Diversity and Structure of Soil Fungal Communities across Experimental Everglades Tree Islands

Almeida, Brianna K.; Ross, Michael S.; Stoffella, Susana L.; Sah, Jay P.; Cline, Eric; Sklar, Fred H.; Afkhami, Michelle E.

doi:10.3390/d12090324

Cited by 7 publications

(4 citation statements)

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“…We note that there is growing evidence that these hidden players should be considered at all stages of restoration from restoration site preparation to management post‐restoration (Wubs et al 2016; Docherty & Gutknecht 2019; Smith et al 2021). For instance, for the Everglades tree islands, we have previously found that site preparation techniques can have enduring effects on the soil microbiome even 15 years after restoration has occurred (Almeida et al 2020). Our study demonstrates that the hydrological maintenance of restored tree island sites could alter prokaryotic communities and their productivity effects on key plant taxa.…”

Section: Discussionmentioning

confidence: 99%

“…Ficus aurea , like many other Ficus species, also provides food for seed dispersers such as nesting vulnerable white crowned pigeons (Bancroft et al 2000; Kuaraksa et al 2012). Previous survey of microbial communities on tree islands found that microbial diversity and composition in field collected soils were affected by local water levels (Almeida et al 2020). Given these findings and the important role microbes play in plant performance, we hypothesized that management that alters water levels would change the soil microbial communities with cascading effects on F. aurea growth.…”

Section: Introductionmentioning

confidence: 99%

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Hydrology shapes microbial communities and microbiome‐mediated growth of an Everglades tree island species

Almeida

Cline

Sklar

et al. 2022

Restoration Ecology

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Plant-associated microbiomes can improve plant fitness by ameliorating environmental stress, providing a promising avenue for improving outplantings during restoration. However, the effects of water management on these microbial communities and their cascading effects on primary producers are unresolved for many imperiled ecosystems. One such habitat, Everglades tree islands, has declined by 54% in some areas, releasing excess nutrients into surrounding wetlands and exacerbating nutrient pollution. We conducted a factorial experiment, manipulating the soil microbiome and hydrological regime experienced by a tree island native, Ficus aurea, to determine how microbiomes impact growth under two hydrological management plans. All plants were watered to simulate natural precipitation, but plants in the "unconstrained" management treatment were allowed to accumulate water above the soil surface, while the "constrained" treatment had a reduced stage to avoid soil submersion. We found significant effects of the microbiomes on overall plant performance and aboveground versus belowground investment; however, these effects depended on hydrological treatment. For instance, microbiomes increased investment in roots relative to aboveground tissues, but these effects were 142% stronger in the constrained compared to unconstrained water regime. Changes in hydrology also resulted in changes in the prokaryotic community composition, including a >20 log 2 fold increase in the relative abundance of Rhizobiaceae, and hydrology-shifted microbial composition was linked to changes in plant performance. Our results suggest that differences in hydrological management can have important effects on microbial communities, including taxa often involved in nitrogen cycling, which can in turn impact plant performance.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Hydrology shapes microbial communities and microbiome‐mediated growth of an Everglades tree island species

Almeida

Cline

Sklar

et al. 2022

Restoration Ecology

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“…Vector A of the control site was higher than the values of the two shrub islands, showing that the phosphorus limitation pressure in the control site was greater than that in the soil under the shrub islands, which is closely related to the regulation of soil formation and fixation of nutrients by soil animals and microorganisms (Moorhead et al, 2016;Almeida et al, 2020). The CBH/PPO ratio in the RL shrub island was higher than that in the SR shrub island, according to the definition of Sinsabaugh (Sinsabaugh et al, 2011;Takriti et al, 2018).…”

Section: Stoichiometry Of Evergreen and Deciduous Shrub Islandmentioning

confidence: 93%

Soil Biological Community and Chemical Characteristics of Evergreen and Deciduous Shrub Islands in an Alpine Shrub Meadow

Sha

Jin

Wang

et al. 2021

Preprint

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Aim Global change is driving shrub expansion in alpine and Arctic tundra, increasing the size and number of shrub islands. This phenomenon can directly affect the vegetation microclimate and indirectly affect biogeochemical cycling. However, it is unclear how shrub island formation, with a shift in dominant vegetation from graminoids to deciduous or evergreen shrub islands, affects the alpine biochemical cycling of carbon, nitrogen, phosphorus and decomposer diversity and activity. Methods Two dominant shrub species in the alpine shrub meadow in the eastern Tibetan Plateau were selected. Rhododendron lapponicum (RL) represents evergreen shrubs, and Sorbus rufopilosa (SR) represents deciduous shrubs. Soil fauna community diversity, soil microbial biomass, extracellular enzyme activity and enzyme stoichiometry of the organic soil layer (OL) and mineral soil layer (ML) were determined. Results Presence of shrub islands significantly affected nutrient cycling and microbial processes. Compared with the SR shrub island, the RL shrub island featured lower soil total nitrogen and microbial biomass carbon; lower total microbial phospholipid fatty acid, Gram-negative bacteria and total bacteria contents; and higher enzyme activities of β-glucosidase, cellobiohydrolase, β-N-acetylglucosaminidase, peroxidase and polyphenol oxidase. The OL response was greater than the ML response, especially in terms of enzyme activities. Conclusion Evergreen and deciduous shrub islands in an alpine shrub meadow had differences in soil biological communities and nutrient cycling, we suspect the OL was more sensitive than the ML to the shrub expansion in the alpine tundra.

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“…Their study highlights the prevalence of pathogens accumulating in the tissues of invasive species. Almeida et al [3] studied the soil fungal diversity on restored tree islands in the Florida Everglades. The tree islands are surrounded by grassy wetlands and serve as habitat for many plants and animals.…”

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confidence: 99%

Fungal Diversity

Bael

2020

Diversity

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Diversity and Structure of Soil Fungal Communities across Experimental Everglades Tree Islands

Cited by 7 publications

References 82 publications

Hydrology shapes microbial communities and microbiome‐mediated growth of an Everglades tree island species

Hydrology shapes microbial communities and microbiome‐mediated growth of an Everglades tree island species

Soil Biological Community and Chemical Characteristics of Evergreen and Deciduous Shrub Islands in an Alpine Shrub Meadow

Fungal Diversity

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