Arxius de Miscel·lània Zoològica. Volumen 20 (2022) Páginas: 59-81
Checklist of terrestrial beetles (Arthropoda: Insecta: Coleoptera) associated with agroecosystems in North-West Morocco
El Harche, H., Chavanon, G., Dahmani, J., Fadli, M.
DOI: https://doi.org/10.32800/amz.2022.20.0059Descargar
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El Harche, H., Chavanon, G., Dahmani, J., Fadli, M., 2022. Checklist of terrestrial beetles (Arthropoda: Insecta: Coleoptera) associated with agroecosystems in North-West Morocco. Arxius de Miscel·lània Zoològica, 20: 59-81, DOI: https://doi.org/10.32800/amz.2022.20.0059-
Fecha de recepción:
- 08/08/2022
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Fecha de aceptación:
- 20/10/2022
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Fecha de publicación:
- 23/11/2022
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Abstract
Checklist of terrestrial beetles (Arthropoda, Insecta, Coleoptera) associated with agroecosystems in North-West MoroccoBeetles play an important role in agrosystems as bioindicators of quality, ecology, conservation, and soil characteristics. The Coleoptera of agrosystems in Morocco are poorly known. To contribute to the knowledge of beetles in this country we conducted a survey in a region of North-West Morocco between 2019 and 2020. The inventory was carried out using several types of traps. We identified 54 species belonging to 14 families, 20 subfamilies, and 18 tribes. The most abundant family was Carabidae, with 24 species, and the most dominant subfamily was Harpalinae, with 19 species. This work provides the first checklist of coleopteran fauna associated with agrosystems in North-West Morocco. We provide an identification key of subfamily and tribe, and update information on the distribution of the beetles identified.
Checklist dataset published through GBIF (Doi: 10.15470/ohymvn)
Key words: Coleoptera, Checklist, North-West Morocco
Resumen
Lista patrón de escarabajos terrestres (Arthropoda, Insecta, Coleoptera) asociada a agroecosistemas en el noroeste de MarruecosLos escarabajos desempeñan un papel importante en los agrosistemas como bioindicadores de calidad, ecología, conservación y características del suelo. Los coleópteros de los agrosistemas de Marruecos aún no están bien estudiados. Para llenar este vacío, y a fin de contribuir al conocimiento de los escarabajos (Coleoptera), se estudió una región del noroeste de Marruecos entre 2019 y 2020. El inventario se realizó utilizando diferentes tipos de trampas. En la región se registraron un total de 54 especies, divididas en 14 familias pertenecientes a 20 subfamilias y 18 tribus. En este estudio, Carabidae fue la familia más abundante, con 24 especies, y Harpalinae la subfamilia más dominante, con 19 especies. Este trabajo proporciona la primera lista patrón de la fauna de coleópteros asociada a los agrosistemas del noroeste de Marruecos. Se incluye una clave de identificación de la subfamilia y la tribu, así como información actualizada sobre la distribución de las especies. También se indica su distribución en Marruecos.
Lista de datos publicada en GBIF (Doi: 10.15470/ohymvn)
Palabras clave: Coleoptera, Lista patrón, Noroeste de Marruecos
Resum
Llista patró d'escarabats terrestres (Arthropoda, Insecta, Coleoptera) associada a agroecosistemes al nord-oest del MarrocEls escarabats exerceixen un paper important en els agrosistemes com a bioindicadors de qualitat, ecologia, conservació i característiques del sòl. Els coleòpters dels agrosistemes del Marroc encara no estan ben estudiats. Per omplir aquest buit, i per tal de contribuir al coneixement dels escarabats (Coleoptera), es va estudiar una regió del nord-oest del Marroc entre 2019 i 2020. L'inventari es va fer utilitzant diferents classes de paranys. A la regió es van registrar un total de 54 espècies, dividides en 14 famílies pertanyents a 20 subfamílies i 18 tribus. En aquest estudi, Carabidae va ser la família més abundant, amb 24 espècies, i Harpalinae la subfamília més dominant, amb 19 espècies. Aquest treball proporciona la primera llista patró de la fauna de coleòpters associada als agrosistemes del nord-oest del Marroc. S'inclou una clau d'identificació de la subfamília i la tribu, així com informació actualitzada sobre la distribució de les espècies. També se n'indica la distribució al Marroc.
Llista de dades publicada a GBIF (Doi: 10.15470/ohymvn)
Paraules clau: Coleoptera, Llista patró, Nord-oest del Marroc
Introduction
About 400,000 species of beetles have been described worldwide to date and the total number is estimated to be between 850,000 and 4 million (Zhang, 2013; Bouchard et al., 2017). The largest order is Coleoptera. The evolutionary success of this order can be attributed to its diversity of habitat types (Bouchard et al., 2017). Beetles are found in almost all ecosystems and they play diverse ecological roles, ranging from ecosystem engineers to biological control agents (Myers et al., 2009; Tseng et al., 2018). Because of their high diversity, beetles are effective and reliable indicator species for monitoring environmental change. They are found in high numbers in most vegetation types and can be sampled using various techniques (Chung, 2004). Their versatility makes them a valuable group to study assemblage structure and diversity in various habitats. Studies on the distribution and survival of many beetle species in different habitats serve to consolidate our level of knowledge regarding the effects of changes in environment and climate (Vaibhao et al., 2013 ). Species checklists are effective tools in the domain of natural science and they are directly related to any conservation program of a species. In comparison with many other areas in the world, such as Europe, relatively few studies have been conducted to date in Morroco other than the earliest work of Antoine (1955-1963) and Kocher (1956-1969) and later studies by Chavanon et al., 1995; Zitouni and Chavanon, 2000, 2005; Arahou, 2008, 2010; Hajji Hour et al., 2011; Bouraada et al., 2016, 2020; Chavanon, 2020; and El Harche et al., 2021a, 2021b. However, our knowledge of the beetle fauna in Morroco is incomplete, especially that of agrosystems. Most research to date has focused on insects in natural and forest ecosystems. To our knowledge, no distributional checklist of beetles in agrosystems has yet been carried out in Morocco. We are aware only of El Harche et al.'s (2021a, 2021b) research on the biodiversity of insect fauna in semi-arid agrosystems. Species checklists are crucial for any type of inquiry or analysis of biodiversity but research has not yet been performed in many regions in the country. Here we studied the composition of beetles in Sidi Kacem, in the North-West of Morocco. The aim of this paper is to provide the first checklist of Coleoptera in agrosystems in this region.
Material and methods
Study site
The study was conducted at 5 stations in the region of Sidi Kacem (34° 13' 00" N, 5° 42' 00" W) in the north-west of Morocco (fig. 1): station 1: 34° 12' 35.5" N - 5° 42' 31.8" W: a bean field (Vicia faba L., Fabaceae), characterized by a silty clay soil; station 2: 34° 14' 41.5" N - 5° 42' 14.9" W: a field of cereal crops (soft wheat: Triticum aestivum L., Poaceae), characterized by a silty clay soil; station 3: 34° 13' 50.5" N - 5° 42' 14.7"W: natural steppe. The plant species that dominate the area are: Nicotiana glauca Graham (Solanaceae), Ferula communis L. (Apiaceae), Cynara humilis L. (Asteraceae), and Ammi visnaga (L.) Lam. (Apiaceae). Again, the soil here is a silty clay; station 4: 34° 15' 19.1" N - 5° 44' 01.3" W: alfalfa field (Medicago sativa L., Fabaceae) and a wasteland dominated mainly by Dittrichia viscosa (L.) Greuter (Asteraceae). This station has sandy, clay loamy soil; station 5: 34° 11' 12.5" N - 5° 42' 32.8" W: matorral, characterized by a clay soil. The plant species that dominate the area are: Chamaerops humilis L. (Arecaceae), Eucalyptus sp. (Myrtaceae), Olea europaea L. (Oleaceae) and Opuntia ficus-indica (L.) Mill. (Cactaceae).
Data collectionThree sampling techniques were used: Barber traps (consisting of 10 cm diameter and 17 cm high pots), sight hunting, and sweep nets. Beetles were collected between March 2019 and September 2020. The captured specimens were identified and labeled following maximum magnification of x35 and standard identification keys, including French carabid fauna (Jeannel, 1941-1942) and Moroccan carabid beetles (Antoine, 1955-1963). For validation, we consulted Antoine's collection at the Scientific Institute of Rabat (Morocco) and the collections of the National Museum of Natural History of Paris (France). Subfamily, tribe, and species are listed. All the species are listed with their valid names, correct spelling, author, and year of description.
Results
We identified 54 species, belonging to 14 families, 20 sub-families and 18 tribes. Details are listed below (see the checklist dataset published through GBIF, Doi: 10.15470/ohymvn).
Checklist of beetles Order ColeopteraFamily Carabidae
Subfamily Harpalinae Bonelli, 1810
Tribe Chlaeniini Brullé, 1834
Chlaenius (Dinodes) decipiens L. Dufour, 1820
Regional distribution: throughout Northern and Central Morocco, including the Middle and High Atlas (Machard, 2018), as far as Gada of Debdou and Oujda in the east (Chavanon, 2020)
General distribution: all over Europe, Maghreb (from Morocco to Tunisia) and Turkey (Löbl and Löbl, 2017).
Chlaenius (Trichochlaenius) chrysocephalus P. Rossi, 1790
Regional distribution: sporadic in a large part of Morocco (Machard, 2018). Reported, in particular, from the lower part of Moulouya and the Gada of Debdou (Chavanon, 2020), and from Lake Dayat Aoua (Bouraada et al., 2020).
General distribution: France, Greece, Italy, Iberian Peninsula, Yugoslavia and Maghreb (Morocco, Algeria and Tunisia) (Cosimi, 2011; Chapelin-Viscard et al., 2012; Ghannèm et al., 2017a, 2017b).
Chlaenius (Chlaeniellus) olivieri Crotch, 1871
Regional distribution: throughout Morocco except for the arid Eastern and Saharan regions (Machard, 2018).
General distribution: France, Belgium, Switzerland, and Maghreb (Tronquet, 2014; Ghannèm et al., 2017a; Löbl and Löbl, 2017).
Tribe Pterostichini Bonelli, 1810
Pterostichus (Melanius) elongatus Duftschmid, 1812
Regional distribution: Northern, Western and Central Morocco (Machard, 2018), reaching the lower part of Moulouya to the east (Chavanon, 2020)
General distribution: Albania, Austria, Bosnia Herzegovina, Bulgaria, Croatia, Czech Republic, France, Greece, Hungary, Italy, Moldavia, Romania, Slovakia, Slovenia, Spain, Russia (South European Territory), Ukraine, Yugoslavia, Iran, North Africa, Afghanistan, Kazakhstan and Turkey (Guéorguiev and Guéorguiev, 1995; Namaghi et al., 2010; Löbl and Löbl, 2017).
Poecilus (Carenostylus) purpurascens purpurascens Dejean, 1828
Regional distribution: Northern, Eastern, Western and Central Morocco: Rif, from Lower Moulouya to the High Atlas, southwards to Agadir and Errachidia. The ssp. debduensis (Antoine, 1962) occupies the Gada of Debdou and Middle Moulouya (Machard, 2018; Chavanon, 2020).
General distribution: France, Greece, Portugal, Spain and Maghreb (Cosimi, 2011; Tronquet, 2014; Löbl and Löbl, 2017).
Tribe Harpalini Bonelli, 1810
Scybalicus oblongiusculus Dejean, 1829
Regional distribution: Coastal regions between Casablanca, Tangier and Melilla (Machard, 2018). Also in Oujda (Chavanon, 2020).
General distribution: Spain, France, Italy, Great Britain, Bulgaria, Croatia, Malta, Iran and the Maghreb (Luff, 2007; Duff, 2008; Cosimi, 2011; Ghannèm and Boumaiza, 2017; Löbl and Löbl, 2017).
Acinopus (Acinopus) sabulosus Fabricius, 1792
Regional distribution: Eastern region (Eastern Rif and between the mouth of Moulouya, Moulay Rechid, the Rekkam Plateau and Tendrara) and Central Morocco (Upper Moulouya, Middle and High Atlas) (Kataev and Wrase, 2015; Machard, 2018; Chavanon, 2020).
General distribution: North Africa (from Morocco to Libya) (Kataev and Wrase, 2015; Löbl and Löbl, 2017).
Ditomus tricuspidatus Fabricius, 1792
Regional distribution: Northern, Eastern, Western and Central Morocco (between Tangier, Saïdia, Oujda, Debdou, the central Middle Atlas and the Sous Wadi) (Machard, 2018; Chavanon, 2020).
General distribution: France, Portugal, Spain, Italy, the Balkans and Maghreb (Serrano et al., 2003; Tronquet, 2014; Ghannèm et al., 2015; Löbl and Löbl, 2017; Andújar et al., 2019).
Tschitscherinellus cordatus cordatus Dejean, 1825
Regional distribution: Northern, Western and Central Morocco (from Tangier to Essaouira, Taza region, Middle Atlas, reaching Asni in the south and Zaïo and Toussit in the east (Machard, 2018; Chavanon, 2020).
General distribution: Mediterranean Europe (from the Iberian Peninsula to the Balkans, including Mediterranean islands), Ukraine, Turkey, the Middle East and Maghreb (Cosimi, 2011; Ponel, 2015; Andújar et al., 2019).
Parophonus (Parophonus) hispanus Rambur, 1838
Regional distribution: sporadic in Northern and Central Morocco. In the south it reaches the region of Marrakech, and to the east, it reaches Oujda (Machard, 2018; Chavanon, 2020)
General distribution: Mediterranean Europe (from Iberian Peninsula to the Balkans, including Malta), Hungary, Moldavia, Romania, Slovakia, Slovenia, Ukraine, Turkey and Maghreb (Sciaky, 1992; Ghannèm and Boumaiza, 2017; Löbl and Löbl, 2017).
Dixus clypeatus P. Rossi, 1790
Regional distribution: Northern and Western Morocco (from Casablanca to the north of the Middle Atlas (Machard, 2018); sporadically found in the east of the country (Chavanon, 2020).
General distribution: Mediterranean Europe (from the Iberian Peninsula to the Balkans, including Malta), Hungary, Moldavia, Romania, Slovakia, Slovenia, Ukraine, Turkey and Maghreb (Guéorguiev, 2011; Tronquet, 2014; Albouy and Richard, 2017; Löbl and Löbl, 2017; Andújar et al., 2019).
Dixus sphaerocephalus (A. G. Olivier, 1795)
Regional distribution: almost all of Morocco apart from high mountain and desert regions (Machard, 2018).
General distribution: France, Sardinia, Sicily, Portugal, Spain and North Africa (Tronquet, 2014; Löbl and Löbl, 2017; Andújar et al., 2019).
Carterus (Carterus) dama (P. Rossi, 1792)
Odontocarus cephalotes (Dejean, 1826) Tribe Sphodrini Laporte de Castelnau, 1834
Laemostenus (Laemostenus) complanatus (Dejean, 1828)
Tribe Licinini Bonelli, 1810
Tribe Lebiini Bonelli, 1810
Subfamily Siagoninae Bonelli, 1813
Tribe Siagonini Bonelli, 1813
Subfamily Brachininae Bonelli, 1810
Tribe Brachinini Bonelli, 1810
Subfamily Scaritinae Bonelli, 1810
Tribe Scaritini Bonelli, 1810
Distichus (Distichus) planus Bonelli, 1813 Family Silphidae Tribe Silphini Latreille, 1805
Thanatophilus sinuatus Fabricius, 1775
Silpha tristis Illiger, 1798
Silpha olivieri Bedel, 1887
Silpha puncticollis Lucas, 1846 Family Staphylinidae Tribe Staphylinini Latreille, 1802
Ocypus (Ocypus) olens O. F. Müller, 1764
Philonthus (Philonthus) laminatus Creutzer, 1799
Family Scarabaeidae Tribe Cetoniini Leach, 1815
Aethiessa floralis Fabricius, 1787
Subfamily Scarabaeinae Latreille, 1802
Tribe Gymnopleurini Streubel, 1846
Gymnopleurus (Gymnopleurus) flagellatus flagellatus Fabricius, 1787 Family Cantharidae Tribe Cantharini Imhoff, 1856
Rhagonycha (Rhagonycha) fulva Scopoli, 1763 Family Dermestidae Tribu Dermestini Latreille, 1804
Family Prionoceridae Tribu Lobonychini Majer, 1987
Family Dasytidae Tribu Dasytini Laporte de Castelnau, 1840 Dasytes (Anthoxenus) terminalis Jacquelin du Val, 1863 Family Malachiidae Tribu Malachiini Fleming, 1821
Charopus rotundatus Erichson, 1840 Family Coccinellidae Tribe Coccinellini Latreille, 1807 Hippodamia (Hippodamia) variegata Goeze, 1777 Family Tenebrionidae Tribe Tentyriini Eschscholtz, 1831 Subfamily Blaptinae Leach, 1815 Subfamily Alleculinae Laporte, 1840 Tribe Cteniopodini Solier, 1835 Family Oedemeridae Tribu Oedemerini Latreille, 1810
Family Chrysomelidae Tribe Doryphorini Motschulsky, 1860
Chrysolina (Maenadochrysa) affinis Fabricius, 1787 (ssp. s. lat.)
Chrysolina (Palaeosticta) numida Reiche, 1864 Subfamily Cryptocephalinae Gyllenhal, 1813 Tribu Clytrini Kirby, 1837 Family Curculionidae Tribu Lixini Schönherr, 1823 Our study of beetle species in the region of Sidi Kacem allowed us to draw up a first list of beetles encountered in the north west of Morocco. The findings from five different localities show that fauna of Coleoptera is highly diverse in the region, with 54 species from 14 families, classified further into 20 sub-families and 18 tribes. The most subfamily abundant was Harpalinae with 19 species. According to Ober (2002) and Avgin and Emri (2007), the carabid subfamily Harpalinae contains the most species of carabid beetles, with over 19,000 species worldwide.
The diversity of ground beetle species varied between survey sites (fig. 2). Species richness and abundance was greatest at Station 3, followed, in order, by stations 2, 1, 4, and 5. (fig. 2). This variation could be related to factors such as vegetation type, soil humidity, or availability of trophic resources, particularly at station 3 where specific richness was high. According to Boivin and Hance (2002), Jukes et al. (2001), and Thomas et al. (2006), beetle fauna is related to environmental variables and biotic factors such as characteristics of the vegetation. In general, the greater the vegetation, the higher the numbers of arthropods -and carabids in particular- due to more food resources (Schaffers et al., 2008; Harvey et al., 2008; Zou et al., 2013). Human activity, particularly agricultural practices, can alter beetle abundance and population structure (Pena, 2001). In stations 2, 3, and 4, the abundance of beetle species has likely decreased due to anthropological activity and human expansion disturbing the ecosystem. Numbers of many species have decreased in some areas as a result of intensified human activity (Di Marco and Santini, 2015; Laanisto et al., 2015). Station 5 showed the lowest species richness (fig. 2). This is probably because the texture of the soil (clay) at this station makes root propagation and circulation of air and water difficult, resulting in low plant density. Many studies have shown that changes in plant diversity alter not only herbivore diversity but also insect predator and parasitoid diversity, and that plant diversity contributes to insect diversity (Siemann et al., 1998; Knops et al., 1999; Koricheva et al., 2000; Perner et al., 2003). Our findings are in accordance with such findings.
This work highlights the exceptional heritage value of beetles in North-West Morocco and, particularly, in the agroecosystems of the Sidi Kacem area. It will only be possible to maintain this remarkable biodiversity in this region if specific conservative measures are adopted. The findings from this study constitute a guide for future taxonomic and ecological research regarding species of beetles in Morocco. This checklist of Coleoptera can be updated with new findings in the future.
Regional distribution: here and there in Northern, Western and Central Morocco, as far as the Gada of Debdou and Nador in the east (Machard, 2018; Chavanon, 2020).
General distribution: Portugal, Spain and Maghreb (Löbl and Löbl, 2017)
Regional distribution: Northern, Western and Central Morocco, reaching the Gada of Debdou in the east (Machard, 2018; Chavanon, 2020).
General distribution: Mediterranean Europe (from Spain to the Balkans, including Malta), Romania, Russia (Southern European Territory), Ukraine, Maghreb and Turkey (Tronquet, 2014; Kostova and Guéorguiev, 2016; Talarico et al., 2016; Löbl and Löbl, 2017; Andújar et al., 2019).
Regional distribution: Northern and Central Morocco (between Tangier, Casablanca, El Hajeb and Taza) (Machard, 2018) up to the Gada of Debdou (Chavanon and Zitouni, 1996; Chavanon, 2020).
General distribution: Spain, Portugal and Morocco (Andújar et al., 2019; Löbl and Löbl, 2017).
Calathus (Bedelinus) circumseptus Germar, 1824
Regional distribution: Northern, Western and Central Morocco (between Tangier, lower part of Moulouya, Oujda, Taza, the western border of Middle Atlas and High Atlas and the Sous (Machard, 2018; Chavanon, 2020).
General distribution: Albania, Croatia, France, Greece, Italy, Portugal, Spain, Algeria and Morocco (Serrano et al., 2003; Cosimi, 2011; Löbl and Löbl, 2017).
Regional distribution: almost all of Morocco (Machard, 2018).
General distribution: Great Britain, Ireland, France, Spain, Portugal, Italy, Greece, Croatia, Slovenia, Yugoslavia, Macaronesia, Maghreb, Cyprus, Lebanon, Korea and Canada (Machado and Oromi, 2000; Borges et al., 2005; Luff, 2007; Duff, 2008; Mendonça and Borges, 2009; Tronquet, 2014; Löbl and Löbl, 2017).
Licinus (Licinus) punctatulus punctatulus Fabricius, 1792
Regional distribution: almost all of Morocco apart from the arid Eastern and Saharan regions (Chavanon et al.,1995; Machard, 2018; Bouraada et al., 2020).
General distribution: Azores, Spain, Maghreb (ssp. punctatulus), Croatia, Belgium, France, Great Britain, Italy, Portugal, Canary Islands (ssp. granulatus), Croatia, Italy (ssp. siculus) and Libya (ssp. torretassoi) (Machado and Oromi, 2000; Mendonça and Borges, 2009; Ghannèm and Boumaiza, 2017; Löbl and Löbl, 2017).
Demetrias (Demetrias) atricapillus (Linnaeus, 1758)
Regional distribution: Atlantic region from Tangier to Tiznit (Machard, 2018), mouth and banks of the lower Moulouya and Guerbouss Pass (Chavanon, 2020).
General distribution: West Palaearctic species ranging eastward to Siberia, in Europe known from most countries, Canary Islands, Maghreb, Turkey and Syria (Machado and Oromi, 2000; Cosimi, 2011; Tronquet, 2014; Löbl and Löbl, 2017).
Siagona rufipes (Fabricius, 1792)
Regional distribution: Hassi Mahjez (Daoura valley) and Mahdar near Saïdia (Junger and Faille, 2011).
General distribution: Morocco, Algeria (La Calle, Lake El-Hout) and Tunisia (northern sector) (Löbl and Löbl, 2017; Ghannèm and Boumaiza, 2017). Also mentioned from Cartagena (Spain) (Junger and Faille, 2011).
Brachinus (Brachynolomus) immaculicornis immaculicornis Dejean, 1826
Regional distribution: in a large part of Morocco (Machard, 2018), it reaches the region of Bouârfa in the south-east of the country (Chavanon, 2020).
General distribution: Croatia, France, Greece, Italy, Spain, Switzerland, Maghreb (ssp. immaculicornis), Bulgaria, Macedonia, Romania, Turkey, and part of the Middle East (ssp. apfelbecki) (Cosimi, 2011; Ghannèm and Boumaiza, 2017; Löbl and Löbl, 2017).
Scarites (Parallelomorphus) terricola terricola Bonelli, 1813
Regional distribution: Northern and Central Morocco, from Massa Wadi to Tangier and from Tangier to the mouth of the Moulouya, western border of the Atlas (Machard, 2018) and banks of the Mohammed V dam (Chavanon, 2020).
General distribution: Palaearctic species: Southern Europe and part of Central Europe, Russia (European part, Far East), North Africa, Near and Middle East, Central Asia, Afghanistan, Mongolia, India, Pakistan, China, Taiwan, North Korea and Japan (Horvatovich, 1974; Wiezik, 2005; Tronquet, 2014; Albouy and Richard, 2017; Löbl and Löbl, 2017).
Regional distribution: throughout Morocco, except in the high mountains (Machard, 2018).
General distribution: Portugal, Spain, France, Italy, Greece, Malta, Georgia, Azerbaijan, Turkey; Middle East, Central Asia and Pakistan (Löbl and Smetana, 2003; Cosimi, 2011; Ghannèm and Boumaiza, 2017; Abdel-Dayem et al., 2020).
Subfamily Silphinae Latreille, 1807
Thanatophilus ruficornis Küster, 1851
Regional distribution: Northern, Western and Central Morocco, reaching Agadir in the southwest and the Chott Tigri in the southeast (Kocher, 1958b; Valcárcel and París, 2015; Chavanon, 2020).
General distribution: Portugal, Spain, Sardinia, Sicily and Maghreb (Löbl and Smetana, 2004;
Grosso-Silva and Soares-Vieira, 2009; Baz et al., 2014; Löbl and Löbl, 2015; Valcárcel and París, 2015).
Regional distribution: Northern, Western and Central Morocco, reaching Melilla and Berkane in the East (Kocher, 1958b; Valcárcel and París, 2015; Chavanon, 2020).
General distribution: Palaearctic species distributed throughout Europe and Maghreb to Japan (Löbl and Smetana, 2004; Löbl and Löbl, 2015; Çiftçi et al., 2018; Jarmusz et al., 2020; Egorov et al., 2020).
Regional distribution: Western Rif and Middle and High Atlas (Kocher, 1958b; Valcárcel and París, 2015).
General distribution: almost all of Europe, and Morocco, Azerbaijan, Armenia, Georgia, Turkey, Iran, Russia, and Nearctic Region (Prieto Piloña et al., 2002; Löbl and Smetana, 2004; Löbl and Löbl, 2015; Çiftçi et al., 2018; Egorov et al., 2020).
Regional distribution: all of Morocco except south of the High Atlas (Kocher, 1958b; Valcárcel and París, 2015; Chavanon, 2020).
General distribution: Albania, Bulgaria, Croatia, France, Greece, Italy, Malta, Macedonia, Portugal, Spain, Turkey, and Maghreb (Prieto Piloña et al., 2002; Löbl and Smetana, 2004; Löbl and Löbl, 2015; Çiftçi et al., 2018).
Regional distribution: all of Morocco except south of the Atlas (Kocher, 1958b; Valcárcel and París, 2015; Chavanon, 2020).
General distribution: France, Italy, Portugal, Spain and Maghreb (Löbl and Smetana, 2004; Baz et al., 2014; Löbl and Löbl, 2015; Valcárcel and París, 2015). Also reported in North America (Ferreira, 2017).
Subfamily Staphylininae Latreille, 1802
Ocypus (Pseudocypus) aethiops Waltl, 1835
Regional distribution: all of Northern and Central Morocco, between Cap de l'Eau, Tangier, Casablanca and the Middle Atlas (Kocher, 1958b).
General distribution: Azores, Madeira, France, Italy, Portugal, Spain, Switzerland and Maghreb (Löbl and Smetana, 2004; Assing and Schülke, 2006; Tronquet, 2014; Löbl and Löbl, 2015; Andoujar et al., 2019; Ferreira, 2021).
Regional distribution: almost all of Morocco, reaching the High Atlas in the south (Kocher, 1958b).
General distribution: a large part of Europe, North Africa (from Madeira and Canary Islands to Tunisia) and Mauritania. Introduced to the Nearctic Region (Löbl and Smetana, 2004; Assing and Schülke, 2006; Löbl and Löbl, 2015).
Regional distribution: mentioned with doubt from Beni Tadjite (Eastern Morocco) by Chavanon (2020).
General distribution: a large part of Europe, Turkey, and Iran. Not reported from North Africa (Löbl and Smetana, 2004; Löbl and Löbl, 2015; Pérez-Moreno et al., 2020).
Subfamily Cetoniinae Leach, 1815
Oxythyrea funesta Poda von Neuhaus, 1761
Regional distribution: from the Mediterranean coast to the northern edge of the Sahara (Baraud, 1985; Mitter, 2011; Chavanon et al., 2015; Tamadouni and Arahou, 2017; Vondráček et al., 2018; Chavanon, 2020)
General distribution: Palaearctic species: most of Europe up to the Ural Mountains and the Caucase, North Africa, Cyprus, Iran, Kazakhstani, Turkey and West Siberia (Bunalski, 1999; Silfverberg, 2004; Šablevičius, 2004, 2007; Bukejs et al., 2006; Horak et al., 2009, 2013; Pivotti et al., 2011; Barclay and Notton, 2015; Tamutis and Dapkus, 2014; Daas et al., 2016; Thomaes et al., 2016; Löbl and Löbl, 2016; Vondráček et al., 2018; Zemouri et al., 2021).
Regional distribution: everywhere except in desert regions (Baraud, 1985).
General distribution: Spain, Malta, Italy (Calabria and Sicily), North Africa and Sinaï (Sparacio, 2009; Pivotti et al., 2011; Löbl and Löbl, 2016).
Gymnopleurus (Gymnopleurus) sturmii W. S. MacLeay, 1821
Regional distribution: throughout Morocco (Baraud, 1985)
General distribution: Western, Southern and Central Europe, North Africa, Turkey, Jordan and Syria (Marniche et al., 2007; El Aichar et al., 2013; Löbl and Löbl, 2016; Tonelli et al., 2016; Sonneville et al., 2017).
Regional distribution: all of Morocco (Baraud, 1985).
General distribution: Azerbaijan, Armenia, France, Georgia, Greece, Italy, Portugal, Spain, Russia (South European Territory), Turkey, Ukraine and North Africa (ssp. flagellatus); Georgia, Iran, Syria and Turkey (ssp. asperatus); Lebanon and Syria (ssp. calignosus); Afghanistan, Pakistan and North West India (ssp. hornei); Azerbaijan, Russia (South European Territory), Iran, Central Asia, Mongolia, China (Xinjiang) (ssp. serratus) (Gharakhloo and Ziani, 2010; Dortel et al., 2013; Siddiqui et al., 2014; Tonelli et al., 2016; Löbl and Löbl, 2016; Sobhi et al., 2017; Seyedein et al., 2019).
Subfamily Cantharinae Imhoff, 1856
Cantharis (Cantharis) coronata Gyllenhal, 1808
Regional distribution: Northern and Central Morocco, between Tangier, Taza and Rabat, reaching Tadla in the south (Kocher, 1956c).
General distribution: Portugal, Spain and Morocco (Löbl and Smetana, 2007; Diéguez Fernández et al., 2017).
Regional distribution: all of Morocco, except sub-Saharan regions (Kocher, 1956c).
General distribution: a large part of Europe, Azerbaijan, Georgia, Turkmenistan, Turkey, Iran, Syria and Morocco (Löbl and Löbl, 2017; Kazantsev, 2011; Yildirim et al., 2011; Fanti, 2014; Kerimova and Huseynova, 2014; Samin et al., 2015; Fanti and Ghahari, 2016).
Subfamily Dermestinae Latreille, 1804
Dermestes (Dermestinus) frischii Kugelann, 1792
Regional distribution: except for the mountains, all of Morocco including the Saharan regions (Kocher, 1956b)
General distribution: cosmopolitan species (Löbl and Smetana, 2007).
Lobonyx aeneus Fabricius, 1787
Regional distribution: all of Northern and Central Morocco, between Oujda, Tangier, Oulmès and the Middle Atlas (Kocher, 1956c; Arahou, 2008, 2010; Bocakova et al., 2012).
General distribution: Portugal, Spain, France (Eastern Pyrenees), Sardinia, Sicily and North Africa (Löbl and Smetana, 2007; Molina, 2013).
Subfamily Dasytinae Laporte de Castelnau, 1840
Psilothrix (Psilothrix) viridicoerulea Geoffroy, 1785
Regional distribution: all of Morocco except sub-Saharan regions (Kocher, 1956c).
General distribution: most of Europe (Belgium, Netherlands, Denmark, Italy, Spain, Portugal, Greece, Croatia, France, Germany, Ireland, Latvia, Malta, Macedonia, Slovenia, Sweden, Poland, Romania, Great Britain, Yugoslavia and Switzerland), Turkey and North Africa (from Canary Islands to Libya) (Löbl and Smetana, 2007; Baviera and Liberti, 2010; Amokrane et al., 2020).
Regional distribution: Northern, Central and Western Morocco, reaching the Sous in the south (Kocher, 1956c; Villemant and Andrei-Ruiz, 1999; Villemant and Fraval, 2002; Arahou, 2008, 2010).
General distribution: France, Portugal, Spain, Morocco and Algeria (Löbl and Smetana, 2007; Tronquet, 2014; Belhoucine and Bouhraoua, 2015; Bellifa and Rousset, 2021).
Subfamily Malachiinae Fleming, 1821
Malachius lusitanicus Erichson, 1840
Regional distribution: Rif, High and Middle Atlas (Kocher, 1956c; Arahou, 2008, 2010).
General distribution: France, Italy, Malta, Portugal, Spain, Turkey and Morocco (Audisio et al.,1995; Švihla and Mifsud, 2006; Löbl and Smetana, 2007; Plata-Negrache, 2010; Gil et al., 2021).
Regional distribution: Mount Gourougou and North-West Morocco between Tangier, Larache and the central pre-Rif (Kocher, 1956c).
General distribution: Albania, Corsica, Sardinia, Sicily, Greece, Portugal, Spain and Maghreb (Löbl and Smetana, 2007; Plata-Negrache, 2010; Franzini, 2021).
Subfamily Coccinellinae Latreille, 1807
Coccinella (Coccinella) septempunctata algerica Kovář, 1977
Regional distribution: all of Morocco including the Saharan regions (Kocher, 1956b).
General distribution: species with Palaearctic, Nearctic, Afrotropical, and Oriental distribution (with subspecies algerica in North Africa and subspecies brucki in China, Hawaii, India, Japan and Sakalin Island) (Krafsur et al., 2005; Löbl and Smetana, 2007; Nikitsky and Ukrainsky, 2016; Tamadouni and Arahou, 2017; Saharaoui, 2017; Abu El-Ghiet, 2019; Bakroune et al., 2020; Gharbi, 2020, Mahbob, 2021).
Regional distribution: all of Morocco including the Saharan regions (Kocher, 1956b).
General distribution: species with Palaearctic, Nearctic, Afrotropical, and Oriental distribution (Löbl and Smetana, 2007; Guesmi et al., 2011; Nikitsky and Ukrainsky, 2016; Bakroune et al., 2020; El-Saeady et al., 2020).
Subfamily Pimeliinae Latreille, 1802
Pachychila (Pachychila) salzmanni Solier, 1835
Regional distribution: Western side of the Mediterranean coast (Español, 1944 ; Idrissi, 1984), north Atlantic Morocco and south Rifain Corridor (Kocher, 1958a).
General distribution: Southern Spain and Northwest Morocco (Löbl and Smetana, 2008 ; Hagstrum and Subramanyam, 2016).
Dendarus pectoralis Mulsant and Rey, 1854
Regional distribution: Northern Rif, Atlantic coast from Ceuta to South-West Rabat (Kocher, 1958a), Bab Taza and Talassemtane National Park (Western Rif) (Benyahia et al., 2015).
General distribution: Northwest Morocco and Iberian Peninsula (Löbl and Smetana, 2008).
Gastrhaema rufiventris Waltl, 1835
Regional distribution: between Tangier, Boulhaut and the Middle and High Atlas (Kocher, 1956a). Also, mentioned from Talassemtane National Park (Benyahia et al., 2015).
General distribution: extreme south of Spain, Northwest Morocco and Northeast Algeria (Benyahia et al., 2015).
Subfamily Oedemerinae Latreille, 1810
Oedemera (Oedemera) simplex Linnaeus, 1767
Regional distribution: Northern, Central and Western Morocco, reaching the Sous in the south and Oujda in the east (Kocher, 1956a).
General distribution: Portugal, Spain, France (including Corsica), Italy (including Sardinia and Sicily), Malta and North Africa (from Morocco to Libya) (Löbl and Smetana, 2008; Bolaño et al., 2012; Fadda, 2016; López-Pérez and Vázquez, 2016).
Subfamily Chrysomelinae Latreille, 1802
Chrysolina (Chrysolina) bankii Fabricius, 1775
Regional distribution: all of Morocco, except the arid eastern and southern regions (Kocher, 1958c; Maican and Serafim, 2015; Chavanon, 2020).
General distribution: France, Great Britain, Italy, Malta, Madeira Archipelago, Portugal, Spain, Switzerland, Canary Islands and Maghreb (Löbl and Smetana, 2010; Petitpierre, 2019).
Regional distribution: Northern and Central Morocco, from the lower part of Moulouya and Oujda to the Atlantic coast, to the south of the region of Marrakech and Sidi Ifni (Kocher, 1958c; Chavanon, 2020).
General distribution: Italy (Calabria and Sicily) and Maghreb (with different subspecies) (Löbl and Smetana, 2010).
Regional distribution: all of Morocco except the arid regions of the east and south where it does not exceed the Sous (Kocher, 1958c; Maican and Serafim, 2009; Chavanon, 2020).
General distribution: North Africa (from Morocco to Libya) (Bienkowski, 2001; Löbl and Smetana, 2010; Rozner and Rozner, 2013).
Lachnaia (Lachnaia) paradoxa G. A. Olivier, 1808
Regional distribution: all of Morocco except the southern desert regions (Kocher, 1958c; Maican and Serafim, 2009; Chavanon, 2020).
General distribution: France (Pyrénées Orientales), Sicily, Portugal, Spain, and North Africa (from Morocco to Egypt) (Löbl and Smetana, 2010; Rozner and Rozner, 2013).
Subfamily Lixinae Schönherr, 1823
Lixus (Dilixellus) pulverulentus Scopoli, 1763
Regional distribution: Northern and Central Morocco, reaching Casablanca and Marrakech to the west, the central High Atlas to the south and the Beni Snassen Mountains and Guefaït to the east. (Kocher, 1961; Arahou, 2008, 2010; Stüben et al., 2015; Chavanon, 2020).
General distribution: Western and Central Palaearctic: a large part of Europe, North Africa (from Madeira and Canary Islands to Tunisia), Cyprus, Turkey, Syria, Iran, Afghanistan, Tadzhikistan and West Siberia (Löbl and Smetana, 2013; Boukhris-Bouhachem et al., 2016; Sanaei and Seidy, 2017). Discussion
References
Abdel–Dayem, M. S., Abu El–Ghiet, U. M., Elsheikh, T. M., Elgharbawy, A. A., Al–Fifi, Z. I. A., Aldhafer, H. M., 2020. The first survey of the beetles (Coleoptera) of the Farasan Archipelago of the southern Red Sea, Kingdom of Saudi Arabia. ZooKeys, 959: 17–86, Doi: 103897/zookeys.959.51224
Abu El–Ghiet, U., 2019. Richness and Fluctuation of Chrysoperla carnea and Coccinella septempunctata on Alfalfa, Medicago sativa L. in Baharyia and Farafra Oases –Western Desert, Egypt. Egyptian Academic Journal of Biological Sciences. A, Entomology, 12(6): 53–64, Doi: 10.21608/eajbsa.2019.63482
Albouy, V., Richard, D., 2017. Guide des Coléoptères d’Europe. Delachaux et Niestlé Eds., Paris.
Amokrane, A., Khammar, H., Hadjab, R., Saheb, M., 2020. Evaluation of The Diversity of Durum Wheat Coleoptera (Triticum Durum Desf.) in the Region of Sigus Oum El Bouaghi (Eastern Algeria). Journal of Bioresource Management, 7(4): 33–54, Doi: 10.35691/JBM.0202.0149
Andújar, C., Ruiz, C., Serrano, J., 2019. Phylogenetic inferences on West Mediterranean Ditomina (Coleoptera: Carabidae: Harpalini) based on molecular data. Arthropod Systematics and Phylogeny, 77(2): 205–214, Doi: 10.26049/ASP77-2-2019-01
Antoine, M., 1955. Coléoptères carabiques du Maroc, 1ière partie. Mémoires de la Société des Sciences Naturelles et Physiques du Maroc, nouvelle série, Zoologie n° 1.
Antoine, M., 1957. Coléoptères carabiques du Maroc, 2ième partie. Mémoires de la Société des Sciences Naturelles et Physiques du Maroc, nouvelle série, Zoologie n° 3.
Antoine, M., 1959. Coléoptères carabiques du Maroc, 3ième partie. Mémoires de la Société des Sciences Naturelles et Physiques du Maroc, nouvelle série, Zoologie n° 6.
Antoine, M., 1961. Coléoptères carabiques du Maroc, 4ième partie. Mémoires de la Société des Sciences Naturelles et Physiques du Maroc, nouvelle série, Zoologie n° 8.
Antoine, M., 1963. Coléoptères carabiques du Maroc, 5ième partie. Mémoires de la Société des Sciences Naturelles et Physiques du Maroc, nouvelle série, Zoologie n° 9.
Arahou, M., 2008. Catalogue de l'entomofaune du Chêne vert du Moyen Atlas (Maroc). Documents de l'Institut Scientifique, Rabat.
Arahou, M., 2010. L'Entomofaune du chêne vert du moyen atlas marocain: régime trophique et biogéographie. In: Actes de La CIFE VI: 33–42 (O. Himmi, Eds.). Travaux de l’Institut Scientifique, Série Zoologie, Rabat.
Assing, V., Schülke, M., 2006. Systematic Catalogue of the entomofauna of the Madeira Archipelago and Selvagens Islands. Staphylinoidea, Staphylinidae (Coleoptera). Boletim do Museu Municipal do Funchal (História Natural) Suppl, 11: 5–167.
Audisio, P, Gobbi, G, Liberti, G, Nardi, G., 1995. Coleoptera Polyphaga IX (Bostrichoidea, Cleroidea, Lymexyloidea). In: Checklist delle specie della fauna italiana: 27 (A. Minelli, S. Ruffo, S. La Posta, Eds.). Comitato Scientifico per la Fauna d’Italia, Bologna.<
Avgin, S. S., Emri, I., 2007. Contribution to the taxonomy of the Harpalinae (Coleoptera: Carabidae) from Kahramanmaras and the surrounding towns, in Turkey. Transactions of the American Entomological Society, 133(3/4): 413–432, http://www.jstor.org/stable/25078976
Bakroune, N–El., Sellami, M., Saharaoui, L., 2020. Entomofaune associée au blé dur (Triticum durum L.) dans la région de Sidi Okba (Biskra: Algérie): diversité spécifique. Revue Agrobiologia, 10(1): 1849–1860.
Baraud, J., 1985. Encyclopédie Entomologique – XLVI. Coléoptères Scarabaeoidea. Faune du Nord de l’Afrique du Maroc au Sinaï, Paris.
Barclay, M. V. L., Notton, D., 2015. Oxythyrea funesta (Poda) (Scarabaeidae) in London and a summary of recent and historical British records of this species. The Coleopterist, 24(2): 113–116.
Baviera, C., Liberti, G., 2010. Dasytidae of the Egadi Archipelago (Coleoptera, Cleroidea) with description of Danacea hierena n. sp. Zootaxa, 2351: 49–57, Doi: 10.5281/zenodo.193462
Baz, A., Cifrián, B., Martín–Vega, D., 2014. Patterns of Diversity and Abundance of Carrion Insect Assemblages in the Natural Park "Hoces del Río Riaza" (Central Spain). Journal of Insect Science, 14(162): 1–10, Doi: 10.1093/jisesa/ieu024
Belhoucine, L., Bouhraoua, R., 2015. Aperçu biologique du Platypus cylindrus Fab. (Coleoptera, Platypodidae) dans les galeries du bois de chêne–liège (Quercus suber L.). Les actes du Med Suber I: 1ère Rencontre Méditerranéenne Chercheurs–Gestionnaires–Industriels sur la Gestion des Subéraies et la Qualité du liège, 19–20 october 2009, University of Tlemcen, Algeria.
Bellifa, M., Rousset, J., 2021. Sur la présence en France de Dasytes terminalis Jacquelin du Val, 1863 avec des données inédites sur sa répartition et un point sur sa biologie (Coleoptera, Dasytidae). Le Coléoptériste, 24(2): 128–131, https://hal.archives-ouvertes.fr/hal-03466070
Benyahia, Y., Soldati, F., Rohi, L., Valladares, L., Maatouf, N., Courtin, O., El Antry, S., Brustel, H., 2015. First survey of darkling beetles (Coleoptera, Tenebrionidae) of Talassemtane National Park, Western Rif, Morocco. Check List, 11(5): 1778, Doi: 10.15560/11.5.1778
Bienkowski, A., 2001. A study on the genus Chrysolina Motschulsky, 1860, with a checklist of all described subgenera, species, subspecies, and synonyms (Coleoptera: Chrysomelidae: Chrysomelinae. Genus. International Journal of Invertebrate Taxonomy, 12(2): 105–235.<
Bocakova, M., Constantin, R., Bocak, L., 2012. Molecular phylogenetics of the melyrid lineage (Coleoptera: Cleroidea). Cladistics, 28(2): 117–129, Doi: 10.1111/j.1096-0031.2011.00368.x
Boivin, G., Hance, T., 2002. Ground beetle assemblages in cultivated organic soil and adjacent habitats: temporal dynamics of microspatial changes. Pedobiologia, 47: 193–202, Doi: 10.1078/0031-4056-00182
Bolaño, J. A., Villero, J. M., Puebla, P. B., Colón, J. I., 2012. Los Oedemeridae Latreille, 1810 y Mycteridae Blanchard, 1845 (Coleoptera) de la Sierra de Tudía (Badajoz, Extremadura, España). Boletín de la Sociedad Entomológica Aragonesa, 50: 569–572.
Borges, P. A. V., Vieira, V., Dinis, F., Jarroca, S., 2005. Lista dos Arthrópodes (Arthropoda). In: Listagem da fauna e flora (Mollusca e Arthropoda) (Bryophyta, Pteridophyta e Spermatophyta) terrestres dos Açores: 163–221 (P. A. V. Borges, R. Cunha, R. Gabriel, A. F. Martins, L. Silva, V. Vieira, Eds.). Direcção Regional do Ambiente and Universidade dos Açores, Horta, Angra do Heroismo and Ponta Delgada.
Bouchard, P., Smith, A. B. T., Douglas, H., Gimmel, M. L., Brunke, A. J., Kanda, K., 2017. Biodiversity of Coleoptera. In: Insect Biodiversity: Science and Society, Volume I, Second Edition: 337–417 (R. G. Foottit, P. H. Adler, Eds.). John Wiley and Sons Ltd, USA.<
Boukhris–Bouhachem, S., Hmem–Bourissa, M., Souissi, R., 2016. First Report on Natural Enemies of Lixus pulverulentus on Faba Bean Crops in Tunisia. Tunisian Journal of Plant Protection, 11(2): 245–250.
Bouraada, K., Chavanon, G., Essafi, M., El Ghadraoui, L., Benjelloun, M., 2016. Diversité écologique du peuplement de coléoptères des écosystèmes dunaires mobiles de la frange septentrionale et de la région orientale du Maroc. Ecologia Mediterranea, 42(1): 39–50, Doi: 10.3406/ecmed.2016.1231
Bouraada, K., Essafi, M., Chavanon, G., Janati Idrissi, A., 2020. Ecological types of riparian's insects Carabidae beetles of Lake Dayat Aoua (Atlas Morocco). International Journal of Advanced Research in Biological Sciences, 7(2): 75–85, Doi: 10.22192/ijarbs.2020.07.02.007
Bukejs, A., Barsevskis, A., Rudans, E., 2006. Oxythyrea funesta (Poda, 1761) (Coleoptera: Scarabaeidae: Cetoniinae) in the fauna of Latvia. Acta Biologica Universitatis Daugavpiliensis, 6(1–2): 51–55.
Bunalski, M., 1999. Die Blatthornkäfer Mitteleuropas (Coleoptera: Scarabaeoidea): Bestimmung, Verbreitung, Ökologie . Slamka, Bratislava, Slovakia.
Chapelin–Viscardi, J–D., Rabourdin, N., Coulon, J., 2012. Etude des Carabidae (Coleoptera) de la plaine agricole de Pierrelatte–Tricastin. Eléments nouveaux ou intéressants pour l’Ardèche, la Drôme et la région Rhône–Alpes. Bulletin mensuel de la Société linnéenne de Lyon, 81(7–8): 159–176, Doi: 10.3406/linly.2012.13831
Chavanon, G., 2020. Catalogue des Coléoptères de la région orientale du Maroc (Province de Guercif exceptée). Travaux de l’Institut Scientifique, Université Mohammed V de Rabat, série Zoologie, 57(2018): 192.
Chavanon, G., Daoudi, L., Labrique, H., 2015. Contribution à la connaissance des coléoptères de la région de Beni Tadjite–Talsint (Maroc Oriental) (Carabidae, Scarabaeoidea, Dermestidae, Buprestidae, Tenebrionidae et Curculionidae). Bulletin de la Société entomologique de Mulhouse, 71(2): 19–28.
Chavanon, G., Rahhou, I., Chavanon, L., 1995. Etudes sur la basse Moulouya (Maroc Oriental), 4: Les carabiques des berges de l’oued Zeghzel. Bulletin mensuel de la Société linnéenne de Lyon, 64(4): 188–192, Doi: 10.3406/linly.1992.10969
Chavanon, G., Zitouni, N., 1996. Sur les origines du peuplement carabidologique de la Gada de Debdou (Maroc Oriental). Mésogée, Bulletin du Museum d'Histoire Naturelle de Marseille, 55: 15–20.
Chung, A. Y. C., 2004. Vertical stratification of beetles (Coleoptera) using flight intercept traps in a lowland rainforest of Sabah, Malaysia. Sepilok Bulletin, 1: 27–39.
Çiftçi, D., Růžička, J., Hasbenli, A., Şahin, Ü., 2018. The large carrion beetles (Coleoptera: Silphidae) of Turkey: a review with a new species record. Zootaxa, 4441(3): 555–591, Doi:10.11646/zootaxa.4441.3.10
Cosimi, S., 2011. Effetti di differenti sistemi di gestione agronomica su alcuni gruppi di Arthropodi indicatori di biodiversità. PhD thesis, University of Pisa. Italy.
Daas, H., Adjami, Y., Ghanem, R., Viñolas, A., Ouakid, M. L., Tahraoui, A., 2016. Inventaire des Coléoptères des subéraies du Nord–Est Algérien. Turkish Journal of Forestry, 17: 11–17, Doi: 10.18182/tjf.10489<
Di Marco, M., Santini, L., 2015. Human pressures predict species' geographic range size better than biological traits. Global Change Biology, 21(6): 2169–2178, Doi: 10.1111/gcb.12834
Diéguez Fernández, J. M., López–Pérez, J. J., Barreda, J. M., 2017. Catálogo corológico de los Cantharidae (Coleoptera, Elateroidea) de la provincia de Huelva (suroeste de Andalucía, España). Boletín Sociedad Andaluza de Entomología, 27: 23–33.
Dortel, E., Thuiller, W., Lobo, J. M., Bohbot, H., Lumaret, J. P., Jay–Robert, P., 2013. Potential effects of climate change on the distribution of Scarabaeidae dung beetles in Western Europe. Journal of Insect Conservation, 17(5): 1059–1070, Doi: 10.1007/s10841-013-9590-8
Duff, A., 2008. Checklist of beetles of the British Isles. In: Wells. Somerset: 164 (A. G. Duff. Ed.). Wells, Somerset, United Kingdom.
Egorov, L. V., Ruchin, A. B., Semenov, V. B., Semionenkov, O. I., Semishin, G. B., 2020. Checklist of the Coleoptera of Mordovia State Nature Reserve, Russia. ZooKeys, 962: 13–122, Doi: 10.3897/zookeys.962.54477
El Aichar, M., Labidi, I., Benyacoub, S., 2013. Dung Beetles (Coleoptera: Scarabaeidae) Community Composition in El Kala National Park (North–Eastern Algeria). European Journal of Scientific Research, 108(1): 28–37.
El Harche, H., Chavanon, G., Fegrouche, R., Berady, K., Zouaki, N., Dahmani, J., Fadli, M., 2021a. Comparative study of insect biodiversity in cultivated and natural steppes in North–Western of Morocco. Tropical Journal of Natural Product Research, 5(10): 1766–1774.
El Harche, H., Fegrouche, R., Chavanon, G., Ghailoule, D., Benhoussa, A., Arahou, M., Fadli, M., 2021b. Comparison of terrestrial beetles in cultivated and natural biotopes of semi–arid region of Morocco. Indian Journal of Ecology, 48(4): 1184–1190.
El–Saeady, A.–H. y A., Hafez, S., Abied, M., Abied, M., 2020. Taxonomical Revision of The Tribe Coccinellini (Coleoptera: Coccinellidae) In Egypt. Egyptian Academic Journal of Biological Sciences. A, Entomology, 13(4): 23–47, Doi: 10.21608/EAJBSA.2020.118766
Español, F., 1944. Datos para el conocimiento de los tenebriónidos del Mediterráneo occidental. 5: El genero Pachychila en España y Baleares. Graellsia, 2(4): 101–108.
Fadda, S., 2016. Les Oedemeridae Latreille, 1810 de la faune de France: clé de détermination et éléments d'écologie et de biologie (Coleoptera Tenebrionoidae). L’Entomologiste, 72(3): 141–155
Fanti, F., 2014. Catalogo critico delle Cantharidae d'Italia (Insecta, Coleoptera). Memorie della Società Entomologica Italiana, 91(1–2): 61–132, Doi: 10.4081/MemorieSEI.2014.61
Fanti, F., Ghahari, H., 2016. A checklist of the soldier beetles (Coleoptera: Elateroidea: Cantharidae) of Iran. Zootaxa, 4196(4): 529–551, Doi: 10.11646/zootaxa.4196.4.4
Ferreira, R. N., 2017. First record of Silpha puncticollis Lucas, 1846 (Coleoptera: Silphidae, Silphinae) for North America. Arquivos Entomolóxicos, 17: 101–103.
Ferreira, R. N., 2021. Padre Ramiro dos Santos Ferreira Neves, o entomologista e a sua colecção esquecida de Staphylinidae (Coleoptera). Arquivos Entomolóxicos, 24: 205–235.
Franzini, G., 2021. Case 3835 – Charopus rotundatus Erichson, 1840 (Coleoptera, Melyridae, Malachiinae): proposed conservation of current usage by designation of a neotype. The Bulletin of Zoological Nomenclature, 78(1): 30–34, Doi: 10.21805/bzn.v78.a008
Ghannèm, S., Bejaoui, M., Boumaiza, M., 2017a. New records, notes on distribution and species diversity of Carabidae (Coleoptera) from Tunisia National Parks. Revista Colombiana de Entomología, 43(1): 69–76, Doi: 10.25100/socolen.v43i1.6652
Ghannèm, S., Bejaoui, M., Gahdab, C., Boumaiza, M., 2017b. Biodiversity of Ground Beetles (Coleoptera: Carabidae) from Northern Tunisia. Journal of the Kansas Entomological Society, 90(1): 31–43, Doi: 10.2317/151031.1
Ghannèm, S., Boumaiza, M., 2017. New Data of Ground Beetles (Coleoptera: Carabidae) in Tunisia. Journal of the Entomological Research Society, 19(1): 15–37.
Ghannèm, S., Zrelli, S., Bejaoui, M., Gahdab, C., Boumaiza, M., 2015. Contribución al conocimiento de los coleópteros del norte de Túnez (Insecta: Coleoptera). Revista gaditana de Entomología, 6(1): 21–30.
Gharakhloo, M. M., Ziani, S., 2010. Iranian dung beetles (Coleoptera: Scarabaeoidea) associated with rodent burrows: list of collected species and some additional comments. Boletín de la Sociedad Entomológica Aragonesa, 47: 165–170.
Gharbi, N., 2020. Bioecology of the globular mealybug Pollinia pollini (Asterolecaniidae) on olive tree in North of Tunisia. Journal of New Sciences, Agriculture and Biotechnology, 72(4): 4339–4345.
Gil, F., Grosso–Silva, J. M., Valente, A., 2021. Preliminary catalogue of the entomofauna of Parque das Serras do Porto (Porto, Portugal). Arquivos Entomolóxicos, 24: 145–168.
Grosso–Silva, J. M., Soares–Vieira, P., 2009. Beetles (Coleoptera) associated with animal carcasses in Portugal: data collected since 1995 and survey of earlier publications. Boletín de la Sociedad Entomológica Aragonesa, 44: 481–491.
Guéorguiev, B., 2011. New and interesting records of Carabid Beetles from South–East Europe, South–West and Central Asia, with taxonomic notes on Pterostichini and Zabrini (Coleoptera, Carabidae). Linzer biologische Beiträge, 43(1): 501–547.
Guéorguiev, V. B., Guéorguiev, B. V., 1995. Catalogue of the ground–beetles of Bulgaria (Coleoptera, Carabidae). Pensoft Publishers, Sofia, Moscow.
Guesmi, J., Ben Halima, M. K., Al Mohandes Dridi, B., 2011. Diversity of natural enemy associated to aphid's artichoke in different areas of production in Tunisia. Acta Horticulturae, 942: 215–220, Doi: 10.17660/ActaHortic.2012.942.28<
Hagstrum, D., Subramanyam, B., 2016. Stored–Product Insect Resource. American Association of Cereal Chemists International, University of Wisconsin, Madison, USA.
Hajji Hour, R., Chenfour, D., Janati–Idrissi, A., Haloti, S., 2011. Evaluation of the biodiversity of Coprophagous Scarabéides and their seasonal evolution in the Moyenne Moulouya Plateau (Morocco). Bulletin de la Société Entomologique de Muhlouse, 67: 1–13.
Harvey, J. A., van der Putten, W. H., Turin, H., Wagenaar, R., Bezemer, T. M., 2008. Effects of changes in plant species richness and community traits on carabid assemblages and feeding guilds. Agriculture, Ecosystems and Environment, 127(1–2): 100–106, Doi: 10.1016/j.agee.2008.03.006
Horak, J., Chobot, K., Jirmus, T., AksennkoJ., 2009. Zlatohlávek tmavý chráněný živočich i potenciální škůdce? [The gold chafer – a specially protected wild animal as well as a possible pest?]. Ochrana Přírody, 64(1): 15–17.
Horak, J., Hui, C., Roura–Pascual, N., Romportl, D., 2013. Changing roles of propagule, climate, and land use during extralimital colonization of a rose chafer beetle. Naturwissenschaften, 100(4): 327–336, Doi: 10.1007/s00114-013-1029-2
Horvatovich, S., 1974. Futóbogarak II. Carabidae II. Magyarország Állatvilága. Fauna Hungariae, 6(4): 1–42.
Idrissi, L., 1984. Contribution à l’étude écologique des Coléoptères sabulicoles du littoral atlantique marocain. PhD thesis, 3ème cycle, Faculté des Sciences, Rabat.
Jarmusz, M., Grzywacz, A., Bajerlein, D., 2020. A comparative study of the entomofauna (Coleoptera, Diptera) associated with hanging and ground pig carcasses in a forest habitat of Poland. Forensic Science International, 309: 110212, Doi: 10.1016/j.forsciint.2020.110212
Jeannel, R., 1941. Faune de France. Coléoptères Carabiques, 1ière partie. Paul Lechevalier et fils, Paris.
Jeannel, R., 1942. Faune de France. Coléoptères Carabiques, 2nd part. Paul Lechevalier et fils, Paris.
Jukes, M. R., Peace, A. J., Ferris, R., 2001. Carabid beetle communities associated with coniferous plantations in Britain: the influence of site, ground vegetation and stand structure. Forest Ecology and Management, 148(1–3): 271–286, Doi: 10.1016/S0378-1127(00)00530-2
Junger, B., Faille, A., 2011. Remarkable discovery in a cave of south west Morocco: Siagona taggadertensis n. sp. (Carabidae: Siagoninae). Annales de la Société entomologique de France (N.S.), 47(1–2): 162–167, Doi: 10.1080/00379271.2011.10697708
Kataev, B. M., Wrase, D. W., 2015. Acinopus sabulosus and A. lepeletieri from north–west Africa are two distinct species (Coleoptera: Carabidae: Harpalini). Zootaxa, 4007(2): 290–294, Doi: 10.11646/zootaxa.4007.2.12
Kazantsev, S. V., 2011. An annotated checklist of Cantharoidea (Coleoptera) of Russia and adjacent territories. Russian Entomological Journal, 20(1): 387–410, Doi: 10.15298/rusentj.20.4.05<
Kerimova, I. G., Huseynova, E. A., 2014. Species Composition of Chortobiont Beetles (Coleoptera: Lycidae, Lampyridae, Cantharidae, Oedemeridae) Less Studied In Azerbaijan. Journal of Forestry Faculty, 15(1): 1–8, Doi:10.17474/acuofd.84065
Knops, J. M. H., Tilman, D., Haddad, N. M., Naeem, S., Mitchell, C. E., Haarstad, J., Ritchie, M. E., Howe, K. M., Reich, P. B., Siemann, E., Groth, J., 1999. Effects of plant species richness on invasion dynamics, disease outbreaks, insect abundances and diversity. Ecology Letters, 2(5): 286–293.
Kocher, L., 1956a. Catalogue commenté des coléoptères du Maroc. Fasc. V: Hétéromères (Ténébrionides exceptés). Travaux de l’Institut scientifique chérifien, Rabat, série Zoologie n° 10.
Kocher, L., 1956b. Catalogue commenté des coléoptères du Maroc. Fasc. IV: Clavicornes et groupes voisins. Travaux de l’Institut scientifique chérifien, Rabat, série Zoologie n° 11.
Kocher, L., 1956c. Catalogue commenté des coléoptères du Maroc. Fasc. III: Malacodermes – Serricornes. Travaux de l’Institut scientifique chérifien, Rabat, série Zoologie n° 8.
Kocher, L., 1958a. Catalogue commenté des coléoptères du Maroc. Fasc. VI: Ténébrionides. Travaux de l’Institut scientifique chérifien, Rabat, série Zoologie n° 12.
Kocher, L., 1958b. Catalogue commenté des coléoptères du Maroc. Fasc. II: Hydrocanthares, Palpicornes, Brachélytres. Travaux de l’Institut scientifique chérifien, Rabat, série Zoologie n° 14.
Kocher, L., 1958c. Catalogue commenté des coléoptères du Maroc. Fasc. VIII: Phytophages. Travaux de l’Institut scientifique chérifien, Rabat, série Zoologie n° 19.
Kocher, L., 1958d. Catalogue commenté des coléoptères du Maroc. Fasc. VII: Lamellicornes. Travaux de l’Institut scientifique chérifien, Rabat, série Zoologie n° 16.
Kocher, L., 1961. Catalogue commenté des coléoptères du Maroc. Fasc. IX: Rhynchophores. Travaux de l’Institut scientifique chérifien, Rabat, série Zoologie n° 24.
Kocher, L., 1963. Catalogue commenté des Coléoptères du Maroc. Fasc. I: Carabiques. Travaux de l’Institut scientifique chérifien, Rabat, série Zoologie n° 27.
Kocher, L., 1964. Catalogue commenté des coléoptères du Maroc. Fasc. X: Addenda et corrigenda. Tables. Travaux de l’Institut scientifique chérifien, Rabat, série Zoologie n° 30.
Kocher, L., 1968. Catalogue commenté des coléoptères du Maroc. Fasc. X bis: Nouveaux addenda et corrigenda. Travaux de l’Institut scientifique chérifien et de la Faculté des Sciences de Rabat, série Zoologie n° 34.
Kocher, L., 1969. Catalogue commenté des coléoptères du Maroc, feuillets rectificatifs. Travaux de l’Institut scientifique chérifien et de la Faculté des Sciences de Rabat.
Koricheva, J., Mulder, C. P. H., Schmid, B., Joshi, J., Huss–Danell, K., 2000. Numerical responses of different trophic groups of invertebrates to manipulations of plant diversity in grasslands. Oecologia, 125(2): 271–282, Doi: 10.1007/s004420000450
Kostova, R., Guéorguiev, B., 2016. The ground beetles (Coleoptera: Carabidae) of the Strandzha Mountain and adjacent coastal territories (Bulgaria and Turkey). Biodiversity Data Journal, 4: e8135–1, Doi: 10.3897/bdj.4.e8135
Krafsur, E. S., Obrycki, J. J., Harwood, J. D., 2005. Comparative genetic studies of native and introduced Coccinellidae in North America. European Journal of Endocrinology, 102: 469–474, Doi: 10.14411/eje.2005.067
Laanisto, L., Sammul, M., Kull, T., Macek, P., Hutchings, M. J., 2015. Trait–based analysis of decline in plant species ranges during the 20th century: a regional comparison between the UK and Estonia. Global Change Biology, 21(7): 2726–2738, Doi: 10.1111/gcb.12887
Löbl, I., Löbl, D., 2015. Catalogue of Palaearctic Coleoptera. Vol. 2/1: Hydrophiloidea–Staphylinoidea. Revised and Updated Edition, E. J. Brill, Leiden, The Netherlands; Boston, Massachusetts, USA.
Löbl, I., Löbl, D., 2016. Catalogue of Palaearctic Coleoptera. Vol. 3: Scarabaeoidea–Scirtoidea–Dascilloidea–Buprestoidea–Byrrhoidea. Revised and Updated Edition, E. J. Brill, Leiden, The Netherlands, Boston, Massachusetts, USA.
Löbl, I., Löbl, D., 2017. Catalogue of Palaearctic Coleoptera. Vol. 1: Archostemata–Adephaga–Myxophaga. Revised and Updated Edition, E. J. Brill, Leiden, The Netherlands, Boston, Massachusetts, USA.
Löbl, I., Smetana, A., 2003. Catalogue of Palaearctic Coleoptera. Vol. 1: Archostemata, Myxophaga, Adephaga. Apollo Books, Stenstrup, Denmark.
Löbl, I., Smetana, A., 2004. Catalogue of Palaearctic Coleoptera. Vol. 2: Hydrophiloidea, Histeroidea, Staphylinoidea. Apollo Books, Stenstrup, Denmark.
Löbl, I., Smetana, A., 2007. Catalogue of Palaearctic Coleoptera. Vol. 4: Elateroidea, Derodontoidea, Bostrichoidea, Lymexyloidea, Cleroidea and Cucujoidea. Apollo Books, Stenstrup, Denmark.
Löbl, I., Smetana, A., 2008. Catalogue of Palaearctic Coleoptera. Vol. 5: Tenebrionoidea. Apollo Books, Stenstrup, Denmark.
Löbl, I., Smetana, A., 2010. Catalogue of Palaearctic Coleoptera. Vol. 6: Chrysomeloidea. Apollo Books, Stenstrup, Denmark.
Löbl, I., Smetana, A., 2013. Catalogue of Palaearctic Coleoptera. Vol. 8: Curculionoidea II. E. J. Brill, Leiden, Boston. .
López–Pérez, J. J., Vázquez, X. A., 2016. Catálogo de los Oedemeridae (Coleoptera: Tenebrionoidea) de la provincia de Huelva (S. O. de Andalucía, España). Boletín de la Sociedad Entomológica Aragonesa, 58: 104–108.
Luff, M. L., 2007. The Carabidae (ground beetles) of Britain and Ireland (Second Edition). Handbooks for the identification of British Insects. Vol. 4 Part. 2. Royal Entomological Society, England.
Machado, A., Oromi, P., 2000. Elenco de los Coleópteros de las islas Canarias. Catalogue of the Coleoptera of the Canary Islands. Instituto de Estudios Canarios, La Laguna.<
Machard, P., 2018. Catalogue des Coléoptères Carabiques du Maroc (Coleoptera, Carabidae). Le Coléoptériste, 21(3): 183–203.
Mahbob, M., 2021. Community Structure of Coccinellids in New Valley Governorate, Egypt. Egyptian Academic Journal of Biological Sciences. A, Entomology, 14(2): 155–162, http://eajbsa.journals.ekb.eg/
Maican, S., Serafim, R., 2009. Data about Cerambycidae and Chrysomelidae (Coleoptera: Chrysomeloidea) collected from mediterranean expeditions [Results of the "Taurus" 2005, "Focida" 2006, "Punia" 2006, "Atlas" 2007 and "Euphrates" 2008 expeditions]. Travaux du Muséum National d'Histoire Naturelle "Grigore Antipa", 52: 415–428
Maican, S., Serafim, R., 2015. New Distribution Data for The Cerambycidae and Chrysomelidae (Coleoptera: Chrysomeloidea) Collected During the Mediterranean Expeditions [Results of the "Dakhla" (2012) and "Merzouga" (2013) Expeditions in Morocco]. Travaux du Muséum National d'Histoire Naturelle "Grigore Antipa", 57(2): 111–120, Doi: 10.1515/travmu-2015-0004
Marniche, F., Voisin, J., Doumandji, S., Baziz, B., 2007. Le régime alimentaire du Guêpier d'Europe Merops apiaster dans le parc national de l’Ichkeul (Tunisie). Revue d'Ecologie (Terre et Vie), 62(4): 351–362.
Mendonça, E., Borges, P. A. V., 2009. Distibuição dos Artrópodes Exóticos dos Açores [Distribution of the Exotic Arthropods from the Azores]. University of Azores, Angra do Heroísmo.
Mitter, H., 2011. Bemerkenswerte Käferfunde aus den Familien Glaphyridae und Scarabaeidae aus Marokko (Coleoptera). Linzer biologische Beiträge, 43(2): 1513–1517.
Molina, D. M., 2013. Nuevos datos de distribución y ecología de Lobonyx aeneus (Fabricius, 1787) en la Península Ibérica (Coleoptera: Prionoceridae). BV news, Publicaciones Científicas, 2(20): 38–46.
Myers, J. H., Jackson, C., Quinn, H., White, S. R., Cory, J. S., 2009. Successful biological control of diffuse knapweed, Centaurea diffusa, in British Columbia, Canada. Biological Control, 50(1): 66–72, Doi: 10.1016/j.biocontrol.2009.02.008
Namaghi, H. S., Avgin, S. S., Farahi, S., 2010. New data to the knowledge of ground beetles (Coleoptera: Carabidae) fauna of Iran. Türkiye Entomoloji Dergisi, 34(2): 197–210, Doi: 10.16970/ted.15982
Nikitsky, N. B., Ukrainsky, A. S., 2016. The ladybird beetles (Coleoptera, Coccinellidae) of Moscow Province. Entomological Review, 96(6): 710–735, Doi: 10.1134/S0013873816060051
Ober, K. A., 2002. Phylogenetic relationships of the carabid subfamily Harpalinae (Coleoptera) based on molecular sequence data. Molecular Phylogenetics and Evolution, 24(2): 228–248, Doi: 10.1016/S1055-7903(02)00251-8
Pena, M., 2001. Les Carabidae (Coleoptera) des Hauts-Sommets de Charlevoix: assemblages et cycles d’activité dans les environnements alpin, subalpin et forestier. Memoire de Maitrise, Université du Quebec, Rimouski, Canada
Pérez–Moreno, I., Gamarra, P., Outerelo, R., San Martín, A. F., 2020. Nuevos datos sobre la fauna de estafilínidos (Coleoptera, Staphylinidae) asociada a robledales de La Rioja (Norte de España). Arquivos Entomolóxicos, 22: 231–253.
Perner, J., Voigt, W., Bahrmann, R., Heinrich, W., Marstaller, R., Fabian, B., Gregor, K., Lichter, D., Sander, F. W., Jones, T. H., 2003. Responses of arthropods to plant diversity: changes after pollution cessation. Ecography, 26(6): 788–800, Doi: 10.1111/J.0906-7590.2003.03549.X
Petitpierre, E., 2019. Fauna Iberica. Vol. 46: Coleoptera, Chrysomelidae II. Museo Nacional de Ciencias Naturales, Consejo Superior de Investigaciones Cientificas, Madrid.
Pivotti, I., Agoglitta, R., Zunino, M., Piattella, E., Dellacasa, M., Corallini, C., Mifsud, D., 2011. The Scarabaeoidea of the Maltese Islands (Central Mediterranean) (Coleoptera). Bulletin of the Entomological Society of Malta, 4: 85–124.
Plata-Negrache, P., 2010. Estudio de la familia Malachiidae Fleming, 1821 (Coleoptera: Cleroidea) en la Comunidad Autónoma de Galicia (N. W. de la Península Ibérica). Arquivos Entomolóxicos, 3: 3–80.
Ponel, P., 2015. Redécouverte en France de Tschitscherinellus cordatus (Dejean 1825) sur l'île Saint–Honorat (Cannes, Alpes–Maritimes) (Coleoptera, Carabidae). L'Entomologiste, 70(6): 369–372.
Prieto Piloña, F., Valcárcel, J. P., Rey–Daluz, F., 2002. Catálogo de los Silphidae y Agyrtidae (Coleoptera) de la Península Ibérica e Islas Baleares. Boletín de la Sociedad Entomológica Aragonesa, 30: 1–32.
Rozner, I., Rozner, G., 2013. Collection data to North Africa's (Morocco, Algeria, Tunisia) leaf beetle fauna (Coleoptera: Chrysomelidae). Natura Somogyiensis, 23: 159–172.
Šablevičius, B., 2004. New and rare for Lithuania beetle (Coleoptera) species collected in 1988–2004. New and Rare for Lithuania Insect Species. Records and Descriptions, 16: 27–31.
Šablevičius, B., 2007. Retų rūšių vabzdžių ir augalų naujos radvietės [The new finding localities of rare species of insects and plants]. Raudoni lapai, 7: 30–31.
Saharaoui, L., 2017. Les coccinelles algériennes (Coleoptera. Coccinellidae), analyse faunistique et structure des communautés. PhD thesis, Université Paul Sabatier, Toulouse France.
Samin, N., Jędryczkowski, W. B., Galini, N., Sakenin, H., Naderian, H., 2015. A faunistic study on some families of Coleoptera from Iran. Arquivos Entomolóxicos, 14: 253–260.
Sanaei, E., Seiedy, M., 2017. Weevils (Coleoptera: Curculionoidea) of Taleghan Region (North of Iran) with reporting of ten new records for the Iran. Journal of the Entomological Research Society, 19(1): 1–13.
Schaffers, A. P., Raemakers, I. P., Sýkora, K. V., Braak, C. J. F., 2008. Arthropod assemblages are best predicted by plant species composition. Ecology, 89(3): 782–794, Doi: 10.1890/07-0361.1
Sciaky, R., 1992. Revisione dei Selenophorina paleartici occidentali (Coleoptera, Carabidae, Harpalinae). Bollettino di Zoologia Agraria e di Bachicoltura, 24(1): 37–65.
Serrano, J., Lencina, J. L., Andújar, A., 2003. Distribution patterns of Iberian Carabidae (Insecta, Coleoptera). Graellsia, 59(2–3): 129–153.
Seyedein, S., Rahiminejad, V., Nadimi, A., 2019. Spatulaphorus geotruporum (Acari: Pygmephoridae) a new record for mites fauna of Asia, with some notes on the genus. Journal of Insect Biodiversity and Systematics, 5(1): 79–85, Doi: 10.52547/jibs.5.1.79
Siddiqui, H., Ahmed, Z., Khatri, I., 2014. Distributional Notes and New Records for the Dung Beetles (Coleoptera: Scarabaeidae: Scarabaeinae) of Pakistan. Pakistan Journal of Zoology, 46(2): 295–307.
Siemann, E., Tilman, D., Haarstad, J., Ritchie, M., 1998. Experimental Tests of the Dependence of Arthropod Diversity on Plant Diversity. The American Naturalist, 152(5): 738–750, Doi: 10.1086/286204
Silfverberg, H., 2004. Enumeratio nova Coleopterorum Fennoscandiae, Daniae et Baltiae. Sahlbergia, 9(1): 1–111.
Sobhi, M., Hajiqanbar, H., Mortazavi, A., 2017. New species and records of heterostigmatic mites (Acari: Prostigmata: Heterostigmata) phoretic on scarabaeid dung beetles (Coleoptera: Scarabaeidae) from northwestern Iran. Zootaxa, 4276(3): 427–434, Doi: 10.11646/zootaxa.4276.3.7
Sonneville, S., Jay–Robert, P., Perrin, W., Fonderflick, J., 2017. Liste commentée des coléoptères coprophages du Parc national des Cévennes. Stratégie scientifique 2014–2029 – Volet biodiversité. Parc National des Cévennes, Florac.
Sparacio, I., 2009. Note tassonomiche su Cetoniidae italiani (Coleoptera Scarabaeoidea Cetoniidae). Naturalista siciliano, 33(1–2): 157-165
Stüben, P. E., Schütte, A., Bayer, C., Astrin, J. J., 2015. The Molecular Weevil Identification Project (Coleoptera: Curculionidae), Part. II – towards and integrative taxonomy. Snudebiller, 16(237): 294.
Švihla, V., Mifsud, D., 2006. Annotated review of the Cantharidae and Malachiidae (Coleoptera) of the Maltese Islands. Acta Entomologica Musei Nationalis Pragae, 46: 89–105, Doi: 10.5281/zenodo.5176714
Talarico, F., Giglio, A., Pizzolotto, R., Brandmayr, P., 2016. A synthesis of feeding habits and reproduction rhythm in Italian seed–feeding ground beetles (Coleoptera: Carabidae). European Journal of Entomology, 113(1): 325–336, Doi: 10.14411/eje.2016.042
Tamadouni, I., Arahou, M., 2017. Settlement of Beetles of the Wetland of Sidi Moussa–Oualidia. Journal of Entomology, 14(1): 33–43, Doi: 10.3923/je.2017.33.43
Tamutis, V., Dapkus, D., 2014. Distribution of Oxythyrea funesta (Poda, 1761) (Coleoptera: Scarabaeidae, Cetoninae) in Lithuania. Zoology and Ecology, 24(1): 33–39, Doi: 10.1080/21658005.2013.870366
Thomaes, A., Renneson, J. L., Drumont, A., Deschepper, C., 2016. Range shift of Oxythyrea funesta Poda, 1761 (Coleoptera, Cetoniidae) in Belgium. Lambillionea, 116: 187–195.
Thomas, C. F. G., Brown, N. J., Kendall, D. A., 2006. Carabid movement and vegetation density: Implications for interpreting pitfall trap data from split–field trials. Agriculture, Ecosystems and Environment, 113(1–4): 51–61, Doi:10.1016/j.agee.2005.08.033<
Tonelli, M., Agoglitta, R., Dawson, H., Zunino, M., 2016. On the road of dung: hypothetical dispersal routes of dung beetles in the Circum–Sicilian volcanic islands. Animal Biodiversity and Conservation, 39(2): 161–171, Doi: 10.32800/abc.2016.39.0161
Tronquet, M., 2014. Catalogue des Coléoptères de France. Revue de l’Association Roussillonnaise d’Entomologie, 23: 1–1052.
Tseng, M., Kaur, K. M., Soleimani Pari, S., Sarai, K., Chan, D., Yao, C. H., Porto, P., Toor, A., Toor, H. S., Fograscher, K., 2018. Decreases in beetle body size linked to climate change and warming temperatures. Journal of Animal Ecology, 87(3): 647–659, Doi: 10.1111/1365-2656.12789
Vaibhao, G., Varsha, S., Vishwanath, D., 2013. Ground beetles (Coleoptera: Carabidae) of Melghat Tiger Reserve, Central India. Journal on New Biological Reports, 2(2): 173–176.
Valcárcel, J. P., París, M., 2015. Sílfidos de África continental (Coleoptera, Silphidae) de la colección del Museo Nacional de Ciencias Naturales de Madrid (España). Arquivos Entomolóxicos, 14: 95–104.
Villemant, C., Andrei–Ruiz, M. C., 1999. Life–cycles and biological features of eggs predators of Lymantria dispar (Lepidoptera: Lymantriidae) in the Mamora cork oak forest, Morocco. European Journal of Entomology, 96: 29–36.
Villemant, C., Fraval, A., 2002. Les insectes ennemis du liège. Insectes, 125(2): 25–30.
Vondráček, D., Hadjiconstantis, M., Šípek, P., 2018. Immature stages of the genus Oxythyrea (Coleoptera: Scarabaeidae: Cetoniinae) with a key to third instar larvae, and notes on the biology of the genus. Zootaxa, 4486(4): 401–434, Doi: 10.11646/zootaxa.4486.4.1
Wiezik, M., 2005. First record of Scarites terricola (Coleoptera, Carabidae) from Slovakia. Biologia, Bratislava, 60(5): 606.
Yildirim, E., Kopetz, A., Bulak, Y., 2011. Contribution to the knowledge of the Cantharidae (Coleoptera) fauna of Turkey. Linzer biologische Beitrage, 43(2): 1641–1646.
Zemouri, M., Asloune, L., Adrar, A., Bouchareb, A., Bougaham, A. F., 2021. Nestling diet of the Algerian Nuthatch Sitta ledanti, an endemic threatened bird in Babors' Kabylia region (north–eastern Algeria). Ostrich: Journal of African Ornithology, 92(3): 175–183, Doi: 10.2989/00306525.2021.1923582
Zhang, Z. Q., 2013. Animal biodiversity: An outline of higher–level classification and survey of taxonomic richness (Addenda 2013). Zootaxa, 3703: 1–82, Doi: 10.11646/zootaxa.3703.1.1
Zitouni, N., Chavanon, G., 2000. Variation saisonniere du peuplement des Caraboidea des berges de la retenue du barrage collinaire de Sidi Yahya (Maroc oriental). Actes de L'institut Agronomique et Vétérinaire du Maroc, 20(2): 109–114.
Zitouni, N., Chavanon, G., 2005. Mobilité de la communauté ripicole d'une daya du Maroc oriental. Mesogee, 61: 79–85.
Zou, Y., Sang, W., Bai, F., Axmacher, J. C., 2013. Relationships between Plant Diversity and the Abundance and α –Diversity of Predatory Ground Beetles (Coleoptera: Carabidae) in a Mature Asian Temperate Forest Ecosystem. Plos One, 8(12): e82792, Doi: 10.1371/journal.pone.0082792