturated fatty acids and low saturated fatty acid levels, exhibited the lowest peak temperature value (54.59 °C) and required the smallest amount of energy for melting (31.57 J·g −1 ). This study showed that olive leaves possessed physicochemical properties and a fatty acid composition that may become interesting for industrial applications. KEYWORDS: Chlorophylls; DSC melting curves; Fatty acid composition; Minerals; Olive leavesRESUMEN: Investigación comparativa de los contenidos de minerales, clorofila, composición de ácidos grasos y perfiles térmicos de hojas de olivo (Olea europaea L.) como subproducto. Este trabajo presenta estudios de la composición química (minerales, contenido de clorofila y ácidos grasos) e inves tigaciones termofísicas ( perfil DSC) de cuatro variedades de hojas de olivo cultivadas en Túnez. Los contenidos totales de clorofila de las hojas de olivo oscilaron entre 1132,33 y 1795,93 ppm. Los resultados mostraron que el ácido linolénico (C18:3) es el ácido graso principal en las hojas de olivo (30,02 a 42,16%), seguido de los ácidos oleico (C18:1) y palmítico (C16:0). Los perfiles térmicos de los extractos de hoja de olivo determinados por sus curvas de fusion, DSC mostró termogramas simples con un solo pico después de la fusión. El extracto de hexano de la variedad Chemchali, que contenía ácidos grasos insaturados relativamente mas altos y bajos niveles de ácidos grasos saturados, exhibió el pico de temperatura más baja (54,59 °C) y requiere menor energía para la fusión (31,57 J·g ). Este estudio mostró que las hojas de olivo poseen propiedades fisicoquímicas y composición en ácidos grasos que pueden ser interesantes para aplicaciones industriales.

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Effect of phosphorus and temperature on chlorophyll a contents and cell sizes of Scenedesmus obliquus and Microcystis aeruginosa

Cited by 69 publications

References 31 publications

Temperature and Light Modulation of Herbicide Toxicity on Algal and Cyanobacterial Physiology

Temperature and Light Modulation of Herbicide Toxicity on Algal and Cyanobacterial Physiology

Effects of linear alkylbenzene sulfonate (LAS) on the interspecific competition between Microcystis and Scenedesmus

Comparative investigation of minerals, chlorophylls contents, fatty acid composition and thermal profiles of olive leaves (<em>Olea europeae</em> L.) as by-product

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