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Acta Herpetologica 7(1): 105-110, 2012

Long term observations on the alimentation of wild Eastern 
Greek Tortoises Testudo graeca ibera (Reptilia: Testudines: 
Testudinidae) in Dobrogea, Romania

Alexandru Iftime1, Oana Iftime2

1 “Grigore Antipa” National Museum of Natural History, Kiseleff Bvd. no. 1, Bucharest, Romania. Cor-
responding author. E-mail: alexandru_iftime@yahoo.com
2 University of Bucharest, Faculty of Biology, Department of Genetics, Aleea Portocalelor 1-3, s6, 
Bucharest, Romania. 

Submitted on: 2011, 25th September; revised on 15th December; accepted on 2012, 19th January.

Abstract. The wild diet of Testudo graeca ibera in Dobrogea, Romania is investigated 
by direct observation. A clear predominance (over 95%) of plant matter is noticed, 
with 25 plant species consumed. Moreover the ingestion of animal matter (carrion) as 
well as calcareous earth was observed.

Keywords. Testudo graeca, alimentation, long term observations

The Spur-thighed Tortoise, Testudo graeca, including its eastern subspecies, T. g. ibera, 
is well known as a terrarium companion and also as a protected species. Thus, numerous 
recommendation for the captive diet of T. graeca are available, and also data showing it as 
a generalist vegetarian that also takes occasional small quantities of animal food, i.e. inver-
tebrates and carrion (Buskirk et al., 2001). There are, however, few data about the feeding 
habits of the wild T. graeca ibera populations in the Balkans and Romania (beyond gen-
eral data such as those of, e.g., Fuhn and Vancea, 1961). There is greater knowledge on the 
populations in Spain (e.g. Cobo and Andreu, 1988; Andreu et al., 2000; Díaz-Paniagua and 
Andreu, 2009), the Caucasus (Bannikov et al., 1977) or North Africa (El Mouden et al., 
2006; Rouag et al., 2008). The similar species T. hermanni is also better known, especially 
as regards the Western populations (e.g. Nougarède, 1998; Soler et al., 2007; Mazzotti et al., 
2007; Muñoz et al., 2009; Budó et al., 2009). Greater knowledge on the type of food con-
sumed is an addittive value for the conservation policies concerning this vulnerable species. 
This knowledge allows to adjust the care of captive bred populations to the natural condi-
tion of the species (cf. Willemsen et al., 2002) and to manage wild populations.

The natural diet of Testudo spp. can be investigated into by two methods: direct 
observation (e.g. Lagarde et al., 2003) and/or the analysis of faecal matter (e.g. Cobo 
and Andreu, 1988; El Mouden et al., 2006, Díaz-Paniagua and Andreu, 2009; Munoz et 



106 A. Iftime and O. Iftime

al., 2009). We have chosen the first method. More than 500 specimens of T. graeca were 
observed in the wild, from March to October, in Dobrogea (Romania), over a period of 
10 years (2000-2010). Most of these were observed in a forest-steppe biotope, composed 
of open, mainly oak and hornbeam forest, with an understory of dogwood (Cornus), haw-
thorn (Crataegus) dog rose (Rosa) etc., and steppe patches dominated by Stipa. When 
the tortoises were observed feeding, notes and pictures what they consumed were taken, 
allowing, in most cases, identification of the food articles.

The alimentation appears to be predominantly vegetarian; 96,5% of the cases in which 
T. greaca was observed feeding involved vegetal matter. The 25 plant species observed to 
be consumed are presented in Table 1. 

We noticed a predilection for the ingestion of young leaves, especially those of Ficaria, 
Taraxacum, Lotus, Trifolium, Medicago, Fragaria, Polygonum, Poaceae, Sonchus, Teucrium, 

Table 1. Plants consumed by T. graeca, with note of the ingested part.

Class Order Family Species 
Consumed 

part
Frequency of 
consumption

Magnoliopsida Ranunculales Ranunculaceae Ranunculus ficaria 
Leaves, 
flowers

Low (1-5 %)

Asterales Asteraceae Taraxacum officinale 
Leaves, 
flowers

Moderate (5-10%)

Sonchus sp. Leaves Low (1-5 %)
Crepis sp. Leaves Low (1-5 %)

Artemisia sp. (A. pontica?) Leaves Low (1-5 %)
Fabales Fabaceae Lotus corniculatus Leaves High (>10%)

Trifolium sp. 
Leaves, 
flowers

High (>10%)

Medicago sp. Leaves Moderate (5-10%)
Vitales Vitaceae Vitis vinifera Leaves Low (1-5 %)
Rosales Rosaceae Fragaria sp. Leaves Moderate (5-10%)

Rosa sp. Leaves Low (1-5 %)
Pyrus sp. Fruit Low (1-5 %)

Prunus sp. Fruit Low (1-5 %)
Lamiales Lamiaceae Teucrium polium Leaves Moderate (5-10%)

Gentianales Rubiaceae Galium sp. Leaves Low (1-5 %)
Caryophyllales Amaranthaceae Atriplex sp. Leaves Low (1-5 %)

Amaranthus sp. Leaves Low (1-5 %)
Polygonaceae Polygonum sp. Leaves Low (1-5 %)

Cornales Cornaceae Cornus mas Fruit Low (1-5 %)

Liliopsida Poales Poaceae
Festuca arundinacea,  

F. sp. 
Leaves Low (1-5 %)

Poa sp. Leaves Moderate (5-10%)
Dactylis glomerata Leaves Low (1-5 %)
Dichanthium sp. Leaves Low (1-5 %)

. Leaves Moderate (5-10%)



107Diet of Testudo graeca in Romania

and less commonly those of Artemisia, Rosa, Rubiaceae, Chenopodiaceae; very young 
plants of Lamiaceae and Apiaceae were also consumed. Fruit consumption is sporadic: 
Cornus mas, Pyrus sp. (Fig. 1), Prunus sp. Flowers/inflorescences (Taraxacum, Fabaceae, 
Ranunculaceae) are generally ingested together with leaves of the same plant. 

As compared to the diet observed for T. graeca in other regions, we can notice that 
plants pertaining to the families Asteraceae, Fabaceae and Poaceae are frequently consumed, 
which is in accord with the data of Bannikov et al. (1977), Cobo and Andreu (1988), El 
Mouden et al. (2006) and Díaz-Paniagua and Andreu (2009). Even at the genus level, we can 
notice that Lotus and Medicago, staples in the alimentation of Spanish T. graeca (Díaz-Pania-
gua and Andreu, 2009) are also frequently consumed by Romanian specimens. The recur-
rence of these plant families as the favourite food of T. graeca – despite the quite different 
environment in which the observations took place, especially from the Iberian and North 
African data – supports the idea that this species is selective as regards the plant species it 
consumes (cf. El Mouden et al., 2006). Lamiaceae and Rosaceae are also consumed with 
moderate frequency, whereas plants pertaining to other families are less commonly taken.

T. graeca and other chelonians may ingest toxic plants species as anti-helminthics, 
(see the discussion in El Mouden et al., 2006). On the basis of our observations, among 
the plants ingested, only Artemisia cf. pontica (the Roman Wormwood, containing thujone 

Fig. 1. T. graeca consuming Pyrus fruit (wild pear). Greci, Tulcea county, Romania. Photo by Oana Iftime.



108 A. Iftime and O. Iftime

Fig. 2. T. graeca trying to eat from dead wild cat. Cheia, Constanţa county, Romania. Photo by Alexandru 
Iftime.

Fig. 3. T. graeca having consumed friable limestone, with limestone dust around snout, Urluia, Constanţa 
county, Romania. Photo by Alexandru Iftime.



109Diet of Testudo graeca in Romania

and sometimes used by herbalists as a vermifuge – hence its name – despite its toxicity to 
man in large doses) could fit into the cathegory of anti-helminthics (Table 1). 

Occasional intake of animal food, i.e. carrion, was also noticed. Specimens were 
observed feeding on a dead wild cat (Fig. 2), as well as on remains of dead birds, bovines 
and ovines, leftovers from the prey of jackals and/or feral dogs. Overall, the carrion (and 
generally animal food) intake seems far less marked than in other studies (e.g. Andreu et 
al., 2000), but we cannot exclude that this could be due to a method bias since through 
direct observation it is more difficult to find animals feeding upon carrion.

Geophagy in T. graeca is mentioned by Fuhn (1969); Török (2001) records the inges-
tion of kaolin (china clay). We have also noticed the ingestion of earth, especially clays 
containing limestone, or even degraded, friable limestone rock (Fig. 3). This behaviour 
was mostly noticed in juveniles and sub-adults and should probably be conected to their 
special mineral needs (mostly calcium) – cf. Liesegang et al. (2007). Ingestion of non-cal-
careous pebbles (cf. Gagno and Alotto, 2010) was not observed by us. Coprophagy, which 
is mentioned by Fuhn and Vancea (1961), was not observed by us. 

Our data allows the conclusion that T. graeca is, as previously known, mainly a her-
bivore, quite selective in its choice of plant food, but it supplements its vegetal diet with 
animal protein and mineral intake, in minimal but probably necessary quantities. 

ACkNOWLEDGEMENTS

To Dr. G. Negrean (The Botanical Garden of Bucharest) and to Dr. M. Petrescu (ICEM Tul-
cea), for their kind support in the identification of plants.

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