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Mature Andean forests as globally important carbon sinks and future carbon refuges

https://doi.org/10.1038/s41467-021-22459-8

Duque, Alvaro ; Peña, Miguel A. ; Cuesta, Francisco ; González-Caro, Sebastián ; Kennedy, Peter ; Phillips, Oliver L. ; Calderón-Loor, Marco ; Blundo, Cecilia ; Carilla, Julieta ; Cayola, Leslie ; et al ( December 2021 , Nature Communications)
null (Ed.)
Abstract It is largely unknown how South America’s Andean forests affect the global carbon cycle, and thus regulate climate change. Here, we measure aboveground carbon dynamics over the past two decades in 119 monitoring plots spanning a range of >3000 m elevation across the subtropical and tropical Andes. Our results show that Andean forests act as strong sinks for aboveground carbon (0.67 ± 0.08 Mg C ha −1 y −1 ) and have a high potential to serve as future carbon refuges. Aboveground carbon dynamics of Andean forests are driven by abiotic and biotic factors, such as climate and size-dependent mortality of trees. The increasing aboveground carbon stocks offset the estimated C emissions due to deforestation between 2003 and 2014, resulting in a net total uptake of 0.027 Pg C y −1 . Reducing deforestation will increase Andean aboveground carbon stocks, facilitate upward species migrations, and allow for recovery of biomass losses due to climate change.
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The evolutionary assembly of forest communities along environmental gradients: recent diversification or sorting of pre‐adapted clades?

https://doi.org/10.1111/nph.17674

Linan, Alexander G. ; Myers, Jonathan A. ; Edwards, Christine E. ; Zanne, Amy E. ; Smith, Stephen A. ; Arellano, Gabriel ; Cayola, Leslie ; Farfan‐Ríos, William ; Fuentes, Alfredo F. ; García‐Cabrera, Karina ; et al ( September 2021 , New Phytologist)

Summary
Recent studies have demonstrated that ecological processes that shape community structure and dynamics change along environmental gradients. However, much less is known about how the emergence of the gradients themselves shape the evolution of species that underlie community assembly. In this study, we address how the creation of novel environments leads to community assembly via two nonmutually exclusive processes: immigration and ecological sorting of pre‐adapted clades (ISPC), and recent adaptive diversification (RAD). We study these processes in the context of the elevational gradient created by the uplift of the Central Andes.
We develop a novel approach and method based on the decomposition of species turnover into within‐ and among‐clade components, where clades correspond to lineages that originated before mountain uplift. Effects of ISPC and RAD can be inferred from how components of turnover change with elevation. We test our approach using data from over 500 Andean forest plots.
We found that species turnover between communities at different elevations is dominated by the replacement of clades that originated before the uplift of the Central Andes.
Our results suggest that immigration and sorting of clades pre‐adapted to montane habitats is the primary mechanism shaping tree communities across elevations.

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