Chironomids as indicators of natural and human impacts in a 700-yr record from the northern Patagonian Andes

Williams, Natalia; Rieradevall, María; Suárez, Diego Añón; Rizzo, Andrea; Daga, Romina; Guevara, Sergio Ribeiro; Arribére, Marı́a

doi:10.1016/j.yqres.2016.07.002

Cited by 16 publications

(28 citation statements)

References 47 publications

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“…This study agrees with previous studies carried out in lakes of northern Patagonia, which evaluated the effect of recent eruption of these events on lake productivity (Modenutti et al 2013;Balseiro et al 2014) and on the mechanical impact of the ash deposition on chironomid communities (Massaferro et al 2005;Araneda et al 2007;Serra et al 2016, Williams et al 2016). However, rising temperatures of the last 50 years, and the increase in human activities also caused environmental changes that enhanced lake productivity.…”

Section: Discussionsupporting

confidence: 92%

“…Tephra layers were not incorporated into the model but were used as additional data to verify the robustness of the age model. Previous tephrocronological studies in the area helped to identify volcanic eruptions responsible for ash deposition in both lakes during the last 200 years (Daga et al 2006Bertrand et al 2008Bertrand et al , 2014Ribeiro Guevara et al 2010;Fontijn et al 2014;Serra et al 2016, Williams et al 2016). …”

Section: Chronologiesmentioning

confidence: 99%

See 1 more Smart Citation

Reconstructing recent environmental changes using non-biting midges (Diptera: Chironomidae) in two high mountain lakes from northern Patagonia, Argentina

Motta

Plastani

et al. 2017

J Paleolimnol

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Section: Discussionsupporting

confidence: 92%

Section: Chronologiesmentioning

confidence: 99%

Reconstructing recent environmental changes using non-biting midges (Diptera: Chironomidae) in two high mountain lakes from northern Patagonia, Argentina

Motta

Plastani

et al. 2017

J Paleolimnol

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“…Such records are particularly important for remote mountain regions where long-term records are otherwise unavailable and provide insights into regional variations of global warming. Sub-fossils of chironomids, which are particularly sensitive to temperature changes, have been used to infer past air temperatures and show that in many mountain regions temperatures have increased rapidly over the last century (Battarbee et al, 2002;Solovieva et al, 2005;Reinemann et al, 2014b;Williams et al, 2016;Porinchu et al, 2017). In the southern mountains of Costa Rica, sub-fossil chironomids quantified late-Holocene thermal variability including evidence for the Little Ice Age as well as changes in lake level caused by drought (Wu et al, 2017).…”

Section: Paleolimnological Records Provide Insight Into Global Climatmentioning

confidence: 99%

Mountain lakes: Eyes on global environmental change

Moser

Baron

Brahney

et al. 2019

Global and Planetary Change

194

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Mountain lakes are often situated in protected natural areas, a feature that leads to their role as sentinels of global environmental change. Despite variations in latitude, mountain lakes share many features, including their location in catchments with steep topographic gradients, cold temperatures, high incident solar and ultraviolet radiation (UVR), and prolonged ice and snow cover. These characteristics, in turn, affect mountain lake ecosystem structure, diversity, and productivity. The lakes themselves are mostly small and shallow, and up until recently, have been characterized as oligotrophic. This paper provides a review and update of the growing body of research that shows that sediments in remote mountain lakes archive regional and global environmental changes, including those linked to climate change, altered biogeochemical cycles, and changes in dust composition and deposition, atmospheric fertilization, and biological manipulations. These archives provide an important record of global environmental change that pre-dates typical monitoring windows. Paleolimnological research at strategically selected lakes has increased our knowledge of interactions among multiple stressors and their synergistic effects on lake systems. Lakes from transects across steep climate (i.e., temperature and effective moisture) gradients in mountain regions show how environmental change alters lakes in close proximity, but at differing climate starting points. Such research in particular highlights the impacts of melting glaciers on mountain lakes. The addition of new proxies, including DNAbased techniques and novel stable isotopic analyses, provides a gateway to addressing novel research questions about global environmental change. Recent advances in remote sensing and continuous, high-frequency, limnological measurements will improve spatial and temporal resolution and help to add records to spatial gaps including tropical and southern latitudes.

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“…Previous research has shown that the main changes in chironomid assemblages in lacustrine environments in Patagonia have been due to changes in the climatic conditions of the region. For example, in Lake Moreno Oeste (northern Patagonia), the main change in the chironomid community in the past 700 years was associated with the end of the cold period (~AD 1500–1700) and the beginning of the dry period (~AD 1740–1900; Williams et al, 2016).…”

Section: Introductionmentioning

confidence: 99%

Response of Chironomidae to environmental disturbances in a high mountain lake in Patagonia during the last millennium

Williams

Suárez²,

Rieradevall

et al. 2019

Quat. res.

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Through the last millennium, Patagonia has been affected by changing climate conditions and successive volcanic eruptions. Lake Tonček is a high-altitude lake in the Southern Volcanic Zone in the northern Patagonian Andes. We documented the responses of the subfossil chironomid community to the effects of successive volcanic and different conditions in a sedimentary sequence from this lake comprising the last 900 years. The community composition and structure (abundance, diversity, and richness) and the development of morphological anomalies in the chironomid mouthparts were evaluated throughout the core. Both climatic conditions and volcanism affected the chironomid community differentially. The chironomid community changed following short-term climate change patterns, being affecting not only by temperature changes but also by variations in the regional precipitation regime. Decreases in abundance and diversity were only observed in coarse volcanic layers. In these samples, we recorded a high percentage of damaged chironomid mouthparts caused by mechanical wear, breakage or abrasion, possibly due to the increase of mineral particles. Our results represent important baseline data about the responses of chironomid communities to environmental disturbances in high-altitude lakes over long time frames.

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Chironomids as indicators of natural and human impacts in a 700-yr record from the northern Patagonian Andes

Cited by 16 publications

References 47 publications

Reconstructing recent environmental changes using non-biting midges (Diptera: Chironomidae) in two high mountain lakes from northern Patagonia, Argentina

Reconstructing recent environmental changes using non-biting midges (Diptera: Chironomidae) in two high mountain lakes from northern Patagonia, Argentina

Mountain lakes: Eyes on global environmental change

Response of Chironomidae to environmental disturbances in a high mountain lake in Patagonia during the last millennium

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