Decoding biodiversity patterns and community structure of the lower
Magdalena River (Colombia) using environmental DNA
Abstract
The Magdalena River basin harbors a large biodiversity of vertebrates,
with numerous endemic species, many of which are threatened with
extinction. Following the same trend as most freshwater ecosystems
globally, the Magdalena faces threats from human activities, causing
habitat degradation and the decline of its biodiversity. Monitoring the
freshwater biodiversity is crucial to detect early impacts and guide
conservation actions in this river system, which is of vital ecological
importance for Colombia. Here, we used environmental DNA (eDNA)
metabarcoding, with two primer sets designed to target mitochondrial DNA
regions, specifically the 12S ribosomal RNA gene, targeting fish as well
as amphibians, reptiles, birds, and mammals in the Magdalena River. We
detected a total of 158 vertebrate taxa, not only aquatic but also
terrestrial, arboreal, and aerial. The diversity of these vertebrates
increases as the river mouth is approached, accompanied by a change in
the composition of the aquatic vertebrate assemblages, with two distinct
groups linked to the geomorphology of the lower Magdalena basin. The
assemblage was characterized by a high turnover of taxa between the
sites closest to the mouth of the river and a marked nesting of taxa
when comparing the sites closest to the river mouth with those farther
away. We conclude that eDNA metabarcoding allows characterizing
vertebrate assemblages in large rivers, assessing conservation status,
and elucidating biodiversity patterns with minimal ecosystem
disturbance. The information obtained through this approach can
contribute to the sustainable management and preservation of vital
freshwater ecosystems and their associated biodiversity.