New data on the distribution, biology and ecology of the longhorn beetles from the area of South and East Kazakhstan (Coleoptera, Cerambycidae)

ZooKeys, Nov 2018

New data on the distribution, biology and ecology of the longhorn beetles occurring in southern and eastern regions of Kazakhstan are presented together with a list of 78 species that were collected during two entomological expeditions conducted in May and June 2017. New localities of some rare taxa endemic to this region of Asia, such as Psilotarsus brachypterus brachypterus (Gebler, 1830), Stenocorus minutus (Gebler, 1841) and Dorcadion crassipes crassipes Ballion, 1878 are given. Exocentrus stierlini Ganglbauer, 1883 is recorded from Kazakhstan for the first time. Moreover, the occurrence of three species: Amarysius duplicatus Tsherepanov, 1980, Rhopaloscelis unifasciatus Blessig, 1873 and Saperda alberti Plavilstshikov, 1916, which were recently found in the country, is also confirmed. Furthermore, high-quality photographs of several unique taxa, i.e. Psilotarsus brachypterus pubiventris (Semenov, 1900), Xylotrechus adspersus (Gebler, 1830), X. alakolensis Karpiński & Szczepański, 2018, Anoplistes galusoi (Kostin, 1974), A. jacobsoni Baeckmann, 1904 and Oberea kostini Danilevsky, 1988 along with images of their habitats and feeding galleries are also presented. New localities of species considered serious pests or invasive, such as Turanium scabrum (Kraatz, 1882) and Trichoferus campestris (Faldermann, 1835), respectively, are also given. A new synonymy is proposed: Cerambyx scalaris Linnaeus, 1758 = Cerambyx hieroglyphicus Pallas, 1773, syn. n.

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New data on the distribution, biology and ecology of the longhorn beetles from the area of South and East Kazakhstan (Coleoptera, Cerambycidae)

ZooKeys New data on the distribution, biology and ecology of the longhorn beetles from the area of South and East Kazakhstan (Coleoptera, Cerambycidae) Lech Karpiński 1 Wojciech T. Szczepański Radosław Plewa 0 Marcin Walczak Jacek Hilszczański 0 Lech Kruszelnicki Krzysztof Łoś Tomasz Jaworski 0 Marek Bidas Grzegorz Tarwacki 0 0 , 05-090 Raszyn, Poland 4 Władysława Jagiełły 7c/45, 41-106 Siemianowice Śląskie, Poland 5 Al. Chopina 102a, 05-092 Łomianki Dolne, Poland 6 Prosta 290 D/2, 25-385 Kielce , Poland 1 Museum and Institute of Zoology, Polish Academy of Sciences , Wilcza 64, 00-679 Warsaw , Poland 2 Department of Zoology, Faculty of Biology and Environmental Protection, University of Silesia , Bankowa 9, 40- 007 Katowice , Poland 3 Department of Forest Protection, Forest Research Institute , Sękocin Stary, Braci Leśnej New data on the distribution, biology and ecology of the longhorn beetles occurring in southern and eastern regions of Kazakhstan are presented together with a list of 78 species that were collected during two entomological expeditions conducted in May and June 2017. New localities of some rare taxa endemic to this region of Asia, such as Psilotarsus brachypterus brachypterus (Gebler, 1830), Stenocorus minutus (Gebler, 1841) and Dorcadion crassipes crassipes Ballion, 1878 are given. Exocentrus stierlini Ganglbauer, 1883 is recorded from Kazakhstan for the first time. Moreover, the occurrence of three species: Amarysius duplicatus Tsherepanov, 1980, Rhopaloscelis unifasciatus Blessig, 1873 and Saperda alberti Plavilstshikov, 1916, which were recently found in the country, is also confirmed. Furthermore, high-quality photographs of several unique taxa, i.e. Psilotarsus brachypterus pubiventris (Semenov, 1900), Xylotrechus adspersus (Gebler, 1830), X. alakolensis Karpiński & Szczepański, 2018, Anoplistes galusoi (Kostin, 1974), A. jacobsoni Baeckmann, 1904 and Oberea kostini Danilevsky, 1988 along with images of their habitats and feeding galleries are also presented. New localities of species considered serious pests or invasive, such as Turanium scabrum (Kraatz, 1882) and Trichoferus campestris (Faldermann, 1835), respectively, are also given. A new synonymy is proposed: Cerambyx scalaris Linnaeus, 1758 = Cerambyx hieroglyphicus Pallas, 1773, syn. n. Introduction The cerambycid fauna of Kazakhstan is represented by ca. 272 species. Some of these, especially in genera such as Psilotarsus, Dorcadion and Politodorcadion, are represented by several subspecies, the total number of which extends the number of Kazakh taxa to 365 (Danilevsky 2018a). Due to its huge area and numerous still well-preserved, heavily landlocked regions, the cerambycid fauna of Kazakhstan is quite unique. As many as 111 taxa (approx. 30%) are recognised as occurring exclusively in this country (Danilevsky 2018a). Desert, semi-desert and steppe habitats are inhabited by many endemic species, mainly from the genera Xylotrechus (Kostiniclytus subg.), Anoplistes, Dorcadion, Politodorcadion and Tetrops. Additionally, many boreal species, including some that are very rare and threatened in Europe, e.g. Macroleptura thoracica (Creutzer, 1799), Lepturalia nigripes (DeGeer, 1775) and Exocentrus stierlini Ganglbauer, 1883, seem to be rather abundant in the foothills of the West Altai Mountains in the northeastern region of the country. The state of the knowledge on the longhorn beetles of southern and eastern Kazakhstan as well as information about the biology and ecology of some of the species that are distributed in the region is still poor. Therefore, the present study aims to supplement the knowledge in this field. An additional goal of this work is to gather and disseminate information contained in very valuable but scattered publications, often inaccessible and usually published exclusively in Russian. Study area and methods Kazakhstan is the largest landlocked country in the world with an area of 2.72 million square kilometres. Its terrain stretches west to east from the Caspian Sea to the Altai Mountains and north to south from the plains of western Siberia to the oases and deserts of Central Asia. Approximately one-third of the country’s area is occupied by the Kazakh Steppe, which is the largest dry steppe region in the world. The climate of Kazakhstan is determined by its location in the heart of a huge continent far from the ocean, where sea-air masses do not reach. Therefore, it is of a harshly continental character with average temperatures of between -5 °C and -20 °C in January and between +18 °C and +29 °C in July, depending on the subregion. The differences in the summer-winter as well as the day-night temperatures are extremely high. In winter, the temperature may decrease to -50 °C and in summer rise up to +40 °C. There is practically no precipitation in the central part of Kazakhstan and it ranges annually from approx. 250 mm in the north to 450 mm in the mountain ranges in the south (de Beurs and Henebry 2004, MEWR 2014) . Due to its unique combination of natural complexes of steppes, deserts and mountains, which are connected via major inland water and river systems, Kazakhstan provides a wide variety of habitats and relevant types of flora. The country is also characterised by a full range of subzonal forms of steppe vegetation, deserts and mountain zones, which are typical for Central Eurasia. Approximately 75% of the area of the country is covered by arid and sub-humid lands. The lowland ecosystems in the plains consist of three main zonal types: forest- and meadow-steppes, steppes and deserts (approx. 2%, 28% and 46% of the total area, respectively). Forest-steppes are located exclusively in the north and they are largely formed by birch and aspen-birch stands. Deserts, in turn, have a high share of shrubs and semi-shrubs and they are characterised by a low species diversity, small projective cover and an absolute dominance of drought-resistant species of xerophytes and hyper-xerophytes. The mountain ecosystems cover approx. 7% of the country and they are considerably more complicated in structure and more diverse than the ecosystems of the plains. Land that is covered with forests constitutes less than 5% of the total area and these are located mainly in the northeastern part of the country (MEWR 2014) . The studies that are presented were conducted in the southern and eastern regions of Kazakhstan in the mountain, desert and steppe (desert-steppe or semi-desert) ecosystems. It is worth noting that surveys were also carried out in riverside and lakeside habitats. The beetles were collected during two entomological expeditions, which were performed by two independent research teams in 2017. The first two-week-long survey, which was primarily focused on the species of the tribe Dorcadiini, was carried out by four scientists (GT, JH, RP and TJ) from the Department of Forest Protection, Forest Research Institute (Poland) and KŁ in May. The second one-month-long expedition, which consisted of three scientists (LK, MW and WTS) from the Department of Zoology, University of Silesia (Poland) and MB, took place in June. During these surveys, many sampling trips were carried out to various locations in the southern and eastern parts of Kazakhstan in the Kyzylorda (Қызылорда), South Kazakhstan (Оңтүстік Қазақстан), Jambyl (Жамбыл), Almaty (Алматы) and East Kazakhstan (Шығыс Қазақстан) Regions (облысы). The investigations were conducted in several research plots, inter alia, in the villages or environs of Almaty, Kalinino, Kapchagay, Kegen, Kurshim, Narynkol, Szymkent, Taldykorgan, Taraz, Tarbagatay, Tartogay, Taskesken, Ust-Kamienogorsk, Zaysan and Zyrjanowsk (Map 1). The more stationary part of our study, which was focused especially on species associated with forest stands, was carried out in several localities in the area between the villages of Putintsevo and Bykovo. The most effective standard methods for collecting beetles, such as attracting them to artificial light sources (Fig. 15G, H), shaking them into an entomological umbrella, sweep netting, luring them into red wine/dark beer traps (Fig. 15F) and analyses of the inhabited material, were used during the field research. The beetles were studied using an Optek SZM7045-J4L and Olympus SZH10 stereo microscope at 7–140× magnifications. Photographs of the cerambycids in nature, their host plants and habitats were taken with Canon EOS 550D and Canon EOS 600D cameras. Photographs of the habitus were taken with a Canon EOS 50D digital camera equipped with a Canon MP-E Map 1. Research plots in Kazakhstan: 1 Tartogay env. (44°25'N, 66°13'E) 2 10 km NW of Akkol (43°27'N, 70°35'E) 3 5 km W of Kenen (43°25'N, 74°58'E) 4 10 km S of Kaskeleng (43°05'N, 76°35'E) 5 Kaskeleng (43°12'N, 76°38'E) 6 two neighbouring localities: Kapchagay (43°52'N, 77°03'E), 8 km N of Kapchagay (43°56'N, 77°02'E) 7 two neighbouring localities: 22 km N of Kapchagay (44°05'N, 77°02'E), 26 km N of Kapchagay (44°06'N, 77°03'E) 8 50 km N of Kapchagay (44°18'N, 76°56'E) 9 2 km E of Arkhaly (44°10'N, 77°56'E) 10 2 km E of Saryozek (44°22'N, 78°01'E) 11 5 km N of Karashota (43°41'N, 78°09'E) 12 25 km SW of Kalinino 13 Karlygash env. (44°16'N, 78°28'E) 14 38 km SW of Szonży (43°21'N, 79°03'E) 15 four neighbouring localities: 2 km N of Kegen (43°02'N, 79°13'E), 10 km N of Kegen (43°09'N, 79°12'E and 43°07'N, 79°11'E), 15 km N of Kegen (43°09'N, 79°12'E) 16 13 km W of Szonży (43°32'N, 79°17'E) 17 17 km SE of Kegen (42°55'N, 79°25'E) 18 5 km E of Saryzhaz (42°55'N, 79°40'E) 19 7 km N of Sarymbel (44°29'N, 80°04'E) 20 two neighbouring localities: 1 km E of Tambala (45°14'N, 78°38'E), 34 km W of Kapal (45°14'N, 78°39'E) 21 three neighbouring localities: 15 km E of Kapal (45°11'N, 79°12'E), 16 km NE of Kapal (45°12'N, 79°14'E), 22 km E of Kapal (45°13'N, 79°16'E) 22 10 km SW of Sarkan (45°21'N, 79°48'E) 23 6 km E of Koylik (45°38'N, 80°19'E) 24 two neighbouring localities: Kabanbay (45°50'N, 80°37'E), 7 km W of Kabanbay (45°48'N, 80°31'E) 25 10 km E of Gerasimovka (45°48'N, 80°59'E) 26 3 km N of Taskesken (47°14'N, 80°47'E) 27 15 km NW of Taskesken (47°18'N, 80°36'E) 28 50 km S of Ajagöz (47°37'N, 80°38'E) 29 48 km N of Ajagöz (48°22'N, 80°29'E) 30 two neighbouring localities: 120 km NE of Ajagöz (48°57'N, 80°55'E), 125 km NE of Ajagöz (48°57'N 80°54'E) 65 mm and Canon EF 100mm macro lens. The images that were produced were stacked, aligned and combined using Zerene Stacker software (www.zerenesystems.com). The geographical coordinates were read and recorded using a Garmin Oregon 550T 3-Inch Handheld GPS Navigator. For each specimen collected, the exact location (including the GPS coordinates), altitude, date and the names of the collectors are given. Additionally, information about the general distribution and biology of the species are provided. The following abbreviations are used in the text: GT LK RP JH MB Grzegorz Tarwacki Lech Karpiński Radosław Plewa Jacek Hilszczański Marek Bidas TJ KŁ MW WTS Tomasz Jaworski Krzysztof Łoś Marcin Walczak Wojciech T. Szczepański The specimens are preserved in the entomological collections of the Museum and Institute of Zoology Polish Academy of Sciences (MIZ), the Department of Natural History of the Upper Silesian Museum in Bytom (USMB), the Department of Forest Protection of Forest Research Institute in Sękocin Stary, as well as in the collections of the authors. This is the third in a series of papers on Cerambycidae from the area of Central-East Asia. The first one (Kadyrov et al. 2016) was devoted to the longhorn beetles of west Tajikistan and the second ( Karpiński et al. 2018 ) concerned the cerambycids of Mongolia. Results During our two expeditions, a total of 78 species (81 taxa including subspecies) belonging to four subfamilies (Prioninae, Lepturinae, Cerambycinae, Lamiinae) was recorded. They represent approx. 30% of the known Kazakh cerambycid fauna. Exocentrus stierlini Ganglbauer, 1883 is recorded from Kazakhstan for the first time. Moreover, the occurrence of three species: Amarysius duplicatus Tsherepanov, 1980, Rhopaloscelis unifasciatus Blessig, 1873 and Saperda alberti Plavilstshikov, 1916, which were only recently found in the country (Danilevskaya et al. 2009) , is also confirmed. Map 1. Conitnued. 31 Tarbagatay env. (47°47'N, 81°17'E) 32 five neighbouring localities: 25 km E of Tarbagatay (47°46'N, 81°36'E), 27 km E of Tarbabatay (47°46'N, 81°36'E), 15 km W of Tarbagatay (47°46'N, 81°37'E), 20 km W of Tarbagatay (47°47'N, 81°42'E), 25 km W of Tarbagatay (47°50'N, 81°49'E) 33 10 km E of Kyzyl Kesik (47°53'N, 82°06'E) 34 Zhantikei env. (48°04'N, 82°42'E) 35 20 km NW of Tauke (47°57'N, 83°16'E) 36 5 km SE of Kabanbay (47°49'N, 83°37'E) 37 20 km NW of Zaysan (47°34'N, 84°39'E) 38 12 km S of Zaysan (47°21'N, 84°51'E) 39 two neighbouring localities: 5 km NE of Zaysan (47°30'N, 84°57'E), Aynabulak (47°33'N, 85°03'E) 40 three neighbouring localities: 5 km SE of Kuygan (48°38'N 83°32'E), 8 km NW of Kurshim (48°34'N, 83°36'E), Kurshim env. (48°34'N, 83°36'E) 41 7 km N of Samarskoje (49°05'N, 83°20'E) 42 Verkhnie Tainty env. (49°24'N, 83°03'E) 43 10 km S of Bayash Utepov (49°35'N, 82°28'E) 44 Ust-Kamienogorsk (50°00'N, 82°33'E) 45 Putintsevo env. (49°52'N, 84°21'E) 46 Bykovo env. (49°42'N, 84°34'E and 49°39'N, 84°33'E) (OpenStreetMap contributors). The list of the recorded taxa along with the new localities, general characteristics and remarks on the biology and ecology is presented below. Descriptions of the most common species were omitted. Taxa that are endemic to Kazakhstan are indicated with an asterisk (*). Prioninae Latreille, 1802 Prionini Latreille, 1802 Psilotarsus brachypterus (Gebler, 1830) Remarks. This species is widespread in Central Asia from the southern parts of Russia through most of the territory of Kazakhstan to Uzbekistan, Kyrgyzstan and northwestern China (Danilevsky 2000). Specimens of this species reach a length of 20–40 mm in the males and 24–45 mm in the females (up to 65 mm when measured to the end of an abdomen filled with eggs). Twelve-segmented antennae occur in both sexes. The females are flightless. The larvae develop on the roots of desert trees and shrubs (Danilevsky 2014a). Kostin (1973) , however, stated that P. brachypterus prefers shrub species, e.g. boyalych Salsola and teresken Krascheninnikovia, in contrast to Mesoprionus angustatus (Jakovlev, 1887) larvae, which feed on saxaul Haloxylon. Our own observations seem to support this thesis since we did not notice any trees or higher ligneous shrubs at the localities of both of the subspecies that were examined. There were the typical habitats of Artemisia- or semi-shrub/dwarf semi-shrub deserts. According to Danilevsky (2014a), the seasonal activity of adults is rather short and only lasts about two weeks; however, based on the data from the labels, it can vary greatly depending on the year – from May to the end of July. On the other hand, the daily activity presumably may differ depending on the particular population or the weather conditions. Five subspecies are described in this species, four of which are known to occur in Kazakhstan: Psilotarsus brachypterus aralensis (Danilevsky, 2000), P. b. brachypterus (Gebler, 1830), P. b. hemipterus (Motschulsky, 1845) and P. b. pubiventris (Semenov, 1900). The fifth subspecies – P. b. alpherakii (Semenov, 1900) is distributed exclusively in Xinjiang Province of China (Danilevsky 2018a). A closely related species – Psilotarsus hirticollis Motschulsky, 1860, which is very numerous in Kazakhstan, also consists of several subspecies. This species is highly variable in many morphological features even within the same population, however, our own observations indicated clear differences between the two taxa collected – P. b. brachypterus and P. b. pubiventris, primarily in the type of pubescence and the sculpture of the pronotum as well as in the size and corpulence of the body. Specimens of the nominotypical subspecies are significantly smaller and slender; even the females are noticeably smaller in size than the males of P. b. pubiventris. The pronotum in the males of the nominative subspecies is almost entirely hairless, smoother and lustrous with a sparse and fine punctuation, while it is definitely hairier and matted with coarse and dense, locally wrinkled punctuation in P. b. pubiventris. Psilotarsus brachypterus brachypterus (Gebler, 1830) Figs 1A–C, 9A–E Material examined. East Kazakhstan Region: 8 km NW of Kurshim [Күршім] (48°37'N 83°35'E), 462 m a.s.l., 17 VI 2017, 127♂♂, 6♀♀, leg. MW; 52♂♂, 5♀♀, leg. LK; 114♂♂, 7♀♀, leg. WTS; 31♂♂, 3♀♀, leg. MB. Remarks. This taxon is distributed in the easternmost part of Kazakhstan (the Irtysh River valley – from the environs of Semei to the Zaisan Depression) and northwestern China (Xinjiang and possibly the Gansu Provinces) (Danilevsky 2000, 2018a). The nominotypical subspecies differs mainly due to the shorter lateral process of each middle antennal joint (generally much shorter than the length of joint base) and to its glabrous and shining pronotum, which is situated peripherally, and is rarely covered with a more or less dense pubescence (Danilevsky 2000). The mass occurrence of this taxon (approx. five hundred specimens) was observed in mid-June during warm (25 °C) weather conditions in the Artemisia-desert habitat (Fig. 9F). This period most likely coincided with the beginning of the appearance of females (Fig. 9B) when the males (Fig. 9A, D) were about to reach maximum abundance. The first flying male was spotted immediately after our arrival at this plot (around 9 p.m.), and therefore, it is possible that this taxon begins its activity a little earlier. The number of individuals was increasing after dusk and reached its peak around midnight (Fig. 9D). At the same time, the females were found resting or moving on the ground. They did not seem to react to the light source in any way, even from very close distance. The females were much less numerous (ratio of approx. 1:20) and barely 20 specimens were collected during a few hours of searching within a radius of approx. 800 m from the light source. They appeared to stay active most of the night. Although no mating couples were spotted, a few probably still virgin females were observed resting motionlessly and attracting the males by rising and swinging with their ovipositor exposed in order to shoot out and spray a cloud of pheromones (Fig. 9C). A similar behaviour was observed by Danilevsky (2000) in the case of Psilotarsus turkestanicus (Semenov, 1888) in the Samarkand environs in Uzbekistan. It is worth noting that quite a significant portion of the individuals were found dead or still alive in the webs of the Mediterranean black widow spider Latrodectus tredecimguttatus (Rossi, 1790) (Fig. 9E). In some places, the density of these arachnids reached a few individuals per m2 and the specimens of Psilotarsus (both males and females) were the main victim of this spider species. Therefore, it seems that the hunting activity of L. tredecimguttatus is among the most important factors that affect the population of this beetle. Psilotarsus brachypterus pubiventris (Semenov, 1900) Figs 1D–F, 9G, H Material examined. Almaty Region: 28 km N of Kapchagay [Қапшағай] (44°06'N, 77°03'E), 679 m a.s.l., 27 VI 2017, several females and many dead individuals on the road and the roadside, leg. LK, MW & WTS; 26 km N of Kapchagay [Қапшағай] (44°06'N, 77°03'E), 648 m a.s.l., 27–28 VI 2017, 6♂♂, 20♀♀ (5♂♂, 7♀♀ – dead specimens), leg. LK; 2♂♂, 26♀♀, leg. MW; 1♂, 14♀♀, leg. WTS; 1♂ (dead specimen), 4♀♀, leg. MB; 22 km N of Kapchagay [Қапшағай] (44°05'N, 77°02'E), 675 m a.s.l., 28 VI 2017, many dead individuals, leg. LK, MW & WTS. Remarks. This subspecies is distributed in the southeastern region of Kazakhstan (from the Chu-Ili Mountains to about Chilik and the Dzungarian Alatau) and northern Kyrgyzstan (from the environs of Kara-Balta to Bishkek) (Danilevsky 2000). It is characterised by larger, wider, robust body and relatively shorter antennae with shorter and thicker joint lobes (Danilevsky 2000). The imagines can be active from the first half of May to the end of July (Ishkov and Kadyrbekov 2004) . This taxon was observed at the end of June during warm (approx. 25 °C) weather conditions, after its mating period during which mostly females were still alive and the living males (Fig. 9G) constituted only a small percentage of the whole population. Also, among the females (Fig. 9H), many specimens (approx. 60%) were damaged or already dead including old body remains. Bite traces indicated that most of the specimens were killed or posthumously bitten by small mammals. In this area, any presence of Latrodectus tredecimguttatus, which seemed to be the main natural enemy of the aforementioned subspecies, were not observed. Moreover, many specimens that were killed by cars when attempting to pass or fly over the road were also found smashed on the asphalt or in the roadside vegetation strip. All three plots from which the beetles were collected are located within close proximity to each other and represent a temperate semi-shrub/dwarf semi-shrub desert habitat (Fig. 10A). It is worth noting that on 10 June (17 days earlier), insects had been being attracted to the light at a plot located only 2 km away from this location and that not even a single male was observed neither in the night nor in the morning of the next day. This may indeed indicate a rather short, approximately two-week-long, period of the occurrence of this subspecies, which would be in line with Danilevsky’s (2014a) findings. It is also interesting to note that this subspecies seems to stay active for most of the day. Within two different plots, the females of P. b. pubiventris were observed from the late evening hours through most of the night (the last active specimens were found around 3–4 a.m.) as well as in the morning of the next day (around 9 a.m.). However, although most of the males were already dead, a few living specimens were caught only in the morning despite several hours of attempting to attract them to the light on the previous evening and night on the same plot. This unusual behaviour might be related to the end of the period of the occurrence and condition of the individuals. On the other hand, according to Danilevsky (2014a), there are contradictory observations concerning the activity of beetles. In 2001, the author collected numerous males only in the morning before the dawn (from 5 to 5:30 a.m) but with no females and no more males were caught earlier or later during the day or while attempting to attract them to a light source at night. A slightly different observation was made by S.V. Murzin in 1989 who noted the maximum activity of both sexes at the sunrise. However, according to Ishkov and Kadyrbekov (2004) , there were signs of nocturnal activity. Lepturinae Latreille, 1802 Lepturini Latreille, 1802 Anastrangalia sequensi (Reitter, 1898) Fig. 2A Material examined. East Kazakhstan Region: Putintsevo [Путинцево] env. (49°52'N, 84°21'E), 472 m a.s.l., 21–23 VI 2017, 1♂, 2♀♀, leg. WTS; 3♂♂, 4♀♀, leg. MW; Bykovo [Быково] env. (49°39'N, 84°33'E), 570 m a.s.l., 24 VI 2017, 2♀♀, leg. WTS; 4♂♂, 3♀♀, leg. LK; 1♂, 1♀, leg. MW; 1♂, leg. MB. Remarks. This is a typical Siberian species. It has been widely discussed in a previous paper concerning the longhorn beetles of Mongolia ( Karpiński et al. 2018 ). Additionally, we present an interesting melanistic form here (Fig. 2A). The species was not included in the Kazakh fauna by Kostin (1973) , who claimed that all records of this taxon for the country actually belonged to Anastrangalia sanguinolenta (Linnaeus, 1761) and that the record of A. sequensi from “Burabay” in the Kokchetav region (Kadyrbekov et al. 2003) must represent another species – most probably Anastrangalia reyi (Heyden, 1885) (Danilevskaya et al. 2009) . The occurrence of A. sequensi in Kazakhstan was finally confirmed in the same locality as we present here by Danilevskaya et al. (2009) . Leptura annularis Fabricius, 1801 Material examined. East Kazakhstan Region: 7 km N of Samarskoje [Самарское] (49°05'N, 83°20'E), 626 m a.s.l., 18 VI 2017, 2♂♂, leg. MW; Putintsevo [Путинцево] env. (49°52'N, 84°21'E), 472 m a.s.l., 19–23 VI 2017, 1♂, leg. LK; 1♂, leg. MW; Bykovo [Быково] env. (49°39'N, 84°33'E), 570 m a.s.l., 24 VI 2017, 1♂, leg. WTS; 2♂♂, leg. LK; 2♂♂, leg. MW; 1♂, leg. MB. Material examined. East Kazakhstan Region: Putintsevo [Путинцево] env. (49°52'N, 84°21'E), 472 m a.s.l., 20 VI 2017, 1♂, 2♀♀, leg. LK; 1♀, leg. MW. Remarks. This is a typical Siberian species that is distributed in the Siberian part of Russia and Kazakhstan, Mongolia, China, Japan and the entire Korean peninsula (Cherepanov 1990a, Danilevsky 2014a) . The larvae feed on the wood of different deciduous trees. The life cycle usually lasts two years. The adults appear in the late spring and can be found on flowers, mainly from the Apiaceae and Rosaceae families (Cherepanov 1990a) . A few specimens were observed on various Apiaceae flowers in a habitat of a mixed forest in the foothills of the West Altai Mountains. Leptura quadrifasciata quadrifasciata Linnaeus, 1758 Lepturalia nigripes rufipennis (Blessig, 1873) Fig. 1I, J Material examined. East Kazakhstan Region: 25 km W of Tarbagatay [Тарбагатай] (47°50'N, 81°49'E), 878 m a.s.l., 16 VI 2017, 1♂, leg. MW; Putintsevo [Путинцево] env. (49°52'N, 84°21'E), 472 m a.s.l., 19–23 VI 2017, 2♂♂, leg. LK; 3♂♂, 1♀, leg. MW; 1♀, leg. MB; Bykovo [Быково] env. (49°39'N, 84°33'E), 570 m a.s.l., 24 VI 2017, 5♂♂, 1♀, leg. WTS; 2♂♂, 2♀♀, leg. LK; 2♂♂, 3♀♀, leg. MB; 2♂♂, 1♀, leg. MW. Remarks. This is a temperate Palaearctic species that is distributed from northeastern Europe to the Far East (Švácha and Danilevsky 1989, Sama 2002) . The taxon was discussed in a previous paper concerning the longhorn beetles of Mongolia ( Karpiński et al. 2018 ). Although the nominotypical subspecies – Lepturalia nigripes nigripes (DeGeer, 1873) is distributed in the western part of the range, both taxa can be found in Kazakhstan. A transitional zone between these two forms is situated in the Ural Mountains. According to Danilevskaya et al. (2009) , both subspecies occur together in the eastern part of European Russia and in West Siberia, e.g. in the Orenburg region where several populations are known to consist of two different colour forms. However, although specimens with red elytra can be found sporadically in Western Europe, no yellow forms are known from East Siberia or further eastwards. Our own observations indicate that this taxon is moderately frequent in the mountain and foothill zone in northeastern Kazakhstan, particularly in more afforested areas. About twenty specimens were collected on the flowers of various plants (e.g. Apiaceae, Rosa sp.) in habitats such as riverine bushes with Caragana shrubs, a mixed forest in the foothills of the West Altai Mountains and at the edge of a mountain deciduous grove that consisted mainly of Populus, Betula and Salix (Fig. 15C). Birches occurred in all of these sites. Lepturobosca virens (Linnaeus, 1758) Material examined. East Kazakhstan Region: 7 km N of Samarskoje [Самарское] (49°05'N, 83°20'E), 626 m a.s.l., 18 VI 2017, 1♂, leg. WTS; 1♂, leg. MW; Putintsevo [Путинцево] env. (49°52'N, 84°21'E), 472 m a.s.l., 19–23 VI 2017, 1♀, leg. WTS; Bykovo [Быково] env. (49°39'N, 84°33'E), 570 m a.s.l., 24 VI 2017, 1♀, leg. LK. Macroleptura thoracica (Creutzer, 1799) Material examined. Putintsevo [Путинцево] env. (49°52'N, 84°21'E), 472 m a.s.l., 24 VI 2017, 1♀, leg. MW; 1♀, leg. WTS. Remarks. This is a typical Siberian species. It was discussed in a previous paper concerning the longhorn beetles of Mongolia ( Karpiński et al. 2018 ). Several individuals of M. thoracica were collected on dead birch trunks in this locality in June 2005 (Danilevskaya et al. 2009) . In our research, two specimens were collected in the habitat of a rather old Populus forest (Fig. 15F) that extends along the Khamir River in the foothills of the West Altai Mountains. The first one was caught in flight, whereas the second was beaten down from a trunk of a dead willow Salix sp. Oedecnema gebleri Ganglbauer, 1889 Material examined. Putintsevo [Путинцево] env. (49°52'N, 84°21'E), 472 m a.s.l., 22 VI 2017, 1♀, leg. LK. Remarks. This is a typical Siberian species that is distributed from Eastern Europe (Ukraine and European Russia) to the Pacific Ocean. Oedecnema gebleri is a polyphagous cerambycid that develops in the basal zones and in the stumps of different deciduous and coniferous trees and then pupates in the soil. The imagines can be found on flowers from the end of May to August (Švácha and Danilevsky 1989, Cherepanov 1990a) . Several specimens were collected on flowers in this locality in June 2005 (Danilevskaya et al. 2009) . Only a single female was observed in the habitat of a rather old Populus forest that extends along the Khamir River in the foothills of the West Altai Mountains. Pachytodes erraticus (Dalman, 1817) Material examined. East Kazakhstan Region: 7 km N of Samarskoje [Самарское] (49°05'N, 83°20'E), 626 m a.s.l., 18 VI 2017, 5♂♂, 3♀♀, leg. WTS; 5♂♂, 4♀♀, leg. LK; 4♂♂, 3♀♀, leg. MW; Putintsevo [Путинцево] env. (49°52'N, 84°21'E), 472 m a.s.l., 19 VI 2017, 1♂, leg. WTS; 3♂♂, 1♀, leg. LK; 1♂, leg. MW; Bykovo [Быково] env. (49°39'N, 84°33'E), 570 m a.s.l., 24 VI 2017, 2♂♂, leg. WTS; 10 km S of Bayash Utepov [Баяш Утепов] (49°35'N, 82°28'E), 508 m a.s.l., 25 VI 2017, 1♀, leg. WTS; 1♀, leg. LK. Remarks. Pachytodes erraticus is a typical Palaearctic species that is distributed from Spain to East Siberia. It develops under ground in the rotten roots of different deciduous tree species. The pupation occurs in the soil (Danilevskaya et al. 2009) . This is one of the most common species in the zone of mountains and foothills in northeastern Kazakhstan. We observed this species frequently and rather numerously on the flowers of various Apiaceae species in different habitats from the roadside vegetation strips in the mountain steppe region through river canyons with Caragana and Lonicera (Fig. 15A) to a riverine and mountain mixed forests mainly with Betula, Populus, Salix and Picea. Pseudovadonia livida bicarinata (N. Arnold, 1869) Material examined. East Kazakhstan Region: 3 km N of Taskesken [Таскескен] (47°14'N, 80°47'E), 581 m a.s.l., 14 VI 2017, 3♀♀, leg. WTS; 1♂, 2♀♀, leg. LK; 2♂♂, 2♀♀, leg. MW; 15 km W of Tarbagatay [Тарбагатай] (47°46'N, 81°37'E), 1072 m a.s.l., 15 VI 2017, 5♂♂, leg. WTS; Kurshim [Күршім] env. (48°34'N, 83°36'E), 406 m a.s.l., 17 VI 2017, 1♂, 1♀, leg. MB; 5 km SE of Kuygan [Құйған] (48°38'N 83°32'E), 439 m a.s.l., 18 VI 2017, 1♂, 1♀, leg. LK; 7 km N of Samarskoje [Самарское] (49°05'N, 83°20'E), 626 m a.s.l., 18 VI 2017, 1♀, leg. WTS; Putintsevo [Путинцево] env. (49°52'N, 84°21'E), 472 m a.s.l., 19 VI 2017, 2♀♀, leg. WTS; 1♂, 1♀, leg. MW; Bykovo [Быково] env. (49°39'N, 84°33'E), 570 m a.s.l., 24 VI 2017, 1♂, 1♀, leg. MW. Remarks. This is the easternmost subspecies that is distributed from Eastern Europe to East Siberia and China (Danilevsky 2018a). This taxon was recorded from the Putintsevo environs by Danilevskaya et al. (2009) under an incorrect name, Pseudovadonia livida pecta (K. Daniel & J. Daniel, 1891). This subspecies seems to be endemic to Italy (Danilevsky 2018a). Stenurella bifasciata bifasciata (O. F. Müller, 1776) Material examined. East Kazakhstan Region: 3 km N of Taskesken [Таскескен] (47°14'N, 80°47'E), 581 m a.s.l., 14 VI 2017, 1♂, leg. WTS; 1♀, leg. LK; 1♂, 1♀, leg. MW; 15 km W of Tarbagatay [Тарбагатай] (47°46'N, 81°37'E), 1072 m a.s.l., 15 VI 2017, 1♂, 1♀ leg. WTS; 2♂♂, 1♀, leg. MW; 7 km N of Samarskoje [Самарское] (49°05'N, 83°20'E), 626 m a.s.l., 18 VI 2017, 1♂, leg. WTS; 3♂♂, 2♀♀, leg. LK; Putintsevo [Путинцево] env. (49°52'N, 84°21'E), 472 m a.s.l., 22 VI 2017, 1♀, leg. MW; 10 km S of Bayash Utepov [Баяш Утепов] (49°35'N, 82°28'E), 508 m a.s.l., 25 VI 2017, 1♂, 3♀♀, leg. LK. Remarks. The nominotypical subspecies is distributed from Central Europe to East Siberia and China (Danilevsky 2018a). According to some authors (e.g. Bense 1995, Sama 2002) , although the biology of S. bifasciata is inadequately known, its larvae develop in both deciduous (Ulmus, Quercus, Salix, Rosa, Spartium, Ficus) and coniferous (Pinus) trees. Although our own observations from Central Europe indicate its close relationship with pines Pinus spp., in Kazakhstan, we also collected this species in completely treeless areas in which the only suitable host plant was the rose Rosa sp. We did not observe any morphological differences between the specimens from the semi-steppe habitats, which are apparently associated with Rosa, or from the Kazakh mountain forests having a share of Pinus, or from Poland. Stenurella melanura melanura (Linnaeus, 1758) Material examined. East Kazakhstan Region: 7 km N of Samarskoje [Самарское] (49°05'N, 83°20'E), 626 m a.s.l., 18 VI 2017, 2♂♂, leg. WTS; 2♂♂, 2♀♀, leg. MW; Putintsevo [Путинцево] env. (49°52'N, 84°21'E), 472 m a.s.l., 19–23 VI 2017, 2♂♂, 1♀, leg. WTS; 2♀♀, leg. MW; Bykovo [Быково] env. (49°39'N, 84°33'E), 570 m a.s.l., 24 VI 2017, 1♂, 1♀, leg. WTS; 1♀, leg. LK. Strangalia attenuata (Linnaeus, 1758) Material examined. 7 km N of Samarskoje [Самарское] (49°05'N, 83°20'E), 626 m a.s.l., 18 VI 2017, 2♂♂, 2♀♀, leg. WTS; 1♂, 1♀, leg. LK; 1♂, leg. MW; Putintsevo [Путинцево] env. (49°52'N, 84°21'E), 472 m a.s.l., 20 VI 2017, 1♂, 1♀, leg. WTS; 1♂, 3♀♀, leg. LK; 1♂, 1♀, leg. MW; Bykovo [Быково] env. (49°39'N, 84°33'E), 570 m a.s.l., 24 VI 2017, 1♂, leg. LK; 1♂, 1♀, leg. MW; 10 km S of Bayash Utepov [Баяш Утепов] (49°35'N, 82°28'E), 508 m a.s.l., 25 VI 2017, 1♂, leg. WTS. Rhagiini Kirby, 1837 Brachyta interrogationis russica (Herbst, 1784) Fig. 2B Material examined. Bykovo [Быково] env. (49°39'N, 84°33'E), 571 m a.s.l., 21 VI 2017, 1♀, leg. LK. Remarks. This is a typical Palaearctic species that is distributed from Spain to the Russian Far East, Korea and China. Brachyta interrogationis is a very variable taxon with twelve described subspecies. Each local population is characterised by unique proportions of certain colour forms. The russica ssp. is known to occur in European Russia (except for the northern Urals), West Siberia (including Altai) and Kazakhstan, and it is the only subspecies that has been recorded from Kazakhstan (Lazarev 2016, Danilevsky 2018a) . In Siberia, the larvae of this species have usually been observed in the roots of living Paeonia but also those of Euphorbia and Radiola, as well as Trollius in laboratory conditions (Danilevskaya et al. 2009). Pupation occurs in the soil. The adults can be found on the flowers of various plants from May to the turn of July and August. The species is most numerous in the foothill and mountain regions of the forest and forest-steppe zones (Cherepanov 1990a) . Several individuals of this taxon were collected on Paeonia in the area of Putinzevo and on Ranunculus in the Sibinka River valley in June 2005 (Danilevskaya et al. 2009) , however no subspecies was specified. A single female was collected on the stem of a herbaceous plant species at the edge of a mountain deciduous grove that consisted mainly of Populus, Betula and Salix (Fig. 15C). Dinoptera collaris (Linnaeus, 1758) Stenocorus minutus (Gebler, 1841) Fig. 2C, D Material examined. East Kazakhstan Region: 10 km S of Bayash Utepov [Баяш Утепов] (49°35'N, 82°28'E), 508 m a.s.l., 25 VI 2017, 4♂♂, 2♀♀, leg. LK; 1♂, 1♀, leg. WTS; 1♂, leg. MW; 1♂, leg. MB. Remarks. Stenocorus minutus is a rare species that is distributed mainly in eastern Kazakhstan and reaches northwestern China and western Mongolia through the Irtysh River valley and the Tarbagatay Mountain range (Danilevsky 2014a, 2018a). While the biology of the preimaginal stages remains unknown, according to Danilevsky (2014a), larvae of this species undoubtedly descend under ground where they feed on the roots of various woody plants. Kadyrbekov and Childebaev (2007) claimed that the larvae develop in dead deciduous trees. The latter authors found adults on the flowers of various plant species, including Euphorbia lamprocarpa, in the second half of June. On the other hand, the species was quite numerously observed in treeless xerothermic habitats that had a significant number of shrubs (Danilevsky 2014a). For a long time, Stenocorus minutus was known in Kazakhstan only from the upper ranges of the Saur and Tarbagatay Mountains (Kostin 1973) . It was also mentioned as occurring in southeastern Kazakhstan (along Lake Zaysan) by Cherepanov (1990a) under its outdated name Stenocorus tataricus (Gebler, 1841); however, the author had never observed this species in nature. Recently, it was found more frequently in the riparian forests of the Tentek River valley (Kadyrbekov and Childebaev 2007) . About ten specimens were collected on the leaves and stems of Caragana and Lonicera shrubs overgrowing the stony hills in the Sibinka River valley (Fig. 15B). A female was observed feeding on juice leaking from a damaged Caragana stem together with a few individuals of Protaetia spp. That observation and the fact that most of the specimens (also couples together) were found on Caragana may indicate an association of Stenocorus minutus with this plant genus, especially since not a single specimen has been recorded by any of the expeditions in a rather well-investigated area of Putintsevo, that is located approx. 120 km eastward, in which many deciduous trees (e.g. Betula, Padus, Populus, Salix) and shrubs (e.g. Lonicera, Rosa, Spiraea, Viburnum) occur with the exception of Caragana. It is also worth noting that this rare but rather large and easily spotted species has not been found in presented locality by M. Danilevsky’s research team in mid-June of 2005, which may indicate the beginning of the appearance of beetles in the second half of June when the adults of their sympatric species Oberea kostini end their activity. Cerambycinae Latreille, 1802 Callidiini Kirby, 1837 Turanium scabrum (Kraatz, 1882) Fig. 2E–G Material examined. Almaty Region: 1 km E of Tambala [Тамбала] (45°14'N, 78°38'E), 663 m a.s.l., 3 V 2017 (6 V 2017 ex cult.) 2♂♂, 2♀♀, from Elaeagnus angustifolia, leg. JH; 13 km W of Szonży [Шонжы] (43°32'N, 79°17'E), 731 m a.s.l., 12 V 2017 (I 2018 ex cult.) 1♀, from Elaeagnus angustifolia, leg. KL; 5 km N of Karashota [Каражота] (43°41'N, 78°09'E), 492 m a.s.l., 3 VI 2017, 1♂, 2♀♀, leg. WTS; 1♂, 1♀, leg. LK; 5♂♂, 3♀♀, leg. MW. Remarks. The species is distributed from the southern region of European Russia through the countries of Central Asia to West Siberia and China (Danilevsky 2018a). The polyphagous larvae develop in various deciduous trees and shrubs (e.g. Elaeagnus, Populus, Malus, Rosa, Halimodendron and Tamarix). The adults are active from April to July (Danilevsky 2001b, Ishkov and Kadyrbekov 2004) . Turanium scabrum inhabits almost all of the territory of Kazakhstan (excluding northern and northeastern regions) (Danilevsky 2001b) and it is considered a serious pest, especially of Elaeagnus angustifolia and Populus diversifolia (Borissova 2018) . The individuals were observed during a hot (30 °C) and sunny afternoon on a flood barrier formed from old branches and boughs primarily of oleasters Elaeagnus (Fig. 10B). The beetles were flying to accumulated wood where they were mating. The species was observed sympatrically with Chlorophorus elaeagni there. Several specimens were additionally rared from the dry wood of Elaeagnus angustifolia. Clytini Mulsant, 1839 Chlorophorus elaeagni Plavilstshikov, 1956 Material examined. Almaty Region: 13 km W of Szonży [Шонжы] (43°32'N, 79°17'E), 731 m a.s.l., 12 V 2017 (I 2018 ex cult.) 1♀, from Elaeagnus angustifolia, leg. KL; 5 km N of Karashota [Каражота] (43°41'N, 78°09'E), 492 m a.s.l., 3 VI 2017, 3♂♂, leg. LK; 1♂, leg. WTS; Kyzylorda Region: Tartogay env. [Тартогай] (44°25'N, 66°13'E), 135 m a.s.l., 7 VI 2017, 3♂♂, leg. WTS; 2♂♂, leg. LK; 3♂♂, leg. MW. Remarks. This species is distributed from the Caucasus to Central Asia (Danilevsky 2018a). It was discussed in a previous paper concerning the longhorn beetles of Tajikistan (Kadyrov et al. 2016) . Chlorophorus elaeagni is a rather common species in southern Kazakhstan, where it mainly occurs in tugay habitats. Although the specimens were collected on sites that were located near river banks in rather different habitats, there was always a large share of Elaeagnus angustifolia, which seems to be the main host plant for this species. In the environs of Karashota, during a hot (30 °C) and sunny afternoon, the specimens were observed on a flood barrier formed from old branches and boughs primarily of oleasters Elaeagnus (Fig. 10B). Single males were flying to accumulated wood from time to time and started to actively run after landing. This period seemed to be the beginning of the occurrence of this species in nature. On this plot, Ch. elaeagni occurred sympatrically with Turanium scabrum, which was swarming at that time. Additionally, on a bank of the Syr Darya River in a locality near Tartogay, several males were observed during a scorching (35 °C) day on blossoming tamarisks Tamarix (Fig. 10C) in the same habitat as Anoplistes jacobsoni (Fig. 11D) at the peak of its occurrence. Cyrtoclytus capra (Germar, 1824) Material examined. East Kazakhstan Region: Putintsevo [Путинцево] env. (49°52'N, 84°21'E), 472 m a.s.l., 19–23 VI 2017, 6♂♂, 3♀♀, leg. LK; 3♂♂, 2♀♀, leg. WTS; 5♂♂, 3♀♀, leg. MW; 3♂♂, 2♀♀, leg. MB; Bykovo [Быково] env. (49°39'N, 84°33'E), 570 m a.s.l., 24 VI 2017, 2♂♂, 1♀, leg. LK; 1♂, 1♀, leg. WTS; 1♂, 1♀, leg. MW; 10 km S of Bayash Utepov [Баяш Утепов] (49°35'N, 82°28'E), 508 m a.s.l., 25 VI 2017, 1♂, 1♀, leg. WTS; 1♀, leg. MB. Remarks. The species is distributed from the northern and central parts of Europe through Siberia, including the northern regions of Kazakhstan, Mongolia and China, to the Far East and the Korean Peninsula (Danilevsky 2018a). While Cyrtoclytus capra is a rather rare and sporadic species in West Europe, where the range of its host plants seems to be very narrow (Acer, Alnus), it is very numerous in Siberia, where it develops in many deciduous trees, e.g. Betula, Quercus and Sorbus but also in Euonymus, Vitis and Aralia (Danilevskaya et al. 2009) . It primarily inhabits deciduous and mixed forests. The adults are active from June to August (Švácha and Danilevsky 1988) . Numerous specimens were observed throughout the day on the flowers of various herbaceous plants in rather different habitats, such as a mountain riverine forest dominated by Salix, Populus and Betula, mountain deciduous forests (Fig. 15F) or river canyon hills with Caragana and Lonicera shrubs (Fig. 15A). Echinocerus floralis (Pallas, 1773) Material examined. East Kazakhstan Region: 3 km N of Taskesken [Таскескен] (47°14'N, 80°47'E), 581 m a.s.l., 14 VI 2017, 1♂, leg. WTS; 3♂♂, 1♀, leg. LK; 15 km NW of Taskesken [Таскескен] (47°18'N, 80°36'E), 15 VI 2017, 627 m a.s.l., 2♂♂, leg. WTS; 1♂, 1♀, leg. LK; 2♂♂, 2♀♀, leg. MW; 1♂, leg. MB; 15 km W of Tarbagatay [Тарбагатай] (47°46'N, 81°37'E), 1072 m a.s.l., 15 VI 2017, 1♀, leg. WTS; Tarbagatay [Тарбагатай] env. (47°47'N, 81°17'E), 964 m a.s.l., 15 VI 2017, 1♂, leg. WTS; 25 km W of Tarbagatay [Тарбагатай] (47°50'N, 81°49'E), 878 m a.s.l., 16 VI 2017, 1♀, leg. LK; Kurshim [Күршім] env. (48°34'N, 83°36'E), 406 m a.s.l., 17 VI southeastern piedmonts of Dzungarian Alatau in environs of the town of Zharkent. It is also known from one locality in the valleys of the Ili and Charyn Rivers. The species inhabits stony foothills with a low-herb grassy vegetation at altitudes of approx. 600–700 m a.s.l. The larvae feed on the roots of various grass species. The adults are active from the end of April to the second half of May (Toropov and Milko 2013). A rather unusual observation regarding the genus Dorcadion of a few specimens of both genders that were gathering on a single female probably in an attempt to copulate (Fig. 13H) was made in the area of Sarymbel. Dorcadion songaricum Ganglbauer, 1884 Fig. 8A Material examined. East Kazakhstan Region: 10 km E of Kyzyl Kesik [Қызыл Қесиқ] (47°53'N, 82°06'E), 808 m a.s.l., 8 V 2017, 1♀, leg. RP, det. M. Lazarev. Remarks. Dorcadion songaricum is distributed in east Kazakhstan and the Xinjiang province in China (Danilevsky 2018a). In Kazakhstan, the species is known from the northern slopes of the Tarbagatay and Saur Mountain ranges as well as the southern slopes of the Manrak Mountains. It inhabits sparse grasslands in piedmont regions. The larvae feed on the roots of various grass species. This is one of the latest occurring species; the adults are active from the second half of May to the end of June (Toropov and Milko 2013). Only a single female was collected in a mountain-steppe habitat in the area of rocky hills (Fig. 14F). Dorcadion suvorovi konyrolenum Danilevsky, 1996 * Figs 7G, H, 14A Material examined. Almaty Region: Karlygash [Карлыгаш] env. (44°16'N, 78°28'E), 1398 m a.s.l., 2 VI 2017, 1♂, leg. WTS; 1♀, leg. MB, coll. LK. Remarks. The species includes five subspecies, which are mainly distributed within the area from the Kapchagay Reservoir to the Dzungarian Alatau (Toropov and Milko 2013). Dorcadion suvorovi konyrolenum is an endemic taxon whose known localities are limited to the environs of Konyrolen in southeastern Kazakhstan (Danilevsky 1996c, Toropov and Milko 2013) . The biology of the species is poorly understood. According to Toropov and Milko (2013), the larvae feed on the roots of various grass species. The beetles occur at altitudes between 600–1,800 m a.s.l. The adults are active from the end of April to the beginning of June. Only a single male (Fig. 14A) and female were collected in a mountain steppe habitat. The plot (Fig. 14B) was mainly covered with medium-high grass. Such a small number of observed individuals may indicate the end of the appearance of this species. Dorcadion tenuelineatum Jakovlev, 1895 * Fig. 6C, D Material examined. Almaty Region: 10 km E of Gerasimovka [Герасимовка] (45°48'N, 80°59'E), 844 m a.s.l., 4 V 2017, 1♂, leg. RP; 1♂, leg. JH; 1♂, leg. KL; 9 V 2017, 12♂♂, 1♀, leg. RP; 3♂♂, 1♀, leg. KL. Remarks. Dorcadion tenuelineatum is a species that is endemic to Kazakhstan (Danilevsky 2018a), where it occurs only in the area between Lake Alakol and the northeastern range of the Dzungarian Alatau (Toropov and Milko 2013). The species inhabits grasslands on the slopes in piedmont areas at an altitude of approx. 1000 m a.s.l. The larvae feed on the roots of various species of Poaceae. The adults are active from the end of April to the second half of May (Toropov and Milko 2013). Dorcadion tianshanskii radkevitshi Suvorov, 1910 * Figs 7I, J, 14C Material examined. Zhambyl Region: 5 km W of Kenen [Кенен] (43°25'N, 74°58'E), 928 m a.s.l., 4 VI 2017, 9♂♂, 3♀♀ (5♂♂ – body remains), leg. LK; 3♂♂, 2♀♀, leg. WTS; 18♂♂, 11♀♀ (3♂♂, 2♀♀ – body remains), leg. MW; 1♂ (dead specimen), 1♀, leg. MB. Remarks. Dorcadion tianshanskii is a species that is endemic to Kazakhstan (Danilevsky 2018a). It includes eight subspecies, which are distributed in the area to the north of the Chu River, mainly in the environs of Kenen (Danilevsky 2012, Toropov and Milko 2013). The biology of this taxon is poorly known. According to Toropov and Milko (2013), it inhabits various habitats depending on the subspecies. The larvae feed on the roots of various grass species. The imagines are active from the end of April to the end of May. The individuals of D. t. radkevitshi were collected during relatively cold (approx. 20 °C) and cloudy weather in a grassland habitat (Fig. 14D). Despite the rather late period for the species, a few copulating pairs as well as some males, which were actively moving between tufts of grass, were still found. The females (Fig. 14C) were found in rather better condition. Nevertheless, many specimens were already dead. The individuals that were still alive occurred more frequently in a shallow depression near a small stream, usually no further than 1.5 m from the stream. Dorcadion unidiscale Danilevsky, 1996 * Figs 7K, L, 14E Material examined. Almaty Region: 10 km S of Kaskelen [Каскелен] (43°05'N, 76°35'E), 1735 m a.s.l., 13 V 2017, 15♂♂, 4♀♀, leg. RP; 10♂♂, 4♀♀, leg. JH; 14♂♂, 1♀, leg. KL. Remarks. Dorcadion unidiscale is endemic to southeastern Kazakhstan and it is known based on only a single population that is distributed in the area of Kaskelen on the northern slopes of the Trans-Ili Mountains (Danilevsky 1999). According to Toropov and Milko (2013), this species inhabits midmontane meadows at altitudes of 1500–2000 m a.s.l. The larvae feed on the roots of various grass species. The imagines (Fig. 14E) are active from the beginning of May to the first half of June. Eodorcadion carinatum carinatum (Fabricius, 1781) Fig. 8G Material examined. East Kazakhstan Region: Verkhnie Tainty [Верхние Таинты] env., (49°24'N, 83°03'E), 879 m a.s.l., 18 VI 2017, 1♂, leg. WTS. Remarks. Eodorcadion carinatum is distributed from the South Urals through South Siberia, northern Kazakhstan and Mongolia to the territory of northeastern China. Five subspecies have been described to date and a nominotypical form occupies the western part of the species range (up to Krasnoyarsk). The species inhabits steppe and semi-desert habitats up to an altitude of 1900 m a.s.l. (Toporov and Milko 2013). The populations of all subspecies are usually characterised by a large number of individuals that occur on numerous plots. It seems to be primarily ecologically associated with Agropyron spp. and Elmynus spp. (Danilevsky 2007c) . In the western part of its range, the larvae often feed on the roots of cereals and forage plant species (Plavilstshikov 1958) . The adults start to appear in June and can be found until September (Danilevsky 2007c) . Only a single male that was hidden under a cow dung in a pasture habitat was collected (Fig. 14G). Politodorcadion eurygyne eurygyne (Suvorov, 1911) Material examined. East Kazakhstan Region: 20 km NW of Tauke [Тауқе] (47°57'N, 83°16'E), 407 m a.s.l., 6 V 2017, 1♀, leg. RP. Remarks. Politodorcadion eurygyne is distributed in eastern Kazakhstan and West Siberia. This species includes two subspecies: P. e. eurygyne and P. e. lailanum Danilevsky, 2007 (Danilevsky 2018a). The nominotypical subspecies occurs in two separate regions in E Kazakhstan: north of Lake Zaysan and to the south of the Tarbagatay Mountains. Its range in the latter area is limited only to southern foothills of the Kalbinsky Ridge (Danilevsky 2007b) . The beetles inhabit clayey deserts and semideserts (at an altitude of approx. 500 m a.s.l.) with sparse grass vegetation where they feed on various species of Poaceae (Toropov and Milko 2013). Politodorcadion politum politum (Dalman, 1823) Figs 8H, I, 14H Material examined. East Kazakhstan Region: 120 km NE of Ajagöz [Аягоз] (48°57'N, 80°55'E), 586 m a.s.l., 5 V 2017, 4♂♂, 1♀, leg. RP; 3♂♂, 1♀, leg. JH; 1♂, leg. GT; 125 km NE of Ajagöz [Аягоз] (48°57'N 80°54'E), 592 m a.s.l., 5 V 2017, 2♂♂, 1♀, leg. KL; 50 km S of Ajagöz [Аягоз] (47°37'N, 80°38'E), 747 m a.s.l., 8 V 2017, 1♂, leg. KL; 48 km N of Ajagöz [Аягоз] (48°22'N, 80°29'E), 727 m a.s.l., 5 V 2017, 2♂♂, leg. KL; 25 km E of Tarbagatay [Тарбагатай] (47°46'N, 81°36'E), 1128 m a.s.l., 8 V 2017, 1♂, 1♀, leg. RP; 3♂♂, leg. JH; 27 km E of Tarbabatay [Тарбагатай] (47°46'N, 81°36'E), 1119 m a.s.l., 8 V 2017, 7♂♂, 1♀, leg. KL. Remarks. Politodorcadion politum is distributed in northeastern Kazakhstan and southwestern Russia. The species includes three subspecies: P. p. politum, P. p. akmolense (Suvorov, 1911) and P. p. shapovalovi Danilevsky, 2006 (Danilevsky 2018a). The nominotypical subspecies is distributed west of Lake Zaysan and in West Siberia (Toropov and Milko 2013, Danilevsky 2018a, b) . It inhabits grassy steppes that were mainly formed by Stipa spp. and sparse grasslands in hilly plains. The larvae feed on various species of Poaceae. The adults (Fig. 14H) are active from the end of April to mid-June (Toropov and Milko 2013). Politodorcadion ribbei bobrovi (Danilevsky, 2001) * Fig. 8J, K Material examined. East Kazakhstan Region: 12 km S of Zaysan [Зайсан] (47°21'N, 84°51'E), 965 m a.s.l., 7 V 2017, 1♂, 1♀, leg. RP; 1♂, 1♀, leg. KL. Remarks. This species is distributed in northeastern Kazakhstan and the Xinjiang region in China. The species includes two subspecies: P. r. ribbei (Kraatz, 1878) and P. r. bobrovi, whose populations are separated by the Manrak and Saur Mountain ranges (Toropov and Milko 2013, Danilevsky 2018a) . Politodorcadion ribbei bobrovi is endemic to Kazakhstan and occurs exclusively on the northern slopes of these mountains in the border zone with China. It inhabits clayey and stony semi-deserts in piedmont valleys with sparse grass vegetation. The larvae feed on various species of Poaceae. The adults are active from the end of April to the end of May (Toropov and Milko 2013). Acanthocinini Blanchard, 1845 Material examined. East Kazakhstan Region: Putintsevo [Путинцево] env. (49°52'N, 84°21'E), 472 m a.s.l., 19–23 VI 2017, 3♂♂, 2♀♀, leg. WTS; 1♂, leg. LK; 1♂, 1♀, (VI 2018 ex cult.) 2♂♂, from Salix sp., leg. MW; 2 exx., red wine trap, coll. LK & MB. Remarks. Exocentrus stierlini is an extremely rare but widespread species that is distributed from Central Europe to the Far East including northern Mongolia (Danilevsky 2014b, 2018a) . Its occurrence in Mongolia was proven only very recently (Müller et al. 2013), similar to that of the Ulyanovsk region of Russia (Isaev and Ishutov 2001) . According to Danilevsky (2014b), it is  known to be monophagous on Salix within its entire range and there are no differences between specimens from Europe, Siberia and the Far East. The larvae develop in thin (6–22 mm diameter) willow shoots of both trees that are still alive or that are decaying. Pupation begins in May and continues until July. The adults occur in nature from June to August. Newly emerged imagines require supplementary feeding, which is conducted on the bark of young willow shoots. They lead a cryptic mode of life and can be found almost exclusively on their host plants (Cherepanov 1991a) . Although this species has already been mentioned as occurring in Kazakhstan (Danilevsky 2018a), this record was based only on the assumption concerning a single specimen from Staroaleyskoye (Altai Region of Russia, approx. 25 km from the Kazakh border) that is preserved in the collection of P. Svacha (Danilevsky 2014b, 2018, pers. comm.) . However, until now, no specimens have been known directly from the borders of this country. Therefore, the presented locality in the area of Putintsevo is the first record for Kazakhstan. Several specimens were beaten down from both live and dead willows of different ages, during hot and sultry weather in a deciduous forest that extends along the Khamir River in the foothills of the West Altai Mountains (Fig. 15D). The imagines of E. stierlini were collected in a few different habitats within one area in the Putinsevo environs. In addition to the rather shady and humid forest dominated by Populus and Salix where most of the specimens were found, beetles were also observed on an exposed site next to a river that had an admixture of Betula as well as in a more open habitat of a rather old Populus forest (Fig. 15F). At the last plot, two specimens were found in red wine traps. This is a rather peculiar observation concerning the representatives of the subfamily Lamiinae; however, the traps were hung in an air corridor, hence, they might have served as a mechanical barrier. Nevertheless, both individuals were caught on different days. Two mating couples were also observed. Only ten specimens were collected despite conducting many hours of targeted investigation over a few days during a rather optimal period, which underlines the rarity of this species. Attempting to attract them to an artificial light source, even at the site where the imagines were collected, did not provide the expected results. Exocentrus stierlini occurred sympatrically with other Lamiinae species, such as Saperda similis, Lamia textor and Rhopaloscelis unifasciatus. Mesosini Mulsant, 1839 Mesosa myops (Dalman, 1817) Material examined. East Kazakhstan Region: Putintsevo [Путинцево] env. (49°52'N, 84°21'E), 472 m a.s.l., 21–22 VI 2017, 1♂, 1♀, leg. WTS; 1♂, 2♀♀, (IV 2018 ex cult.) 1♂, from Salix sp., leg. LK; 1♀, leg. MW; Bykovo [Быково] env. (49°39'N, 84°33'E), 570 m a.s.l., 24 VI 2017, 1♂, 3 larvae, (24 VII 2017 ex larva) 1♂, from Populus sp., leg. MW. Remarks. This species is distributed from Eastern Europe through Siberia, including northern Kazakhstan, Mongolia and China, to the Far East and Sakhalin (Cherepanov 1990c, Danilevsky 2018a) . It was widely discussed in a previous paper concerning the longhorn beetles of Mongolia ( Karpiński et al. 2018 ). The imagines were collected on the bark or beaten down from the dead branches and boughs of a few deciduous tree species (mostly of middle-aged birches Betula). Two specimens were additionally reared from the collected wood material of a fallen poplar Populus trunk and a thin willow Salix trunk. Lamiini Latreille, 1825 Lamia textor (Linnaeus, 1758) Material examined. East Kazakhstan Region: Putintsevo [Путинцево] env. (49°52'N, 84°21'E), 472 m a.s.l., 22 VI 2017, 1♀, leg. MB, coll. MW. Remarks. Lamia textor is a typical Palaearctic species that is distributed from Spain to Japan, including the Caucasus, Iran and Turkey (Danilevskaya et al. 2009) . The larvae develop at the basal part of trunks and in the roots of various deciduous tree species, mainly of the poplars Populus and willows Salix. A single female was beaten down from a young willow trunk in the habitat of a mountain deciduous forest. Monochamus sartor urussovii (Fischer von Waldheim, 1805) Material examined. East Kazakhstan Region: Putintsevo [Путинцево] env. (49°52'N, 84°21'E), 472 m a.s.l., 21 VI 2017, 1♂, leg. WTS. Remarks. This taxon is widespread in Siberia and is distributed from Scandinavia and Eastern Europe (NE Poland) to the Far East and Japan (Plewa et al. 2018) . It was discussed in a previous paper concerning the longhorn beetles of Mongolia ( Karpiński et al. 2018 ). The taxonomic status of this species was uncertain. Wallin et al. (2013) considered M. urussovii to be a subspecies of Monochamus sartor (Fabricius, 1787). This status was recently confirmed also by Plewa et al. (2018) by using different sets of data, such as morphology, genetics and ecology. Saperdini Mulsant, 1839 Oberea kostini Danilevsky, 1988 Material examined. East Kazakhstan Region: Putintsevo [Путинцево] env. (49°52'N, 84°21'E), 472 m a.s.l., 22 VI 2017, 1 ex., obs. WTS; 10 km S of Bayash Utepov [Баяш Утепов] (49°35'N, 82°28'E), 508 m a.s.l., 25 VI 2017, 1♂, 3♀♀, leg. WTS; 1♀, leg. MW; 1♀, leg. MB, coll. LK. Remarks. This is a locally occurring species that is distributed from the eastern part of European Russia to West Siberia and eastern Kazakhstan. The species is ecologically associated with the genus Lonicera. The larvae probably develop in the wood of living twigs and thin stems (Danilevskaya et al. 2009) . According to Danilevsky (1988) and Yanovsky (2003), the adults are active in June and July. Numerous specimens were collected in these two localities (Putintsevo and Sibinka River valley) in June 2005 (Danilevskaya et al. 2009) . In our research, only several rather old and damaged specimens were collected with a predominance of females, which may indicate the end of the appearance of this species. On the other hand, the imagines were rather active, flying around the host plants and sitting on the leaves only from time to time. On the first plot, this species inhabits Lonicera shrubs that border a river and a forest stand dominated by Betula, Populus and Salix. In the Sibinka River valley, the population of O. kostini develops in the shrubs that are growing on river banks as well as on stony areas around the valley (Fig. 15A). Oberea ruficeps ruficeps Fischer von Waldheim, 1842 Fig. 5H, I Material examined. Kyzylorda Region: Tartogay env. [Тартогай] (44°25'N, 66°13'E), 135 m a.s.l., 7 VI 2017, 1♂, leg. WTS; Almaty Region: 25 km SW of Kalinino [Басши] (43°53'N, 78°34'E), 691 m a.s.l., 13 VI 2017, 1♀, leg. MB, coll. LK. Remarks. The nominotypical subspecies is distributed in Kyrgizstan, Kazakhstan, Uzbekistan, western Siberia and northwestern China. The second subspecies – O. ruficeps muchei Breuning, 1981 – is only known from Tajikistan (Danilevsky 2018a). The larvae probably develop in the stems and roots of plants of the genus Euphorbia. This is a rarely collected species in Kazakhstan, where it is usually observed in tugay habitats. Ishkov and Kadyrbekov (2004) recorded this taxon, inter alia, in the Karatal and Ili River valleys. In the environs of Tartogay, O. ruficeps was observed on a rather dry and salty bank of the Syr Darya River, which was mostly overgrown by Elaeagnus, Tamarix and Halimodendron (Fig. 10D). In the second locality, the species was found in a rather humid habitat near a small steam. The imagines were observed in flight in both cases; however, any Euphorbia species were not noticed on these plots. Phytoecia coerulescens (Scopoli, 1763) Material examined. Almaty Region: 7 km W of Kabanbay [Қабaнбaй] (45°48'N, 80°31'E), 720 m a.s.l., 9 V 2017, 1♂, leg. RP; East Kazakhstan Region: Putintsevo [Путинцево] env. (49°52'N, 84°21'E), 472 m a.s.l., 21 VI 2017, 1♂, leg. WTS. Phytoecia rufipes rufipes (Olivier, 1795) Material examined. Almaty Region: Kaskeleng [Каскелен] (43°12'N, 76°38'E), 825 m a.s.l., 13 V 2017, 1♀, leg. TJ, coll. RP. Remarks. This taxon is distributed from Southern Europe through North Africa, Asia Minor, the Caucasus and the Near East to Central Asia and South Siberia. The second subspecies – P. rufipes latior Pic, 1895 – is only known from some regions in Syria and Turkey (Danilevsky 2018a). Phytoecia rufipes is an oligophagous species whose larvae develop in the roots of various herbaceous plants, particularly in Foeniculum vulgare, Ferula galbanifera and other Apiaceae. The adults can be found on their host plants from May to July (Bense 1995) . Phytoecia nigricornis (Fabricius, 1782) Material examined. East Kazakhstan Region: Putintsevo [Путинцево] env. (49°52'N, 84°21'E), 472 m a.s.l., 23 VI 2017, 1♂, leg. MW. Menesia sulphurata (Gebler, 1825) Material examined. East Kazakhstan Region: Bykovo [Быково] env. (49°39'N, 84°33'E), 571 m a.s.l., 21 VI 2017, 1 ex., obs. WTS. Remarks. This species is distributed from the eastern part of European Russia to the Far East and the Korean peninsula (Danilevsky 2018a). The larvae develop in the small diameter shoots and twigs of various deciduous trees. Its life cycle lasts from one to two years. The imagines fly from June to August (Cherepanov 1991b) . A single specimen was observed on a leaf of a harvested poplar at the edge of mountain deciduous grove consisted mainly of Populus, Betula and Salix (Fig. 15C). Material examined. East Kazakhstan Region: Putintsevo [Путинцево] env. (49°52'N, 84°21'E), 472 m a.s.l., 21 VI 2017, 2♀♀, leg. WTS. Remarks. Saperda alberti is distributed from western Siberia to Japan, reaching the maximum of abundance in the Russian Far East (Danilevskaya et al. 2009) . It was discussed in a previous paper concerning the longhorn beetles of Mongolia ( Karpiński et al. 2018 ). This species was recently published as a new for the Kazakh fauna by Danilevskaya et al. (2009) based on numerous specimens collected on Populus bark in the Putintsevo environs. Two females were collected on the bark of a fresh poplar windfall on a river bank (Fig. 15E). Saperda perforata (Pallas, 1773) Fig. 4J Material examined. East Kazakhstan Region: Putintsevo [Путинцево] env. (49°52'N, 84°21'E), 472 m a.s.l., 20–21 VI 2017, 2♀♀, leg. WTS; 1♂, 1♀, leg. LK; Bykovo [Быково] env. (49°39'N, 84°33'E), 571 m a.s.l., 21 VI 2017, 4♂♂, 4♀♀, leg. WTS; 2♂♂, 4♀♀, leg. LK; 4♂♂, 5♀♀, leg. MW; 1♀, leg. MB. Remarks. This is a widespread species that is distributed from western Europe to the Far East, including North Africa and the Near East (Danilevsky 2018a). The larvae develop under the bark of deciduous trees, but they usually choose the poplar Populus and the willow Salix (Danilevskaya et al. 2009) . Numerous specimens were collected on the bark of harvested poplars, while some of them were attracted to artificial light sources (Fig. 15H). Saperda scalaris (Linnaeus, 1758) Fig. 4K Material examined. East Kazakhstan Region: Bykovo [Быково] env. (49°39'N, 84°33'E), 571 m a.s.l., 21 VI 2017, 1♀, leg. WTS. Remarks. This species is widespread in the Palaearctic region and is distributed from Western Europe to the Far East, while S. s. hieroglyphica (Pallas, 1773) ranges from European Russia through Kazakhstan, Mongolia and China to the Far East (Danilevsky 2018a). In contrast to the nominotypical subspecies whose pubescence is intensively yellowish, this taxon is characterised by a constant bluish colour of its pale pubescence (Danilevsky 2018c). However, distinguishing a subspecies based only on a colour difference is rather doubtful, and therefore, it is considered by some authors (e.g. Sama 2002) to be a synonym of a nominotypical subspecies. According to Bussler (2013) , both forms can be found in the Southern Carpathians. In this case, the colour variation may be caused by its association with a different host plant. In Siberia, this polyphagous species is mainly associated with the birch Betula platyphylla (Cherepanov 1991b) , thus a rather whitish colouration may facilitate its camouflage on birch bark. Such a hypothesis seems to be confirmed by Hoskovec et al. (2016) in the case of S. perforata. The authors explained this phenomenon as a prototypical mimicry and claimed that the colour of imagines is determined by the host plant, and thus adults whose larvae developed in the Eurasian aspen Populus tremula usually have a yellow-green or yellow-grey colour integument, whereas the beetles that developed in the white poplar Populus alba are usually grey. In Kazakhstan, we also observed similar white pubescence forms in the case of other related, though not associated with birches, species – S. alberti, S. perforata and S. similis (Fig. 4I, J, L). Therefore, a new synonymy is proposed: Cerambyx scalaris Linnaeus, 1758 = Cerambyx hieroglyphicus Pallas, 1773, syn. n. A single female was found on the bark of a harvested birch log at the edge of mountain deciduous grove consisted mainly of Populus, Betula and Salix (Fig. 15C). Saperda similis Laicharting, 1784 Fig. 4L Material examined. East Kazakhstan Region: Putintsevo [Путинцево] env. (49°52'N, 84°21'E), 472 m a.s.l., 22 VI 2017, 1♀, leg. MB, coll. MW. Remarks. This is a rather rare but widespread species that is distributed from eastern Europe to the Far East (Danilevsky 2018a). It was discussed in a previous paper concerning the longhorn beetles of Mongolia ( Karpiński et al. 2018 ). A single female was beaten down from a dead willow in a mountain deciduous forest dominated by Populus and Salix. The collected specimen represents the white pubescence form (var. albopubescens Pic, 1925), which is characteristic for central-east Asia but rather rare in Europe (e.g. the Czech Republic, France). Very similar specimens are deposited in Abdysalom Kadyrov’s collection (Dushanbe) that represents cerambycid material from Tajikistan. Discussion The flora of Kazakhstan amounts to more than 13 000 species, including approx. 5750 representatives of gymnosperms. As many as 14% of the total plant species are endemics in various degrees, many of them are additionally relicts. Moreover, Kazakhstan, due to its unique combination of natural complexes of steppes, deserts and mountain ranges, which are connected with major inland water and river systems, provides a wide variety of habitats and relevant types of flora that are connected with the arid regions of Central Asia. Apart from two centres of the endemism of the flora (the Karatau Mountains and the Western Tien Shan), there are many unique natural ecosystems, such as desert communities in Betpak-Dala, xylium, shrub and steppe communities of the Southern Altai, spruce and apple forests in the foothills and mountains of Dzungarian Alatau and Tien Shan and floodplain (riparian) forests in the Syr Darya and Ili River valleys (MEWR 2014) . This huge variety of habitats as well as the presence of many endemic plant species creates a unique diversity of invertebrates, also among the representatives of Coleoptera. According to the records of the State Forest Fund of the Republic of Kazakhstan, afforested areas cover only 4.61% of the total territory, and they consist of more than 20 tree and 40 shrub species. The forests in Kazakhstan can be divided into several types including pine forests in the Kazakh uplands, mountain forests in the Altai, Saura, Dzungarian Alatau and the Tien Shan Mountains, saxaul forests and riparian intrazonal forests (MEWR 2014) . Special attention should be paid to the unique forest enclave on the western slopes of the Altai Mountains in the northeastern part of the country. According to Danilevskaya et al. (2009) , northeastern Kazakhstan is generally a very interesting area from a zoogeographical point of view. In this place, the easternmost localities of European species are situated next to the westernmost sites of East Asian taxa, which creates the high-level biodiversity of the region. That was also confirmed in the case of representatives of the family Cerambycidae. A total of 78 species belonging to the subfamilies of Prioninae, Lepturinae, Cerambycinae and Lamiinae was recorded as a result of the field research conducted during our two expeditions. They represent approx. 30% of the cerambycid fauna that is known from the entire country’s area. Three species – Psilotarsus brachypterus (Gebler, 1830), Dorcadion arietinum Jakovlev, 1898 and D. gebleri Kraatz, 1873 – were represented by two different subspecies. Among 81 taxa that were collected, as many as 19 (approx. 23%), mainly in the genera of Anoplistes and Dorcadion, are endemic to Kazakhstan. The next 14 (approx. 18%) are endemic in regard to either the neighbouring region of Xinjiang (e.g. Dorcadion morozovi Danilevsky, 1992, D. sokolowi Jakovlev, 1899) , to the region of Central Asia – e.g. Turanium scabrum (Kraatz, 1882), Oberea ruficeps ruficeps Fischer von Waldheim, 1842 – or to western Mongolia and West Siberia, e.g. Stenocorus minutus (Gebler, 1841). Some little-known species, such as Anoplistes forticornis Reitter, 1901, A. diabolicus Reitter, 1915 and Turkaromia pruinosa (Reitter, 1903), were not found despite conducting many hours of targeted investigation during a rather optimal period in suitable habitats or even on the exact plots that had been recorded by other authors. Although it may be related to phenological changes in different years, it also may indicate the declining of the particular populations of these species. According to Kadyrbekov et al. (1996) , some cerambycids, such as Hesperophanes heydeni Baeckmann, 1923 and Dorcadion balchashense (Suvorov, 1911), have reduced their ranges in last 30–40 years, while other, e.g. Anoplistes galusoi Kostin, 1974, T. pruinosa and Dorcadion grande Jakovlev, 1906, survived in small areas due to anthropogenic transformation of their habitats. The part of our research that was focused mainly on the saproxylic representatives of the family Cerambycidae was carried out in the area of Putintsevo from 19 to 23 June and resulted in finding 40 species. Another scientific expedition, which was also devoted to longhorn beetles, was conducted in this region in 2005 by M. Danilevsky’s research team (Danilevskaya et al. 2009) . The authors recorded 59 species from 8 to 30 June. Since both surveys took place in the similar period the results can be compared to some extent. As many as 33 species, which constitute approx. 83% of taxa collected by us, were common in both studies. Most of the common species (in genera such as Asemum, Euracmaeops, Gnathacmaeops, Pachyta, Molorchus and Pogonocherus) that were not collected are ecologically associated with conifers and their lack in our research was caused by insufficient investigation of the areas with main share of Abies, Picea, Larix and Pinus. However, the lack or a very small number of individuals of some species that live on deciduous trees (e.g. Amarysius duplicatus Tsherepanov, 1980 on Spiraea and Oberea kostini Danilevsky, 1988 on Lonicera) is clearly connected to phenological changes. Some other species, inter alia, Amarysius sanguinipennis Blessing, 1872, Xylotrechus ibex (Gebler, 1825) and Necydalis major Linnaeus, 1758, are in turn very rare or lead the cryptic mode of life. On the other hand, a few interesting species, such as Exocentrus stierlini (Ganglbaur, 1883) and Saperda similis Laicharting, 1784, were not found in 2005. A similar comparision can be made for the locality in the Sibinka River valley. In 2005, the research team of M. Danilevsky found there 22 species including Xylotrechus adspersus (Gebler, 1830) and Politodorcadion eurygyne eurygyne (Suvorov, 1911), while only 8 taxa were collected by our group. However, an interesting and infrequent species – Stenocorus minutus – was found there only in 2017. The greatest contributions to the knowledge of longhorn beetles from the area of Kazakhstan – particularly to the regions of the South and East – have been made by Kostin (1968 a,b, 1973, 1974, 1978) and Kadyrbekov (1999, 2004), as well as in collaborations with other authors: Kadyrbekov, Childebaev and Yashchenko (1996), Kadyrbekov and Tleppaeva (1997, 2004a,b, 2016), Kadyrbekov, Ishkov and Tleppaeva (1998 ), Kadyrbekov, Tleppaeva and Childebaev (2003), Ishkov and Kadyrbekov (2004) , Kadyrbekov and Childebaev (2007) , Kadyrbekov, Tleppaeva and Mansurova (2010 ). However, the outstanding input concerning Cerambycidae of Central and Northern Asia, which comprises the region discussed here, has also been made by Plavilstshikov (1936 , 1940, 1958), Cherepanov (1990a,b,c, 1991a,b), Danilevsky (e.g. 1996a,b,c, 1999, 2000, 2001a,b,c, 2002, 2004, 2007a,b,c, 2009, 2012, 2014a, 2017, 2018d) , Lazarev (2011, 2013a,b, 2014) and Shapovalov (2014). Moreover, an interesting expedition to northeastern Kazakhstan was also conducted by M. Danilevsky’s research team in mid-June of 2005 (Danilevskaya et al. 2009) . It was R. Kadyrbekov and related scientists who recorded and observed numerous rare and endemic taxa in the territory of South and East Kazakhstan. Among many others, Microarthron komaroffi Dohrn, 1885, Dokhtouroffia nebulosa Gebler, 1845, Tetropium staudingeri Pic, 1901, Apatophysis serricornis Gebler, 1843, A. baeckmanniana Semenov, 1907, Phymatodes hauseri Pic, 1907, Hesperophanes heydeni, Molorchus pallidipennis Heyden, 1887, Xylotrechus zaisanicus Plavilstshikov, 1940 , Anoplistes diabolicus, A. galusoi and Dorcadion profanifuga Plavilstshikov, 1951 are particularly interesting. Despite all of the aforementioned studies, the cerambycid fauna of Kazakhstan is still not sufficiently recognised. This is evidenced by the many new taxa that have been described from the southern and eastern parts of the country in the last several years. The new endemic genus Murzinia Lazarev, 2011 , which is additionally represented by a rather large species – M. karatauensis Lazarev, 2011 – deserves special attention. Among the recently published species from the region are Cortodera kokpektensis Danilevsky, 2007, Xylotrechus alakolensis Karpiński & Szczepański, 2018 , X. katerinae Shapovalov, 2014, Agapanthia danilevskyi Lazarev, 2013 and A. parauliensis Danilevsky, 2017. Furthermore, many new subspecies, i.e. Psilotarsus heydeni alatauensis Danilevsky, 2014, Brachyta variabilis shapovalovi Lazarev, 2014, Stenocorus validicornis mediocris Danilevsky, 2012, Xylotrechus arnoldii tenebrosus Shapovalov, 2014, Dorcadion pantherinum ludmilae Abramov, 2018, Agapanthia alternans paralternans Danilevsky, 2017 and Tetrops elaeagni shapovalovi Danilevsky, 2018, were discovered in this region only in the last few years. Additionally, some taxa that were already known may still be found here as new to the country. One example is Exocentrus stierlini recorded here for the first time from the area of Putintsevo. Five other cerambycid species, recently found in the same area, are new for Kazakhstan: Euracmaeops smaragdulus Fabricius, 1793, Amarysius sanguinipennis, A. duplicatus, Rhopaloscelis unifasciatus Blessig, 1873 and Saperda alberti Plavilstshikov, 1916. Although A. duplicatus was collected earlier by I. Kostin near Ust-Kamenogorsk in 1960, it was identified as A. altajensis Blessing, 1872, and the another finding in the same locality by A. Napolov in 1994 has not been published (Danilevskaya et al. 2009) . In addition to the taxonomic studies, the biology and ecology of the longhorn beetles that are distributed in this region should also be thoroughly investigated. More and more of the vulnerable Kazakh endemics are particularly interesting. The bionomy of many local species, for example in the genera of Psilotarsus, Apatophysis, Anoplistes and Xylotrechus (Kostiniclytus), requires further research. Herein we report on Halimodendron halodendron as a host plant of Anoplistes jacobsoni Baeckmann, 1904, at the same time questioning its association with Tamarix and Elaeagnus, or on Caragana spp. as probably the sole plant genus of hosts for A. halodendri halodendri (Pallas, 1773). Moreover, since the territory of this country is located between Eastern Europe and China, it may constitute a transit zone for the establishment of some quarantine pests from southern Asia. Therefore, it is extremely important to constantly examine and monitor, but also to preserve, these shrinking habitats. The main threat to the unique habitats of Kazakhstan is the agricultural economy because approx. 81% of the total area of the country’s land is suitable for agriculture. Crucial changes in many ecosystems in Kazakhstan that are harmful to biodiversity occurred more than 50 years ago as a result of the extensive plowing of the steppe and forest-steppe zones. Together with the growth of livestock, a strong increase in overgrazing occurred in the region. As a result, there was a significant loss of biodiversity in the steppe areas. There are also several threats to the biodiversity of the desert habitats. Among them, the most important comprise the haphazard road network, the regulation of rivers and the illegal logging of saksaul. As a result of the urbanisation and intensive agricultural development in the foothills in the south and east of the country, the natural vegetation is still severely damaged. In the river valleys in the desert zone (e.g. the Syr Darya, Shu, Talas), due to the limitations of river flow, highly productive floodplain communities are almost completely degraded. Furthermore, the increasing pace of the construction of infrastructures such as roads, pipelines and power lines, creates a great negative impact on the fauna, even if only due to the fragmentation of habitats. In the last five years, the fields of oil and gas production and uranium mines have drastically been extended. The area occupied by mining enterprises is also expanding steadily. However, although many ecosystems, especially in the grasslands and abandoned pastures, began to be restored after the collapse of the USSR and the economic collapse in the 1990s and they have recently continued their natural recovery, previously abandoned areas are now being restored for the economic use. Unfortunately, the use of the current resource model of economic development leads not only to inefficient economic development but also to increasing pressure on ecosystems (MEWR 2014) . Acknowledgements We would like to express our special thanks to Dr. Mikhail Danilevsky (Russian Academy of Sciences) for his help with identifying some specimens of the genus Agapanthia and Dorcadion as well as to Dr. Maxim Lazarev (State Budget Professional Educational Institution of the Moscow Region) in the case of some of the Dorcadion species. We are also grateful to Dr. Rustem Kadyrbekov (Ministry of Education and Science of the Republic of Kazakhstan) for sharing his publications concerning longhorn beetles as well as to the reviewers and the ZooKeys publishing team for valuable comments and constructive suggestions. Danilevsky ML (1999) Review of Dorcadion (s. str.) species from the upper Chu-Valley and allied territories (Coleoptera, Cerambycidae). Coléoptères 5(3): 15–41. Danilevsky ML (2000) Review of genus Psilotarsus Motschulsky, 1860 (Coleoptera, Cerambycidae, Prioninae). Les cahiers Magellanes 3: 1–34. 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Lech Karpiński, Wojciech T. Szczepański, Radosław Plewa, Marcin Walczak, Jacek Hilszczański, Lech Kruszelnicki, Krzysztof Łoś, Tomasz Jaworski, Marek Bidas, Grzegorz Tarwacki. New data on the distribution, biology and ecology of the longhorn beetles from the area of South and East Kazakhstan (Coleoptera, Cerambycidae), ZooKeys, 2018, 59-126, DOI: doi:10.3897/zookeys.805.29660