de Miranda scite author profile

de Miranda

2Publications

45Citation Statements Received

245Citation Statements Given

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Swedish University of Agricultural Sciences, Universidade Federal de Mato Grosso

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The Plight of Reptiles as Ecological Actors in the Tropics

Miranda

Everton²

2017

Front. Ecol. Evol.

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Earth's tropical ecosystems have witnessed several extinctions and a dramatic reduction of the range and abundance of large reptile species, which is directly related to the rise of early and modern humans. The occurrence of such extinctions, range reduction, species loss, and the consequences for several paramount ecosystem processes are poorly documented compared to other large vertebrate species. Here, I reviewed the literature on the ecological processes performed by large tropical reptile species and their human-induced widespread demise in order to determine knowledge gaps and encourage a paradigm shift in understanding on the interactiveness of such species. The interactions and species involved indicate that large abundant reptiles in the tropics are important in ecological processes, and can consequently have an important role in ecosystem function through gene dispersal, nutrient cycling, trophic action, and ecosystem engineering. These important interactions performed by reptiles are not solely performed by few species, or geographically restricted to islands, but instead present a pattern that repeatedly occurs in large reptiles distributed over tropical ecosystems. The observed tendency of reptiles to be tightly involved in these ecological interactions has important implications for the ecology of tropical ecosystems. Lost and current ecological processes performed by large reptiles may be orders of magnitude higher than what is currently perceived, and the misleading baseline of those processes must be addressed otherwise we risk losing species and services that are dependent of such interactions. To fix this bias I suggest: (a) Increase information spreading about Pleistocene-Holocene reptile extinctions using popular media; (b) Improved exchange between the research field of megafauna effects in ecosystems and herpetologists working with large reptiles; (c) Increase research effort on anthropogenic reptile extinctions and their potential to predict future losses; (d) Address the knowledge gaps, as human-reptile conflict, chelonian seed dispersal and nutrient movement; (e) Increase quantitative research on large reptile population ecology, density, and abundance. (f) address the potentially present or lost ecosystem effects of extant and extinct reptile species. Although the importance of reptiles in most tropical ecosystems has been perceived as negligible, this study shows that this may be a misleading paradigm.

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Protocols for assessing the distribution of pathogens in individual Hymenopteran pollinators

Miranda

Meeus²,

Yañez

et al. 2021

Preprint

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This protocol was developed for the COST-Action “Super-B”, whose purpose was to coordinate research, outreach and policy towards sustainable pollination1-3. The protocol addresses the detection of parasites and pathogens across bee species, as one of several possible drivers of bee decline4,5. It consists of four major components:1. A sample collecting protocol, based around a dominant bee species driving pathogen distribution among other bee species2. A sample processing protocol, based on analyzing nucleic acids from individual bees3. A pathogen detection protocol, based on RT-qPCR with broad-range primers for several common pathogens4. A barcoding protocol, for accurate bee species identification The protocols have largely been adapted from existing knowledge and protocols but also include two key innovations: the use of passive reference nucleic acids and synthetic positive controls, that significantly improve the quality and robustness of the raw data, and thus the reliability of the analyses and conclusions.

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The Plight of Reptiles as Ecological Actors in the Tropics

Protocols for assessing the distribution of pathogens in individual Hymenopteran pollinators

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