Increases in Picocyanobacteria Abundance in Agriculturally Eutrophic Pampean Lakes Inferred from Historical Records of Secchi Depth and Chlorophyll-a.

ZAGARESE, H.; DIOVISALVI N; GONZÁLEZ SAGRARIO MDA; IZAGUIRRE I.; FERMANI P.; UNREIN F.; CASTRO BERMAN M.; PÉREZ, G.

Water

MDPI

Año: 2022 vol. 14 p. 1 - 12

Phytoplankton size structure has profound consequences on food-web organization and en- ergy transfer. Presently, picocyanobacteria (size < 2 μm) represent a major fraction of the autotrophic plankton of Pampean lakes. Glyphosate is known to stimulate the development of picocyanobacteria capable of degrading the herbicide. Due to the worldwide adoption of glyphosate-resistant crops, herbicide usage has increased sharply since the mid-1990s. Unfortunately, there are very few studies (none for the Pampa region) reporting picocyanobacteria abundance before 2000. The prolifera- tion of μm sized particles should decrease Secchi disc depth (ZSD). Therefore ZSD, conditional to chlorophyll-a, may serve as an indicator of picocyanobacteria abundance. We use generalized additive models (GAMs) to analyze a ?validation? dataset consisting of 82 records of ZSD, chlorophyll-a, and picocyanobacteria abundance from two Pampean lakes surveys (2009 and 2015). In support of the hypothesis, ZSD was negatively related to picocyanobacteria after accounting for the effect of chlorophyll-a. We then fitted a ?historical? dataset using hierarchical GAMs to compare ZSD condi- tional to chlorophyll-a, before and after 2000. We estimated that ZSD levels during 2000?2021 were, on average, only about half as deep as those during 1980?1999. We conclude that the adoption of glyphosate-resistant crops has stimulated outbreaks of picocyanobacteria populations, resulting in lower water transparency.