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ALGAE > Volume 31(2); 2016 > Article
Cherif, Ktari, El Bour, Boudabous, and Grignon-Dubois: Codium fragile subsp. fragile (Suringar) Hariot in Tunisia: morphological data and status of knowledge


The Mediterranean Sea is currently facing dramatic changes and threats, including change in native species and accidental introductions. The introduced green alga Codium fragile subsp. fragile (Suringar) Hariot influences diversity and community structure in some parts of the world. This paper documents the distribution of this species in Tunisia and provides a morphological description of C. fragile subsp. fragile in Northern Tunisia. Results confirm the identity of Tunisian specimens as the invasive subspecies C. fragile subsp. fragile. This is the first morphological characterization of this subspecies in Tunisia.


Human activities such as aquaculture, fishing and interoceanic shipping have helped favoring species dispersal and increasing the risk of introduction into coastal marine ecosystems. Introduced species are often free from predators, competitors or pathogens in the areas of invasion allowing them to become common and successful in the new area, to displace indigenous species and to become economic pests (Trowbridge 1995). The ecological impacts of invasive marine species represent a major problem to global biodiversity; non-native species can alter profoundly the host ecosystems.
Codium Stackhouse (Codiaceae, Bryopsidales, Chlorophyta) is a cosmopolitan genus widely distributed in marine environments throughout the world, with the exception of the Polar Regions. It currently comprises about 143 specific and infra-specific taxa currently accepted taxonomically according to Guiry and Guiry (2016) that are mainly found in temperate and subtropical zones (Verbruggen et al. 2007). Five species are present in Tunisia, namely Codium bursa (L.) C. Agardh, Codium decorticatum (Woodward) Howe, Codium effusum (Rafinesque) Delle Chiaje, Codium fragile (Suringar) Hariot, and Codium vermilara (Olivi) Delle Chiaje (Gallardo et al. 1993). Among them only C. fragile is an introduced one. All over the world, there are ten subspecies of C. fragile (Guiry and Guiry 2016), of which three are considered invasive (Provan et al. 2008). From these, only the subsp. fragile (Syn. C. fragile subsp. tomentosoides, C. fragile subsp. scandinavicum) has received more attention over the years because of its successful invasion in both Northern and Southern hemispheres (Silva 1955, Trowbridge and Todd 2001, Hubbard and Garbary 2002). C. fragile subsp. fragile has become a nuisance by achieving high biomass and outcompeting resident species on various spatial scales. This subspecies has spread rapidly in temperate areas throughout the globe from its native range in Japan (Silva 1955, Trowbridge and Todd 2001). Its various strategies of reproduction: sexual, asexual, and vegetative (Mathieson et al. 2003), and its capacity for long-distance dispersal (Watanabe et al. 2009) contribute to the invasive success of the species, leading to ecological and economic concerns. Importation of Asian shellfish (oysters and mussels) appears as a major vector of introduction, respectively 44% in Europe and 46% in the Mediterranean Sea (Zenetos et al. 2012).
Considered as native to Japan, C. fragile subsp. fragile is a North-Pacific taxon that has been introduced worldwide (Burrows 1991, Provan et al. 2008). It first appeared on the shores of Holland before 1900 and later spread throughout Europe, rapidly colonizing the Mediterranean Sea (Silva 1955). The first introduction into the Mediterranean Sea probably dates from World War II and presumably was due to military shipping (Verlaque 1994). C. fragile was reported for the first time in Tunisia, in Northern Tunisia (lagoon of Bizerte) as C. fragile without mention of the subspecies (Djellouli 1987). The alga was later identified as C. fragile subsp. fragile (Sghaier et al. 2016).
The distribution and morphology of Codium fragile has been well described all over the world. In the Mediterranean Sea, C. fragile has been always considered as the subspecies tomentosoides (Gallardo et al. 1993). However, the recent signalization of the subspecies atlanticum on the Italian coasts (Petrocelli et al. 2013) must lead, from now on, to bring more attention to the criteria used when describing C. fragile. In this context, this paper describes the distribution and morphology of C. fragile Tunisian specimens with emphasis on the subspecies anatomical and morphological characteristics such as size and shape of thalli and utricles.


Sampling sites

Samples were collected from April 2010 to July 2015 at two different sites located in the north of Tunisia: Marsa (Bay of Tunis) and Bizerte lagoon. Collection data are reported in Table 1.
Marsa is a rocky sandy area, rich with algae wildlife, open to the Mediterranean Western basin and located near areas with heavy boat traffic such as Goulette and Sidi Bou Said ports. The Lagoon of Bizerte has a surface area of 150 km2 with a mean depth of 7 m. This lagoon is subject to strong human pressures such as urban, industrial, and agricultural pollutions as well as the breeding of mussels and oysters in Menzel Jemil.

Sampling method and identification

All specimens were collected by hand in shallow water (<2 m). Collected samples were transported freshly in an icebox. In the laboratory, the algal material was cleaned with seawater to remove the maximum of epiphytes, and then was kept in 2% formaldehyde-seawater. Fixed materials were identified using a binocular microscope (Alphaphot-2.YS2-H; Nikon, Tokyo, Japan). The identification was based on different taxonomical keys. To determinate the subspecies of Codium fragile, the morpho-anatomical details were analyzed following the keys reported in the literature (Silva 1955, Trowbridge 1998, Hubbard and Garbary 2002). Eleven morphometric traits (3 macroscopic and 8 microscopic) were measured on thalli (n = 5). Utricles were sampled at approximately 2 cm from the tip of the plant and 5 utricles were measured for each plant.


Morphology of Codium fragile subsp. fragile

The green alga C. fragile subsp. fragile has spongy irregularly dichotomous branched thallus (Fig. 1A). Internal structure is composed of intertwined colorless medullary filaments amorphously cylindrical (Fig. 1C) and a green palisade-like layer of vesicles called utricles (Fig. 1D) prolonging into a long pointed mucron (Fig. 1E). The presence of pointed mucron, characteristic of C. fragile, confirmed the identification of the species.
Macroscopic and microscopic morphometric data of C. fragile subsp. fragile collected from Northern Tunisian coast were compared to data reported in the literature for C. fragile subsp. fragile specimens collected from Europe, Canada, and Korea (Table 2).
Macroscopically, our specimens were found similar to the diagnostic characters of plants collected in Bizerte by Djellouli (1987) and in Europe by Silva (1955) identified as C. fragile subsp. fragile. However, these data are different from thalli collected in Canada (Hubbard and Garbary 2002, Matheson et al. 2014) and in Korea (Oh et al. 1987). Thallus lengths of Tunisian and European samples (up to 25 cm) were smaller than Canadian ones (up to 44 cm).
The microscopic characteristics of thalli collected in this study showed that mucrons were long and sharp, with an average of 38.1 µm for Marsa samples and 47.2 µm for lagoon of Bizerte samples (Table 2). These measures are similar to mean length of mucrons of C. fragile subsp. fragile collected in Europe, but different from measures of mucrons of Canadian C. fragile subsp. fragile. Indicative features such as size and shape of mucron had been used in previous studies to distinguish subspecies of Codium fragile (Trowbridge 1998, Hubbard and Garbary 2002, Matheson et al. 2014). However, since there is a high variability in the mucron shape and dimension, as underlined by Verbruggen et al. (2007), and for unambiguously identification, molecular analysis can be required.
Concerning the position and length of gametangia, there were no significant differences between the present study and previous ones for different C. fragile subsp. fragile origins, except for native Korean samples. In fact, Korean samples are distinct from other ones considering length of thallus, utricules, and gametangia (Table 2). Differences between native alga and introduced ones in Canada, Europe, or Tunisia might be due to an ecological adaptation.

Distribution of Codium fragile spp. fragile

Thalli of C. fragile subsp. fragile were collected in Marsa attached to small rocks. This specie was the most common macroalga associated with the green alga Halimeda tuna and various red and brown algae. In the lagoon of Bizerte C. fragile subsp. fragile was common with a native red alga Gracilaria sp. (personal observation).
This north Pacific green alga is an established marine alien species in the Mediterranean (Zenetos et al. 2012). It is identified as one of the Europe’s top 10 invasive species (McLaughlan et al. 2014). The oldest European collection dates from 1845 in Ireland (Provan et al. 2008) and it has since spread throughout European Atlantic and Mediterranean coasts. It was discovered on the Netherlands coast in North Sea in 1900 (Silva 1955). It was introduced in the Western Mediterranean across Gibraltar in 1940 (Verlaque 1994). In 1946, it was common in Banyuls (French coast) then it reached Sicily (Battiato et al. 1980) and Tunisia in Bizerte (Djellouli 1987). In the Eastern basin, it has only been reported in the Western region of Libyan coasts (Nizamuddin 1991) (Table 3).
In Tunisia, C. fragile was detected for the first time in the lagoon of Bizerte (Djellouli 1987), a semi-enclosed area that communicates with the Mediterranean Sea through Bizerte channel and with Ichkeul Lake through Oued Tinja. The absence of signalization of C. fragile in Tunisian coasts by Menez and Mathieson (1981) and Ben Maiz et al. (1987) let us think that the introduction of C. fragile started in the lagoon and might be associated with mussels and oysters importations from Europe for shellfish farming. However, the establishment of C. fragile subsp. fragile in Marsa suggests that the anthropogenic vectors may have contributed to C. fragile subsp. fragile transfer later within the Bay of Tunis due to the proximity of La Goulette and Sidi Bou Said harbors and the heavy boat traffic. C. fragile subsp. fragile has been signaled in 2000 in the gulf of Tunis through trawl sampling at 7 to 8 m depth (Jarboui et al. 2005). The establishment of C. fragile subsp. fragile in the Gulf of Gabes was confirmed in 2013 (Hattour and Ben Mustapha 2013) through an inventory of marine vegetation on the Southern coast (Fig. 2). The data confirm the spread of this invasive species all over Tunisian coasts (Table 3), and show the importance to survey C. fragile subsp. fragile expansion mode and its ecological impact.
The invasive green alga C. fragile subsp. fragile possesses diverse modes of natural dispersal. In addition to swarmer cells, it can propagate through the release of vegetative buds, thallus fragments, and entire thalli (Watanabe et al. 2009). Male and female gametangia are produced on the utricles, and sexual reproduction is performed through zygotes resulting from the gamete fusion. C. fragile subsp. fragile colonizes intertidal and shallow sub-tidal habitats in temperate seas worldwide (Trowbridge 1998). Moreover, C. fragile subsp. fragile can tolerate a large range of environmental conditions including temperatures from -2 to 33°C, low light requirements, salinities from 12 to 40 and relatively short periods (<6 h) of desiccation and exposure to freshwater (Trowbridge 1998, Mathieson et al. 2003). This can explain the dispersal of C. fragile subsp. fragile in Tunisia.

Ecological impact

Invasive non-native species have complex multilevel impacts on their introduced ecosystems. Different studies considered Codium fragile as a nuisance. In fact, in addition to the high biomass; it is responsible of fouling boats and has disadvantageous impact on aquaculture (Trowbridge 1998). Chapman (1999) reported the damaging effects of C. fragile in kelp communities on the Atlantic coasts. Scheibling and Anthony (2001) confirmed negative impacts on the sea urchin Strongylocentrotus droebachiensis. The nuisance aspect of C. fragile subsp. fragile is associated with its ability to attach to living shellfish and uproot rhizomes of Zostera marina, so that it has been given different common names such as ‘eelgrass thief’ or ‘oyster thief’ (Garbary et al. 2004).
Other studies, in opposition, describe positive effects to C. fragile subsp. fragile invasion. In fact, Bulleri et al. (2006) reported that the number of mussel recruits was significantly larger within clumps of C. fragile primordia (first stage) than on bare surfaces. Drouin et al. (2011), also, demonstrated an increase in density and diversity of faunal assemblages within eelgrass beds invaded by C. fragile.
There is a big gap of information concerning the ecological effects of C. fragile on Tunisian coasts. In Mediterranean Sea, this exotic species is considered to be well established (Verlaque et al. 2015) but the potential negative impacts have never been studied. However, the arrival of other alien macrophytes has brought severe changes in the marine communities in other parts of the Mediterranean Sea (Boudouresque and Verlaque 2002). Thus, it is always important to survey the evolution of alien species. Further sampling and research on biology and ecology of C. fragile subsp. fragile would be helpful to know its real impact on the Tunisian environment.


This study allowed gathering all reports about Codium fragile distribution on Tunisian coasts. It gives a status of the situation of Codium fragile subsp. fragile in this region of Mediterranean Sea. More studies have to be done on this alien alga on environment and human activities impacts. Continuous and careful supervising of the dispersal of the species by using information campaigns towards shellfish farmers, fishermen, etc. would be useful to early detect any possible nuisance.

Fig. 1.
Photographs of Tunisian specimens of Codium fragile subsp. fragile. (A) Dichtomous thallus (p, spongy base). (B) Wall of thallus showing hairs. (C) Utricles in cross section of thallus. (D) Utricle. i, gametangium. (E) Close view of long and pointed mucron on top of utricle. q, hairs scar. Scale bars represent: A, 10 cm; B & C, 1 cm; D, 100 μm.
Fig. 2.
Historical records of Codium fragile along the Tunisian coasts.
Table 1.
Collection data of Codium fragile subsp. fragile
Sampling sites Geographic coordinates Sampling dates
Marsa 36°53′03.97″ N, 10°20′14.22″ E Apr 27, 2010
36°52′56.99″ N, 10°20′27.02″ E May 27, 2011
36°52′56.99″ N, 10°20′27.02″ E Aug 20, 2015
Lagoon of Bizerte 37°13′31.19″ N, 9°55′39.43″ E Jun 30, 2011
37°13′24.07″ N, 9°55′53.00″ E Jul 19, 2011
37°13′24.07″ N, 9°55′53.00″ E Feb 20, 2014
37°13′50.26″ N, 9°51′17.61″ E Jun 1, 2015
37°13′46.12″ N, 9°51′15.90″ E Sep 9, 2015
Table 2.
Macroscopic and microscopic morpho-anatomical details of CFF for the present study and previous works
Morpho-anatomical characters Present works
Previous works
Marsa Bizerte lagoon Bizerte lagoon (Tunisia) British Isles (UK) Nova Scotia (Canada) Newfoundland (Canada) Cheju Island (Korea)a
Total length of plant (cm) 13.1 ± 7.9 14.6 ± 4.9 - 15-25 34.4 ± 1.8 44.7 ± 4.7 15-30
Diameter of widest branch (mm) 5 ± 1.1 8 ± 4.1 - 10 5.9 ± 0.21 11 ± 0.6 0.3-10
No. of dichotomies on longest axis 5.7 ± 1.1 5.4 ± 1.9 - Up to 9 5.87 ± 0.24 7.3 ± 0.5 -
Length of utricle from tip to bottom (µm) 765.3 ± 30.9 738.4 ± 63.5 770 (630-975)b 550-1,050 963 ± 13 977 ± 28.6 1,000-1,300
Mucron length (µm) 38.1 ± 7.6 47.2 ± 5.4 7-30 Up to 68 293 ± 14 276 ± 13 -
Maximum of utricle diameter (µm) 224.3 ± 25.7 2,078 ± 20.1 350 (180-530)b 165-325 295 ± 1 310 ± 83 -
Position of maximum utricle diameter (µm) 87.1 ± 13.3 84.6 ± 16.6 - - 188 ± 13 135.1 ± 3.4 -
Position of hair (µm) 144.5 ± 5.9 131.4 ± 8.7 - 160-260 192 ± 4 363 ± 53 200-250
Position of gametangia (µm) 405.8 ± 17.7 378c - 410-560 478 ± 8 417.3 ± 13 200
Length of gametangium (µm) 285.5 ± 44.8 237.2c - 72-92 339 ± 10 318.7 ± 9.8 230-350
Diameter of gametangium (µm) 95.7 ± 17.4 82.4c - 260-330 129 ± 14 105.9 ± 2.7 70-180
Reference - - Djellouli (1987) Silva (1955) Hubbard and Garbary (2002) Matheson et al. (2014) Oh et al. (1987)

a Codium fragile in Korea; the subspecies was not mentioned.

b Minimum and maximum (n = 30).

c There was only one gametangia in these samples.

Table 3.
History of the Codium fragile spread along the Mediterranean North African coastline (Morocco, Algeria, Tunisia, and Libya)
Country Location Collecting date Depth (m) Identified as Reference
Morocco El Jebha 2000 - CF Riadi et al. (2000)
Mellila 1994 - CF Benhissoune et al. (2001)
Algeria El-Kala National Park 2004 1-60 CFT Belbacha et al. (2007)
Habibas Islands 2005 1-13 CF Sartoretto et al. (2008)
Tunisia Lagoon of Bizerte 1985 1 CF Djellouli (1987)
Gulf of Tunis 2000 32-51 CF Jarboui et al. (2005)
Ariana (Raoued, Gammarth); Ben Arous (Rades, Ezzahra, Hammam lif, Hammam chatt) 2005 - CF El Ati-Hellal et al. (2005)
Bizerte (Cap Zbib, Rafraf) 2005-2006 10 CF Zerzeri et al. (2010)
Sfax (Tidal flat of Nakta) 2007 - CF Gargouri-Ben Ayed et al. (2007)
Bizerte, Gammart, Korbous 2007-2009 1.5 CF Shili et al. (2010)
Chott-Mariem 2010 0-5 CFF Sghaier et al. (2016)
Lagoon of Tunis 2010-2011 - CFT Shili et al. (2014)
Gulf of Gabes 2013 - CF Hattour and Ben Mustapha (2013)
Libya El-Kouf National Park 1984 - CFF Nizamuddin (1991)

CF, Codium fragile; CFT, Codium fragile subsp. tomentosoides; CFF, Codium fragile subsp. fragile.


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