Ecological resilience in tropical Andean lakes: a paleolimnological perspective
Ecological resilience in tropical Andean lakes: a paleolimnological perspective
Little is known about whether changes in lake ecosystem structure over the past 150 years are unprecedented when considering longer timescales. Similarly, research linking environmental stressors to lake ecological resilience has traditionally focused on a few sentinel sites, hindering the study of spatially synchronous changes across large areas. Here, we studied signatures of paleolimnological resilience by tracking change in diatom community composition over the last 2000 years in four Ecuadorian Andean lakes with contrasting ecoregions. We focused on climate and anthropogenic change, and the type of biological responses that these changes induced: gradual, elastic, or threshold. We combined multivariate ordination techniques with nonlinear time-series methods (hierarchical generalized additive models) to characterize trajectories of community responses in each lake, and coherence in such trajectories across lakes. We hypothesized that remote, high-elevation lakes would exhibit synchronous trends due to their shared climatic constraints, whereas lower elevation lakes would show less synchronous trends as a consequence of human density and land-cover alteration. We found that gradual and elastic responses dominated. Threshold-type responses, or regime shifts, were only detected in the less remote lake, after a long period of gradual and elastic changes. Unexpected synchrony was observed in diatom assemblages from geographically distant and human-impacted lakes, whereas lakes under similar broad-scale environmental factors (climate and ecoregion) showed asynchronous community trajectories over time. Our results reveal a complex ecological history and indicate that Andean lakes in Ecuador can gradually adapt and recover from a myriad of disturbances, exhibiting resilience over century to millennial timescales.
S23-S37
Benito, Xavier
e5278d05-c209-4b03-aa83-2eacc3bb6ebf
Luethje, Melina
53112917-eefb-4c22-9322-9df7564fe8dc
Schneider, Tobias
5c213ae9-22f1-4a98-a1d0-7e71336bc258
Fritz, S.C.
d201fcfe-7782-4417-b73a-0a32f7165d32
Baker, Paul A.
618a3b32-63da-41d6-bcb3-28678d70730c
Pedersen, Eric J.
211d2840-ed3c-4bb6-8e18-a73f28edcdbe
Gaüzère, Pierre
3ddca805-1cd1-4c67-955a-533bc05d8cc9
Nascimento, Majoi
40059943-f59a-49b2-8e7e-7b3d3f7f62af
Bush, Mark
993998ed-f863-4b27-8f6b-33f334ed0586
Ruhi, Albert
85b55ff3-1459-42ba-9198-f688c77e8b9d
13 April 2021
Benito, Xavier
e5278d05-c209-4b03-aa83-2eacc3bb6ebf
Luethje, Melina
53112917-eefb-4c22-9322-9df7564fe8dc
Schneider, Tobias
5c213ae9-22f1-4a98-a1d0-7e71336bc258
Fritz, S.C.
d201fcfe-7782-4417-b73a-0a32f7165d32
Baker, Paul A.
618a3b32-63da-41d6-bcb3-28678d70730c
Pedersen, Eric J.
211d2840-ed3c-4bb6-8e18-a73f28edcdbe
Gaüzère, Pierre
3ddca805-1cd1-4c67-955a-533bc05d8cc9
Nascimento, Majoi
40059943-f59a-49b2-8e7e-7b3d3f7f62af
Bush, Mark
993998ed-f863-4b27-8f6b-33f334ed0586
Ruhi, Albert
85b55ff3-1459-42ba-9198-f688c77e8b9d
Benito, Xavier, Luethje, Melina, Schneider, Tobias, Fritz, S.C., Baker, Paul A., Pedersen, Eric J., Gaüzère, Pierre, Nascimento, Majoi, Bush, Mark and Ruhi, Albert
(2021)
Ecological resilience in tropical Andean lakes: a paleolimnological perspective.
Limnology and Oceanography, 67 (S1), .
(doi:10.1002/lno.11747).
Abstract
Little is known about whether changes in lake ecosystem structure over the past 150 years are unprecedented when considering longer timescales. Similarly, research linking environmental stressors to lake ecological resilience has traditionally focused on a few sentinel sites, hindering the study of spatially synchronous changes across large areas. Here, we studied signatures of paleolimnological resilience by tracking change in diatom community composition over the last 2000 years in four Ecuadorian Andean lakes with contrasting ecoregions. We focused on climate and anthropogenic change, and the type of biological responses that these changes induced: gradual, elastic, or threshold. We combined multivariate ordination techniques with nonlinear time-series methods (hierarchical generalized additive models) to characterize trajectories of community responses in each lake, and coherence in such trajectories across lakes. We hypothesized that remote, high-elevation lakes would exhibit synchronous trends due to their shared climatic constraints, whereas lower elevation lakes would show less synchronous trends as a consequence of human density and land-cover alteration. We found that gradual and elastic responses dominated. Threshold-type responses, or regime shifts, were only detected in the less remote lake, after a long period of gradual and elastic changes. Unexpected synchrony was observed in diatom assemblages from geographically distant and human-impacted lakes, whereas lakes under similar broad-scale environmental factors (climate and ecoregion) showed asynchronous community trajectories over time. Our results reveal a complex ecological history and indicate that Andean lakes in Ecuador can gradually adapt and recover from a myriad of disturbances, exhibiting resilience over century to millennial timescales.
This record has no associated files available for download.
More information
Published date: 13 April 2021
Identifiers
Local EPrints ID: 503846
URI: http://eprints.soton.ac.uk/id/eprint/503846
ISSN: 0024-3590
PURE UUID: 27b4e7c7-10e9-482a-83b3-95a10f0698ba
Catalogue record
Date deposited: 14 Aug 2025 16:48
Last modified: 16 Aug 2025 02:16
Export record
Altmetrics
Contributors
Author:
Xavier Benito
Author:
Melina Luethje
Author:
Tobias Schneider
Author:
S.C. Fritz
Author:
Paul A. Baker
Author:
Eric J. Pedersen
Author:
Pierre Gaüzère
Author:
Majoi Nascimento
Author:
Mark Bush
Author:
Albert Ruhi
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics