R
Ricardo Aroca
Researcher at Spanish National Research Council
Publications - 119
Citations - 9395
Ricardo Aroca is an academic researcher from Spanish National Research Council. The author has contributed to research in topics: Symbiosis & Salinity. The author has an hindex of 49, co-authored 109 publications receiving 7630 citations. Previous affiliations of Ricardo Aroca include Wageningen University and Research Centre & University of Navarra.
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Salinity stress alleviation using arbuscular mycorrhizal fungi. A review
TL;DR: This review proposes that investigating the participation of cation proton antiporters and cyclic nucleotide-gated channels on arbuscular mycorrhizal symbiosis under salinity is a promising field that should shed further light on new mechanisms involved in the enhanced tolerance of mycor rhizal plants to salt stress.
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Regulation of root water uptake under abiotic stress conditions
TL;DR: This review first describes present knowledge about how water is taken up by roots and then discusses how specific stress situations such as drought, salinity, low temperature, and flooding modify root water uptake.
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Regulation by arbuscular mycorrhizae of the integrated physiological response to salinity in plants: new challenges in physiological and molecular studies
TL;DR: Current knowledge about the effects of AM symbiosis on physiological mechanisms and molecular bases of such effects are summarized, emphasizing new perspectives and challenges in physiological and molecular studies on salt-stress alleviation by AM symbiotic.
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How does arbuscular mycorrhizal symbiosis regulate root hydraulic properties and plasma membrane aquaporins in Phaseolus vulgaris under drought, cold or salinity stresses?
TL;DR: Differential expression of the PIP genes studied under each stress depending on the AM fungal presence may indicate a specific function and regulation by the AM symbiosis of each gene under the specific conditions of each stress tested.
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Influence of Salinity on the In Vitro Development of Glomus intraradices and on the In Vivo Physiological and Molecular Responses of Mycorrhizal Lettuce Plants
TL;DR: Results showed that plants colonized by G. intraradices grew more than nonmycorrhizal plants, and enhanced gene expression could contribute to regulating root water permeability to better tolerate the osmotic stress generated by salinity.