Mycorrhizal ecology on serpentine soils
D Southworth, LE Tackaberry… - Plant Ecology & …, 2014 - Taylor & Francis
D Southworth, LE Tackaberry, HB Massicotte
Plant Ecology & Diversity, 2014•Taylor & FrancisBackground: Serpentine ecosystems support different, often unique, plant communities;
however, we know little about the soil organisms that associate with these ecosystems.
Mycorrhizas, mutualistic symbioses between fungi and roots, are critical to nutrient cycling
and energy exchange below ground. Aims: We address three hypotheses: H1, diversity of
mycorrhizal fungi in serpentine soils mirrors above-ground plant diversity; H2, the
morphology of mycorrhizas and fungi on serpentine soils differs from that on non-serpentine; …
however, we know little about the soil organisms that associate with these ecosystems.
Mycorrhizas, mutualistic symbioses between fungi and roots, are critical to nutrient cycling
and energy exchange below ground. Aims: We address three hypotheses: H1, diversity of
mycorrhizal fungi in serpentine soils mirrors above-ground plant diversity; H2, the
morphology of mycorrhizas and fungi on serpentine soils differs from that on non-serpentine; …
Background: Serpentine ecosystems support different, often unique, plant communities; however, we know little about the soil organisms that associate with these ecosystems. Mycorrhizas, mutualistic symbioses between fungi and roots, are critical to nutrient cycling and energy exchange below ground.
Aims: We address three hypotheses: H1, diversity of mycorrhizal fungi in serpentine soils mirrors above-ground plant diversity; H2, the morphology of mycorrhizas and fungi on serpentine soils differs from that on non-serpentine; and H3, mycorrhizal fungal communities of the same or closely related hosts differ between serpentine and non-serpentine soils.
Methods: This review focuses on whether plant diversity on serpentine soils correlates with the below ground diversity of mycorrhizal fungi.
Results: Studies show that plants and fungi formed abundant ectomycorrhizal and arbuscular mycorrhizal symbioses on and off serpentine soils. No serpentine-endemic fungi were identified. Molecular analyses indicate distinct serpentine isolates for Cenococcum geophilum and for Acaulospora, suggesting adaptation to serpentine soils. While fungal sporocarp assemblages on serpentine sites resembled those off serpentine, fruiting of hypogeous fungi was greatly reduced.
Conclusions: Ectomycorrhizal fungal communities did not differ between soil types; however, arbuscular mycorrhizal communities differed in some cases but not others. The additive response to multiple factors, described as the serpentine syndrome, may explain part of the response by fungi.
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