TY - JOUR
T1 - Functional biogeography of Neotropical moist forests: Trait–climate relationships and assembly patterns of tree communities
AU - Pinho, Bruno X.
AU - Tabarelli, Marcelo
AU - Braak, Cajo J. F.
AU - Wright, S. Joseph
AU - Arroyo-Rodríguez, Víctor
AU - Benchimol, Maíra
AU - Engelbrecht, Bettina M. J.
AU - Pierce, Simon
AU - Hietz, Peter
AU - Santos, Bráulio A.
AU - Peres, Carlos A.
AU - Müller, Sandra C.
AU - Wright, Ian J.
AU - Bongers, Frans
AU - Lohbeck, Madelon
AU - Niinemets, Ülo
AU - Slot, Martijn
AU - Jansen, Steven
AU - Jamelli, Davi
AU - Lima, Renato A. F.
AU - Swenson, Nathan
AU - Condit, Richard
AU - Barlow, Jos
AU - Slik, Ferry
AU - Hernández-Ruedas, Manuel A.
AU - Mendes, Gabriel
AU - Martínez-Ramos, Miguel
AU - Pitman, Nigel
AU - Kraft, Nathan
AU - Garwood, Nancy
AU - Guevara Andino, Juan Ernesto
AU - Faria, Deborah
AU - Chacón-Madrigal, Eduardo
AU - Mariano-Neto, Eduardo
AU - Júnior, Valdecir
AU - Kattge, Jens
AU - Melo, Felipe P. L.
PY - 2021/7/1
Y1 - 2021/7/1
N2 - Aim: Here we examine the functional profile of regional tree species pools across the latitudinal distribution of Neotropical moist forests, and test trait–climate relationships among local communities. We expected opportunistic strategies (acquisitive traits, small seeds) to be overrepresented in species pools further from the equator, but also in terms of abundance in local communities in currently wetter, warmer and more seasonal climates. Location: Neotropics. Time period: Recent. Major taxa studied: Trees. Methods: We obtained abundance data from 471 plots across nine Neotropical regions, including c. 100,000 trees of 3,417 species, in addition to six functional traits. We compared occurrence-based trait distributions among regional species pools, and evaluated single trait–climate relationships across local communities using community abundance-weighted means (CWMs). Multivariate trait–climate relationships were assessed by a double-constrained correspondence analysis that tests both how CWMs relate to climate and how species distributions, parameterized by niche centroids in climate space, relate to their traits. Results: Regional species pools were undistinguished in functional terms, but opportunistic strategies dominated local communities further from the equator, particularly in the Northern Hemisphere. Climate explained up to 57% of the variation in CWM traits, with increasing prevalence of lower-statured, light-wooded and softer-leaved species bearing smaller seeds in more seasonal, wetter and warmer climates. Species distributions were significantly but weakly related to functional traits. Main conclusions: Neotropical moist forest regions share similar sets of functional strategies, from which local assembly processes, driven by current climatic conditions, select for species with different functional strategies. We can thus expect functional responses to climate change driven by changes in relative abundances of species already present regionally. Particularly, equatorial forests holding the most conservative traits and large seeds are likely to experience the most severe changes if climate change triggers the proliferation of opportunistic tree species.
AB - Aim: Here we examine the functional profile of regional tree species pools across the latitudinal distribution of Neotropical moist forests, and test trait–climate relationships among local communities. We expected opportunistic strategies (acquisitive traits, small seeds) to be overrepresented in species pools further from the equator, but also in terms of abundance in local communities in currently wetter, warmer and more seasonal climates. Location: Neotropics. Time period: Recent. Major taxa studied: Trees. Methods: We obtained abundance data from 471 plots across nine Neotropical regions, including c. 100,000 trees of 3,417 species, in addition to six functional traits. We compared occurrence-based trait distributions among regional species pools, and evaluated single trait–climate relationships across local communities using community abundance-weighted means (CWMs). Multivariate trait–climate relationships were assessed by a double-constrained correspondence analysis that tests both how CWMs relate to climate and how species distributions, parameterized by niche centroids in climate space, relate to their traits. Results: Regional species pools were undistinguished in functional terms, but opportunistic strategies dominated local communities further from the equator, particularly in the Northern Hemisphere. Climate explained up to 57% of the variation in CWM traits, with increasing prevalence of lower-statured, light-wooded and softer-leaved species bearing smaller seeds in more seasonal, wetter and warmer climates. Species distributions were significantly but weakly related to functional traits. Main conclusions: Neotropical moist forest regions share similar sets of functional strategies, from which local assembly processes, driven by current climatic conditions, select for species with different functional strategies. We can thus expect functional responses to climate change driven by changes in relative abundances of species already present regionally. Particularly, equatorial forests holding the most conservative traits and large seeds are likely to experience the most severe changes if climate change triggers the proliferation of opportunistic tree species.
KW - climate change
KW - climate seasonality
KW - community assembly
KW - functional composition
KW - functional traits
KW - latitude
KW - precipitation
KW - species pool
KW - temperature
UR - http://www.scopus.com/inward/record.url?scp=85106336744&partnerID=8YFLogxK
U2 - 10.1111/geb.13309
DO - 10.1111/geb.13309
M3 - Article
VL - 30
SP - 1430
EP - 1446
JO - Global Ecology and Biogeography
JF - Global Ecology and Biogeography
SN - 1466-822X
IS - 7
ER -