Domination of invasive Nostocales (Cyanoprokaryota) at 52°N latitude

Cylindrospermopsis raciborskii and Sphaerospermopsis aphanizomenoides are increasingly widespread cyanobacterial species, considered invasive. However, they have never been found to dominate the phytoplankton in the northern part of the invaded area. The aim of our study was to expand the understanding of the invasion process in Nostocales, by answering the question which environmental conditions enabled the first ever noted bloom incident of C. raciborskii and S. aphanizomenoides in the northern part of their current occurrence ranges. We examined the population dynamics of the two invasive cyanobacteria and the abiotic conditions in which their blooms developed in a reservoir at 52 degrees N. We also examined the phytoplankton community diversity and composition before and during the invasive species blooms. As shown by redundancy analysis, the competitive advantage of S. aphanizomenoides depended strongly on high water temperature and high concentration of phosphates, and was positively related to other summer conditions (low water transparency, high ammonium nitrogen concentration). C. raciborskii biomass was not related to temperature and phosphates, but we argue that high water temperature in the first half of July enabled abundant akinete germination, and pulsed phosphorus availability synergized to bring about a later bloom. Both the invasive species co-occurred with the native cyanobacterium Aphanizomenon gracile, but C. raciborskii bloomed after the native species domination period. The results of the study corroborate the high competitiveness of S. aphanizomenoides in hot, nutrient-rich conditions, and the adaptation of the invaders to the environment in the invaded regions, inter alia by the overwintering mechanism of numerous akinete differentiation. Our results also contradict the assumption that the phytoplankton diversity index would decrease after colonization of freshwater bodies by invasive cyanoprokaryotes.