alexa Feeding Habits of Two Sympatric Rocket Frogs (Genus Ptychadena) in a Forest Remnant of Southern-Central Ivory Coast, West Africa | OMICS International
ISSN: 2161-0983
Entomology, Ornithology & Herpetology: Current Research

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Feeding Habits of Two Sympatric Rocket Frogs (Genus Ptychadena) in a Forest Remnant of Southern-Central Ivory Coast, West Africa

Jean Christophe Béhibro Yao N’Gatta Konan1, N’Goran Germain Kouamé2*, Akoua Michèle Kouamé1, Abouo Béatrice Adepo-Gourène1 and Mark-Oliver Rödel3

1Nangui Abrogoua University, Pôle de Recherche en Pêche et Aquaculture, UFR-SN, 02 BP 801, Abidjan 02, Côte d´Ivoire

2Jean Lorougnon Guédé University, UFR-Environment, Department of Biology and Animal Physiology, Daloa, BP 150, Côte d´Ivoire

3Museum of Natural Science, Leibniz Institute for Evolution and Biodiversity Science, Invalidenstrasse 43, 10115 Berlin, Germany

*Corresponding Author:
N’Goran Germain Kouamé
Jean Lorougnon Guédé University
UFR-Environment, Department of Biology and Animal Physiology
Daloa, BP 150, Côte d´Ivoire
Tel: +22507229455
E-mail: [email protected]

Received date: April 01, 2016; Accepted date: April 25, 2016; Published date: May 07, 2016

Citation: Konan JCBYN, Kouamé NG, Kouamé AM, Gourène ABA, Rödel MO (2016) Feeding Habits of Two Sympatric Rocket Frogs (Genus Ptychadena) in a Forest Remnant of Southern-Central Ivory Coast, West Africa. Entomol Ornithol Herpetol 5:176. doi: 10.4172/2161-0983.1000176

Copyright: © 2016 Konan JCBYN, et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

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Abstract

The decline of tropical amphibian species calls for studies on their biology and ecology, in order to understand their role in the respective ecosystems. We studied the diet of Ptychadena oxyrhynchus and P. longirostris, two rocket frogs co-occurring along dirt roads with puddles in the Azagny National Park, southern-central Ivory Coast. Stomach contents of 62 individuals of P. oxyrhynchus and 75 specimens of P. longirostris were obtained using the stomach-flushing method. The diet of both species was essentially characterized by various terrestrial invertebrates (predominantly insects) and both species can be considered opportunistic feeders. The presence of tadpoles in the stomach of a female P. longirostris indicates that this species may occasionally prey on aquatic food items as well. The large overlap in prey between both study species can be taken as a hint that competition for food does not play a major role between them. An unexpected observation was the proportion of plant fragments in the diet of our frogs. However, it remains unknown if they devoured plant deliberately or not. Future research should investigate this question.

Keywords

Amphibians; Azagny National Park; Prey composition; Ptychadena longirostris; P. oxyrhynchus; Upper Guinea

Introduction

Currently, 16 rocket frog species, genus Ptychadena Boulenger, 1917, family Ptychadenidae Dubois, 1987, are known to occur in West Africa [1]. Species of this sub-Saharan genus are widespread in various habitats ranging from different savannahs and grasslands, different forest ecosystems, lowland to mountainous habitats and even occur in urban areas [2-7]. Taxonomic determination of some of these species is sometimes difficult [2,8]. However, up to 14 Ptychadena species have been recorded from Ivory Coast [1].

Ptychadena oxyrhynchus and P. longirostris are two species easily distinguishable from other congeners and both are common in West Africa [2]. Whereas P. oxyrhynchus is predominately a savannah species, P. longirostris is a forest dweller [2,3]. They are widespread in Ivory Coast and meet in the savannah-forest ecotone and in degraded parts of rainforests [2-3,5,9-11]. Both species have been reported to live in sympatry in some forest remnants of south-eastern Ivory Coast [6,12], south-western Ghana [13] and south-western Nigeria [14]. However, despite the numerous publications recording both species [2,13-18] we know only little about their biology. Apart from the reproductive biology, the diet of frogs may help to better understand their biology [19].

Ptychadena oxyrhynchus has been the object of a few ecological studies dealing with reproduction and population dynamics [20], as well as with diet [21]. In contrast, neither data are available for P. longirostris. An area where Ptychadena oxyrhynchus and P. longirostris co-occur is the Azagny National Park (ANP), southern-central Ivory Coast, where the species are found along dirt roads with puddles. We herein compare the prey composition of both species in this secondary rainforest.

Materials and Method

Study site

The Azagny National Park (ANP; 5.15°-5.28° N; 4.78°-4.95° W, 1-100 m a.s.l.) comprises 21,850 ha of coastal rain forest, located in the department of Grand-Lahou, southern-central Ivory Coast (Figure 1). The mean annual temperature is 26°C; the mean annual precipitation 1,664 mm [22]. The equatorial climate includes a long rainy season from April to mid-July, followed by a short dry season from mid-July to mid-September. A shorter rainy season extends from mid-September to November and the long dry season lasts from December to April. Swamp-forests cover two-thirds of the park. Lauginie [23] provided an overview concerning the vegetation of the ANP.

entomology-ornithology-herpetology-Geographical-position

Figure 1: Geographical position of the Azagny National Park (red star) in southern-central Ivory Coast. The inset figure indicates the position of Ivory Coast on the African continent. The dark green areas represent original forest cover. Modified from Arinor et al. [24].

Target species

Ptychadena oxyrhynchus is medium-sized and has extremely robust and long hind legs [2]. The basic dorsal color is beige with an olive tinge; the top of the snout is usually lighter colored. The dorsal ridges are well-defined (Figure 2a). Ptychadena longirostris (Figure 2b), likewise have very pointed heads, and long hind limbs. Their bright brown to sometimes yellowish dorsal coloration may be uniform or showing an ill-defined darker pattern. In contrast to P. oxyrhynchus the dorsal ridges are less well-defined [2,3].

entomology-ornithology-herpetology-Ptychadena-oxyrhynchus

Figure 2: Ptychadena oxyrhynchus (a) and P. longirostris (b) from Azagny National Park.

In ANP, P. oxyrhynchus and Ptychadena longirostris co-occur along dirt roads with numerous temporary water bodies, i.e., puddles of different size.

Prey analyses

Frogs were captured from 28 April to 4 November 2015 with a dip-net along the dirt road puddles, between 22:30-00:30 h GMT. Detailed information concerning anuran survey methods in ANP are provided by Kouamé et al. [25] and Konan et al. [26]. After capture, frogs were sexed and their Snout-Urostyle-Length (SUL) measured with a dial caliper (accuracy ± 0.5 mm). Stomach contents of adult individuals were recorded by stomach flushing into a fine-meshed net [27,28], from which prey items were recovered with forceps, preserved in 70% ethanol and thereafter analyzed in the laboratory with the aid of a dissecting microscope. Frogs were released at their sites of capture. Invertebrates were determined to order level in insects, as insect larvae, spiders (Arachnida), woodlice (Isopoda), earthworms (Annelida) and unidentified preys (other prey) [29-31]. Further prey items were tadpoles and plants fragments. We determined and counted the prey items for each individual. For a quantitative analysis of the frogs’ diets, we counted the number of individuals that contained one type of prey and calculated the frequency of occurrence (Fi%) of the different prey categories as the percentage of individuals containing a particular type of prey using the following formula [32,33]: Fi=100ni/n, where Fi=frequency of occurrence of the i food item in the sample, ni=number of individuals in which the i item was found, and n=total number of individuals with food in the sample.

The index of shared prey Cλ according to Morisita [34] modified from Horn [35] was used to calculate the prey overlap between P. oxyrhynchus and P. longirostris: Where: S=the total number of prey items; xi=the proportion of prey i consumed by the species x; yi=the proportion of prey i consumed by the species y.

Cλ would be 0 if the prey composition in both species was entirely different; Cλ would be 1 if the prey of both species was identical. A Cλ value smaller than 0.6 represents a significantly different trophic niche [36]. Other tests were performed with Statistica Version 7.1.

Results

We captured 77 P. oxyrhynchus and 88 P. longirostris. Fifteen P. oxyrhynchus (19.5%) and 13 P. longirostris (14.8%) had empty stomachs. Prey items were obtained from 62 P. oxyrhynchus (males: N=25; females: N=37) and 75 P. longirostris (males: N=60; females: N=15; Table 1).

  Ptychadena oxyrhynchus Ptychadena longirostris
  &? (N=25) ? (N=37) ? (N=60)   ? (N=15)
Prey category n s n s n s   n s
Annelida - - - - 0 0   2 2
Arachnida 4 2 15 7 43 24   0 0
Blattodae 39 13 6 2 27 15   0 0
Coleoptera 10 5 9 7 7 5   3 3
Hymenoptera 19 9 6 2 54 18   2 2
Insect larvae 14 12 16 11 11 5   0 0
Isopoda - - - - 6 3   3 1
Isoptera - - - - 23 8   0 0
Lepidoptera 4 3 4 2 3 3   5 5
Orthoptera 25 13 17 8 24 20   6 4
Other prey 2 2 2 2 8 8   0 0
Plant fragments 5 5 1 1 5 5   3 3
Tadpole - - - - 0 0   1 1

Table 1: Number of prey items (n) in specimens (s) of Ptychadena oxyrhynchus and Ptychadena longirostris (N=samplesize).

SUL in male P. oxyrhynchus ranged between 46.0 and 60.9 mm (mean ± sd: 53.4 ± 4.3 mm), while females’ SUL varied from 58.0 to 65.1 mm (62.1 ± 2.3 mm). Respective SUL values in P. longirostris males was 37.6 to 48.7 mm (45.7 ± 2.4 mm), in females 54.0 to 58.5 mm (56.1 ± 1.6 mm). The pairwise comparisons with Bonferroni adjusted p-values showed that females of P. oxyrhynchus were significantly larger than those of conspecific males (p<0.001), males of P. longirostris (p<0.001), and female P. longirostris (p<0.001). Male P. oxyrhynchus also differed in size from male (p<0.001) and female P. longirostris (p=0.025). Female P. longirostris were significantly larger than conspecific males (p<0.001).

We identified nine prey categories consumed by P. oxyrhynchus and 13 in P. longirostris (Table 1). Male and female P. oxyrhynchus consumed prey items of the same categories. In contrast we found worms and a tadpole only in female P. longirostris, while only males consumed arachnids.

In Table 2 we summarize the percentage of the different prey categories (Fi%) consumed by both species. Insects represented the bulk of both species’ diet. Insect categories were represented by Blattodea, Coleoptera, Hymenoptera, and Insect larvae, Isoptera, Lepidoptera and Orthoptera. Five prey categories (coleopterans, hymenopterans, lepidopterans, orthopterans and plant fragments) dominated the diet of all frogs (Tables 1 and 2). Female P. oxyrhynchus mainly fed on small cockroaches (growing up to 2 cm in length), orthopterans (grasshoppers), insect larvae and hymenopterans (predominantly ants) while males of this species mainly preyed on insect larvae, grasshoppers, beetles and plant fragments. Female P. longirostris mainly fed on butterflies, grasshoppers, beetles, and plant fragments; the dominant prey of males consisted of spiders, grasshoppers, ants and cockroaches.

  Ptychadena oxyrhynchus Ptychadena longirotris
  ? (N=25) ? (N=37) ? (N=60) ? (N=15)
Prey category Fi% Fi% Fi% Fi%
Annelida - - 0 13.3
Arachnida 8 18.9 40 0
Blattodea 52 5.4 25 0
Coleoptera 20 18.9 8.3 20
Hymenoptera 36 5.4 30 13.3
Insect larvae 48 29.7 8.3 0
Isopoda - - 5 6.7
Isoptera - - 13.3 0
Lepidoptera 12 5.4 5 33.3
Orthoptera 52 21.6 33.3 26.7
Other prey 8 5.4 13.3 0
Plant fragments 20 2.7 8.3 20
Tadpole - - 0 6.7

Table 2: Frequency of prey categories consumed by female and male Ptychadena oxyrhynchus and P. longirostris in ANP (N=sample size).

The prey composition did not significantly overlap between P. oxyrhynchus and P. longirostris (Cλ=0.78). However, the index of shared prey between males and females was significantly different in P. oxyrhynchus (Cλ=0.52) and in P. longirostris was (Cλ=0.091).

Discussion

Not surprisingly the diet of P. oxyrhynchus and P. longirostris in ANP mainly consisted of arthropods (predominantly diverse insect orders). This is consistent with the diet of other congeners in Ivory Coast, e.g. P. mascareniensis and P. pumilio [37]. In contrast to our data, the diet of P. oxyrhynchus from a forest-savannah ecotone in central Ivory Coast was less diverse and mainly consisted of spiders and orthopterans [21]. These differences might be due to differing prey availability and/or other environmental conditions [37,38].

The large prey overlap between both Ptychadena species in ANP may be taken as a hint that competition for food does not play a major role between these two anurans. A similar observation for two sympatric forest frogs from the genus Phrynobatrachus has been reported in swampy parts of an Ivorian eastern forest remnant [39]. However, the values of Cλ beneath the threshold of 0.6 indicate that some intraspecific competitions for food could occur between males and females of respective species.

From a qualitative point of view, males and females of P. oxyrhynchus consumed similar prey, whereas in P. longirostris some differences in prey consumptions were found between sexes. In Malagasy P. mascareniensis the diet between males and females was similar [40], but it differed between sexes in Ivory Coast [37]. The later observation was attributed to a significant sexual dimorphism, with females being much larger than males. Regardless of sex the generalistic [41,42] diet of P. oxyrhynchusand P. longirostris was essentially characterized by terrestrial invertebrates (Tables 1 and 2), being in accordance with the terrestrial life of both species. However, the presence of a strictly aquatic prey, i.e., tadpoles, in the prey of a female P. longirostris indicates that this species also feeds in water. Many tadpoles are usually found in the road puddles, where they surface from time to time to breathe atmospheric oxygen. As only one P. longirostris specimen has fed on them, this seems to be a rather infrequent prey. The prey spectrum of P. longirostris indicates that this species is an opportunistic feeder. The fact that females did not consume isopterans (and spiders) and preyed on much less hymenopterans than conspecific males could be due to either their low number (N=15), which was four times inferior than captured males (N=60), or the significantly different trophic niche of both sexes (Cλ=0.091).

An unexpected observation was the proportion of plant fragments in the diet of our studied frogs. Although the ingestion of plants is commonly reported in many anuran species [37,39,42-44], it is still unknown if frogs devour plant deliberately or not. Future research should investigate this question.

Acknowledgement

We are grateful to the “Office Ivoirien des Parcs et Réserves” and the “Direction des Eaux et Forêts de Côte d’Ivoire” for the access permit to Azagny National Park. The research permission was issued by the “Ministère de l’Enseignement Supérieur et de la Recherche Scientifique”, Republic of Ivory Coast. We are indebted to Kwadjo Eric Koffi to help us to identify preys in his Laboratory of Entomology at the Nangui Abrogoua University. We also thank Nakpobessaga Soro for his companionship and help.

References

Keywords

Amphibians; Azagny National Park; Prey composition; Ptychadena longirostris; P. oxyrhynchus; Upper Guinea

Introduction

Currently, 16 rocket frog species, genus Ptychadena Boulenger, 1917, family Ptychadenidae Dubois, 1987, are known to occur in West Africa [1]. Species of this sub-Saharan genus are widespread in various habitats ranging from different savannahs and grasslands, different forest ecosystems, lowland to mountainous habitats and even occur in urban areas [2-7]. Taxonomic determination of some of these species is sometimes difficult [2,8]. However, up to 14 Ptychadena species have been recorded from Ivory Coast [1].

Ptychadena oxyrhynchus and P. longirostris are two species easily distinguishable from other congeners and both are common in West Africa [2]. Whereas P. oxyrhynchus is predominately a savannah species, P. longirostris is a forest dweller [2,3]. They are widespread in Ivory Coast and meet in the savannah-forest ecotone and in degraded parts of rainforests [2-3,5,9-11]. Both species have been reported to live in sympatry in some forest remnants of south-eastern Ivory Coast [6,12], south-western Ghana [13] and south-western Nigeria [14]. However, despite the numerous publications recording both species [2,13-18] we know only little about their biology. Apart from the reproductive biology, the diet of frogs may help to better understand their biology [19].

Ptychadena oxyrhynchus has been the object of a few ecological studies dealing with reproduction and population dynamics [20], as well as with diet [21]. In contrast, neither data are available for P. longirostris. An area where Ptychadena oxyrhynchus and P. longirostris co-occur is the Azagny National Park (ANP), southern-central Ivory Coast, where the species are found along dirt roads with puddles. We herein compare the prey composition of both species in this secondary rainforest.

Materials and Method

Study site

The Azagny National Park (ANP; 5.15°-5.28° N; 4.78°-4.95° W, 1-100 m a.s.l.) comprises 21,850 ha of coastal rain forest, located in the department of Grand-Lahou, southern-central Ivory Coast (Figure 1). The mean annual temperature is 26°C; the mean annual precipitation 1,664 mm [22]. The equatorial climate includes a long rainy season from April to mid-July, followed by a short dry season from mid-July to mid-September. A shorter rainy season extends from mid-September to November and the long dry season lasts from December to April. Swamp-forests cover two-thirds of the park. Lauginie [23] provided an overview concerning the vegetation of the ANP.

entomology-ornithology-herpetology-Geographical-position

Figure 1: Geographical position of the Azagny National Park (red star) in southern-central Ivory Coast. The inset figure indicates the position of Ivory Coast on the African continent. The dark green areas represent original forest cover. Modified from Arinor et al. [24].

Target species

Ptychadena oxyrhynchus is medium-sized and has extremely robust and long hind legs [2]. The basic dorsal color is beige with an olive tinge; the top of the snout is usually lighter colored. The dorsal ridges are well-defined (Figure 2a). Ptychadena longirostris (Figure 2b), likewise have very pointed heads, and long hind limbs. Their bright brown to sometimes yellowish dorsal coloration may be uniform or showing an ill-defined darker pattern. In contrast to P. oxyrhynchus the dorsal ridges are less well-defined [2,3].

entomology-ornithology-herpetology-Ptychadena-oxyrhynchus

Figure 2: Ptychadena oxyrhynchus (a) and P. longirostris (b) from Azagny National Park.

In ANP, P. oxyrhynchus and Ptychadena longirostris co-occur along dirt roads with numerous temporary water bodies, i.e., puddles of different size.

Prey analyses

Frogs were captured from 28 April to 4 November 2015 with a dip-net along the dirt road puddles, between 22:30-00:30 h GMT. Detailed information concerning anuran survey methods in ANP are provided by Kouamé et al. [25] and Konan et al. [26]. After capture, frogs were sexed and their Snout-Urostyle-Length (SUL) measured with a dial caliper (accuracy ± 0.5 mm). Stomach contents of adult individuals were recorded by stomach flushing into a fine-meshed net [27,28], from which prey items were recovered with forceps, preserved in 70% ethanol and thereafter analyzed in the laboratory with the aid of a dissecting microscope. Frogs were released at their sites of capture. Invertebrates were determined to order level in insects, as insect larvae, spiders (Arachnida), woodlice (Isopoda), earthworms (Annelida) and unidentified preys (other prey) [29-31]. Further prey items were tadpoles and plants fragments. We determined and counted the prey items for each individual. For a quantitative analysis of the frogs’ diets, we counted the number of individuals that contained one type of prey and calculated the frequency of occurrence (Fi%) of the different prey categories as the percentage of individuals containing a particular type of prey using the following formula [32,33]: Fi=100ni/n, where Fi=frequency of occurrence of the i food item in the sample, ni=number of individuals in which the i item was found, and n=total number of individuals with food in the sample.

The index of shared prey Cλ according to Morisita [34] modified from Horn [35] was used to calculate the prey overlap between P. oxyrhynchus and P. longirostris: Where: S=the total number of prey items; xi=the proportion of prey i consumed by the species x; yi=the proportion of prey i consumed by the species y.

Cλ would be 0 if the prey composition in both species was entirely different; Cλ would be 1 if the prey of both species was identical. A Cλ value smaller than 0.6 represents a significantly different trophic niche [36]. Other tests were performed with Statistica Version 7.1.

Results

We captured 77 P. oxyrhynchus and 88 P. longirostris. Fifteen P. oxyrhynchus (19.5%) and 13 P. longirostris (14.8%) had empty stomachs. Prey items were obtained from 62 P. oxyrhynchus (males: N=25; females: N=37) and 75 P. longirostris (males: N=60; females: N=15; Table 1).

  Ptychadena oxyrhynchus Ptychadena longirostris
  &? (N=25) ? (N=37) ? (N=60)   ? (N=15)
Prey category n s n s n s   n s
Annelida - - - - 0 0   2 2
Arachnida 4 2 15 7 43 24   0 0
Blattodae 39 13 6 2 27 15   0 0
Coleoptera 10 5 9 7 7 5   3 3
Hymenoptera 19 9 6 2 54 18   2 2
Insect larvae 14 12 16 11 11 5   0 0
Isopoda - - - - 6 3   3 1
Isoptera - - - - 23 8   0 0
Lepidoptera 4 3 4 2 3 3   5 5
Orthoptera 25 13 17 8 24 20   6 4
Other prey 2 2 2 2 8 8   0 0
Plant fragments 5 5 1 1 5 5   3 3
Tadpole - - - - 0 0   1 1

Table 1: Number of prey items (n) in specimens (s) of Ptychadena oxyrhynchus and Ptychadena longirostris (N=samplesize).

SUL in male P. oxyrhynchus ranged between 46.0 and 60.9 mm (mean ± sd: 53.4 ± 4.3 mm), while females’ SUL varied from 58.0 to 65.1 mm (62.1 ± 2.3 mm). Respective SUL values in P. longirostris males was 37.6 to 48.7 mm (45.7 ± 2.4 mm), in females 54.0 to 58.5 mm (56.1 ± 1.6 mm). The pairwise comparisons with Bonferroni adjusted p-values showed that females of P. oxyrhynchus were significantly larger than those of conspecific males (p<0.001), males of P. longirostris (p<0.001), and female P. longirostris (p<0.001). Male P. oxyrhynchus also differed in size from male (p<0.001) and female P. longirostris (p=0.025). Female P. longirostris were significantly larger than conspecific males (p<0.001).

We identified nine prey categories consumed by P. oxyrhynchus and 13 in P. longirostris (Table 1). Male and female P. oxyrhynchus consumed prey items of the same categories. In contrast we found worms and a tadpole only in female P. longirostris, while only males consumed arachnids.

In Table 2 we summarize the percentage of the different prey categories (Fi%) consumed by both species. Insects represented the bulk of both species’ diet. Insect categories were represented by Blattodea, Coleoptera, Hymenoptera, and Insect larvae, Isoptera, Lepidoptera and Orthoptera. Five prey categories (coleopterans, hymenopterans, lepidopterans, orthopterans and plant fragments) dominated the diet of all frogs (Tables 1 and 2). Female P. oxyrhynchus mainly fed on small cockroaches (growing up to 2 cm in length), orthopterans (grasshoppers), insect larvae and hymenopterans (predominantly ants) while males of this species mainly preyed on insect larvae, grasshoppers, beetles and plant fragments. Female P. longirostris mainly fed on butterflies, grasshoppers, beetles, and plant fragments; the dominant prey of males consisted of spiders, grasshoppers, ants and cockroaches.

  Ptychadena oxyrhynchus Ptychadena longirotris
  ? (N=25) ? (N=37) ? (N=60) ? (N=15)
Prey category Fi% Fi% Fi% Fi%
Annelida - - 0 13.3
Arachnida 8 18.9 40 0
Blattodea 52 5.4 25 0
Coleoptera 20 18.9 8.3 20
Hymenoptera 36 5.4 30 13.3
Insect larvae 48 29.7 8.3 0
Isopoda - - 5 6.7
Isoptera - - 13.3 0
Lepidoptera 12 5.4 5 33.3
Orthoptera 52 21.6 33.3 26.7
Other prey 8 5.4 13.3 0
Plant fragments 20 2.7 8.3 20
Tadpole - - 0 6.7

Table 2: Frequency of prey categories consumed by female and male Ptychadena oxyrhynchus and P. longirostris in ANP (N=sample size).

The prey composition did not significantly overlap between P. oxyrhynchus and P. longirostris (Cλ=0.78). However, the index of shared prey between males and females was significantly different in P. oxyrhynchus (Cλ=0.52) and in P. longirostris was (Cλ=0.091).

Discussion

Not surprisingly the diet of P. oxyrhynchus and P. longirostris in ANP mainly consisted of arthropods (predominantly diverse insect orders). This is consistent with the diet of other congeners in Ivory Coast, e.g. P. mascareniensis and P. pumilio [37]. In contrast to our data, the diet of P. oxyrhynchus from a forest-savannah ecotone in central Ivory Coast was less diverse and mainly consisted of spiders and orthopterans [21]. These differences might be due to differing prey availability and/or other environmental conditions [37,38].

The large prey overlap between both Ptychadena species in ANP may be taken as a hint that competition for food does not play a major role between these two anurans. A similar observation for two sympatric forest frogs from the genus Phrynobatrachus has been reported in swampy parts of an Ivorian eastern forest remnant [39]. However, the values of Cλ beneath the threshold of 0.6 indicate that some intraspecific competitions for food could occur between males and females of respective species.

From a qualitative point of view, males and females of P. oxyrhynchus consumed similar prey, whereas in P. longirostris some differences in prey consumptions were found between sexes. In Malagasy P. mascareniensis the diet between males and females was similar [40], but it differed between sexes in Ivory Coast [37]. The later observation was attributed to a significant sexual dimorphism, with females being much larger than males. Regardless of sex the generalistic [41,42] diet of P. oxyrhynchusand P. longirostris was essentially characterized by terrestrial invertebrates (Tables 1 and 2), being in accordance with the terrestrial life of both species. However, the presence of a strictly aquatic prey, i.e., tadpoles, in the prey of a female P. longirostris indicates that this species also feeds in water. Many tadpoles are usually found in the road puddles, where they surface from time to time to breathe atmospheric oxygen. As only one P. longirostris specimen has fed on them, this seems to be a rather infrequent prey. The prey spectrum of P. longirostris indicates that this species is an opportunistic feeder. The fact that females did not consume isopterans (and spiders) and preyed on much less hymenopterans than conspecific males could be due to either their low number (N=15), which was four times inferior than captured males (N=60), or the significantly different trophic niche of both sexes (Cλ=0.091).

An unexpected observation was the proportion of plant fragments in the diet of our studied frogs. Although the ingestion of plants is commonly reported in many anuran species [37,39,42-44], it is still unknown if frogs devour plant deliberately or not. Future research should investigate this question.

Acknowledgement

We are grateful to the “Office Ivoirien des Parcs et Réserves” and the “Direction des Eaux et Forêts de Côte d’Ivoire” for the access permit to Azagny National Park. The research permission was issued by the “Ministère de l’Enseignement Supérieur et de la Recherche Scientifique”, Republic of Ivory Coast. We are indebted to Kwadjo Eric Koffi to help us to identify preys in his Laboratory of Entomology at the Nangui Abrogoua University. We also thank Nakpobessaga Soro for his companionship and help.

References

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  1. Hildur Mendez
    Posted on Sep 20 2016 at 2:16 pm
    The prey composition of two sympatric species of Ptychadena is analyzed. The general methodology to obtain data is sound and the paper well written.
 

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