Abstract
Global environmental change modifies the phytoplankton community, which leads to variations in their phenology and potentially causes a temporal mismatch between primary producers and consumers. In parallel, phytoplankton community change can favor the appearance of harmful species, which makes the understanding of the mechanisms involved in structuring phytoplankton ecological niches paramount for preventing future risk. In this study, we aimed to assess for the first time the relationship between environmental conditions, phenology and niche ecology of harmful species Phaeocystis globosa and the complex Pseudo-nitzschia along the French coast of the eastern English Channel. A new method of bloom detection within a time-series was developed, which allowed the characterization of 363 blooms by 22 phenological variables over 11 stations from 1998 to 2019. The pairwise quantification of asymmetric dependencies between the phenological variables revealed the implication of different mechanisms, common and distinct between the taxa studied. A PERMANOVA helped to reveal the importance of seasonal change in the environmental and community variables. The Outlying Mean and the Within Outlying Mean indexes allowed us to position the harmful taxa niche among the rest of community and quantify how their respective phenology impacted the dynamic of their subniches. We also discussed the possible hypothesis involved and the perspective of predictive models.
Highlights
The phytoplankton community is an essential component of marine life as it supports higher trophic-level organisms, including those of economic importance, and it is directly impacted by climate and local hydrological conditions [1,2]
PERMANOVAs performed with the month as factor of variations were significant for all variables (p < 0.01) (Table 2)
The Outlying Mean Indexes revealed that the distribution of the community ecological niche mostly depends on taxa affinity to nutrient concentration, temperature and light, which is typical of seasonal water
Summary
The phytoplankton community is an essential component of marine life as it supports higher trophic-level organisms, including those of economic importance, and it is directly impacted by climate and local hydrological conditions [1,2]. The apprehension of the impact of global environmental change on phytoplankton has led scientists to examine long-term or large-scale data series. They have discovered significant regime shifts caused by the modification of the phytoplankton community structure (i.e., the species number and their respective abundance) and by the alteration of bloom phenology in different ecosystems such as the North Pacific [3], North Atlantic [4], Baltic Sea [5] and North Sea [1,6]. Changes to the phytoplankton community structure in itself can be alarming, with the spread and increasing impact of harmful algae blooms (HAB) [9,10,11].
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