TY  - INPR
A1  - Escobar, Sebastián
A1  - Newell, Felicity L.
A1  - Endara, Marı́a-José
A1  - Guevara-Andino, Juan Ernesto
A1  - Landim, Anna Rebello
A1  - Neuschulz, Eike Lena
A1  - Nußer, Ronja
A1  - Müller, Jörg
A1  - Pedersen, Karen M.
A1  - Schleuning, Matthias
A1  - Tremlett, Constance J.
A1  - Villa-Galaviz, Edith
A1  - Martin Schaefer, H.
A1  - Donoso, David A.
A1  - Blüthgen, Nico
T1  - Reassembly of a tropical rainforest ecosystem: a new chronosequence in the Ecuadorian Chocó tested with the recovery of tree attributes
T2  - bioRxiv
N2  - From hunting and foraging to clearing land for agriculture, humans modify forest biodiversity, landscapes, and climate. Forests constantly undergo disturbance–recovery dynamics and understanding them is a major objective of ecologists and conservationists. Chronosequences are a useful tool for understanding global restoration efforts. They represent a space-for-time substitution approach suited for the quantification of the resistance of ecosystem properties to withstand disturbance and the resilience of these properties until reaching pre-disturbance levels. Here we introduce a newly established chronosequence with 62 plots (50 ⍰ 50 m) in active cacao plantations and pastures, early and late regeneration, and mature old-growth forests, across a 200 km2 area in the extremely wet Chocó rainforest. Our chronosequence covers by far the largest total area of plots compared to others in the Neotropics. Plots ranged from 159–615 masl in a forested landscape with 74 ± 2.8 % forest cover within a 1-km radius including substantial old-growth forest cover. Land-use legacy and regeneration time were not confounded by elevation. We tested how six forest structure variables (maximum tree height and DBH, basal area, number of stems, vertical vegetation heterogeneity, and light availability), aboveground biomass (AGB), and rarefied tree species richness change along our chronosequence. Forest structure variables, AGB, and tree species richness increased with regeneration time and are predicted to reach similar levels to those in old-growth forests after ca. 30–116, 202, and 108 yrs, respectively. Compared to previous work in the Neotropics, old-growth forests in Canandé accumulate high AGB that takes one of the largest time spans reported until total recovery. Our chronosequence comprises one of the largest tree species pools, covers the largest total area of regenerating and old-growth forests, and has higher forest cover than other Neotropical chronosequences. Hence, our chronosequence can be used to determine the time for recovery and stability (resistance and resilience) of different taxa and ecosystem functions, including species interaction networks. This integrative effort will ultimately help to understand how one of the most diverse forests on the planet recovers from large-scale disturbances.
KW  - aboveground biomass
KW  - biodiversity
KW  - Chocó rainforest
KW  - chronosequence
KW  - Ecuador
KW  - reassembly
KW  - resilience
KW  - resistance
KW  - trees
Y1  - 2024
UR  - http://publikationen.ub.uni-frankfurt.de/frontdoor/index/index/docId/83584
UR  - https://nbn-resolving.org/urn:nbn:de:hebis:30:3-835843
UR  - https://www.biorxiv.org/content/10.1101/2024.03.21.586145v1
IS  - 2024.03.21.586145 Version 1
PB  - bioRxiv
ER  -