AI Article Synopsis
- * Researchers analyzed the largest molecular dataset of ichneumonoids parasitoid wasps to explore latitudinal patterns in genetic diversity, revealing that nucleotide diversity peaked at northern temperate latitudes.
- * The findings indicated a weak but positive connection between genetic diversity and latitude, as well as climate factors, emphasizing the need to consider these links as climate change affects species distribution.
Article Abstract
Knowledge of global patterns of genetic diversity is essential for biodiversity conservation as this parameter describes the ability of a species to respond to environmental changes. Ichneumonoids parasitoid wasps are among the few taxa showing an anomalous latitudinal diversity gradient. Using the largest georeferenced molecular dataset for this group, we used a macrogenetics approach to examine latitudinal patterns and predictors of intraspecific genetic diversity. We calculated the mean nucleotide diversity of mitochondrial DNA barcode sequences at three geographic levels: grid cells, latitudinal bands and climatic zones. Nucleotide diversity values were consistently higher at northern temperate latitudes, peaking at 50°. We found a positive but weak relationship between intraspecific diversity and the latitude, between intra- and interspecific diversity, and a positive effect of the temperature range. Examining the spatial relationship between different levels of biodiversity and its drivers is particularly relevant considering climate change and its impact on species distribution. Yet, in insects, it has been challenging to integrate ecological, evolutionary and geographical components when analysing the processes leading to species richness gradients.
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| http://dx.doi.org/10.1111/1365-2656.14196 | DOI Listing |
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