Refuting the hypothesis of Centinelan extinction at its place of origin

Dawson M. White; Nigel C.A. Pitman; Kenneth J. Feeley; Gonzalo Rivas-Torres; Santiago Bravo-Sánchez; Francisco Sánchez-Parrales; John L. Clark; Carmen Ulloa Ulloa; Xavier Cornejo; Thomas L.P. Couvreur; Marcia Peñafiel; Gladys Benavides; Carmita Bonifaz; Juan Carlos Cerón; Andrea Fernández; Riley P. Fortier; Daniel Navas-Muñoz; Verónica Rojas M; J. Nicolás Zapata; Justin Williams; Juan Ernesto Guevara-Andino

doi:10.1038/s41477-024-01832-7

Refuting the hypothesis of Centinelan extinction at its place of origin

Dawson M. White^*
, Nigel C.A. Pitman
, Kenneth J. Feeley
, Gonzalo Rivas-Torres
, Santiago Bravo-Sánchez
, Francisco Sánchez-Parrales
, John L. Clark
, Carmen Ulloa Ulloa
, Xavier Cornejo
, Thomas L.P. Couvreur
, Marcia Peñafiel
, Gladys Benavides
, Carmita Bonifaz
, Juan Carlos Cerón
, Andrea Fernández
, Riley P. Fortier
, Daniel Navas-Muñoz
, Verónica Rojas M
, J. Nicolás Zapata
, Justin Williams

Juan Ernesto Guevara-Andino

^*Corresponding author for this work

Harvard University
Field Museum of Natural History
University of Miami
Pontificia Universidad Católica del Ecuador
Marie Selby Botanical Gardens
Missouri Botanical Garden
Universidad de Guayaquil
University of Montpellier
Instituto Nacional de Biodiversidad
Gobierno Autónomo Descentralizado Provincial de Santo Domingo de los Tsáchilas
Universidad San Francisco de Quito
Universidad de las Americas - Ecuador

Research output: Contribution to journal › Letter › peer-review

5 Scopus citations

Abstract

Scientists’ limited understanding of tropical plant communities obscures the true extent of species loss caused by habitat destruction¹. The Centinelan extinction hypothesis^2,3 posits an extreme but widely referenced scenario wherein forest clearing causes the immediate extinction of species known only from a single geographic location. It remains unclear, however, whether the disappearance of such microendemics reflects their global extinction or insufficient collection effort at larger scales. Here we test these hypotheses by synthesizing decades of floristic data from the heavily deforested tropical cloud forest (TCF) at Centinela, Ecuador. We find that 99% of its putative microendemics have been collected elsewhere and are not extinct. Our field work also revealed new species, highlighting the enduring conservation value of TCFs and the intense efforts required to illuminate such plant diversity ‘darkspots’⁴. Field and herbarium research remain essential to the conservation action needed to forestall large-scale plant extinctions in Earth’s beleaguered cloud forests.

Original language	English
Pages (from-to)	1627-1634
Number of pages	8
Journal	Nature Plants
Volume	10
Issue number	11
DOIs	https://doi.org/10.1038/s41477-024-01832-7
State	Published - Nov 2024

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White, D. M., Pitman, N. C. A., Feeley, K. J., Rivas-Torres, G., Bravo-Sánchez, S., Sánchez-Parrales, F., Clark, J. L., Ulloa Ulloa, C., Cornejo, X., Couvreur, T. L. P., Peñafiel, M., Benavides, G., Bonifaz, C., Cerón, J. C., Fernández, A., Fortier, R. P., Navas-Muñoz, D., Rojas M, V., Zapata, J. N., ... Guevara-Andino, J. E. (2024). Refuting the hypothesis of Centinelan extinction at its place of origin. Nature Plants, 10(11), 1627-1634. https://doi.org/10.1038/s41477-024-01832-7

@article{de9aef2538e7406e928bdf116eca180a,

title = "Refuting the hypothesis of Centinelan extinction at its place of origin",

abstract = "Scientists{\textquoteright} limited understanding of tropical plant communities obscures the true extent of species loss caused by habitat destruction1. The Centinelan extinction hypothesis2,3 posits an extreme but widely referenced scenario wherein forest clearing causes the immediate extinction of species known only from a single geographic location. It remains unclear, however, whether the disappearance of such microendemics reflects their global extinction or insufficient collection effort at larger scales. Here we test these hypotheses by synthesizing decades of floristic data from the heavily deforested tropical cloud forest (TCF) at Centinela, Ecuador. We find that 99\% of its putative microendemics have been collected elsewhere and are not extinct. Our field work also revealed new species, highlighting the enduring conservation value of TCFs and the intense efforts required to illuminate such plant diversity {\textquoteleft}darkspots{\textquoteright}4. Field and herbarium research remain essential to the conservation action needed to forestall large-scale plant extinctions in Earth{\textquoteright}s beleaguered cloud forests.",

author = "White, \{Dawson M.\} and Pitman, \{Nigel C.A.\} and Feeley, \{Kenneth J.\} and Gonzalo Rivas-Torres and Santiago Bravo-S{\'a}nchez and Francisco S{\'a}nchez-Parrales and Clark, \{John L.\} and \{Ulloa Ulloa\}, Carmen and Xavier Cornejo and Couvreur, \{Thomas L.P.\} and Marcia Pe{\~n}afiel and Gladys Benavides and Carmita Bonifaz and Cer{\'o}n, \{Juan Carlos\} and Andrea Fern{\'a}ndez and Fortier, \{Riley P.\} and Daniel Navas-Mu{\~n}oz and \{Rojas M\}, Ver{\'o}nica and Zapata, \{J. Nicol{\'a}s\} and Justin Williams and Guevara-Andino, \{Juan Ernesto\}",

note = "Publisher Copyright: {\textcopyright} The Author(s), under exclusive licence to Springer Nature Limited 2024.",

year = "2024",

month = nov,

doi = "10.1038/s41477-024-01832-7",

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White, DM, Pitman, NCA, Feeley, KJ, Rivas-Torres, G, Bravo-Sánchez, S, Sánchez-Parrales, F, Clark, JL, Ulloa Ulloa, C, Cornejo, X, Couvreur, TLP, Peñafiel, M, Benavides, G, Bonifaz, C, Cerón, JC, Fernández, A, Fortier, RP, Navas-Muñoz, D, Rojas M, V, Zapata, JN, Williams, J & Guevara-Andino, JE 2024, 'Refuting the hypothesis of Centinelan extinction at its place of origin', Nature Plants, vol. 10, no. 11, pp. 1627-1634. https://doi.org/10.1038/s41477-024-01832-7

TY - JOUR

T1 - Refuting the hypothesis of Centinelan extinction at its place of origin

AU - White, Dawson M.

AU - Pitman, Nigel C.A.

AU - Feeley, Kenneth J.

AU - Rivas-Torres, Gonzalo

AU - Bravo-Sánchez, Santiago

AU - Sánchez-Parrales, Francisco

AU - Clark, John L.

AU - Ulloa Ulloa, Carmen

AU - Cornejo, Xavier

AU - Couvreur, Thomas L.P.

AU - Peñafiel, Marcia

AU - Benavides, Gladys

AU - Bonifaz, Carmita

AU - Cerón, Juan Carlos

AU - Fernández, Andrea

AU - Fortier, Riley P.

AU - Navas-Muñoz, Daniel

AU - Rojas M, Verónica

AU - Zapata, J. Nicolás

AU - Williams, Justin

AU - Guevara-Andino, Juan Ernesto

PY - 2024/11

Y1 - 2024/11

N2 - Scientists’ limited understanding of tropical plant communities obscures the true extent of species loss caused by habitat destruction1. The Centinelan extinction hypothesis2,3 posits an extreme but widely referenced scenario wherein forest clearing causes the immediate extinction of species known only from a single geographic location. It remains unclear, however, whether the disappearance of such microendemics reflects their global extinction or insufficient collection effort at larger scales. Here we test these hypotheses by synthesizing decades of floristic data from the heavily deforested tropical cloud forest (TCF) at Centinela, Ecuador. We find that 99% of its putative microendemics have been collected elsewhere and are not extinct. Our field work also revealed new species, highlighting the enduring conservation value of TCFs and the intense efforts required to illuminate such plant diversity ‘darkspots’4. Field and herbarium research remain essential to the conservation action needed to forestall large-scale plant extinctions in Earth’s beleaguered cloud forests.

AB - Scientists’ limited understanding of tropical plant communities obscures the true extent of species loss caused by habitat destruction1. The Centinelan extinction hypothesis2,3 posits an extreme but widely referenced scenario wherein forest clearing causes the immediate extinction of species known only from a single geographic location. It remains unclear, however, whether the disappearance of such microendemics reflects their global extinction or insufficient collection effort at larger scales. Here we test these hypotheses by synthesizing decades of floristic data from the heavily deforested tropical cloud forest (TCF) at Centinela, Ecuador. We find that 99% of its putative microendemics have been collected elsewhere and are not extinct. Our field work also revealed new species, highlighting the enduring conservation value of TCFs and the intense efforts required to illuminate such plant diversity ‘darkspots’4. Field and herbarium research remain essential to the conservation action needed to forestall large-scale plant extinctions in Earth’s beleaguered cloud forests.

UR - https://www.scopus.com/pages/publications/85207296439

U2 - 10.1038/s41477-024-01832-7

DO - 10.1038/s41477-024-01832-7

M3 - Carta

AN - SCOPUS:85207296439

SN - 2055-0278

VL - 10

SP - 1627

EP - 1634

JO - Nature Plants

JF - Nature Plants

IS - 11

ER -

Refuting the hypothesis of Centinelan extinction at its place of origin

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