Changes in photosynthetic pigment and carbohydrate content in common bean cultivars infected by Colletotrichum lindemuthianum

Lobato, A. K. S.; Gonçalves‐Vidigal, Maria Celeste; Filho, Pedro Soares Vidigal; Costa, R. C. L.; Cruz, F. J. R.; Santos, D. G. C.; Silva, C. R.; Silva, L. I.; Sousa, Lorenna Lopes de

doi:10.17221/259-pse

Cited by 21 publications

(12 citation statements)

References 10 publications

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“…Reduction of chlorophyll caused a decrease in the photosynthesis rate of infected plants in our study. Lobato et al (2009a) described similar results in Phaseolus vulgaris plants infected by Colletotrichum lindemuthianum race 23. Berova et al (2007) compared four cultivars of Phaseolus vulgaris infected by two bacteria (Xanthomonas campestris and Pseudomonas syringae) and found that chlorophyll a and b were negatively affected.…”

Section: Photosynthesis and Photosynthetic Water Use Efficiencysupporting

confidence: 70%

“…Under favourable conditions such as high temperature and humidity, this fungus can infect the common bean crop in all growth stages (Broughton et al 2003). In addition, this pathogen causes morphological, physiological and biochemical alterations that have been described previously in Phaseolus vulgaris, such as the significant decrease in photosynthetic pigments (Lobato et al 2009a), photosynthesis rate (Lopes & Berger 2001) and consequent yield reduction ). Other disorders in carbon and nitrogen metabolism have also been reported by Lobato et al (2009b) and Gonc¸alves-Vidigal et al (2009b).…”

Section: Introductionmentioning

confidence: 80%

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Relationships between leaf pigments and photosynthesis in common bean plants infected by anthracnose

Lobato

Gonçalves‐Vidigal

Filho

et al. 2010

New Zealand Journal of Crop and Horticultural Science

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The objective of this study was to: first, evaluate the infection effects caused by Colletotrichum lindemuthianum pathogen (race 2047) on photosynthetic pigments and gas exchanges in Phaseolus vulgaris plants (cv. Mexico 222); and, second, determine infection effects on leaf pigments and their consequences on photosynthesis rate. A completely randomized design with a factorial scheme was used, combining two treatments (control and inoculated) and three evaluation periods (4th, 8th and 12th day). Carotenoid levels presented decreases of 28.3% and 35% during the 8th and 12th day after infection, when control and inoculated plants were compared. Correlation analysis demonstrated the direct relationship between carotenoids and photosynthesis rate (r 00.84). Total chlorophyll in infected plants had progressive reductions of 6.4%, 20.6% and 21.3% on the 4th, 8th and 12th day, respectively, when treated and untreated plants were compared. Total chlorophyll with photosynthesis (r 00.85) also revealed a significant and linear correlation. The photosynthetic rate in infected plants decreased by 22%, 49.9% and 77.3% on the 4th, 8th and 12th days after the inoculation, respectively. Anthracnose infection also induced negative effects concerning stomatal conductance, transpiration, photosynthesis and water use efficiency. Our results demonstrate that leaf pigment reduction as a result of pathogens was the main cause of lower gaseous exchanges in infected plants.

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Section: Photosynthesis and Photosynthetic Water Use Efficiencysupporting

confidence: 70%

Section: Introductionmentioning

confidence: 80%

Relationships between leaf pigments and photosynthesis in common bean plants infected by anthracnose

Lobato

Gonçalves‐Vidigal

Filho

et al. 2010

New Zealand Journal of Crop and Horticultural Science

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“…It has been reported that the effect of microbial inoculants on the photosynthetic pigments of plants may be different for phytopathogenic and plant-growth-promoting microorganisms. Inoculation of plants with pathogenic microorganisms (e.g., fungus Colletotrichum lindemuthianum and the bacteria Uromyces appendiculatus and Xanthomonas campestris) was reported to decrease chlorophyll and carotenoid content in legumes (Berova et al 2007;Lobato et al 2009;Lopes and Berger 2001). In contrast, inoculation of stressed plants with plant-growth-promoting microorganisms, e.g., Rhizobium sp., Bacillus subtilis, and Pseudomonas fluorescens, resulted in increases in chlorophyll and carotenoid content (Dell'Amico et al 2008;Mohamed and Gomaa 2012;Wani and Khan 2013).…”

Section: Discussionmentioning

confidence: 99%

Effect of cadmium stress and inoculation with a heavy-metal-resistant bacterium on the growth and enzyme activity of Sorghum bicolor

Muratova

Lyubun

German

et al. 2015

Environ Sci Pollut Res

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In this study, the influence of the heavy-metal-resistant rhizobacterial inoculant Rhodococcus ruber N7 on the growth and enzyme activity of Sorghum bicolor (L.) Moench. under cadmium stress was investigated in quartz sand pot experiments. The effect of cadmium and bacterium on the plant biomass accumulation, photosynthetic pigments, protein content, and the activities of plant-tissue enzymes such as peroxidase, laccase, and tyrosinase were estimated. It was shown that the presence of cadmium in the sand influenced the roots to a greater extent than it influenced the aerial parts of sorghum. This is manifested as increased protein content, reduced activity of peroxidase, and increased activity of laccase. Compared with cadmium stress, inoculation of plants with rhizobacterium R. ruber N7 has a stronger (and often opposite) effect on the biochemical parameters of sorghum, including a decrease in the concentration of protein in the plant, but increased the activity of peroxidase, laccase, and tyrosinase. Under cadmium contamination of sand, R. ruber N7 successfully colonizes the roots of Sorghum bicolor, survives in its root zone, and contributes to the accumulation of the metal in the plant roots, thereby reducing the concentration of the pollutant in the environment.

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“…Plant productivity is quite sensitive to various stress factors of both biotic and abiotic nature [19]. The observed pronounced decrease in growth and pigments at the infected plants in several reports [20][21][22][23][24][25]. Faheed et al [26] mentioned that, infected tomato seedlings with Alternaria solani showed highly significant decrease in the contents of chlorophyll a, chlorophyll b, carotenoids and consequently total pigments compared to the control.…”

Section: Introductionmentioning

confidence: 99%

Pathogenicity and Pectinase Activity of Some Facultative Mycoparasites Isolated from Vicia faba Diseased Leaves in Relation to Photosynthetic Pigments of Plant

Saleem¹

2012

J Plant Pathol Microb

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Changes in photosynthetic pigment and carbohydrate content in common bean cultivars infected by Colletotrichum lindemuthianum

Cited by 21 publications

References 10 publications

Relationships between leaf pigments and photosynthesis in common bean plants infected by anthracnose

Relationships between leaf pigments and photosynthesis in common bean plants infected by anthracnose

Effect of cadmium stress and inoculation with a heavy-metal-resistant bacterium on the growth and enzyme activity of Sorghum bicolor

Pathogenicity and Pectinase Activity of Some Facultative Mycoparasites Isolated from Vicia faba Diseased Leaves in Relation to Photosynthetic Pigments of Plant

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