Tuesday, May 16, 2023

A new workflow to standardize fossil pollen datasets for ecological research

Peer-Reviewed Publication

THE UNIVERSITY OF BERGEN

FOSSILPOL 

IMAGE: THE FOSSILPOL WORKFLOW. view more 

CREDIT: UIB

A new study published in Global Ecology and Biogeography presents a step-by-step guide to compile numerous fossil pollen datasets into a user-specific, standardized and clean compilation – ready for further analysis.

Palaeoecology (‘the study of the past’) is important for understanding the history of biodiversity and the biosphere changes over time. By using palaeoecological data such as fossil pollen, scientists try to understand how ecosystems and vegetation changes through time, and how humans have affected the environment throughout history.

In the last ten years, there has been a substantial increase in fossil pollen data from all over the world in open-access databases, opening new avenues for research. But there are some challenges to putting this information together in a way that scientists can use it to study biodiversity changes. Researcher at The Department of Biological Sciences, UiB, and leading first author of the paper “A guide to the processing and standardization of global palaeoecological data for large-scale syntheses using fossil pollen”, Suzette Flantua, has been working on these datasets.

In the last ten years, there has been a substantial increase in fossil pollen data from all over the world in open-access databases. Opening new avenues for research. But, there are some challenges to putting this information together in a way that scientists can use it to study biodiversity changes. Researcher at The Department of Biological Sciences, UiB, and leading first author of the paper “A guide to the processing and standardization of global palaeoecological data for large-scale syntheses using fossil pollen”, Suzette Flantua, has been working on these datasets.

"For several years now we have been compiling thousands of fossil pollen datasets together, and we’ve realized along the way that many critical steps exist that any researcher using these data should be aware of, but there were no clear guidelines anywhere. It was also often unclear how other people processed their data", says Flantua.

To ensure a standardized use of fossil pollen data and minimize the risk of erroneous interpretations, Flantua and her colleagues have created a guide with tips and tricks for compiling fossil pollen data.

"These datasets come from many different environments around the world, they are cored and analyzed by many different researchers, and they represent highly diverse plant assemblages. Before any analysis can be done, such compilation needs to be carefully selected to guarantee good data quality. That is why we have developed a guide on how to standardize these data that are now accessible for many researchers in different fields", says Flantua.

Discipline-friendly guideline to process fossil pollen data

OndÅ™ej Mottl, the leading developer of the software in the guide, and co-leading first author of the paper, says that the guide is designed to make data preparation easy and accessible for everyone, regardless of their coding skills.  

"We understand that handling all data preparation steps can be technically challenging, which is why we've structured our workflow step-by-step and provided clear signposts at each critical juncture. Our software interacts with users throughout the process, guiding them towards the desired dataset for analysis", says Mottl.

The fossil pollen dataset guide consists of a workflow called FOSSILPOL, an R-package (RFossilpol) and a website. The FOSSILPOL workflow handles most of the processing steps (related to depositional environments, chronologies, filtering and taxonomic harmonization, Figure 3), while requiring input from the user at certain steps. All criteria and configurations are defined in one main configuration file, and several R packages are used throughout the workflow. The final outputs of the workflow include a standardized compilation of taxonomically harmonized fossil pollen data, plots of modelled age-depth curves and a pollen diagram for each record, and several overview figures and maps.

Co-leading first authors Vivian Felde and Kuber Bhatta highlight the guide’s potential to increase reproducibility and transparency. 

"It can also be seen as a tool that allows full reproducibility of major data analyses as all decisions throughout the data processing steps are transparent, well documented, and easily reported in studies. In addition, the data compilation is dynamic and will change together with the open access databases as increasingly more data becomes available. This is all thanks to constant data sharing within and between research communities, which we are really excited about”, agree Felde and Bhatta. 

This paper is a contribution to the Humans on Planet Earth - Long-term impacts on biosphere dynamics (HOPE) project at The Department of Biological Sciences, University of Bergen. The HOPE project is funded by a European Research Council Advanced Grant and the project’s goal is to addresses a critical question in Earth system science - what was the impact of prehistoric people on the biosphere and its dynamics?

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