Diez años de monitoreo limnológico de un lago natural modificado en los trópicos: el lago Cote, Costa Rica.

Umaña, Gerardo

doi:10.15517/rbt.v62i2.8446

Cited by 6 publications

(2 citation statements)

References 29 publications

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“…Warmer water temperature is also likely to increase algae and phytoplankton blooms, thus increasing seafood contamination and reducing the usability of water for essential health and food production purposes (Moreno, 2006;Umaña, 2014). Already highly exploited coastal aquifers will be additionally subjected to saltwater intrusion associated with sea-level rise; this will also compromise the already limited access to potable water, with further impacts on emerging economic sectors such as tourism (Moreno, 2006).…”

Section: E Ects On Health Sanitation and Hygiene (Wash)mentioning

confidence: 99%

Central America urgently needs to reduce the growing adaptation gap to climate change

Ley,

Guillén Bolaños,

Castaneda

et al. 2023

Front. Clim.

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Central America is highly impacted by current extreme events associated with climate variability and the adverse effects of climate change, showing high vulnerability compounded by its historical context and socioeconomic structure. In light of the important findings published by the WGII of the IPCC AR6 in 2022 on the adverse effects of climate change on the Central American region, there is still a clear need to improve data availability and to increase the number of studies on projections of changes in the climate, risks, impacts, vulnerability, and adaptation from the region to inform decision-makers and practitioners. The region has seen an increase in the number of adaptation projects implemented; however, there is limited information about their success or failure, and there are few case studies and reviews of lessons learned, highlighting an important gap in the implementation of effective adaptation measures. This article presents a current review of the literature on climatology, hydrology, impacts and vulnerability, mitigation and adaptation responses, action plans, and potential losses and damages in the region. It also proposes actionable recommendations based on the main gaps found and presents a case study of the Central American Dry Corridor, one of the climate change and underdevelopment hotspots of the region. We finish with a discussion highlighting the importance of considering system transitions perspectives and the need to plan and implement more transformational adaptation approaches to reduce further losses and damages and to further address adaptation gaps in Central America.

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Section: E Ects On Health Sanitation and Hygiene (Wash)mentioning

confidence: 99%

Central America urgently needs to reduce the growing adaptation gap to climate change

Ley,

Guillén Bolaños,

Castaneda

et al. 2023

Front. Clim.

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“…increased risk of algal blooms, including toxic cyanobacteria, and eutrophication (Zhang et al, 2015), which can lead to oxygen depletion, more frequent periods of hypolimnetic hypoxia to anoxia that can amplify algal blooms further (Goto et al, 2012;Umaña, 2014;Zhang et al, 2016). However, lake responses to rising temperatures depend on geographic location, morphometry, mixing regime, and trophic state (Kraemer et al, 2017;O'Reilly et al, 2015;.…”

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confidence: 99%

Decreasing Groundwater Supply Can Exacerbate Lake Warming and Trigger Algal Blooms

2021

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The physical consequences of increasing lake surface temperatures and decreasing ice cover duration include changes in evaporation rates, mixing-regime, and increasing duration or intensity of thermal stratification (Sharma et al., 2019;Wang, 2018;. Moreover, seasonal changes in the timing and duration of overturn and stratification in response to climate change, link trends of surface warming to deep water temperatures of lakes (Anderson et al., 2021). These physical changes, in turn, alter the ecological functioning of lakes, nutrient cycling (Tong et al., 2021), oxygen availability (Zhang et al., 2015), primary production (O'Reilly et al., 2003;Verburg, 2003), and aquatic food web structure (Tanentzap et al., 2020). Temperature changes can alter the rates of chemical reactions, aquatic ecosystem metabolism, biological growth rates, photosynthesis and respiration rates and can disturb ecosystem equilibrium (Carpenter et al., 2011;Woolway et al., 2016). Moreover, increased water temperature and the subsequent changes in stratification often negatively affect water quality of inland water bodies (Chang et al., 2015). In addition, lake warming is associated with an

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Lakes in Costa Rica

Horn,

Umaña-Villalobos,

Haberyan

2024

World Geomorphological Landscapes

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Diez años de monitoreo limnológico de un lago natural modificado en los trópicos: el lago Cote, Costa Rica.

Cited by 6 publications

References 29 publications

Central America urgently needs to reduce the growing adaptation gap to climate change

Central America urgently needs to reduce the growing adaptation gap to climate change

Decreasing Groundwater Supply Can Exacerbate Lake Warming and Trigger Algal Blooms

Lakes in Costa Rica

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