Engineering a future for amphibians under climate change

1. Altered global climates in the 21st century pose serious threats for biological systems and practical actions are needed to mount a response for species at risk. 2. We identify management actions from across the world and from diverse disciplines that are applicable to minimizing loss of amphibian biodiversity under climate change. Actions were grouped under three thematic areas of intervention: (i) installation of microclimate and microhabitat refuges; (ii) enhancement and restoration of breeding sites; and (iii) manipulation of hydroperiod or water levels at breeding sites. 3. There are currently few meaningful management actions that will tangibly impact the pervasive threat of climate change on amphibians. A host of potentially useful but poorly tested actions could be incorporated into local or regional management plans, programmes and activities for amphibians. Examples include: installation of irrigation sprayers to manipulate water potentials at breeding sites; retention or supplementation of natural and artificial shelters (e.g. logs, cover boards) to reduce desiccation and thermal stress; manipulation of canopy cover over ponds to reduce water temperature; and, creation of hydrologoically diverse wetland habitats capable of supporting larval develpment under variable rainfall regimes. We encourage researchers and managers to design, test and scale up new initiatives to respond to this emerging crisis

Data from: Stepping inside the niche: microclimate data are critical for accurate assessment of species’ vulnerability to climate change

To assess a species' vulnerability to climate change, we commonly use mapped environmental data that are coarsely resolved in time and space. Coarsely resolved temperature data are typically inaccurate at predicting temperatures in microhabitats used by an organism and may also exhibit spatial bias in topographically complex areas. One consequence of these inaccuracies is that coarsely resolved layers may predict thermal regimes at a site that exceed species' known thermal limits. In this study, we use statistical downscaling to account for environmental factors and develop high-resolution estimates of daily maximum temperatures for a 36 000 km2 study area over a 38-year period. We then demonstrate that this statistical downscaling provides temperature estimates that consistently place focal species within their fundamental thermal niche, whereas coarsely resolved layers do not. Our results highlight the need for incorporation of fine-scale weather data into species' vulnerability analyses and demonstrate that a statistical downscaling approach can yield biologically relevant estimates of thermal regimes

Empirical_Microclimate_Data

Paired empirical measurements of open-air and under-log temperature daily maxima and minima. These data were used to create the linear microclimate model

Stepping inside the niche: microclimate data are critical for accurate assessment of species' vulnerability to climate change

To assess a species' vulnerability to climate change, we commonly use mapped environmental data that are coarsely resolved in time and space. Coarsely resolved temperature data are typically inaccurate at predicting temperatures in microhabitats used by an organism and may also exhibit spatial bias in topographically complex areas. One consequence of these inaccuracies is that coarsely resolved layers may predict thermal regimes at a site that exceed species' known thermal limits. In this study, we use statistical downscaling to account for environmental factors and develop high-resolution estimates of daily maximum temperatures for a 36 000 km2 study area over a 38-year period. We then demonstrate that this statistical downscaling provides temperature estimates that consistently place focal species within their fundamental thermal niche, whereas coarsely resolved layers do not. Our results highlight the need for incorporation of fine-scale weather data into species' vulnerability analyses and demonstrate that a statistical downscaling approach can yield biologically relevant estimates of thermal regimes

Daily max temperature data for all known occurrence locations for seven species of microhylid frog.

Daily max temperature data for all known occurrence locations of seven species of microhylid frog. Max temperatures only are given for AWAP. Max and min temperatures are provided for downscaled air temperatures (DS1), both of which are necessary to calculate under-log daily max temperature (DS2). Each point of occurrence has 4 temperature records (AWAP, DS1 Tmax, DS1 Tmin, and DS2) for every day of the year between 1st January 1971 and 31st December 2008

CTMax Data

Estimates of Critical Thermal Maxima for seven species of Microhylid frogs. Includes number of animals measured, mean CTmax, and SD of CTma

Engineering a future for amphibians under climate change

1.?Altered global climates in the 21st century pose serious threats for biological systems and practical actions are needed to mount a response for species at risk. 2.?We identify management actions from across the world and from diverse disciplines that are applicable to minimizing loss of amphibian biodiversity under climate change. Actions were grouped under three thematic areas of intervention: (i) installation of microclimate and microhabitat refuges; (ii) enhancement and restoration of breeding sites; and (iii) manipulation of hydroperiod or water levels at breeding sites. 3.?Synthesis and applications. There are currently few meaningful management actions that will tangibly impact the pervasive threat of climate change on amphibians. A host of potentially useful but poorly tested actions could be incorporated into local or regional management plans, programmes and activities for amphibians. Examples include: installation of irrigation sprayers to manipulate water potentials at breeding sites; retention or supplementation of natural and artificial shelters (e.g. logs, cover boards) to reduce desiccation and thermal stress; manipulation of canopy cover over ponds to reduce water temperature; and, creation of hydrologoically diverse wetland habitats capable of supporting larval development under variable rainfall regimes. We encourage researchers and managers to design, test and scale up new initiatives to respond to this emerging crisis

Prácticas educativas, pedagogía e interculturalidad

Estas páginas constituyen las Memorias del V Congreso Internacional de Etnografía y Educación. Prácticas educativas, pedagogía e interculturalidad (2020) convocado por la Universidad Politécnica Salesiana del Ecuador. En el Congreso participaron investigadores, docentes y estudiantes de México, Argentina, Brasil, Colombia, Chile, Ecuador, Antillas, Estados Unidos, Canadá, Italia, Francia y España con ponencias sobre tres ejes temáticos: Educación, sociedad y política; Escuela, diversidades y exclusiones; y Avances teóricos y metodológicos de la investigación etnográfica en educación. Más de 60 trabajos que amplían las reflexiones y que abren la discusión, desde la antropología y la pedagogía, hacia la construcción de una educación intercultural