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        Discovering new paths: Perspectives on causal discovery algorithms in ecology

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        Publication date
        2024
        Author
        Bouwman, Irene
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        Summary
        Understanding the relationships between organisms and their environment is crucial for the conservation of species and ecosystems all over the world. In ecology, relationships between organisms and their environment are typically obtained from correlation-based analyses of observational data. However, understanding ecological processes and developing strategies to maintain them requires knowledge on causation rather than correlation. Since causality between organisms and their environment is difficult to study using observational data, ecologists may need advanced computational techniques to identify causal relationships. In particular, the field of causal discovery offers a smorgasbord of algorithms to establish causal relationships from observational data. Nonetheless, causal discovery algorithms have not yet been widely adopted in ecology. In this review, we (1) introduce the concepts of causality and causal discovery algorithms, (2) review the use of causal discovery algorithms in ecology, and (3) present a perspective on the use of causal discovery algorithms and the interpretation of causality in ecology, illustrated by the field of animal movement research. So far, ecological studies have used causal discovery algorithms to establish causal relationships between organisms and meteorological factors, and to identify causal interactions between species. The most popular causal discovery algorithm in ecology is convergent cross mapping, which requires time series data. Ecological studies often study causal links to a single response variable of interest, whereas fewer studies consider causal links between more variables and create a causal network. Notably, ecological interpretation of causal links can be hampered by changes in the strength and effect (positive or negative) of the causal relationship over time or differences between observations. To improve the interpretation of causal links in ecology, we identify three concepts that should be considered in ecological causality research: First, we argue for a network-based approach in which causal links between multiple variables are considered, because this could identify variables that modulate causal relationships between other variables. Second, we stress that causes may differ between time scales. Third, individual heterogeneity may hamper the interpretation of causal relationships. Overall, broader use of causal discovery algorithms in ecology can increase our understanding of the relationships between organisms and their environment, which could in turn help to conserve ecosystems.
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        https://studenttheses.uu.nl/handle/20.500.12932/46196
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