TY - JOUR
T1 - European mushroom assemblages are darker in cold climates
AU - Krah, Franz-Sebastian
AU - Buntgen, Ulf
AU - Schaefer, Hanno
AU - Muller, Jorg
AU - Andrew, Carrie
AU - Boddy, Lynne
AU - Diez, Jeffrey
AU - Egli, Simon
AU - Freckleton, Robert
AU - Gange, Alan
AU - Halvorsen, Rune
AU - Heegaard, Einar
AU - Heideroth, Antje
AU - Heibl, Christoph
AU - Heilmann-Clausen, Jacob
AU - Hoiland, Klaus
AU - Kar, Ritwika
AU - Kauserud, Havard
AU - Kirk, Paul
AU - Kuyper, Thomas
AU - Krisai-Greilhuber, Irmgard
AU - Norden, Jenni
AU - Papastefanou, Philip
AU - Senn-Irlet, Beatrice
AU - Bassler, Claus
N1 - Note: Author order after the first four is alphabetical
PY - 2019/6/28
Y1 - 2019/6/28
N2 - Thermal melanism theory states that dark-colored ectotherm organisms are at an advantage at low temperature due to increased warming. This theory is generally supported for ectotherm animals, however, the function of colors in the fungal kingdom is largely unknown. Here, we test whether the color lightness of mushroom assemblages is related to climate using a dataset of 3.2 million observations of 3,054 species across Europe. Consistent with the thermal melanism theory, mushroom assemblages are significantly darker in areas with cold climates. We further show differences in color phenotype between fungal lifestyles and a lifestyle differentiated response to seasonality. These results indicate a more complex ecological role of mushroom colors and suggest functions beyond thermal adaption. Because fungi play a crucial role in terrestrial carbon and nutrient cycles, understanding the links between the thermal environment, functional coloration and species’ geographical distributions will be critical in predicting ecosystem responses to global warming.
AB - Thermal melanism theory states that dark-colored ectotherm organisms are at an advantage at low temperature due to increased warming. This theory is generally supported for ectotherm animals, however, the function of colors in the fungal kingdom is largely unknown. Here, we test whether the color lightness of mushroom assemblages is related to climate using a dataset of 3.2 million observations of 3,054 species across Europe. Consistent with the thermal melanism theory, mushroom assemblages are significantly darker in areas with cold climates. We further show differences in color phenotype between fungal lifestyles and a lifestyle differentiated response to seasonality. These results indicate a more complex ecological role of mushroom colors and suggest functions beyond thermal adaption. Because fungi play a crucial role in terrestrial carbon and nutrient cycles, understanding the links between the thermal environment, functional coloration and species’ geographical distributions will be critical in predicting ecosystem responses to global warming.
U2 - 10.1038/s41467-019-10767-z
DO - 10.1038/s41467-019-10767-z
M3 - Article
SN - 2041-1723
VL - 10
SP - 1
EP - 11
JO - Nature Communications
JF - Nature Communications
M1 - 2890
ER -