What question did this study set out to answer?

This research aims to understand how climate change affects ectomycorrhizal (EcM) foraging strategies along elevation gradients.

May 16, 2026

Climate‐induced shifts in ectomycorrhizal explorations from long to short strategies along an elevation gradient

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This research aims to understand how climate change affects ectomycorrhizal (EcM) foraging strategies along elevation gradients.
Analyzed EcM foraging space and mycelial diversity along an elevation gradient.
Evaluated the impact of temperature and soil inorganic nitrogen on ectomycorrhizal strategies.
Short-hyphae mycorrhizas increase resource availability with active hydrolytic enzymes.
Rising temperatures favor short-hyphae over long-rhizomorphs, reducing soil carbon stability.

Resumen

soil. Short-hyphae mycorrhizas exhibited highly active hydrolytic enzymes, which enable them to increase resource availability and play a pivotal role in nutrient foraging. As temperatures rise, increased soil inorganic nitrogen availability in cold forests favors short-hyphae while suppressing long-rhizomorphs with high carbon retention capacity, potentially reducing soil carbon stability. Our analyses of EcM foraging space and multidimensional mycelial diversity provide new opportunities to predict how EcM hyphal processes respond to climate change.

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Climate‐induced shifts in ectomycorrhizal explorations from long to short strategies along an elevation gradient

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