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1. Dung Beetles, Dung Burial, and Plant Growth: Four Scarabaeoid Species and Sorghum.

Author

Hajji, Hasnae, Rehali, Mariyem, Taybi, Abdelkhaleq Fouzi, Lumaret, Jean-Pierre, and Mabrouki, Youness

Subjects
DUNG beetles, SUSTAINABLE agriculture, ORGANIC farming, SUSTAINABILITY, CROPS, SORGHUM
Abstract

Simple Summary: The burrowing activity of dung beetles improves soil fertility and hydrological properties and regulates biogeochemical cycles, influencing the growth and yield of agricultural crops, making them key species for environmental health and plant productivity. This study examines the impact of four dung beetle species on both sorghum growth and the physico-chemical properties of the soil over a two-month period. Changes in soil properties were assessed, focusing on the organic matter content, pH, conductivity, enzyme activities (e.g., urease, phosphatase), and microbial load. The results revealed significant increases in all the measured parameters across the treatments involving dung beetles, emphasising their role in enhancing soil fertility and plant productivity. The study also highlights differences in effectiveness among the species, suggesting that beetle diversity plays a crucial role in nutrient cycling. Integrating dung beetles into regenerative farming practices could serve as a key strategy to promote resilient agriculture. This study examined the impact of dung beetles on both sorghum growth and the physico-chemical properties of the soil over a two-month period. Four dung beetle species (Onthophagus vacca, Onthophagus marginalis subsp. andalusicus, Euonthophagus crocatus, and Gymnopleurus sturmi) were introduced into experimental setups, consisting of containers filled with sterilised clay-loam soil, with three treatment groups: [cow dung + beetles], [cow dung only], and a control group (no dung nor beetles), in order to evaluate their effects on various growth parameters, including the plant height, biomass, leaf area, and chlorophyll concentration. Additionally, changes in soil properties were assessed, focusing on the organic matter content, pH, conductivity, enzyme activities (e.g., urease, phosphatase), and microbial load. The results revealed significant increases in all the measured parameters across the treatments involving dung beetles, emphasising their role in enhancing soil fertility and plant productivity. The study also highlights the variation in effectiveness among the species, suggesting that beetle diversity plays a crucial role in nutrient cycling. Integrating dung beetles into sustainable farming practices could, therefore, serve as a key strategy to promote resilient agriculture. [ABSTRACT FROM AUTHOR]

Published
2024
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3. Contribution of Dung Beetles to the Enrichment of Soil with Organic Matter and Nutrients under Controlled Conditions.

Author

Hajji, Hasnae, Janati-Idrissi, Abdellatif, Taybi, Abdelkhaleq Fouzi, Lumaret, Jean-Pierre, and Mabrouki, Youness

Subjects
DUNG beetles, SOIL fertility, NUTRIENT cycles, BIODIVERSITY conservation, RHEOLOGY
Abstract

Dung beetles are important ecosystem engineers as they bury manure produced by animals and contribute to nutrient cycling. This study assessed the impact of four dung beetle species, a roller (Gymnopleurus sturmi) and three tunnelers (Onthophagus vacca, Onthophagus marginalis subsp. andalusicus and Euonthophagus crocatus), on manure removal and soil fertility by using microcosms in a greenhouse setting. The four species contributed significantly to the removal of manure from the soil surface and increased the nutrient content of the soil, notably potassium, phosphorus, and nitrogen, but the amount varied depending on the species. These results highlight the importance of dung beetles in facilitating soil organic matter and nutrient flows and the need to preserve their populations to support the sustainability of grazing systems. [ABSTRACT FROM AUTHOR]

Published
2024
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17. Nontoxic effects of thymol, carvacrol, cinnamaldehyde, and garlic oil on dung beetles: A potential alternative to ecotoxic anthelmintics

Author

Universidad de Alicante. Departamento de Ciencias Ambientales y Recursos Naturales, Universidad de Alicante. Centro Iberoamericano de la Biodiversidad, Verdú, José R., Cortez, Vieyle, Rosa-García, Rocío, Ortiz, Antonio J., García-Prieto, Urcesino, Lumaret, Jean-Pierre, García Romero, Carmelo, Sánchez-Piñero, Francisco, Universidad de Alicante. Departamento de Ciencias Ambientales y Recursos Naturales, Universidad de Alicante. Centro Iberoamericano de la Biodiversidad, Verdú, José R., Cortez, Vieyle, Rosa-García, Rocío, Ortiz, Antonio J., García-Prieto, Urcesino, Lumaret, Jean-Pierre, García Romero, Carmelo, and Sánchez-Piñero, Francisco

Abstract

The sustainability of the traditional extensive livestock sector will only be possible if healthy dung-decomposing insect communities are preserved. However, many current pharmaceutical anthelmintics are harmful to dung beetles, their presence can have a negative impact on biological systems. Phytochemical anthelmintics are an alternative to ecotoxic synthetic pharmaceutical anthelmintics, although ecotoxicological tests of their possible indirect effects on dung beetles are required to demonstrate their viability. In this study, the potential ecotoxicity of thymol, carvacrol, cinnamaldehyde and garlic oil (diallyl disulfide and diallyl trisulfide) were tested for the first time. Inhibition of antennal response was measured as a relevant parameter by obtaining relevant toxicity thresholds derived from concentration‒response curves, such as the IC50. All phytochemical compounds tested were demonstrated to be suitable alternative candidates to the highly ecotoxic compound ivermectin, considering their non-toxicity to nontarget organisms. Residues of the phytochemical antiparasitics found in cattle droppings were extremely low, even undetectable in the case of diallyl disulfide and diallyl trisulfide. Furthermore, our results showed that none of the phytochemical compounds have ecotoxic effects, even at extremely high concentrations, including those almost 1000 times higher than what is most likely to be found in dung susceptible to ingestion by dung beetles in the field. We can conclude that the four selected phytochemical compounds meet the requirements to be considered reliable alternatives to ecotoxic veterinary medicinal products, such as ivermectin.

Published
2023

18. A trait‐based framework for dung beetle functional ecology

Author

deCastro‐Arrazola, Indradatta, Andrew, Nigel R., Berg, Matty P., Curtsdotter, Alva, Lumaret, Jean‐Pierre, Menéndez, Rosa, Moretti, Marco, Nervo, Beatrice, Nichols, Elizabeth S., Sánchez‐Piñero, Francisco, Santos, Ana M. C., Sheldon, Kimberly S., Slade, Eleanor M., Hortal, Joaquín, deCastro‐Arrazola, Indradatta, Andrew, Nigel R., Berg, Matty P., Curtsdotter, Alva, Lumaret, Jean‐Pierre, Menéndez, Rosa, Moretti, Marco, Nervo, Beatrice, Nichols, Elizabeth S., Sánchez‐Piñero, Francisco, Santos, Ana M. C., Sheldon, Kimberly S., Slade, Eleanor M., and Hortal, Joaquín

Abstract

Traits are key for understanding the environmental responses and ecological roles of organisms. Trait approaches to functional ecology are well established for plants, whereas consistent frameworks for animal groups are less developed. Here we suggest a framework for the study of the functional ecology of animals from a trait‐based response–effect approach, using dung beetles as model system. Dung beetles are a key group of decomposers that are important for many ecosystem processes. The lack of a trait‐based framework tailored to this group has limited the use of traits in dung beetle functional ecology. We review which dung beetle traits respond to the environment and affect ecosystem processes, covering the wide range of spatial, temporal and biological scales at which they are involved. Dung beetles show trait‐based responses to variation in temperature, water, soil properties, trophic resources, light, vegetation structure, competition, predation and parasitism. Dung beetles' influence on ecosystem processes includes trait‐mediated effects on nutrient cycling, bioturbation, plant growth, seed dispersal, other dung‐based organisms and parasite transmission, as well as some cases of pollination and predation. We identify 66 dung beetle traits that are either response or effect traits, or both, pertaining to six main categories: morphology, feeding, reproduction, physiology, activity and movement. Several traits pertain to more than one category, in particular dung relocation behaviour during nesting or feeding. We also identify 136 trait–response and 77 trait–effect relationships in dung beetles. No response to environmental stressors nor effect over ecological processes were related with traits of a single category. This highlights the interrelationship between the traits shaping body‐plans, the multi‐functionality of traits, and their role linking responses to the environment and effects on the ecosystem. Despite current developments in dung beetle functional e

Published
2023

19. Nontoxic effects of thymol, carvacrol, cinnamaldehyde, and garlic oil on dung beetles: a potential alternative to ecotoxic anthelmintics [dataset]

Author

Universidad de Alicante. Departamento de Ciencias Ambientales y Recursos Naturales, Universidad de Alicante. Centro Iberoamericano de la Biodiversidad, Verdú, José R., Cortez, Vieyle, Rosa-García, Rocío, Ortiz, Antonio J., García-Prieto, Urcesino, Lumaret, Jean-Pierre, García Romero, Carmelo, Sánchez-Piñero, Francisco, Universidad de Alicante. Departamento de Ciencias Ambientales y Recursos Naturales, Universidad de Alicante. Centro Iberoamericano de la Biodiversidad, Verdú, José R., Cortez, Vieyle, Rosa-García, Rocío, Ortiz, Antonio J., García-Prieto, Urcesino, Lumaret, Jean-Pierre, García Romero, Carmelo, and Sánchez-Piñero, Francisco

Published
2023

23. A trait‐based framework for dung beetle functional ecology

Author

deCastro‐Arrazola, Indradatta, primary, Andrew, Nigel R., additional, Berg, Matty P., additional, Curtsdotter, Alva, additional, Lumaret, Jean‐Pierre, additional, Menéndez, Rosa, additional, Moretti, Marco, additional, Nervo, Beatrice, additional, Nichols, Elizabeth S., additional, Sánchez‐Piñero, Francisco, additional, Santos, Ana M. C., additional, Sheldon, Kimberly S., additional, Slade, Eleanor M., additional, and Hortal, Joaquín, additional

Published
2022
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26. Light orientation in the ball-rolling dung beetle, Gymnopleurus sturmi(MacLeay, 1821), in Morocco (Coleoptera: Scarabaeinae: Gymnopleurini)

Author

Hajji, Hasnae, Janati-Idrissi, Abdellatif, el Fattouhi, Youness, el Ouaryaghli, Azdine, Caron, Valérie, and Lumaret, Jean-Pierre

Abstract

SummaryThe ball-rolling dung beetle, Gymnopleurus sturmi, is widely distributed in the Mediterranean Sea Basin. Individuals aggregate to consume dung and only make dung balls for reproduction. The mating pairs formed on dung piles quickly make and roll their ball away from potential competition, mainly from conspecific individuals. We studied the behaviour of G. sturmiin the field, and more particularly the direction of ball rolling after leaving the dung pile. The possible rolling directions were demarcated as 16 numbered sectors oriented according to the four cardinal directions. The experimental results showed that ball rolling was almost always done in a straight line from the food source. The rolling direction was chosen before rolling commenced, during an orientation dance that was similar to that described for Scarabaeini species. In the morning, G. sturmipredominantly rolled their dung balls east-south-east, while in the early afternoon the main rolling direction was south-south-west, shifting to north-north-east at the end of the activity period. The position of the sun seemed to be the major cue for guiding the ball rolling direction, with a rapid readjustment to the initial direction in cases of deviation due to obstacles. We discuss the hypothesis that the opposite rolling directions taken by beetles between the beginning and the end of the afternoon may be due to the switching from direct solar cueing to polarised light cueing near dusk. The results are also discussed in the context of competition.

Published
2023
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28. A trait-based framework for dung beetle functional ecology

Author

Ministerio de Ciencia e Innovación (España), deCastro-Arrazola, Indradatta, Andrew, Nigel R., Berg, Matty P., Curtsdotter, Alva, Lumaret, Jean-Pierre, Menéndez, Rosa, Moretti, Marco, Nervo, Beatrice, Nichols, Elizabeth, Santos, Ana M. C., Sheldon, Kimberly S., Slade, Eleanor M., Hortal, Joaquín, Ministerio de Ciencia e Innovación (España), deCastro-Arrazola, Indradatta, Andrew, Nigel R., Berg, Matty P., Curtsdotter, Alva, Lumaret, Jean-Pierre, Menéndez, Rosa, Moretti, Marco, Nervo, Beatrice, Nichols, Elizabeth, Santos, Ana M. C., Sheldon, Kimberly S., Slade, Eleanor M., and Hortal, Joaquín

Abstract

Traits are key for understanding the environmental responses and ecological roles of organisms. Trait approaches to functional ecology are well established for plants, whereas consistent frameworks for animal groups are less developed. Here we suggest a framework for the study of the functional ecology of animals from a trait-based response–effect approach, using dung beetles as model system. Dung beetles are a key group of decomposers that are important for many ecosystem processes. The lack of a trait-based framework tailored to this group has limited the use of traits in dung beetle functional ecology. We review which dung beetle traits respond to the environment and affect ecosystem processes, covering the wide range of spatial, temporal and biological scales at which they are involved. Dung beetles show trait-based responses to variation in temperature, water, soil properties, trophic resources, light, vegetation structure, competition, predation and parasitism. Dung beetles' influence on ecosystem processes includes trait-mediated effects on nutrient cycling, bioturbation, plant growth, seed dispersal, other dung-based organisms and parasite transmission, as well as some cases of pollination and predation. We identify 66 dung beetle traits that are either response or effect traits, or both, pertaining to six main categories: morphology, feeding, reproduction, physiology, activity and movement. Several traits pertain to more than one category, in particular dung relocation behaviour during nesting or feeding. We also identify 136 trait–response and 77 trait–effect relationships in dung beetles. No response to environmental stressors nor effect over ecological processes were related with traits of a single category. This highlights the interrelationship between the traits shaping body-plans, the multi-functionality of traits, and their role linking responses to the environment and effects on the ecosystem. Despite current developments in dung beetle functional e

Published
2022

36. Faune de Madagascar

Author

Paulian, Renaud 1913-2003, Descarpentries, André 19, Lumaret, Jean-Pierre, Peyrieras, André, Madagascar, Muséum national d'Histoire naturelle, Paulian, Renaud 1913-2003, Descarpentries, André 19, Lumaret, Jean-Pierre, Peyrieras, André, and Madagascar

Subjects
Animaux, Beetles, Coléoptères, Madagascar, Madagascar (île), Scarabaeidae
Published
1982

37. Faune de Madagascar : coléoptères

Author

Paulian, Renaud 1913-2003, Lumaret, Jean-Pierre 19, Muséum national d'Histoire naturelle, Paulian, Renaud 1913-2003, and Lumaret, Jean-Pierre 19

Subjects
Beetles, Ceratocanthidae, Cératocanthidés, Identification, Madagascar, Madagascar (île), Passalidés, Silphidae, Silphidés
Published
1979

38. Faune de Madagascar

Author

Paulian, Renaud 1913-2003, Descarpentries, André 19, Lumaret, Jean-Pierre, Peyrieras, André, Madagascar, Muséum national d'Histoire naturelle, Paulian, Renaud 1913-2003, Descarpentries, André 19, Lumaret, Jean-Pierre, Peyrieras, André, and Madagascar

Subjects
Animaux, Beetles, Coléoptères, Madagascar, Madagascar (île), Scarabaeidae

39. Faune de Madagascar

Author

Paulian, Renaud 1913-2003, Descarpentries, André 19, Lumaret, Jean-Pierre, Peyrieras, André, Madagascar, Muséum national d'Histoire naturelle, Paulian, Renaud 1913-2003, Descarpentries, André 19, Lumaret, Jean-Pierre, Peyrieras, André, and Madagascar

Subjects
Animaux, Beetles, Coléoptères, Madagascar, Madagascar (île), Scarabaeidae

40. Faune de Madagascar

Author

Paulian, Renaud 1913-2003, Descarpentries, André 19, Lumaret, Jean-Pierre, Peyrieras, André, Madagascar, Muséum national d'Histoire naturelle, Paulian, Renaud 1913-2003, Descarpentries, André 19, Lumaret, Jean-Pierre, Peyrieras, André, and Madagascar

Subjects
Animaux, Beetles, Coléoptères, Madagascar, Madagascar (île), Scarabaeidae

41. The conservation status and distribution of Mediterranean dung beetles

Author

Numa, Catherine, primary, Tonelli, Mattia, additional, Lobo, Jorge M., additional, Verdú, José R., additional, Lumaret, Jean-Pierre, additional, Sánchez-Piñero, Francisco, additional, Ruiz, José L., additional, Dellacasa, Marco, additional, Ziani, Stefano, additional, Arriaga, Alfonsina, additional, Cabrero, Francisco, additional, Labidi, Imen, additional, Barrios, Violeta, additional, Senyüz, Yakup, additional, and Anlas, Sinan, additional

Published
2020
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42. The conservation status and distribution of Mediterranean dung beetles

Author

Numa, Catherine, Tonelli, Mattia, Lobo, Jorge M., Verdú, José R., Lumaret, Jean-Pierre, Sánchez-Piñero, Francisco, Ruiz, José L., Dellacasa, Marco, Ziani, Stefano, Arriaga, Alfonsina, Cabrero, Francisco, Labidi, Imen, Barrios, Violeta, Şenyüz, Yakup, Anlaş, Sinan, Universidad de Alicante. Departamento de Ciencias Ambientales y Recursos Naturales, Universidad de Alicante. Centro Iberoamericano de la Biodiversidad, and Biodiversidad y Biotecnología aplicadas a la Biología de la Conservación

Subjects
Insects, Beetles, Zoología, Mediterranean region, Red Data/Red List, Red List assessments
Abstract

The Mediterranean Red List assessment is a review of the regional conservation status of approximately 6,000 species (amphibians, mammals, reptiles, birds, fishes, butterflies, dragonflies, beetles, corals and plants) according to the IUCN Red List Categories and Criteria. It identifies those species that are threatened with extinction at the regional level to guide appropriate conservation actions for improving their status. This report summarises the results for Mediterranean dung beetles. All the dung beetles that are endemic or nearly endemic to the Mediterranean region – 200 species – are included. The geographical scope is the Mediterranean region according to the Mediterranean Basin Biodiversity Hotspot (Mittermeier et al., 2004), with the exception of the Macaronesian islands, which have not been included in this study. Of the 644 species of dung beetles inhabiting the Mediterranean region, 200 (32%) have at least 75% of their distribution range within the borders of the region. The other 444 species, which occur over a wider area, were excluded from this assessment. Of the 200 species analysed, 150 are considered endemic as they cannot be found anywhere else in the world. The work presented in this report was coordinated by the IUCN Centre for Mediterranean Cooperation and the IUCN Species Programme (Red List Unit). This project was funded by the MAVA Foundation with the contribution from the Spanish Ministry of Environment and the Junta de Andalucía.

Published
2020

43. The conservation status and distribution of Mediterranean dung beetles

Author

Universidad de Alicante. Departamento de Ciencias Ambientales y Recursos Naturales, Universidad de Alicante. Centro Iberoamericano de la Biodiversidad, Numa, Catherine, Tonelli, Mattia, Lobo, Jorge M., Verdú, José R., Lumaret, Jean-Pierre, Sánchez-Piñero, Francisco, Ruiz, José L., Dellacasa, Marco, Ziani, Stefano, Arriaga, Alfonsina, Cabrero, Francisco, Labidi, Imen, Barrios, Violeta, Şenyüz, Yakup, Anlaş, Sinan, Universidad de Alicante. Departamento de Ciencias Ambientales y Recursos Naturales, Universidad de Alicante. Centro Iberoamericano de la Biodiversidad, Numa, Catherine, Tonelli, Mattia, Lobo, Jorge M., Verdú, José R., Lumaret, Jean-Pierre, Sánchez-Piñero, Francisco, Ruiz, José L., Dellacasa, Marco, Ziani, Stefano, Arriaga, Alfonsina, Cabrero, Francisco, Labidi, Imen, Barrios, Violeta, Şenyüz, Yakup, and Anlaş, Sinan

Abstract

The Mediterranean Red List assessment is a review of the regional conservation status of approximately 6,000 species (amphibians, mammals, reptiles, birds, fishes, butterflies, dragonflies, beetles, corals and plants) according to the IUCN Red List Categories and Criteria. It identifies those species that are threatened with extinction at the regional level to guide appropriate conservation actions for improving their status. This report summarises the results for Mediterranean dung beetles. All the dung beetles that are endemic or nearly endemic to the Mediterranean region – 200 species – are included. The geographical scope is the Mediterranean region according to the Mediterranean Basin Biodiversity Hotspot (Mittermeier et al., 2004), with the exception of the Macaronesian islands, which have not been included in this study. Of the 644 species of dung beetles inhabiting the Mediterranean region, 200 (32%) have at least 75% of their distribution range within the borders of the region. The other 444 species, which occur over a wider area, were excluded from this assessment. Of the 200 species analysed, 150 are considered endemic as they cannot be found anywhere else in the world.

Published
2020

44. Biomagnification and body distribution of ivermectin in dung beetles

Author

Universidad de Alicante. Departamento de Ciencias Ambientales y Recursos Naturales, Universidad de Alicante. Centro Iberoamericano de la Biodiversidad, Verdú, José R., Cortez, Vieyle, Ortiz, Antonio J., Lumaret, Jean-Pierre, Lobo, Jorge M., Sánchez-Piñero, Francisco, Universidad de Alicante. Departamento de Ciencias Ambientales y Recursos Naturales, Universidad de Alicante. Centro Iberoamericano de la Biodiversidad, Verdú, José R., Cortez, Vieyle, Ortiz, Antonio J., Lumaret, Jean-Pierre, Lobo, Jorge M., and Sánchez-Piñero, Francisco

Abstract

A terrestrial test system to investigate the biomagnification potential and tissue-specific distribution of ivermectin, a widely used parasiticide, in the non-target dung beetle Thorectes lusitanicus (Jekel) was developed and validated. Biomagnification kinetics of ivermectin in T. lusitanicus was investigated by following uptake, elimination, and distribution of the compound in dung beetles feeding on contaminated faeces. Results showed that ivermectin was biomagnified in adults of T. lusitanicus when exposed to non-lethal doses via food uptake. Ivermectin was quickly transferred from the gut to the haemolymph, generating a biomagnification factor (BMFk) three times higher in the haemolymph than in the gut after an uptake period of 12 days. The fat body appeared to exert a major role on the biomagnification of ivermectin in the insect body, showing a BMFk 1.6 times higher than in the haemolymph. The results of this study highlight that the biomagnification of ivermectin should be investigated from a global dung-based food web perspective and that the use of these antiparasitic substances should be monitored and controlled on a precautionary basis. Thus, we suggest that an additional effort be made in the development of standardised regulatory recommendations to guide biomagnification studies in terrestrial organisms, but also that it is necessary to adapt existing methods to assess the effects of such veterinary medical products.

Published
2020

45. Biomagnification and body distribution of ivermectin in dung beetles

Author

Ministerio de Ciencia e Innovación (España), Verdú, José R., Cortez, Vieyle, Ortiz, Antonio J., Lumaret, Jean-Pierre, Lobo, Jorge, Sánchez-Piñero, Francisco, Ministerio de Ciencia e Innovación (España), Verdú, José R., Cortez, Vieyle, Ortiz, Antonio J., Lumaret, Jean-Pierre, Lobo, Jorge, and Sánchez-Piñero, Francisco

Abstract

A terrestrial test system to investigate the biomagnification potential and tissue-specific distribution of ivermectin, a widely used parasiticide, in the non-target dung beetle Thorectes lusitanicus (Jekel) was developed and validated. Biomagnification kinetics of ivermectin in T. lusitanicus was investigated by following uptake, elimination, and distribution of the compound in dung beetles feeding on contaminated faeces. Results showed that ivermectin was biomagnified in adults of T. lusitanicus when exposed to non-lethal doses via food uptake. Ivermectin was quickly transferred from the gut to the haemolymph, generating a biomagnification factor (BMF) three times higher in the haemolymph than in the gut after an uptake period of 12 days. The fat body appeared to exert a major role on the biomagnification of ivermectin in the insect body, showing a BMF 1.6 times higher than in the haemolymph. The results of this study highlight that the biomagnification of ivermectin should be investigated from a global dung-based food web perspective and that the use of these antiparasitic substances should be monitored and controlled on a precautionary basis. Thus, we suggest that an additional effort be made in the development of standardised regulatory recommendations to guide biomagnification studies in terrestrial organisms, but also that it is necessary to adapt existing methods to assess the effects of such veterinary medical products.

Published
2020

46. Dung beetles (Coleoptera: Scarabaeoideae) between a natural forest and a reforested steppe (Djelfa, Algeria)

Author

AMRAOUİ, Sabrina, BOURAGBA, Nadia, BRAGUE, Ahmed, and LUMARET, Jean-pierre

Subjects
lcsh:SD1-669.5, lcsh:Forestry
Abstract

Steppe ecosystems are characterized by significant biological diversity, and this is the result of a long adaptation process to difficult agro-climatic conditions. Feces of large or small herbivorous animals must be destroyed to be recycled. This process is involving the activity of various soil organisms. Among the most active insects are Scarabaeoidea. Our study was conducted in two grazed ecosystems in djelfa pasture, situated in the semi-arid region; the first one is a pinewood forest, located in the Senalba. The second one is an Aleppo pine reforested stand, part of the Green Dam that was launched decades ago to stop desertification. Dung beetles were captured using baited pitfall traps during the period 2009-2010. 1435 beetles belonging to 42 species were trapped. The faunas of senalba and of Moudjbara were compared. The fauna in the reforested stand is poorer than the one of the natural forest. The natural forest might provide favorable microclimatic conditions for some species such as Chironitis furcifer, Aphodius fimetarius and A. felscheanus. Results showed a significant seasonal variation in the composition, and diversity. There were four periods of activity during the course of the year. Temporal turnover was highest in September and in February, Dungs beetle dominate during summer and autumn in Moudjbara while in the Sénalba they dominate during autumn and winter. This study reveals that natural forest is the most suitable habitat to the installation Scarabaeidae unlike reforestation, this could be the result of a limited grazing in the reforested steppe.Keywords: Scarabaeoidea, Pinewood forest, Reforested steppe, Step ekosistemleri, zorlu agro-iklimsel koşullara uyum sağlamak için geçirdikleri uzun adaptasyon süreci sonucunda önemli bir biyolojik çeşitliliğe sahiptir. Büyük ve küçük otobur hayvanların dışkıları bertaraf edilmeli veya geri dönüştürülmelidir. Bu süreç, çeşitli toprak canlılarının faaliyetini içermektedir. Scarabaeoidea familyasında yer alan böcekler, bu süreçte en aktif böceklerden biridir. Çalışmamız, yarı kurak bir alan olan Djelfa otlağında bulunan iki adet otlatma ekosisteminde gerçekleştirilmiştir. Bu ekosistemlerden biri, Senalba bölgesinde yer alan çam ormanıdır. Diğer ekosistem ise, çölleşmeyi durdurmak için yıllar önce başlatılan Green Baraj (Green Dam) projesinin bir parçası olan yeniden ormanlaştırılmış Halep çamı meşceresidir. Gübre böcekleri, 2009-2010 döneminde yemli kapan pusuları ile toplandı. 42 türe ait 1435 tuzakla yakalandı. Senalba ve Moudjbara faunaları karşılaştırıldı. Yeniden ormanlaştırılmış meşcere doğal ormandaki faunadan daha zayıf bir faunaya sahiptir. Doğal orman, Chironitis furcifer, Aphodius fimetarius ve A. felscheanus gibi bazı türler için daha elverişli mikroiklimsel koşullar sağlayabilir. Çalışmanın sonuçları, yapı ve çeşitlilik açısından önemli mevsimsel değişimlerin olduğunu göstermiştir. Yıl içerisinde dört faaliyet dönemi tespit edilmiştir. Zamansal değişim oranı eylül ve şubat aylarında en yüksek seviyeye ulaşmıştır. Gübre böcekleri yaz ve sonbahar aylarında Moudjbara bölgesinde yoğunlaşırken Sénalba bölgesinde sonbahar ve kış aylarında yoğunlaşmıştır. Bu çalışma, yeniden ormanlaştırılmış bölgenin aksine doğal ormanın Scarabaeidae için en uygun habitat olduğunu göstermektedir. Bu durum yeniden ormanlaştırılmış bozkır alanda sınırlı otlama imkânının bir sonucu olabilir.Anahtar kelimeler: Scarabaeoidea, Çam ormanı, Yeniden ormanlaştırılmış bozkır

Published
2016

48. Comparison of the cuticular profiles of several dung beetles used as host carriers by the phoretic mite Macrocheles saceri (Acari: Mesostigmata)

Author

NİOGRET, Jerome, LUMARET, Jean-pierre, and BERTRAND, Michel

Subjects
Health Care Sciences and Services, Sağlık Bilimleri ve Hizmetleri, Cuticle,dung beetle,phoresy,Macrocheles,aliphatic alkanes
Abstract

Macrochelid mites have developed phoretic interactions with coprophilous arthropods in order to disperse and colonize newsubstrate. Macrocheles saceri (Acari: Mesostigmata) is a mite phoretically specialized on the dung beetles of the Scarabaeus genus. Aprevious study has demonstrated that M. saceri can discriminate among available hosts and showed host preferences using the hostcuticular material. In this present study, we have compared the cuticular chemicals including the volatiles present among severalspecies of Scarabaeus and Bubas genera. By comparing the host chemical profiles to the host preferences, several hypothesesregarding the role of some of these volatile chemicals in host discrimination based on attractiveness and repellency, are proposed.

Published
2018

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