Improved Waterlogging Tolerance in Roots of Cucumber Plants after Inoculation with Arbuscular Mycorrhizal Fungi

Xiang, Nan; Liu, Zhen; Tian, Xiao; Wang, Dan; Hashem, Abeer; Abd_Allah, Elsayed Fathi; Wu, Qiang-Sheng; Zou, Ying-Ning

doi:10.3390/horticulturae10050478

Horticulturae

2024

DOI: 10.3390/horticulturae10050478

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Improved Waterlogging Tolerance in Roots of Cucumber Plants after Inoculation with Arbuscular Mycorrhizal Fungi

Nan Xiang,

Zhen Liu,

Xiao Tian

et al.

Abstract: Mycorrhizal symbiosis enhances host plant resistance to various unfavorable environmental stresses, but whether and how it also enhances waterlogging tolerance in cucumber plants is not known. The objective of this study was to analyze the effect of Paraglomus occultum inoculation on biomass production, osmolyte levels, and the expression of 12 heat shock protein 70 (Hsp70) genes and 14 plasma membrane intrinsic protein (PIP) genes in the roots of cucumber plants under a short-term waterlogging stress (WS) (5 … Show more

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Response of Helenium amarum to Environmental Stressors in the Presence of Mycorrhizal Fungi and Its Role as a Pollinator Resource

Jameson,

Horth

2024

IJPB

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Globally, climate change is causing shifts in precipitation patterns. Shifting precipitation patterns can be a stressor for many species. One species that is experiencing such stress is Helenium amarum Raf (H. Rock). H. amarum, thrives in dry upland pastures and low-lying grassy and sandy habitat in the mid-Atlantic (USA), where it persists despite storm-driven standing water. Helenium amarum is a species that is toxic to livestock and has been found outside its native range. Temperature and light impacts on germination are already known, but the role of water availability and potential ameliorating effects of mycorrhizae during water stress have not been studied. We planted seeds collected from nature in the Aquatics Facility at Old Dominion University under varied water regimes (drought, flood, intermediate) and evaluated supplemental mycorrhizal fungi impacts on plant traits. Plants in soil with supplemental mycorrhizae grew to nearly twice the height of ‘no supplement’ controls (x¯mycorrhizae = 23.16, S.D. = 7.33 cm; x¯control = 13.70, S.D. = 6.33 cm; p < 0.001). Leaf length was also greater with supplemental mycorrhizae ( x¯mycorrhizae = 3.52, S.D. = 1.27 cm; x¯control = 2.66, S.D. = 0.75 cm; p = 0.0239). Leaf number was greater in high water treatments, with supplemental mycorrhizae (high-water: x¯mycorrhizae = 27.47, S.D. = 10.66; x¯control = 13.50, S.D. = 6.80; p < 0.001; pulse-water x¯mycorrhizae = 30.50, S.D. = 8.64; x¯control = 22.38, S.D. = 7.42; p = 0.0254). This work demonstrates that H. amarum tolerates both dry and moist soil during germination, which may be relevant for successful invasiveness. Supplemental mycorrhizal fungi buffer the effects of water stress, which is significant as climate change impacts precipitation. Additionally, we have documented that pollinators frequently visit flowers of the plant, which is indicative that the species provides ecosystem services in the form of pollinator resources.

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Response of Helenium amarum to Environmental Stressors in the Presence of Mycorrhizal Fungi and Its Role as a Pollinator Resource

Jameson,

Horth

2024

IJPB

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show abstract

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Improved Waterlogging Tolerance in Roots of Cucumber Plants after Inoculation with Arbuscular Mycorrhizal Fungi

Cited by 1 publication

References 40 publications

Response of Helenium amarum to Environmental Stressors in the Presence of Mycorrhizal Fungi and Its Role as a Pollinator Resource

Response of Helenium amarum to Environmental Stressors in the Presence of Mycorrhizal Fungi and Its Role as a Pollinator Resource

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