“…Bourass et al . ). Ants are widely used as indicator species in biomonitoring studies due to their sensitivity to environmental changes (Agosti et al .…”
Summary1. Animal ecology could benefit from a well-defined trait-based framework, mostly applied in plant ecology, to further develop predictions of animal communities under various environmental conditions. We extended the functional approach to a multitrophic system by combining plant and ant traits in relation to environmental conditions to study the relationships between these three components. 2. We sampled plant and ant abundances along an aridity gradient in grazed and ungrazed conditions in the arid steppes of eastern Morocco. We measured five plant functional traits related to water stress and grazing resistance and six ant functional traits related to body size, dispersal and behaviour. We related each component (environment, vegetation and ants) using Mantel partial correlations to uncover the causal structure between components and using a fourthcorner analysis to describe the effects of the environment and vegetation on ant communities. 3. Results indicated that vegetation had a direct effect on ant community composition while the environment only had an indirect effect on ant community composition through vegetation structure. This result was consistent when looking at both the taxonomic and functional composition of communities, but correlations were stronger when based on taxonomic composition. Aridity was the variable most significantly linked with ant functional traits 4. Synthesis. The use of functional traits in animal ecology is relatively new, and an increase in trait-based community ecology studies that include more than one trophic level would be beneficial in identifying trait-based patterns in multitrophic communities. This new approach could become very useful in identifying mechanistic explanations of multitrophic community assembly and making predictions about their evolution under changing environmental conditions. It could also be of practical use in conservation biology in assessing habitat quality.
“…Bourass et al . ). Ants are widely used as indicator species in biomonitoring studies due to their sensitivity to environmental changes (Agosti et al .…”
Summary1. Animal ecology could benefit from a well-defined trait-based framework, mostly applied in plant ecology, to further develop predictions of animal communities under various environmental conditions. We extended the functional approach to a multitrophic system by combining plant and ant traits in relation to environmental conditions to study the relationships between these three components. 2. We sampled plant and ant abundances along an aridity gradient in grazed and ungrazed conditions in the arid steppes of eastern Morocco. We measured five plant functional traits related to water stress and grazing resistance and six ant functional traits related to body size, dispersal and behaviour. We related each component (environment, vegetation and ants) using Mantel partial correlations to uncover the causal structure between components and using a fourthcorner analysis to describe the effects of the environment and vegetation on ant communities. 3. Results indicated that vegetation had a direct effect on ant community composition while the environment only had an indirect effect on ant community composition through vegetation structure. This result was consistent when looking at both the taxonomic and functional composition of communities, but correlations were stronger when based on taxonomic composition. Aridity was the variable most significantly linked with ant functional traits 4. Synthesis. The use of functional traits in animal ecology is relatively new, and an increase in trait-based community ecology studies that include more than one trophic level would be beneficial in identifying trait-based patterns in multitrophic communities. This new approach could become very useful in identifying mechanistic explanations of multitrophic community assembly and making predictions about their evolution under changing environmental conditions. It could also be of practical use in conservation biology in assessing habitat quality.
“…They show the same diet variation between regions and years, reflecting the fluctuations of food resources availability in space and time (Hingrat et al 2007b). As wild birds (Bourass et al 2012a), CBH are omnivorous and opportunistic. These results highlight that birds produced artificially in captivity and prepared for release are able to acquire their daily energetic requirements, as illustrated by observed mean post-release survival rates (52 % in autumn and 86 % in spring) and the ability of juveniles to grow, disperse and breed in the wild .…”
Section: Discussionmentioning
confidence: 98%
“…The identification and quantification of the animal and plant food in the stomach were carried out using four identification tools available at the ECWP: a herbarium, an invertebrate reference collection, a collection of invertebrate fragments and a plant epidermis reference collection (Bourass et al 2012a). Regarding the animal fraction, the totality of the fraction was analysed.…”
Section: Diet Studymentioning
confidence: 99%
“…Regarding the animal fraction, the totality of the fraction was analysed. For the plant fraction, we considered a randomly chosen subsample of 200 fragments per sample representative of the all fraction (see Bourass et al 2012a). Concerning the plant fraction, 7 stomachs from CBH which contained degraded plant fractions were excluded from the analysis (Table 1).…”
Section: Diet Studymentioning
confidence: 99%
“…The Mixed black and white points represent wild and released birds sampled from the same location. When more than one bird was collected from one location, the number is indicated, in white for wild and in black for released houbara RA was given by the percentage resulting from the division of the abundance of a given taxon in a stomach by the total abundance of all taxa in this stomach (Bourass et al 2012a;Hyslop 1980). Mean and standard deviation of RA were then calculated for each taxon in the two groups, wild and CBH.…”
In translocation of captive-bred animals, mortality is often significant and impedes the successful establishment of a new population. Among the numerous reasons of failure, the first requirement of a newly released individual is to keep a positive energy balance by feeding properly. Individuals may exhibit diet disorders related to stress or may have developed behavioural, physiological and anatomic capacities adapted to captive conditions, but maladaptive once in the wild. We studied the diet of wild (n=42) and captive-bred (n=32) NorthAfrican houbara bustard (Chlamydotis undulata undulata) released in eastern Morocco. For this, we compared proportions and taxonomic compositions of plant and animal fractions from stomach contents. We showed that the diet of captivebred houbara is similar to wild individuals. The ability of captive-bred birds to shift from captive to a natural diet is probably facilitated by an innate omnivorous and opportunistic feeding behaviour and a likely learning period in contact with wild conspecifics.
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