Climate-driven shifts in decapod larvae assemblages in a temperate estuary

2024

Article référencé dans le Web of Science WOS:001239307100001

Monteiro M., Pardal M. Â., Azeiteiro U. M., Pereira S. C., Vaz N., Primo A. L., Ramirez-Romero E., Molinero Juan-Carlos, Marques S. C.

Marine Environmental Research, 2024, 198, 106526 [12 p.] ISSN 0141-1136

The study examines the complex impact of climatic patterns, driven by the North Atlantic Oscillation (NAO), on regional climate, hydrology, and sea surface temperatures. Focused on the period from 2003 to 2012, the research specifically investigates the influence of thermal variability on decapod larval communities. Monthly zooplanktonic sampling conducted at the Mondego Estuary, Portugal, entrance over a decade revealed the prevalence of Carcinus maenas, Diogenes pugilator, and Pachigrapsus marmoratus larvae. These assemblages displayed notable interannual and seasonal fluctuations, often corresponding with changes in sea surface temperatures. Significant system shifts around 2007, instigated by the large-scale NAO, led to subsequent modifications in sea surface temperature and decapod larvae communities' dynamics. Post-2007, there was an upward trajectory in both species' abundance and richness. Phenologically during the former period, the community exhibited two abundance peaks, with the earlier peak occurring sooner, attributed to heightened temperatures instead of the unique peak exhibited before 2007. The research further elucidated the occurrences of Marine Heatwaves (MHW) in the region, delving into their temporal progression influenced by the NAO. Although water temperature emerged as a crucial factor influencing decapod larvae communities annually and seasonally, the study did not observe discernible impacts of MHW events on these communities. These communities represent essential trophic links and are crucial for the survival success of adult decapods. Given the rapid pace of climate change and increasing temperatures, it is imperative to assess whether these environmental shifts, particularly in thermal conditions, affect these meroplanktonic communities.

Climatologie / Météorologie [032CLIMET] ; Arthopodes [034BIOINV04] ; Dynamique de populations / modélisation [036MILMAR01] ; Inventaires faunistiques régionaux [080ZOOGEN01]

Fonds IRD [F B010091873]

fdi:010091873