Environmental DNA metabarcoding facilitates integrative conservation assessments and species rediscoveries in tropical biodiversity hotspots

Amadeus Plewnia; Tobias Hildwein; Amanda B. Quezada Riera; Andrea Terán-Valdez; Andrew J. Crawford; Christopher Heine; Daniela Franco-Mena; Diana Székely; Diego Armijos-Ojeda; Fausto R. Siavichay; Jackeline D. Arpi; Jazmin Salazar; Jesse Erens; Mónica I. Páez-Vacas; Paul Székely; Philipp Böning; Raf Stassen; Sofía Carvajal-Endara; Stefan Lötters; Juan M. Guayasamin

doi:10.1038/s41598-026-41937-x

Environmental DNA metabarcoding facilitates integrative conservation assessments and species rediscoveries in tropical biodiversity hotspots

Amadeus Plewnia^*
, Tobias Hildwein
, Amanda B. Quezada Riera
, Andrea Terán-Valdez
, Andrew J. Crawford
, Christopher Heine
, Daniela Franco-Mena
, Diana Székely
, Diego Armijos-Ojeda
, Fausto R. Siavichay
, Jackeline D. Arpi
, Jazmin Salazar
, Jesse Erens
, Mónica I. Páez-Vacas
, Paul Székely
, Philipp Böning
, Raf Stassen
, Sofía Carvajal-Endara
, Stefan Lötters
, Juan M. Guayasamin

^*Autor correspondiente de este trabajo

Trier University
Fundación Jambatu
Universidad de los Andes Colombia
Universidad Técnica Particular de Loja
Centro de Conservación de Anfibios AMARU
Universidad Católica de Cuenca
Habitats Conservation
Universidad San Francisco de Quito

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2 Citas (Scopus)

Resumen

Environmental DNA (eDNA) metabarcoding is an emerging and versatile tool in biodiversity research. With recent advances in field sampling techniques, this approach becomes increasingly suited for application in tropical ecosystems where biodiversity monitoring gaps remain significant and species detection is particularly challenging. Using amphibians as a model, we harness eDNA metabarcoding in 52 localities in the Tropical Andean biodiversity hotspot to rapidly trace elusive, threatened, or presumed extinct species as a baseline for conservation action. Metabarcoding ‘bycatch’ of non-target species further revealed specific environmental threats through the detection of invasive species and pathogens, thus facilitating integrative conservation assessments despite the incompleteness of reference data and the vast species richness hampering biodiversity assessments in complex tropical communities. Consequently, we call for more intense employment of eDNA metabarcoding in conservation to rapidly bridge critical knowledge gaps on elusive species or declining populations in tropical biodiversity hotspots.

Idioma original	Inglés
Número de artículo	8150
Publicación	Scientific Reports
Volumen	16
N.º	1
DOI	https://doi.org/10.1038/s41598-026-41937-x
Estado	Publicada - dic. 2026

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Plewnia, A., Hildwein, T., Quezada Riera, A. B., Terán-Valdez, A., Crawford, A. J., Heine, C., Franco-Mena, D., Székely, D., Armijos-Ojeda, D., Siavichay, F. R., Arpi, J. D., Salazar, J., Erens, J., Páez-Vacas, M. I., Székely, P., Böning, P., Stassen, R., Carvajal-Endara, S., Lötters, S., & Guayasamin, J. M. (2026). Environmental DNA metabarcoding facilitates integrative conservation assessments and species rediscoveries in tropical biodiversity hotspots. Scientific Reports, 16(1), Artículo 8150. https://doi.org/10.1038/s41598-026-41937-x

@article{763e2d0590dd463f85239b5c32e96163,

title = "Environmental DNA metabarcoding facilitates integrative conservation assessments and species rediscoveries in tropical biodiversity hotspots",

abstract = "Environmental DNA (eDNA) metabarcoding is an emerging and versatile tool in biodiversity research. With recent advances in field sampling techniques, this approach becomes increasingly suited for application in tropical ecosystems where biodiversity monitoring gaps remain significant and species detection is particularly challenging. Using amphibians as a model, we harness eDNA metabarcoding in 52 localities in the Tropical Andean biodiversity hotspot to rapidly trace elusive, threatened, or presumed extinct species as a baseline for conservation action. Metabarcoding {\textquoteleft}bycatch{\textquoteright} of non-target species further revealed specific environmental threats through the detection of invasive species and pathogens, thus facilitating integrative conservation assessments despite the incompleteness of reference data and the vast species richness hampering biodiversity assessments in complex tropical communities. Consequently, we call for more intense employment of eDNA metabarcoding in conservation to rapidly bridge critical knowledge gaps on elusive species or declining populations in tropical biodiversity hotspots.",

keywords = "Amphibian crisis, Extinction, Invasive species, Metagenomics, Monitoring, Pathogens, Tropical Andes, eDNA",

author = "Amadeus Plewnia and Tobias Hildwein and \{Quezada Riera\}, \{Amanda B.\} and Andrea Ter{\'a}n-Valdez and Crawford, \{Andrew J.\} and Christopher Heine and Daniela Franco-Mena and Diana Sz{\'e}kely and Diego Armijos-Ojeda and Siavichay, \{Fausto R.\} and Arpi, \{Jackeline D.\} and Jazmin Salazar and Jesse Erens and P{\'a}ez-Vacas, \{M{\'o}nica I.\} and Paul Sz{\'e}kely and Philipp B{\"o}ning and Raf Stassen and Sof{\'i}a Carvajal-Endara and Stefan L{\"o}tters and Guayasamin, \{Juan M.\}",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2026.",

year = "2026",

month = dec,

doi = "10.1038/s41598-026-41937-x",

language = "Ingl{\'e}s",

volume = "16",

journal = "Scientific Reports",

issn = "2045-2322",

publisher = "Nature Research",

number = "1",

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Plewnia, A, Hildwein, T, Quezada Riera, AB, Terán-Valdez, A, Crawford, AJ, Heine, C, Franco-Mena, D, Székely, D, Armijos-Ojeda, D, Siavichay, FR, Arpi, JD, Salazar, J, Erens, J, Páez-Vacas, MI, Székely, P, Böning, P, Stassen, R, Carvajal-Endara, S, Lötters, S & Guayasamin, JM 2026, 'Environmental DNA metabarcoding facilitates integrative conservation assessments and species rediscoveries in tropical biodiversity hotspots', Scientific Reports, vol. 16, n.º 1, 8150. https://doi.org/10.1038/s41598-026-41937-x

TY - JOUR

T1 - Environmental DNA metabarcoding facilitates integrative conservation assessments and species rediscoveries in tropical biodiversity hotspots

AU - Plewnia, Amadeus

AU - Hildwein, Tobias

AU - Quezada Riera, Amanda B.

AU - Terán-Valdez, Andrea

AU - Crawford, Andrew J.

AU - Heine, Christopher

AU - Franco-Mena, Daniela

AU - Székely, Diana

AU - Armijos-Ojeda, Diego

AU - Siavichay, Fausto R.

AU - Arpi, Jackeline D.

AU - Salazar, Jazmin

AU - Erens, Jesse

AU - Páez-Vacas, Mónica I.

AU - Székely, Paul

AU - Böning, Philipp

AU - Stassen, Raf

AU - Carvajal-Endara, Sofía

AU - Lötters, Stefan

AU - Guayasamin, Juan M.

PY - 2026/12

Y1 - 2026/12

N2 - Environmental DNA (eDNA) metabarcoding is an emerging and versatile tool in biodiversity research. With recent advances in field sampling techniques, this approach becomes increasingly suited for application in tropical ecosystems where biodiversity monitoring gaps remain significant and species detection is particularly challenging. Using amphibians as a model, we harness eDNA metabarcoding in 52 localities in the Tropical Andean biodiversity hotspot to rapidly trace elusive, threatened, or presumed extinct species as a baseline for conservation action. Metabarcoding ‘bycatch’ of non-target species further revealed specific environmental threats through the detection of invasive species and pathogens, thus facilitating integrative conservation assessments despite the incompleteness of reference data and the vast species richness hampering biodiversity assessments in complex tropical communities. Consequently, we call for more intense employment of eDNA metabarcoding in conservation to rapidly bridge critical knowledge gaps on elusive species or declining populations in tropical biodiversity hotspots.

AB - Environmental DNA (eDNA) metabarcoding is an emerging and versatile tool in biodiversity research. With recent advances in field sampling techniques, this approach becomes increasingly suited for application in tropical ecosystems where biodiversity monitoring gaps remain significant and species detection is particularly challenging. Using amphibians as a model, we harness eDNA metabarcoding in 52 localities in the Tropical Andean biodiversity hotspot to rapidly trace elusive, threatened, or presumed extinct species as a baseline for conservation action. Metabarcoding ‘bycatch’ of non-target species further revealed specific environmental threats through the detection of invasive species and pathogens, thus facilitating integrative conservation assessments despite the incompleteness of reference data and the vast species richness hampering biodiversity assessments in complex tropical communities. Consequently, we call for more intense employment of eDNA metabarcoding in conservation to rapidly bridge critical knowledge gaps on elusive species or declining populations in tropical biodiversity hotspots.

KW - Amphibian crisis

KW - Extinction

KW - Invasive species

KW - Metagenomics

KW - Monitoring

KW - Pathogens

KW - Tropical Andes

KW - eDNA

UR - https://www.scopus.com/pages/publications/105031854042

U2 - 10.1038/s41598-026-41937-x

DO - 10.1038/s41598-026-41937-x

M3 - Artículo

C2 - 41775849

AN - SCOPUS:105031854042

SN - 2045-2322

VL - 16

JO - Scientific Reports

JF - Scientific Reports

IS - 1

M1 - 8150

ER -

Environmental DNA metabarcoding facilitates integrative conservation assessments and species rediscoveries in tropical biodiversity hotspots

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