Effects of salt stress on growth and nitrogen fixation by pea, faba-bean, common bean and soybean plants

Pathogenesis-related (PR) proteins are known to play relevant roles in plant defense against biotic and abiotic stresses. In the present study, we characterize the response of transgenic faba bean (Vicia faba L.) plants encoding a PR10a gene from potato (Solanum tuberosum L.) to salinity and drought. The transgene was under the mannopine synthetase (pMAS) promoter. PR10a-overexpressing faba bean plants showed better growth than the wild-type plants after 14 days of drought stress and 30 days of salt stress under hydroponic growth conditions. After removing the stress, the PR10a-plants returned to a normal state, while the wild-type plants could not be restored. Most importantly, there was no phenotypic difference between transgenic and non-transgenic faba bean plants under well-watered conditions. Evaluation of physiological parameters during salt stress showed lower Na+-content in the leaves of the transgenic plants, which would reduce the toxic effect. In addition, PR10a-plants were able to maintain vegetative growth and experienced fewer photosystem changes under both stresses and a lower level of osmotic stress injury under salt stress compared to wild-type plants. Taken together, our findings suggest that the PR10a gene from potato plays an important role in abiotic stress tolerance, probably by activation of stress-related physiological processes.

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Exogenous Auxin-Mediated Salt Stress Alleviation in Faba Bean (Vicia faba L.)

Agronomy ◽

10.3390/agronomy11030547 ◽

2021 ◽

Vol 11 (3) ◽

pp. 547

Author(s):

Arafat Abdel Hamed Abdel Latef ◽

Md. Tahjib-Ul-Arif ◽

Mohammad Saidur Rhaman

Keyword(s):

Salt Stress ◽

Vicia Faba ◽

Faba Bean ◽

Stress Responses ◽

Foliar Application ◽

Soluble Sugar ◽

Principal Component ◽

Vicia Faba L ◽

Catalase Peroxidase ◽

Amino Acid Contents

Auxin not only controls the development processes, but also regulates the stress responses of plants. In this investigation, we explored the potential roles of exogenously applied indole-3-acetic acid (IAA) in conferring salt tolerance in the faba bean (Vicia faba L.). Our results showed that foliar application of IAA (200 ppm) to salt-exposed (60 mM and 150 mM NaCl) plants promoted growth, which was evidenced by enhanced root–stem traits. IAA application ensured better osmotic protection in salt-stressed plants which was supported by reduced proline and enhanced soluble sugar, soluble protein, and total free amino acid contents in the roots, stem, and seeds. IAA application also increased the number of nodules in salt-stressed plants, which may facilitate better nitrogen assimilation. Moreover, IAA mediated improvements in mineral homeostasis (K+, Ca2+, and Mg2+) and the translocation of Na+, while it also inhibited excessive accumulation of Na+ in the roots. Salt-induced oxidative damage resulted in increased accumulation of malondialdehyde, whereas IAA spraying relegated malondialdehyde by improving antioxidant enzymes, including superoxide dismutase, catalase, peroxidase, and ascorbate peroxidase. Together, these results together with a principal component analysis uncovered that foliar spraying of IAA alleviated the antagonistic effects of salt stress via enhancing osmolyte accumulation, ionic homeostasis, and antioxidant activity. Finally, exogenous IAA enhanced the yield of broad beans under high salinity conditions.

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Response of nodulation, nitrogen fixation to salt stress in a desert legume Alhagi sparsifolia

Environmental and Experimental Botany ◽

10.1016/j.envexpbot.2020.104348 ◽

2021 ◽

Vol 183 ◽

pp. 104348

Author(s):

Meimei Li ◽

Matthew D. Petrie ◽

Akash Tariq ◽

Fanjiang Zeng

Keyword(s):

Nitrogen Fixation ◽

Salt Stress ◽

Alhagi Sparsifolia

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Molybdenum supply and biological fixation of nitrogen by two Brazilian common bean cultivars

Revista Brasileira de Engenharia Agrícola e Ambiental ◽

10.1590/1807-1929/agriambi.v21n2p100-105 ◽

2017 ◽

Vol 21 (2) ◽

pp. 100-105 ◽

Cited By ~ 2

Author(s):

Alinne da Silva ◽

◽

Vinícius I. Franzini ◽

Cristiano D. Piccolla ◽

Takashi Muraoka ◽

...

Keyword(s):

Nitrogen Fixation ◽

Common Bean ◽

Biological Nitrogen Fixation ◽

Biological Fixation ◽

Randomized Design ◽

Rhizobium Strains ◽

Common Bean Cultivar ◽

The Common ◽

Biological Nitrogen ◽

15N Isotope Dilution Technique

ABSTRACT The common bean has been considered to have low biological nitrogen fixation capacity; however, this process can be made more effective with molybdenum (Mo) supplementation. The objective of this study was to evaluate the influence of Mo rates on the growth and biological nitrogen fixation by two Brazilian common bean cultivars using the 15N isotope dilution technique. The experiment was performed in 2014 in a completely randomized design arranged in a 5 x 3 factorial scheme, corresponding to 5 rates of Mo (control, 40, 80, 120 and 240 g ha-1), the common bean cultivars Aporé, Ouro Negro and NORH-54 (a non-nodulating common bean cultivar), and three replicates. The application of Mo and the inoculation with rhizobia strains contributed to improving nitrogen fixation and grain weight. The cultivar Ouro Negro showed a higher number and weight of nodules and a higher amount of nitrogen derived from the atmosphere than the cultivar Aporé. The biological nitrogen fixation of Aporé was more dependent on the application of Mo. These results indicated that inoculation with Rhizobium strains and Mo supply effectively contributed to biological nitrogen fixation and improving grain production.

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Alleviation of Salt Stress in Common Bean (Phaseolus vulgaris) by Exogenous Abscisic Acid Supply

Journal of Plant Growth Regulation ◽

10.1007/s00344-005-0004-3 ◽

2006 ◽

Vol 25 (2) ◽

pp. 110-119 ◽

Cited By ~ 56

Author(s):

Mariam Khadri ◽

Noel A. Tejera ◽

Carmen Lluch

Keyword(s):

Abscisic Acid ◽

Salt Stress ◽

Phaseolus Vulgaris ◽

Common Bean

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Multivariate analysis and determination of the best indirect selection criteria to genetic improvement the biological nitrogen fixation ability in common bean genotypes (Phaseolus vulgaris L.)

Genetika ◽

10.2298/gensr1202279g ◽

2012 ◽

Vol 44 (2) ◽

pp. 279-284 ◽

Cited By ~ 1

Author(s):

Reza Golparvar

Keyword(s):

Nitrogen Fixation ◽

Common Bean ◽

Biological Nitrogen Fixation ◽

Genetic Improvement ◽

Selection Criteria ◽

Block Design ◽

Indirect Selection ◽

Shoot Number ◽

Biological Yield ◽

Biological Nitrogen

In order to determine the best indirect selection criteria for genetic improvement of biological nitrogen fixation, sixty four common bean genotypes were cultivated in two randomized complete block design. Genotypes were inoculated with bacteria Rhizobium legominosarum biovar Phaseoli isolate L-109 only in one of the experiments. The second experiment was considered as check for the first. Correlation analysis showed positive and highly significant correlation of majority of the traits with percent of nitrogen fixation. Step-wise regression designated that traits percent of total nitrogen of shoot, number of nodule per plant and biological yield accounted for 92.3 percent of variation exist in percent of nitrogen fixation. Path analysis indicated that these traits have direct and positive effect on percent of nitrogen fixation. Hence, these traits are promising indirect selection criteria for genetic improvement of nitrogen fixation capability in common bean genotypes especially in early generations.

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Complex interactions in legume/cereal intercropping system: role of root exudates in root-to-root communication

10.1101/097584 ◽

2017 ◽

Cited By ~ 1

Author(s):

Yinshan Jiao ◽

Entao Wang ◽

Wenfeng Chen ◽

Donald L. Smith

Keyword(s):

Nitrogen Fixation ◽

Root Exudates ◽

Faba Bean ◽

The Novel ◽

Practical Application ◽

Corn Root ◽

Complex Interactions ◽

Root Interactions ◽

Ecological Principles

Dear Editor,Legume/cereal intercropping systems have been regarded as the practical application of basic ecological principles such as diversity, competition and facilitation. In a recent PNAS paper, Li et al. (1) describe the novel finding that maize exudates promote faba bean nodulation and nitrogen fixation by upregulating genes involved in (iso)flavonoids synthesis (chalcone–flavanone isomerase) within faba bean, resulting in production of more genistein, a legume-to-rhizobia signal during establishment of the faba bean N2–fixing symbiosis. Although we salute the authors’ methodological efforts, there is another mechanism that could be responsible for the effect of corn root exudates on faba been nitrogen fixation observed in this article (1). The authors may misunderstand their data and the signalling role of maize exudates, thus got a defective model for the root interactions between faba bean and maize.

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