Niche Conservatism Drives the Elevational Diversity Gradient in Major Groups of Free-Living Soil Unicellular Eukaryotes

Fernández, Leonardo; Seppey, Christophe V. W.; Fournier, Bertrand; Tatti, Dylan; Mitchell, Edward A. D.; Lara, Enrique

doi:10.1007/s00248-021-01771-2

Cited by 10 publications

(5 citation statements)

References 55 publications

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“…A wide sample of 324 pastures in the northwestern Italian Alps was surveyed, and comprehensive vegetation and soil surveys were carried out [89]. The scientists traced the phylogenetic signal for this niche conservatism in the highly related and functionally contrasting groups of common soil protists (Bacillariophyta, Cercomonadida, Ciliophora, Euglyphida and Kinetoplastida) along the humid but increasingly cold altitude gradient in Switzerland [90]. Cold range limits of Carex curvula (Cyperaceae) and Nardus stricta (Poaceae) were defined on acidic soils of high-altitude habitats in the European Alps [91].…”

Section: Characterization Of Research Topicsmentioning

confidence: 99%

Landolt Indicator Values in Modern Research: A Review

Ivanova

Zolotova

2023

Sustainability

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The conservation of biodiversity and ecosystem sustainability is essential for human well-being. An important tool for addressing this issue is ecological indicators. This overview document examines recent studies covering the period 2018–2022 that use the values of the Landolt indicator as one of the analysis methods. The total number of records examined was 8910. After excluding irrelevant, inconsistent and duplicate records, 91 records were selected. The selection criteria were the presence of the English abstract and a digital object identifier (DOI). We chose the VOSviewer software for data analysis and visualization. The analysis of research geography, types of plant communities under research, research topics, the network of co-authorship and relationship papers, as well as the publication activity and citation rate of the authors, is carried out. The results revealed that the geography of using Landolt indicator values is quite wide, while they are more often used in Switzerland, Italy and Russia. The most important and frequently cited studies were carried out in the context of large international projects, confirming the importance of scientific cooperation in the development of environmental indicators. The Landolt indicator values showed effectiveness in the study of forests, bogs, riparian vegetation, a coarse quarry waste dump, and in assessing the urban environment. At the same time, the vegetation dynamics and influence of various factors on plants were studied most often. It was revealed that Landolt indicator values can serve as an effective universal method that integrates many aspects of the environment and allows for a comprehensive multicriteria analysis of environmental factors, habitat stability, vegetation diversity and dynamics for different plant communities at different spatial scales over a wide geographical area. This is confirmed by the high citation rate of the papers. We recommend the Landolt indicator values for a wider use, including in the monitoring of ecosystems and individual species for their conservation and sustainable management. In order to achieve this goal, it is necessary to extend the network of relationships between the authors, which is not very well developed at the moment. The research results obtained are useful for the further successful development not only of the Landolt indicator values but also of environmental indicators in general.

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Section: Characterization Of Research Topicsmentioning

confidence: 99%

Landolt Indicator Values in Modern Research: A Review

Ivanova

Zolotova

2023

Sustainability

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“…We used a range interpolation approach to standardise species richness and reduce the effects of spatial sampling biases (McCain 2009;Fernández et al 2022). Range interpolation assumes that species have continuous latitudinal ranges between their lowest and highest latitudinal occurrences.…”

Section: Millipede Biogeographymentioning

confidence: 99%

“…Possibly the need for warm, humid climates is a phylogenetically conserved trait in millipedes (Kadamannaya et al 2009;Cooper 2022b); i.e. they have evolutionary constraints that prevent them from adapting to new climates (Wiens et al 2010;Fernández et al 2022). Of course, this does not mean that there are no millipedes adapted to live in harsh climates.…”

Section: Millipede Biogeographymentioning

confidence: 99%

Filling gaps in the diversity and biogeography of Chilean millipedes (Myriapoda: Diplopoda)

Parra-Gómez¹,

Fernández²

2022

ASP

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Research on the diversity and biogeography of Chilean millipedes represents a significant gap in knowledge. To reduce this gap we conducted a study: (1) to investigate the current state of knowledge of millipede diversity, and (2) to assess the pattern and causes underlying the latitudinal diversity gradient in Chilean millipedes. In Chile, 95 native millipede species have been recorded. However, rarefaction and extrapolation curves showed that increased sampling effort will reveal more species. An asymptotic estimate of diversity predicted that millipede diversity fluctuates between 125 and 197 species. The estimate, though, was based on a limited data set. Therefore, millipede diversity is probably higher than predicted. Chilean millipedes were categorized as micro-range endemics because they all have latitudinal ranges of less than 1,000 km (with 78% of species exhibiting latitudinal ranges of only ~222 km). Millipede species richness also exhibited a bell-shaped latitudinal diversity gradient, i.e. diversity peaks in the temperate climate of central Chile and decreases towards the arid and polar climates of northern and southern Chile. A multiple regression analysis revealed that this biogeographic pattern is shaped by environmental variables related to water availability, ambient energy inputs and climatic stability. These environmental variables are proxies for two of the five biogeographic hypotheses we tested in this study, i.e. the water-energy balance hypothesis and climatic stability hypothesis. Both hypotheses suggest that millipedes need stable, humid and warm climates to grow, survive and reproduce (niche conservatism). These climatic conditions are only found in central Chile, which is consistent with the diversity peak observed in that region.

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“…In addition, manipulative experiments and subsequent sequencing analyses have revealed potential protist keystone species and communities linked to changes in plant performance and ecosystem functions (Guo et al, 2022; Jiang et al, 2020). Also, many studies have appeared on responses of protists to changes in land management or other anthropogenic factors (Reczuga et al, 2020; Wu et al, 2022) and ecological gradients at the regional to local scale (Fernandez et al, 2022; Mazel et al, 2022; Singer et al, 2018).…”

Section: Introductionmentioning

confidence: 99%

Contemporary issues, current best practice and ways forward in soil protist ecology

Geisen

Lara

Mitchell

2023

Molecular Ecology Resources

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Soil protists are increasingly studied due to a release from previous methodological constraints and the acknowledgement of their immense diversity and functional importance in ecosystems. However, these studies often lack sufficient depth in knowledge, which is visible in the form of falsely used terms and false‐ or over‐interpreted data with conclusions that cannot be drawn from the data obtained. As we welcome that also non‐experts include protists in their still mostly bacterial and/or fungal‐focused studies, our aim here is to help avoid some common errors. We provide suggestions for current terms to use when working on soil protists, like protist instead of protozoa, predator instead of grazer, microorganisms rather than microflora and other terms to be used to describe the prey spectrum of protists. We then highlight some dos and don'ts in soil protist ecology including challenges related to interpreting 18S rRNA gene amplicon sequencing data. We caution against the use of standard bioinformatic settings optimized for bacteria and the uncritical reliance on incomplete and partly erroneous reference databases. We also show why causal inferences cannot be drawn from sequence‐based correlation analyses or any sampling/monitoring, study in the field without thorough experimental confirmation and sound understanding of the biology of taxa. Together, we envision this work to help non‐experts to more easily include protists in their soil ecology analyses and obtain more reliable interpretations from their protist data and other biodiversity data that, in the end, will contribute to a better understanding of soil ecology.

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Niche Conservatism Drives the Elevational Diversity Gradient in Major Groups of Free-Living Soil Unicellular Eukaryotes

Cited by 10 publications

References 55 publications

Landolt Indicator Values in Modern Research: A Review

Landolt Indicator Values in Modern Research: A Review

Filling gaps in the diversity and biogeography of Chilean millipedes (Myriapoda: Diplopoda)

Contemporary issues, current best practice and ways forward in soil protist ecology

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Niche Conservatism Drives the Elevational Diversity Gradient in Major Groups of Free-Living Soil Unicellular Eukaryotes

Cited by 10 publications

References 55 publications

Landolt Indicator Values in Modern Research: A Review

Landolt Indicator Values in Modern Research: A Review

﻿Filling gaps in the diversity and biogeography of Chilean millipedes (Myriapoda: Diplopoda)

Contemporary issues, current best practice and ways forward in soil protist ecology

Contact Info

Product

Resources

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Filling gaps in the diversity and biogeography of Chilean millipedes (Myriapoda: Diplopoda)