Author
Listed:
- María Pérez-Fernández
(Department of Physical, Chemical and Natural Systems, University Pablo de Olavide, 41701 Seville, Spain)
- Irene Ariadna De Lara-Del Rey
(Department of Physical, Chemical and Natural Systems, University Pablo de Olavide, 41701 Seville, Spain)
- Anathi Magadlela
(School of Life Sciences, College of Agriculture, Engineering and Science, University of KwaZulu-Natal (Westville Campus), Private Bag X54001, Durban 4000, South Africa
School of Natural and Applied Sciences, Sol Plaatje University, Private Bag X5008, Kimberley 8300, South Africa)
Abstract
Legumes are a diverse and important group of plants that play a vital role in agriculture, food security, and environmental sustainability. Rhizobia are symbiotic bacteria that form nitrogen-fixing nodules on legume roots, providing the plant with a valuable source of nitrogen. Phenolic acids are a group of secondary metabolites produced by plants that have a wide range of biological functions, including defense against pests and diseases, tolerance to abiotic stresses, and nutrient uptake. In the context of climate change and the imperative for sustainable agriculture, this study delves into the dynamic responses of legume species to varying light intensities and their intricate interactions with soil microorganisms. We investigated the impact of light intensity and rhizobial inoculation on the biomass, nitrate reductase, acid phosphatase, and production of phenolic acids in the roots of four legume species, Trifolium repens , Vicia sativa , Ornithopus compressus , and Coronilla juncea . Plants were grown under three light intensity regimes (low, medium, and high) and inoculated with either rhizobia or a non-inoculated control. The results highlight that shaded-light-adapted species, T. repens and V. sativa , increased root exudate production when exposed to high light intensity. This response aligns with their mining strategy, effectively allocating resources to optimize nutrient acquisition under varying conditions. In contrast, species hailing from well-illuminated environments, O. compressus and C. juncea , displayed distinct strategies by significantly increasing biomass under high irradiance, capitalizing on the available light and nutrients. The mining strategy of legumes emerged as a central theme, influencing biomass production, nitrogen dynamics, and enzymatic activities. The strong correlations between biomass and total nitrogen accumulation underscore the role of the mining strategy in efficient nutrient acquisition. Inoculated plants, which rely more on biological nitrogen fixation (BNF), exhibited lower δ 15 N values, indicative of a successful mining strategy to acquire and utilize atmospheric nitrogen. Enzymatic activities and phenolic acids exhibited significant interspecies variations, reflecting the adaptability of legumes to different light conditions. The findings of this study could be used to develop new strategies for improving legume stress tolerance, nutrient uptake capacity, and rhizosphere health.
Suggested Citation
María Pérez-Fernández & Irene Ariadna De Lara-Del Rey & Anathi Magadlela, 2024.
"Shining a Light on Symbiosis: N-Fixing Bacteria Boost Legume Growth under Varied Light Conditions,"
Agriculture, MDPI, vol. 14(2), pages 1-13, January.
Handle:
RePEc:gam:jagris:v:14:y:2024:i:2:p:164-:d:1324479
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