Giraudia sphacelarioides (Phaeophyceae) at the Canary Islands and in Danish waters: a study in ecotypic differentiation and its biogeographical implications

Abstract

Comparative culture studies on isolates from Lanzarote (Canary Islands) and from Danish waters of Giraudia sphacelarioides show that temperature plays the key role to determine its geographical distribution. Experiments show that the upper lethal temperature is the same for both isolates 26.5—‐31.1°C for microthalli, and formation of macrothalli is inhibited between 23.2 and 26.5°C. The lower lethal temperature for both micro‐ and macrothalli in the Lanzarote isolate is between 10.8° C and 7.6°C, while the Danish isolate survives 54°C. The microthallus is thus the more persistent stage in relation to temperature, while the macrothalli occur only when more suitable conditions exist in nature. In the North Atlantic Ocean G. sphacelarioides is distributed over approximately 30° latitudes with severe winter temperatures especially in Danish waters. This distribution can only be explained by ecotypic differentiation. In Danish waters salinity decreases from c. 30 ‰ in the northern Kattegat to below 8 ‰ in the inner parts and therefore becomes an important factor for the immigration of species into the Baltic Sea. Combined salinity (30–20–10–5 ‰) and temperature (4 to 30°C) experiments show that the Lanzarote isolate only grows at 20 ‰ in an attenuated temperature interval and at 10 ‰ only fertile microthalli are observed, however, with limited liberation of swarmers. The Danish isolate grows and reproduces also at salinities from 20–5 ‰ both as microand macrothalli, but in a still more attenuated temperature interval, and the morphology of the macrothalli becomes increasingly aberrant vs. decreasing salinity. This is in agreement with the fact that G. sphacelarioides is reported from the northern part of Kattegat with salinity from 28—‐25 ‰, and it is only recorded a few times in the southern part of Kattegat and limited by the 10 ‰ isohaline.