If we better understand how fungal responses to global change are governed by their traits, we can improve predictions of fungal community composition and ecosystem function. Specifically, we can examine trade-offs among traits, in which the allocation of finite resources toward one trait reduces the investment in others. We hypothesized that trade-offs among fungal traits relating to rapid growth, resource capture, and stress tolerance sort fungal species into discrete life history strategies. We used the Biolog Filamentous Fungi database to calculate maximum growth rates of 37 fungal species and then compared them to their functional traits from the funfun database. In partial support of our hypothesis, maximum growth rate displayed a neg...
Functional traits are widely recognized as a useful framework for testing mechanisms underlying spec...
Phenotypic plasticity of traits is commonly measured in plants to improve understanding of organisma...
Fungal ecology lags behind in the use of traits (i.e. phenotypic characteristics) to understand ecol...
If we better understand how fungal responses to global change are governed by their traits, we can i...
Life history theory explains how an organism’s reproductive success is driven by trade-offs among li...
Fungi contribute extensively to a wide range of ecosystem processes, including decomposition of orga...
Fungi are important decomposers in terrestrial ecosystems, so their responses to climate change migh...
Fungi are important decomposers in terrestrial ecosystems, so their responses to climate change migh...
In this case study analysis, we identified fungal traits that were associated with the responses of ...
The fungal mycelium represents the essence of the fungal lifestyle, and understanding how a mycelium...
Fungal populations can adapt to their environment by the generation and fixation of spontaneous bene...
Decomposer fungi play a fundamental role in terrestrial ecosystem dynamics. In the southwestern Unit...
Fungi are major contributors to many important ecological processes, including decomposition, plant ...
The fungi comprise a separate kingdom of life and epitomise the indeterminate growth form. Very litt...
Quantitative traits such as maximum growth rate and cell radial diameter are one facet of ecological...
Functional traits are widely recognized as a useful framework for testing mechanisms underlying spec...
Phenotypic plasticity of traits is commonly measured in plants to improve understanding of organisma...
Fungal ecology lags behind in the use of traits (i.e. phenotypic characteristics) to understand ecol...
If we better understand how fungal responses to global change are governed by their traits, we can i...
Life history theory explains how an organism’s reproductive success is driven by trade-offs among li...
Fungi contribute extensively to a wide range of ecosystem processes, including decomposition of orga...
Fungi are important decomposers in terrestrial ecosystems, so their responses to climate change migh...
Fungi are important decomposers in terrestrial ecosystems, so their responses to climate change migh...
In this case study analysis, we identified fungal traits that were associated with the responses of ...
The fungal mycelium represents the essence of the fungal lifestyle, and understanding how a mycelium...
Fungal populations can adapt to their environment by the generation and fixation of spontaneous bene...
Decomposer fungi play a fundamental role in terrestrial ecosystem dynamics. In the southwestern Unit...
Fungi are major contributors to many important ecological processes, including decomposition, plant ...
The fungi comprise a separate kingdom of life and epitomise the indeterminate growth form. Very litt...
Quantitative traits such as maximum growth rate and cell radial diameter are one facet of ecological...
Functional traits are widely recognized as a useful framework for testing mechanisms underlying spec...
Phenotypic plasticity of traits is commonly measured in plants to improve understanding of organisma...
Fungal ecology lags behind in the use of traits (i.e. phenotypic characteristics) to understand ecol...