Author: India Stephenson

Editor Recommendations, Virtual Issues

Editor Recommendation: Lianas and Soil Nutrients Predict Fine-Scale Distribution of Above-Ground Biomass in a Tropical Moist Forest

Post provided by Laura Graham

©Groume
©Groume

Datasets used by quantitative ecologists are getting more and more complex. So we need more complex models, such as hierarchical and complex spatial models. Typically, Bayesian approaches such as Markov chain Monte Carlo have been used. But these methods can be slow, making it infeasible to fit some models.

New developments in Integrated nested Laplace approximation (INLA) have made some of these complex models much faster to fit. Dedicated R packages (R-INLA and inlabru) make coding these Bayesian models much more straightforward. Also, INLA lets you fit of a class of models which allow for computationally efficient and flexible modelling of spatial data. Continue reading “Editor Recommendation: Lianas and Soil Nutrients Predict Fine-Scale Distribution of Above-Ground Biomass in a Tropical Moist Forest”

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Statistical methods, Virtual Issues

Statistical Ecology Virtual Issue

To celebrate the International Statistical Ecology Conference and British Ecological Society Quantitative Ecology Annual Meeting, Laura Graham and Susan Jarvis have compiled a virtual issue celebrating all things statistical and quantitative in ecology.

Statistical and quantitative methods within ecology have increased substantially in recent years. This rise can be attributed both to the growing need to address global environmental change issues, as well as the increase in data sources to address these challenges. Continue reading “Statistical Ecology Virtual Issue”

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Methods papers

Overcoming the Challenges of Studying Soil Nematodes: A New Approach with Implications for All (Soil) Organisms

Post provided by Stefan Geisen

(Soil) Nematodes

“…if all the matter in the universe except the nematodes were swept away, our world would still be dimly recognizable, and if, as disembodied spirits, we could then investigate it, we should find its mountains, hills, vales, rivers, lakes, and oceans represented by a film of nematodes…” (Cobb 1914)

He may have said it more than a century ago but we now, more than ever, realise that Nathan Augustus Cobb was right. Nematodes are by far the most abundant animals soil, freshwater and marine ecosystems. These tiny worms are barely visible to the human eye (if they’re visible at all), hundreds can inhabit a single gram of soil . Their similar shape might lead you to think that they’re all alike, but that’s not the case. More than 25,000 species have been identified and estimates put their entire species diversity in the 100,000s.

Some common nematode species found in most soils. a) Plectus sp; b) Aphelenchus sp; c) Helicotylenchus sp; d) Thonus sp; e) Mononchus sp; © Wageningen University, Laboratory of Nematology, NL; Hanny van Megen
Some common nematode species found in most soils. a) Plectus sp, b) Aphelenchus sp, c) Helicotylenchus sp, d) Thonus sp, e) Mononchus sp. © Wageningen University, Laboratory of Nematology, NL; Hanny van Megen

This taxonomic and functional diversity has boosted nematodes to become useful bioindicators for soil quality. Nematodes perform many different functions in both terrestrial and aquatic ecosystems. These are mainly defined by what they eat:

  • Bacteria/Fungi: Many nematode groups eat bacteria and fungi. They control the population of these organisms and keep them active.
  • Plants: Plant feeders are the unwanted guests in agricultural systems as well as in our gardens. They can destroy entire harvests by piercing into or infiltrating roots.
  • Omnivores/Predators: Many nematode species prey on other smaller organisms including smaller nematodes and control their abundances.
  • Parasites: These species inhabit other larger organisms and can act as biocontrol agents.

Continue reading “Overcoming the Challenges of Studying Soil Nematodes: A New Approach with Implications for All (Soil) Organisms”

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Meetings, Methods papers, Online extras

An Interview with Alan Gelfand

David Warton interviews Alan Gelfand, a keynote speaker at the Statistics in Ecology and Environmental Monitoring (SEEM) conference in Queenstown, NZ. Alan is best known for proposing Bayesian estimation of a posterior distribution using Gibbs sampling, in his classic papers ‘Sampling-Based Approaches to Calculating Marginal Densities‘ and ‘Illustration of Bayesian Inference in Normal Data Models Using Gibbs Sampling‘. David and Alan discuss the origins of … Continue reading An Interview with Alan Gelfand

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Code and Applications, Methods papers, Phylogenetic analysis

The babette R Package: How to Sooth the Phylogenetic BEAST2

Post provided by Richel Bilderbeek

 What is babette?

‘babette‘ is an R package that works with the popular phylogenetic tool BEAST2. BEAST2 uses one or more alignments and a model setup to create a Bayesian posterior of jointly estimated model parameters and phylogenies.

babette lets you call BEAST2 from an R script. This makes it easier to explore models and/or alignments than using the graphical user interface programs that BEAST2 provides. It will also help you to improve the reproducibility of your work with BEAST2.

babette Tutorial Videos

If you’re new to phylogentic analyses, the video ‘babette demo‘ demonstrates the package. It has all of the information that you need to be able to start using the package

Continue reading “The babette R Package: How to Sooth the Phylogenetic BEAST2”

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Conservation and management, Methods papers, Virtual Issues

The Future of Solar Geolocation Tracking is NOW

Post provided by Julia Karagicheva, Theunis Piersma and Eldar Rakhimberdiev

Black-tailed godwit with leg-mounted solar geolocator. ©Jan van de Kam
Black-tailed godwit with leg-mounted solar geolocator. ©Jan van de Kam

Working on FLightR, the package for analysis of data obtained from solar geolocation tracking devices, we were haunted by the unpleasant feeling of investing in technology which will soon be out of date. Until now solar geolocators have been popular in ornithological studies. This is because they’re small, light-weight (< 1/3 g) tracking devices that can be deployed even on miniature birds, such as swallows and warblers. They’ve also been the longest-lasting data loggers, with the most storage space and, of course, the most affordable ones.

Are Solar Geolocators Finished?

There are apparent drawbacks of using this technique though. To begin with, solar geolocation simply does not work for some species. You can’t use it to study birds living in dense tropical forests or in cavities, because of the light-pattern bias. For the same reason, it doesn’t provide fantastic results in light-polluted areas. Data from geolocators cannot be retrieved remotely, and this is why you need to have high recapture rates for the species you’re studying.   Continue reading “The Future of Solar Geolocation Tracking is NOW”

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Methods papers, Robert May Prize, Statistical methods

Fourier Methods Gain Wide Appeal for Tropical Phenology Analysis

Post provided by Emma Bush

Lopé National Park. ©Jeremy Cusack
Lopé National Park. ©Jeremy Cusack

Like all living things, plant species must reproduce to persist. Key stages in successful plant reproduction must be carefully timed to make sure resources are available and conditions are optimal. There will be little success if flowers mature in bad weather conditions for their insect pollinators or if fruits ripen but the seed dispersers have migrated elsewhere.

Because plants rely on the abiotic environment for sunlight, nutrients and water, and in some cases for the dispersal of pollen and seeds, it is not surprising that their life stages are closely linked to environmental cycles. Continue reading “Fourier Methods Gain Wide Appeal for Tropical Phenology Analysis”

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Conservation and management, Field Methods, Methods papers

Remote Camera Network Tracks Antarctic Species at Low Cost

Below is a press release about the Methods in Ecology and Evolution article ‘Estimating nest‐level phenology and reproductive success of colonial seabirds using time‐lapse cameras‘ taken from NOAA Fisheries.

Camera system in place in an Adélie and gentoo penguin colony ©Jefferson Hinke, NOAA Fisheries
Camera system in place in an Adélie and gentoo penguin colony ©Jefferson Hinke, NOAA Fisheries

An international research team has developed a simple method for using a network of autonomous time-lapse cameras to track the breeding and population dynamics of Antarctic penguins, providing a new, low-cost window into the health and productivity of the Antarctic ecosystem.

The team of scientists from NOAA Fisheries and several other nations published in the journal Methods in Ecology and Evolution, descriptions of the camera system and a new method for turning static images into useful data on the timing and success of penguin reproduction. They say that the system monitors penguins as effectively as scientists could in person, for a fraction of the cost. Continue reading “Remote Camera Network Tracks Antarctic Species at Low Cost”

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Conservation and management, Methods papers, Second Language Post, Statistical methods

Can Opportunistically Collected Citizen Science Data Create Reliable Habitat Suitability Models for Less Common Species?

Post provided by Ute Bradter, Mari Jönsson and Tord Snäll

Detta blogginlägget är tillgängligt på svenska

Opportunistically collected species observation data, or citizen science data, are increasingly available. Importantly, they’re also becoming available for regions of the world and species for which few other data are available, and they may be able to fill a data gap.

Siberian jay ©Ute Bradter
Siberian jay ©Ute Bradter

In Sweden, over 60 million citizen science observations have been collected – an impressive number given that Sweden has a population of about 10 million people and that the Swedish Species Observation System, Artportalen, was created in 2000. For bird-watchers (or plant, fungi, or other animal enthusiasts), this is a good website to bookmark. It will give you a bit of help in finding species and as a bonus, has a lot of pretty pictures of interesting species. Given the amount of data citizen science can provide in areas with few other data, it’s important to evaluate whether they can be used reliably to answer questions in applied ecology or conservation. Continue reading “Can Opportunistically Collected Citizen Science Data Create Reliable Habitat Suitability Models for Less Common Species?”

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Conservation and management, Methods papers, Second Language Post, Statistical methods

Kan medborgarnas opportunistiskt insamlade data användas för artutbredningsmodeller av mindre vanliga arter?

Bloginlägg av Ute Bradter, Mari Jönsson och Tord Snäll

This blog post is available in English

Opportunistiskt insamlade artobservationer av frivilliga, så kallade medborgarforskningsdata, blir alltmer tillgängliga. Dessa data har potentialen att fylla ett databehov för olika regioner i världen och arter för vilka få andra data är tillgängliga.

Siberian jay ©Ute Bradter
Lavskrika ©Ute Bradter

I Sverige har över 60 miljoner artobservationer samlats in av frivilliga i Artportalen – ett imponerande antal med tanke på att Sverige har en befolkning på cirka 10 miljoner människor och att webbplatsen endast har funnits sedan år 2000. För fågelskådare (eller växt-, svamp-, andra djurentusiaster), är Artportalen en bra hemsida att bokmärka om man vill ha lite hjälp med att hitta arter eller tycker om att titta på vackra bilder på arter. Globalt samlas ett stort antal sådana uppgifter för artförekomst i Global Biodiversity Information Facility. Med tanke på den mängd data som medborgarforskare kan tillhandahålla för områden med få andra data är det viktigt att utvärdera om de kan användas för att tillförlitligt besvara frågor inom grundläggande ekologi eller naturvård. Continue reading “Kan medborgarnas opportunistiskt insamlade data användas för artutbredningsmodeller av mindre vanliga arter?”

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