The altitudinal gradient in diversity of dung beetles (Scarabaeidae) was studied in a Mediterranean mountain chain located in Central Anatolia to (i) determine if there are altitudinal differences between the main taxonomic groups, (ii) describe the seasonal variations in these assemblages and (iii) assess whether closed habitats influence dung beetle diversity differentially at different altitudes. Beetles were collected throughout a year at 14 localities between 469 and 1810 m above sea level in three different types of habitats. Dung beetle assemblages at 400 to 1200 m did not vary greatly in species richness, abundance and biomass. However, they varied in composition, with the assemblages dominated by species of Scarabaeinae up to 900 m, whereas in the mid-mountain assemblages (from 900 m to 1600 m) the numbers of species of Aphodiinae was higher. The decline with increase in altitude in richness, abundance and biomass of both small and large species of Scarabaeinae up to 1500 m, together with the constancy of these parameters in the case of Aphodiinae, accounts for the changes in the composition from the lowland to mid-mountain localities. Unlike at other Mediterranean localities, the open/closed structure of the habitat only slightly influences these assemblages independently of altitude or season. The general seasonal pattern follows the classical Mediterranean bimodal pattern associated with summer drought, but the patterns are more complex when the seasonal responses of the different groups and at different localities are analysed separately. We propose that the interplay between local climatic conditions (mainly temperature) and evolutionary conserved species preferences accounts for both the current seasonal and altitudinal gradients and the changes in species composition in terms of Aphodiinae and Scarabaeinae.
Arbuscular mycorrhizal symbiosis is the most frequent and ancestral type of mycorrhizal symbiosis. It is estimated that at least 80% of terrestrial plant species are able to form a mutualistic relation with fungi. Consequently in the context of successful plant invasions, arbuscular mycorrhizal fungi may have a favourable if not a crucial role. The mycorrhizal status of 23 invasive species is reported here for the first time. This study also tested whether the intensity of mycorrhizal colonization of the roots of invasive species is related to that of the dominant species of invaded plant community. This is partly supported by our results when total percentages of mycorrhizal colonization were compared. In addition, the effect of habitat and community characteristics on the intensity of colonization of the roots of invasive species by arbuscular mycorrhizal fungi was tested and several significant correlations were revealed. At the among-species level, the total mycorrhizal colonization decreases and the relative arbuscular colonization increases in the roots of invasive species with increasing nitrogen availability in the habitat. Both these relations are significant after phylogenetic correction, which suggests this is an evolutionary adaptation. There are also negative correlations between the relative arbuscular colonization of invading species and the light and temperature demands of the species present in the community, and a positive correlation between the relative arbuscular colonization of the invaders and soil wetness. That all these relations are revealed at the within-species level possibly reflects differences among the habitats studied.
We used butterfly assemblages to evaluate the ecological value of habitat mosaics within garrigue ecosystems in Cyprus. To understand the importance of the local plant communities for Cypriot butterflies, five plots in each of two habitat types (grass-dominated or shrub-dominated) were surveyed weekly for a period of five months in order to assess the abundance, species richness and diversity of butterflies. A total of 810 butterflies of 16 species were recorded. Indices of butterfly diversity, calculated across the whole season, were similar between grassland and shrubland dominated mosaics. However, species richness of all butterflies was consistently higher in grassland dominated mosaics throughout the whole season. The peak abundance of all butterfly species occurred during mid-season (late April - early May), with similar numbers observed in both habitat types. However, a greater abundance was observed during early and late season in grassland patches. The abundance of endemic species (Maniola cypricola, Hipparchia cypriensis, Glaucopsyche paphos) peaked earlier in the season in shrubland patches, but was higher in grassland patches in late season. This difference in seasonal timing of endemic abundance was dominated by the seasonal dynamics of M. cypricola. These results suggest that, while garrigue is characterised by its shrub flora, management to maintain a mosaic of grassland and shrubland could act to maximise the abundance and richness of indicator species groups of conservation importance. and Özge Özden, David J. Hodgson.
A list of plant species documented over the past 25 years to exhibit Crassulacean Acid Metabolism (CAM) is presented. The list compiles all available information on these species including their growth habits, succulent parts, carbon isotope discrimination values, CAM types, CAM inducers, and CAM modifications.
Demodex agrarii sp. n., an extremely long-bodied inhabitant of cerumen and the sebaceous glands in the ears of the striped field mice, Apodemus agrarius, taken in Slovakia, is described as a new species from all developmental stages.
The European badger (Meles meles) and the red fox (Vulpes vulpes) are the two most common mesocarnivores in Hungary. The populations of both species are increasing. The badger has settled in various habitats in the last two decades, while the red fox can often be seen in urban habitats. Due to their wide tolerance of environmental conditions wildlife managers and conservation experts realized that both species have an important (predatory) role in many ecosystems. During the course of our research we examined the preferred locations of the den sites of the European badger and the red fox on the basis of set locations for both species in various areas across Hungary (badger: n = 142, fox: n = 113). Our aim was to find out whether there is a connection between these species’ habitat selection on a small scale (locally) and on a large scale (at countrywide level). Field data were collected in four hilly areas and four lowland areas in Hungary. Badgers preferred deciduous and coniferous forests, and rarely used open areas, whereas foxes did not seem to use either coniferous forests or open areas. In the case of both species the preferred locations of the den sites were sharply demarcated in coniferous forests.
The diet of the wood mouse (Apodemus sylvaticus) was investigated over an annual cycle in three biotopes of Kabylie of Djurdjura, differing in the structure of the vegetation and the anthropic action (oak forest, maquis and cultivated zone). The analysis of 140 stomach contents was restricted to three main components: seeds, vegetative parts of plants and arthropod remains, expressed in dry weight and percentages of occurrence. Five independent variables were considered: habitat, sex, sexual activity, season and age. In the three biotopes wood mouse was primarily granivorous, seeds occurring in 99.3% of the stomachs, for 91.5% of dry weight; seasonal variations were significant, with higher occurrence of seeds in winter and summer. Vegetative items (leaves, stems and flowers) were overall rather frequent (occurrence: 19.3%; dry weight: 4.0%), mainly in winter and spring, in the cultivated zone. Arthropods, mainly insects, were frequently preyed by adults (occurrence: 26.4%; dry weight: 4,4%), particularly in the forest. This diet from Mediterranean habitats is discussed by comparing it with previous data in the same biome and in the northern part of the range.
Hainan Eld’s deer (Cervus eldi hainanus) was once widely distributed in Hainan Island of China. With the rapid increase of human population and the fast expansion of agriculture in the recent 350 years of Chinese history, the habitat of the deer has been greatly reduced. Habitat loss and hunting have driven the deer to the verge of extinction. The last group of 26 deer was protected at Datian Nature Reserve (DNR) which was founded in 1976. The habitat at present remains only 13.14 km2 at DNR, just 4.38–6.57% of that of the 1950’s. The deer population increased to over 1,000 individuals in 2003 under the protection of enclosure building along the boundary of DNR. Moreover, an off-site conservation approach for the deer has been launched since 1990. A total of 83 deer from DNR had been accumulatively introduced to establish off-site populations by the end of 2000. The off-site conserved populations had reached 263 by the end of 2002, of which 246 animals were born in captivity or semi-captivity. A new off-site population in the natural environment was founded by introducing 65 animals from DNR during July to December 2003. The deer population still however faces challenges of habitat limitation, decrease of genetic diversity, inbreeding and poaching. Conservation approaches needed to practice immediately have been proposed in this paper.
Knowledge of semiochemically-mediated behavioural mechanisms of the seven-spot ladybird, Coccinella septempunctata L., is limited but sufficient to encourage further studies in the behavioural ecology of this well known insect. Recent findings on semiochemicals are discussed in relation to the main traits in the ecology of C. septempunctata. A putative autumn aggregation pheromone, and effects of allelobiotic plant interactions on habitat preferences of adults are reported. Mechanisms for interaction between an aphid alarm pheromone and plant substances are described, and the kairomonal functions of volatiles from C. septempunctata on the parasitoid Dinocampus coccinellae (Schrank) (Hymenoptera: Braconidae) are discussed. Considering the polyphagous diet of C. septempunctata, investigations on the importance of associative learning of chemical cues in foraging behaviour, and further studies on interactions with other third trophic level organisms will provide interesting lines of research.
The variability of the external characters of four sibling Plecotus species in Croatia was analysed. For the recently discovered species P. macrobullaris and P. kolombatovici we used specimens identified by mitochondrial DNA sequences as key specimens. Living individuals of P. kolombatovici can be distinguished from P. macrobullaris and P. auritus by means of shorter thumb and hind foot, more clearly than distinguishing P. austriacus from P. auritus. Using the triangular pad on the lower lip it is easy to distinguish P. macrobullaris from all other species in the field. Sympatric distribution is confirmed for P. macrobullaris and P. auritus as well as for P. auritus and P. austriacus. In Istria, P. kolombatovici was found only at one site syntopic with P. austriacus and at another site inhabiting the same church attic with P. macrobullaris.