|Title||Convergence, consilience, and the evolution of temperate deciduous forests|
|Publication Type||Journal Article|
|Year of Publication||2017|
|Authors||Edwards EJ, Chatelet DS, Chen B-C, Ong JYao, Tagane S, Kanemitsu H, Tagawa K, Teramoto K, Park B, Chung K-F, Hu J-M, Yahara T, Donoghue MJ|
|Journal||The American Naturalist|
|Keywords||biome assembly, climate change, freezing tolerance, leaf habit, phylogeny, Viburnum|
The deciduous habit of northern temperate trees and shrubs provides one of the most obvious examples of convergent evolution, but how did it evolve? Hypotheses based on the fossil record posit that deciduousness evolved first in response to drought or darkness and preadapted certain lineages as cold climates spread. An alternative is that evergreens first established in freezing environments and later evolved the deciduous habit. We monitored phenological patterns of 20 species of Viburnum spanning tropical, lucidophyllous (subtropical montane and warm temperate), and cool temperate Asian forests. In lucidophyllous forests, all viburnums were evergreen plants that exhibited coordinated leaf flushes with the onset of the rainy season but varied greatly in the timing of leaf senescence. In contrast, deciduous species exhibited tight coordination of both flushing and senescence, and we found a perfect correlation between the deciduous habit and prolonged annual freezing. In contrast to previous stepwise hypotheses, a consilience of independent lines of evidence supports a lockstep model in which deciduousness evolved in situ, in parallel, and concurrent with a gradual cooling climate. A pervasive selective force combined with the elevated evolutionary accessibility of a particular response may explain the massive convergence of adaptive strategies that characterizes the world’s biomes.
Convergence, consilience, and the evolution of temperate deciduous forests